Viable Bone Matrix Treatments And A Viable Graft Delivery System
06 Jan 2021
As an estimated 6.8 million Americans use devices to assist with mobility, the need for long-term solutions is crucial. Indeed, mobility devices offer help, but they are not a permanent solution to the dominant issue of mobility. Thanks to breakthroughs in technology, viable bone matrix procedures can offer a solution that lasts. Let’s examine viable bone matrix and the bone graft delivery systems.
Examining Viable Bone Matrix Treatment
Viable bone matrix treatment integrates bone grafting as a method of increasing regeneration. With bone repair, the viable bone matrix encompasses a vast number of cells that are of human origin. They include MSCs or mesenchymal stem cells. These stem cells are essential for bone remodeling and repair. Once you have viable bone graft manufacturers in place for viable bone matrix procedures, you can effectively execute quality treatments.
Bone graft surgery is the transplanting of bone tissue. With bone graft surgery, viable bone matrix procedures are possible. During the surgery, the orthopedic surgeon will generally remove a piece of the allograft, and place it where bone healing needs to occur. The healing from viable bone matrix procedures has been a solid solution for various therapeutic solutions. Many patients see improvement in mobility and enjoy a better quality of life.
Breakthroughs in Bone Grafting Technology That Are Helping
With breakthroughs in bone grafting technology, there are more effective and efficient therapeutic methods. Bone cancer, osteonecrosis, and other bone diseases may affirm the need for bone grafts. These bone grafts may be necessary once the diseased or damaged portion of the bone is removed. Having a quality grafting delivery system in place will help to make the bone grafting successful.
Over six million individuals live with limited mobility. Bone graft surgeries can create a better quality of life. Joints and bones that are aging or even traumatized joints and bones may be able to be replaced. Once this happens, an individual may see a return to full mobility.
Allogenic bone grafting requires no additional surgeries to obtain the bone. Furthermore, with a viable bone matrix utilizing MSCs or mesenchymal stem cells, rejection chances are lowered.
The Importance Of Bone Graft Companies
p> For the state-of-the-art instruments you need, you want a bone graft delivery company that offers such. As new breakthroughs and advancements in orthopedics continue to evolve, you need safe, affordable, and unique bone graft surgery supplies and solutions. Choose bone graft manufacturers that understand the scope of viable bone matrix treatments, as you work to help create a better life for your patients.
Tips For Working With A Graft Delivery Manufacturer
06 Jan 2021
Tremendous strides and breakthroughs continue within the spine and orthopedic industry. So, for your bone graft delivery needs, you need a company that offers the best when it comes to devices for bone graft and more. How do you maintain a successful relationship with bone graft manufacturers? We have suggestions that may help.
The U.S. medical device industry has more than 356,000 people employed at approximately 5,800 companies. Given such, the need for bone grafting manufacturing expertise is crucial. The development of regulatory compliance continues to be all-encompassing. Thorough and complete patent research must be conducted. Bone graft companies must organize data for FDA inspections and execute quality control protocols. The devices for bone graft must meet FDA regulations as they pertain to bone grafting technology. You should be able to contact this company for details regarding their expertise in bone graft manufacturing.
Identifying And Sharing Your Needs
As you begin your search for a company that produces devices for bone graft, you want to identify your business needs. Are you in need of initial production units fast? Is the need of minimizing the cost of bone grafting supplies critical to your business model? Once you recognize the unique demands of the devices for bone graft that are needed, you can effectively communicate your needs with a prospective graft delivery device company.
Communication and Responsiveness
The ability to speak to a live human when you need to is vital. Additionally, that individual being the correct person to answer your questions about devices for bone graft- is quite invaluable. The responsiveness of a bone grafting technology company is indicative of the company’s daily operations. Both their knowledge of devices for bone graft and their methods of communication with you will help to formulate a strong partnership.
The graft delivery device company you select must have production techniques that are tailored and relevant to your needs. Your graft delivery company should have both the infrastructure and knowledge to adapt to your ever-changing needs for devices for bone graft surgeries. The need for a bone graft delivery company that is also trustworthy is fundamental for your success. The bone grafting delivery service you choose should be specialized in the development of innovative and ground-breaking devices for bone graft procedures.
The devices for bone graft you choose and purchase should be quality products. You want to select a bone graft delivery company that will work with you, ensuring your success. Be sure that the bone grafting contract partner you choose has to capability to grow with you.
Making Use of The Right Bone Graft Delivery System for Your Healthcare Facility
08 Dec 2020
When you work in a healthcare facility of any size, it’s important to make sure that you’re working with the right allograftbone graft companies. A procedure such as a bone graft delivery is one that can make all the difference in the health and wellness of patients of all different kinds. Furthermore, working with the right allograftbone graft companies will ensure that your staff has the equipment that they need to do their job to the fullest extent. However, many people who work in healthcare simply unaware of what they may need to do to make use of the right bone graft delivery system. That’s why we’ve come up with this simple list to explain how you can make use of the right bone graft delivery system for your healthcare facility.
Work With Allograftbone Graft Companies That You Can Trust
Bone grafts are quite an important procedure in most healthcare facilities. The four most common reasons people receive bone grafts are multiple fractures that don’t heal properly, fusion to help two bones heal across a damaged joint, bone regeneration following disease or injury, and for healing bones following the implantation of medical devices such as joint replacements. With so many different reasons at the core of this procedure, it’s critical that your team knows you are working with allograftbone graft companies that have a strong, positive reputation in the industry as a whole.
Invest in Reliable Equipment for Your Staff Members To Use
The right equipment makes all the difference in the world of bone grafts. When your staff does not have the proper tools for the job, this may reflect poorly on their skills as a whole. Making sure that you have the right tools for the job in place, on the other hand, gives them the chance to do what they need to do when they’re working on a patient who needs a bone graft done.
At SurGenTec, our team is here to offer you and the rest of your operation a wide range of different bone graft delivery systems to meet every one of your needs, no matter how large or small they may be. As one of the leading allograftbone graft companies, we’re happy to offer you a variety of products. We’re happy to explain our products in detail and address any of the various questions that may pop up for you when you’re in need of devices for bone graft delivery. Get in touch with a member of our team today for more information.
How Bone Graft Delivery Systems Benefit Surgeons and Patients
07 Dec 2020
There’s no doubt that the bone graft delivery system has revolutionized bone graft surgery. Unlike the traditional graft delivery systems that utilized several graft delivery devices — bone funnel, syringe, and the cannula — today’s Graft Delivery System (GDS®) utilizes a single Graftgun® to deliver graft material to a surgical site. Overall, using the Graftgun® is beneficial to the patient receiving the bone graft and the surgeon performing the bone graft surgery.
Here’s how bone graft delivery systems benefit a patient undergoing bone graft surgery.
Less Pain During Bone Grafting
Patients receive bone grafts mainly because of the following four reasons.
- Multiple fractures that didn’t respond well to treatment and haven’t healed properly.
- Joint fusion surgery and spinal fusion to help two bones on a damaged joint heal well.
- Used for bone regeneration after bone fractures and to treat bone defects such as osteonecrosis, benign tumors, birth abnormalities, infections, trauma, and bone injuries.
- For healing bones after the implantation of medical devices such as joint replacements.
All these procedures require a surgeon to make deep incisions to reach the damaged bones. Using traditional graft delivery devices, a surgeon may have to make deeper and larger incisions to execute bone grafting safely. If the bone grafting procedure utilizes allograft as the bone graft material, the doctor may have to make multiple incisions on a patient. Using the modern graft delivery devices such as the Graftgun®, surgeons only make a shallow incision because the Graftgun® has an elongated and flexible tube that can dispense bone graft in hard to reach inter-body cages. This makes the overall bone graft surgery minimally invasive and less painful to the patient.
Faster Healing Times
Because the Graftgun® makes the graft delivery process more accurate and efficient, the risks associated with bone graft surgery are contained or eliminated. These include inflammation, nerve injury, bone graft rejection, and reabsorption of bone graft. When these complications happen during bone grafting, the healing time is longer and more painful. Additionally, because the Graftgun® facilitates a minimally invasive surgical process, the surgical wounds will take less time to heal.
Here’s how surgeons benefit from a modern bone graft delivery system.
Bone Graft Delivery Devices Offers Surgeons Ease of Operation
Take, for instance, the Graftgun® that allows for single-handed use. Using the Graftgun®, a surgeon can simultaneously use other surgical instruments, making the surgical process more stable and balanced. Additionally, the Graftgun® has a tactile feel that allows surgeons to determine when sufficient bone graft amounts have been dispensed to the void spaces. The well-calibrated flexible tube of the Graftgun® delivers about .25cc of orthobiologic per every squeeze. This allows the surgeon to determine the exact amount of bone graft delivered to the damaged bones. Bone grafting calls for high accuracy, especially when dispensing bone graft. If you deliver insufficient amounts of bone graft, there may be endplate failure and nonunion. These conditions will cause excessive pain to a bone graft patient.
Bone Grafting Technology Reduces Sterilization Costs
The modern bone graft delivery systems come packed in air-tight packages that keep them germs-free. Additionally, because the graft delivery device is designed for single-use, the surgeons can easily dispose it of after the surgery. You don’t need to sterilize the Graftgun® before or after the bone grafting surgery. Not only will this reduce your sterilization costs, but it will also save you a lot of productive time.
Undoubtedly, bone graft delivery systems have improved bone graft surgery by making it more effective, accurate, faster, and minimally invasive. Using modern bone graft delivery devices, surgeons can successfully execute complex bone grafting procedures, such as spinal fusion, with more ease and accuracy. It’s the reason more surgeons are abandoning the traditional bone graft delivery devices in favor of the Graftgun®. The modern Graft Delivery Systems (GDS®) benefit both the patients and the surgeons. Patients experience less pain during the surgery, while surgeons perform bone grafting with much more ease and accuracy.
How Bone Graft Delivery Systems Mitigate the Risks of Bone Graft Surgery
12 Nov 2020
As a surgeon, you derive joy and satisfaction when you complete a surgical process with no complications, and your patient is glad to have had the surgery. Bone graft surgery is the most common bone repair method for complex fractures, bone fusion, and regeneration of lost or damaged bones. When you perform bone graft surgery perfectly, your patient’s bone fractures will heal in two to 10 weeks. To help you carry out the bone graft surgery successfully, you should consider using a bone graft delivery device, such as the Graftgun®.
How will a bone graft delivery system improve your bone graft surgery and help you avert common risks associated with the procedure? Here’s how.
1. Graft Delivery Devices Helps You Deliver Exact Amounts of Bone Graft
When you’re filling a bone void with either autograft tissue, allograft tissue, or synthetic tissue, you need to dispense the right amount. Insufficient bone graft quantities would lead to nonunion or endplate failure, and your patient will be under excessive pain. Dispensing excess amounts of bone graft may also lead to complications, especially during bone fusion. Graft delivery devices like the Graftgun® help you control the amount of bone graft you dispense to your patient because it’s well marked and calibrated. Additionally, the Graftgun® has a long and flexible 7.5 cc tube that allows you to dispense bone graft in hard to reach inter-body cages.
When you use bone graft delivery systems during bone graft surgery, you can accurately dispense the right amounts of bone graft material. As a result, your patient will not have inflammation, nonunion, or endplate failure, which are common risks during bone graft surgery.
2. Devices for Graft Delivery Facilitate Minimally Invasive Bone Graft Surgery
If you can perform bone graft surgery with minimum incisions, your patient will experience less pain during recovery. Using the traditional bone grafting technology that utilized syringes, funnels, and cannulas would require you to make more incisions. A more invasive surgical procedure increases the chances of nerve injury and makes the surgery more painful to the patient. On the other hand, minimally invasive surgery causes less pain to your patient and also reduces the chances of nerve damage. Using a Graftgun® gives you more stability and balance during the operation because you can operate the Graftgun® using one hand. Depending on the type of surgery, you may only have to make one incision to allow the graft gun tube to access the surgical site and dispense the bone graft.
Overall, a bone graft delivery device will make the bone graft surgery more effective because you’ll make fewer incisions on your patient. Because of that, your patient will recover quickly with less pain. Additionally, there will be fewer risks of bleeding and infection. This makes graft delivery systems GDS® extremely useful in bone graft surgery, given the many risks it eliminates.
3. Bone Graft Delivery Devices Allows You to Use Any Bone Graft Material
Using the Graftgun®, you can dispense any type of bone graft you deem fit for your patient. Whether you’re using allograft or autograft tissue, the Graftgun® will allow you to deliver precise amounts of graft tissue to the surgical site. When you use the appropriate bone graft material, you reduce bone graft rejection and reabsorption risk. The modern graft delivery systems GDS® don’t limit you to using one type of bone graft material. So, if a patient has multiple bone fractures and you need to use different bone graft material during surgery, the Graftgun® will come in handy.
Pain, inflammation, nerve injury, rejection, and reabsorption of bone graft are some of the risks associated with bone graft surgery. Using modern bone graft delivery devices such as the Graftgun® alleviates these risks and makes the surgery more effective and successful. Additionally, your patient will have a fast and less painful recovery because graft delivery devices facilitate minimally invasive bone graft surgery. Graft delivery devices also increase the ease of operation by increasing your stability and balance while performing the surgery.
What Makes Graft Delivery Devices So Effective in Bone Repair?
10 Nov 2020
When it comes to bone repair, most surgeons prefer minimally invasive bone grafting where they don’t have to make many surgical incisions on their patients. This makes bone grafting a more effective bone repair method and gives surgeons more confidence when delivering bone graft in interbody cages. And this is made possible using a graft delivery device like the Graftgun®.
So, what makes these modern graft delivery devices effective in bone repair? Let’s find out.
Devices for Graft Delivery Helps Surgeons Deliver the Exact Amount of Orthobiologic
Most of the bone repair that a patient would need bone grafting falls under these four clinical situations.
- To repair new bone fractures and those that didn’t heal or respond well to initial treatment.
- To stimulate healing of bones in a diseased joint. This is commonly referred to as fusion or arthrodesis.
- To regenerate missing or lost bones. It may be due to trauma, infections, or bone diseases.
- To boost bone healing and tissue regeneration around surgically implanted devices like the plates and screws used in bone alignment and artificial joint replacements — knee and hip replacements.
Surgeons use bone graft materials such as allograft tissue, autograft tissue, and xenograft tissue to repair the damaged bones. You will need to deliver the exact amount of bone graft to the disc spaces where the bone is fractured. This is where the utmost accuracy is required. To facilitate precise bone graft delivery, you will need a graft delivery device that you can comfortably use. The conventional methods of graft delivery utilize syringe, bone funnel, and cannula. Today, bone grafting technology advancements have introduced modern Graft Delivery Systems GDS®, such as the Graftgun®. These devices for graft delivery enable the surgeons to dispense different bone graft material to fill bone voids during bone graft surgery.
A Good Graft Delivery Device Facilitates Quick Bone Healing
When you use a Graftgun® when performing bone graft surgery, you’ll have a tactile feel as the graft fills the bone voids. This will help you to determine when you have dispensed enough bone graft to a surgical site. If you do not deliver sufficient bone graft to an interbody cage, endplate failure is likely to happen. The resulting nonunion will be more painful to your patient, and the damaged bones will not heal properly. On the other hand, an effective graft delivery device will ensure that you fill the bone voids with the right amount of bone graft. For instance, the Graftgun® delivers about .25cc of orthobiologic for every squeeze. Additionally, it is well-calibrated to make it easy for surgeons to know the amount of bone graft they dispense.
Graft Delivery Devices Enables Surgeons to Post-Fill Interbody Cages in Hard to Reach Surgical Sites
For instance, the Graftgun® has a flexible tube that can easily reach bone voids that are normally hard to reach. Not only do you get easy access to the interbody cages, but you are also able to control the amount of bone graft that you dispense. More so, you can operate the Graftgun® using one hand, and this eases your operation by boosting stability and balance. Because Graft Delivery Systems GDS® enables minimally invasive surgery, the bone grafting process will be less painful to your patient. Fewer surgical incisions mean that your patient will take less time to heal besides experiencing minimum pain during the recovery process.
Today, North America has about 38,600 surgeons, going by the U.S. Bureau of Labor Statistics data. A good number of these surgeons utilize a modern graft delivery device, such as the Graftgun®, when performing bone graft surgery. Bone graft companies are working to improve bone grafting technology by coming up with new inventions that facilitate graft delivery. As a result, surgeons can perform bone graft surgeries more accurately using less invasive methods. This leads to less painful surgeries and quick healing times for your patients. You can trust the top bone graft manufacturers to supply you with quality bone graft delivery devices.
4 Ways Graft Delivery Devices Have Enhanced Bone Repair
14 Oct 2020
Bone graft surgery is one of the most effective methods of bone repair. Surgeons use bone grafting to repair bones with multiple or complex fractures as well as for those that do not respond well to the initial treatment. They also utilize bone grafting for spinal fusions, regeneration of bones lost to injury, bone diseases, and infections. Bone grafting technology and bone graft delivery devices like the Graftgun® have improved bone repair in several ways. Here’s how graft delivery devices have enhanced bone repair.
1. Precise Delivery of Bone Graft to a Surgical Site
The success of bone graft surgery is dependent on the precision of graft delivery. If you dispense excess bone graft or insufficient bone graft, the bone repair will not be successful. Complex procedures like spinal fusions call for high accuracy levels, as a simple mistake may cause your patient more pain because of nonunion. Usually, bone repair utilizes three types of bone graft– allograft, autograft, and synthetic.
An allograft is derived from the bones of a cadaver or a deceased donor, while an autograft is extracted from the bones of a patient’s body such as the wrist, hips, pelvis, and ribs. Synthetic allografts are artificially produced. Regardless of the type of bone graft used in bone repair, it helps to have modern graft delivery systems that enhance graft delivery accuracy.
2. Dispense Bone Graft in Hard to Reach Interbody Cages
The modern devices for graft delivery like the Graftgun® are more versatile than the old graft delivery devices such as the bone funnel, the cannula, and syringe. For instance, the Graftgun® has a flexible and well-marked tube that can easily deliver bone graft in hard to reach areas. The Graftgun® also utilizes a controlled release trigger that allows you to deliver 0.255cc of graft per every squeeze. The trigger also releases enough pressure to fill any bone void, even in expandable cages that are hard to fill. Additionally, if your patient has surgically implanted devices such as screws, plates, and joint replacements, you can deliver bone graft around the implants to reinforce the bone repair.
3. Perform Bone Graft Surgery With More Ease
The Graftgun® is designed for single-hand use, thus a surgeon has more utility with the other hand. This makes the bone graft surgery more effective because it boosts the surgeon’s stability and balance. Therefore, you can use other instruments that contribute to the success of the surgery.
Additionally, the Graftgun® gives you a tactile feel during graft delivery. This helps you establish when you have delivered enough bone graft in the bone voids. When the correct amount of bone graft is used in bone repair, the patient will experience a more painless healing process. Even more, the fractured bones may heal much faster.
4. Modern Graft Delivery Systems Increase Productivity
A graft delivery device will enable you to perform bone graft surgeries much faster and more accurately. As such, you can see more patients who need bone repair, hence increasing your productivity. More importantly, bone graft delivery devices allow for minimally invasive operation, making bone graft surgery less painful for your patients. For instance, when performing a bone repair using an allograft, you may only have to make one incision to accommodate the bone graft delivery device. Your patient will experience less pain during the surgery and the recovery and healing process will be less painful.
Given the numerous advantages of the modern devices for bone graft delivery like the Graftgun®, it is no surprise that the United States medical industry has fully embraced these devices. With a market value of $140 billion, the United States is the world’s largest medical device market. Bone repair is now more effective, accurate, and less painful thanks to modern devices for graft delivery. The Graftgun® has especially impressed bone graft surgeons in America and across the world, who find this bone graft delivery device extremely helpful in bone graft surgery.
3 Tips for Selecting an Effective Graft Delivery System
13 Oct 2020
Bone grafting is a surgical procedure that uses transplanted bone to replace missing bones and to help heal any problems caused by broken or diseased bones. Bone grafting surgery can also be performed to help bone form around a medical device such as a joint replacement. There are a variety of reasons as to why medical practitioners would perform bone graft procedures such as multiple fractures that did not heal correctly, bone regeneration caused by disease or an injury, healing bones after the implantation of medical devices, and fusion to help two bones heal across a damaged joint.
How is Bone Grafting Performed?
Bone graft surgery consists of the surgeon placing a new piece of bone or bone graft material into the area where the bone injury occurred. The new bone and bone tissue can be from a different area of the patient’s body, referred to as autograft material. This is beneficial because the bone maintains the patient’s regeneration and rebuilding properties. Bone graft material and new bone can be from a donor which is most likely a cadaver. This is known as allograft material, and medical practitioners do not have to worry about matching blood type since the bone does not have living cells. The bone graft material may also be a synthetic material made up of naturally occurring proteins.
The new bone can be molded to fit where the broken or diseased bone was, and bone graft material is used to help the cells from the bone matrix of the new bone piece adhere to the old bone. Bone graft material can be used to fill disks and gaps without placing in a new bone. There are common devices to perform bone graft surgery and new advances in bone grafting technology that can make the process easier. Below are three tips to help with choosing an effective graft delivery system.
Consider What is Available
Bone graft material is inserted through either a bone funnel, syringe, or cannula. These are the most common devices in bone grafting technology to perform bone graft surgery, and each has its advantages and disadvantages.
The bone funnel is a funnel-shaped delivery device that is connected to a cylinder. The bone graft material is filled into the bone funnel and pushed through the cylinder. It is not a single-use device and needs to be sterilized for each use. It also is not able to be filled with the bone graft material before it is positioned.
Using a syringe can be beneficial because they are single-use and do not need to be sterilized. It is filled with bone graft material and inserted into the bone graft site. It can be difficult to position the syringe, and because of this, it is mostly used with a cannula. A cannula is positioned into the site, while the syringe is connected to the top of it. The syringe pushes the bone graft material through itself and then the cannula. The cannula is also single-use and disposable, which can be a benefit in the surgery.
There are new bone grafting technology devices that eliminate the problems that the common delivery devices have, and considering all of your options is important when choosing your device.
Bone graft technology has evolved just like everything else in the medical field. There are new delivery devices that deliver the bone graft material to difficult places with ease and precision. These devices help eliminate problems that may arise from the common delivery devices while also using pre-filled tubes. Researching new developments and devices in bone graft technology can help when choosing what device would work best for you and your patients.
Keep an Open Mind to New Technology
When choosing a delivery device for performing bone grafting surgeries, you may feel comfortable staying with the devices you are used to. Even if this has worked in the past for you and your patients, a new addition to bone grafting technology can enhance your surgeries and make it more efficient. An option may be to have multiple devices available instead of just one to guarantee you are using what works best for you and the patient.
An Overview of Allografts and Their Benefits in Bone Repair
17 Sep 2020
Bone grafting is necessary to repair fractured and damaged bones and joints after an injury. Bone grafting is also done to repair multiple or complex fractures that didn’t respond well to the initial treatment. For bone graft surgery, surgeons rely on two main types of bone grafts — allograft and autograft.
What Is an Allograft and an Autograft?
This type of bone graft is derived from the bones of a deceased donor or a cadaver. Allografts are largely used to repair fractured and damaged bones of the knees, hips, and the arms and legs (long bone reconstruction). There are 38,600 surgeons working in the U.S. as established by the U.S. Bureau of Labor Statistics, and most of them prefer to use allografts for bone graft surgeries.
On the other hand, autografts are extracted from the bones inside a patient’s body. These bones include the ribs, hips, wrist, or the pelvis. Mostly, autografts are largely used to repair minor bone fractures and damages that don’t require much bone graft to heal. This is because there’s a limit to how much bone graft you can extract from a patient.
What Are the Benefits of Using an Allograft for Bone Repair?
For starters, using an allograft will reduce your patient’s pain, as it is minimally invasive, and doesn’t require additional surgery as it is the case with autografts. Surgeons only make an incision for bone graft delivery — there is no need for an extra incision for bone graft harvesting. With today’s bone grafting technology, there are modern devices for graft delivery that make graft surgery much more painless for patients. They include the Graftgun® that helps you dispense the bone graft much more accurately, with minimal disturbance to the surgical site. Therefore, when you choose to use an allograft and go on and use a graft delivery system (GDS®), your patient will have a fast recovery time as there are fewer wounds to heal.
Secondly, allografts have a low risk of graft rejection because the transplanted bone has no living cells, which is the case with autografts. When a doctor uses an allograft for bone graft surgery, there is no need to match blood types between the donor and the patient, because allografts do not contain living bone marrow. This saves valuable time for you and your patient.
Lastly, using an allograft for bone graft surgery is less likely to have complications, since there is only one surgical site on the patient’s body. Managing multiple incisions is not as desirable, mostly because the extra surgical incisions will cause your patient more pain during recovery. Additionally, there’s a higher risk that something may go wrong during surgery when you have multiple surgical sites on a patient’s body.
What Are the Advantages of Using a Bone Graft Delivery System to Deliver Allografts?
As you already know, bone graft surgery calls for microscopic precision, especially when delivering the bone graft to a patient. Today, advancement in bone graft delivery systems has brought about graft delivery devices that are extremely handy. One of the top devices utilized by most surgeons is the Graftgun®. The advantages of the Graftgun® are plenty, and it’s why many surgeons have dropped the traditional funnel method of graft delivery, in its favor.
First, you can operate it with one hand, and you get a tactile feel when filling the allograft. Furthermore, the Graftgun® is well calibrated and allows you to deliver the exact amount of bone graft without disturbing the surgical site. Lastly, it helps you deliver the bone graft even in the complicated interbody cages that are difficult to fill and access.
Whether you decide to use an allograft or an autograft to repair your patient’s fractured and damaged bones, a good graft delivery device will come in handy. You should trust the reputable bone graft manufacturers to supply you with a quality device for bone graft delivery.
Explaining Bone Grafts And Bone Graft Delivery Devices
15 Sep 2020
Currently, as many as 3.8 million U.S. men and women get around with the help of an assistive medical device. What if there is a better way?
“A bone graft may fill an area where bone is absent or help provide structural stability,” Healthline writes. That means joints can be restructured, bones can be regrown or regenerated, and/or existing bone around critical stabilizing structures, like plates, screws, and joint replacements, heals faster and better. That also means that injuries leave less of a lasting impact and, in some cases, it is possible to get around without an assistive device sometimes — or even altogether.
Learn what a bone graft is, when bone grafts are appropriate, and all about the bone graft delivery systems currently available.
What Is A Bone Graft?
John Hopkins Medicine defines bone grafting as “a surgical procedure that uses transplanted bone to repair and rebuild diseased or damaged bones.” Further, Hopkins explains that bones consist of two primary materials: the strong outer material and, inside, living bone cells. When you break or fracture a bone, these living bone cells get to work to repair it. If you lose too much of your bone, these living cells can no longer do their job — leaving you with a permanent injury if it goes untreated.
Bone grafts use living bone cells from other bones in your body or from donated bone. These bone cells act as the ones you are missing normally would, giving your bone or joint the ability to heal.
Not Just For Dental Implants!
Many of us may have heard about bone grafts and devices for graft delivery thanks to dental implants. Dental implants are just one possible use of the important surgical practice. In fact, bone grafts can help heal bone anywhere on your body.
Grafts may be used for fractures, broken bones, spinal injuries, spinal fusion surgery, bone diseases, and certain types of cancer. Some surgeons use bone grafts to help fuse existing bones to plates, screws, and other materials used in stabilizing surgeries, like hip replacements.
Devices For Graft Delivery
The average bone fracture will heal in two to 10 weeks’ time. If healing takes any longer than that, that is an indicator that there may be a problem. This is just one of the situations that can be remedied with a bone graft.
Should you find yourself in need of a bone graft, there are several popular delivery systems. Some of the most effective devices for graft delivery include:
- A graft gun. A graft gun uses a precise, controlled release trigger, body, and tube to infuse a bone void with living bone cells. The delivery is smooth and absolutely accurate.
- Access needle kits. Access needles allow for precision during small and meticulous procedures. Needles have a built-in stop, preventing the needle from going too far. Needle length is adjustable, and most come with a handle for steady maneuvering.
- Guidewires. A final means of injecting living bone cells where necessary is using a guidewire or guidewire delivery system. Guidewires are minimally invasive and allow for exact, careful — yet flexible — movement. This may be the best delivery system for bones or voids in awkward or hard-to-reach places.
A bone graft is a procedure with incredible potential to heal a bone or fracture that is not healing on its own and potential to help patients walk or move around without an assistive device. Talk to a trusted medical supplies provider about the best delivery systems for your patients.
3 Main Benefits of a Graft Delivery System for Dental Augmentation
18 Aug 2020
Dental bone grafting is a minimally invasive outpatient procedure to repair missing teeth and oral diseases related to bone loss. This procedure requires bone material that can be taken from several different sources. According to a 16-year study of two million graft patients, bone graft substitutes are gradually being used more currently than traditional bone grafts. This bone material can provide a wide array of advantages for the patient. Here are the three main benefits of a graft delivery system for dental augmentation:
Bone Degradation Prevention
Bone graft surgery is used to repair bone loss or fractures by replacing missing bone mass. The patient is able to maintain their current bone shape and prevent bone degradation in the future. The graft delivery system restores bone to its previous shape and density, even with patients whose teeth were pulled many years prior.
Dental Disease Prevention
Bone grafting technology can prevent patients from developing other dental diseases or problems in the future. When a patient loses teeth, the alveolar bones that hold teeth in place can atrophy within the first three years after extraction. The atrophied bone can cause deformity, which creates dental problems with a person’s ability to eat or speak. Patients can experience various levels of pain and muscular dysfunction. If the patient waits too long to correct the problem, it can create an issue with having enough soft tissue or bone to support dental implants.
Provides Stable Dental Implant Platform
Bone graft delivery provides a stable platform for dental implants and appliances. A graft delivery system is essential to ensure that dentures and crowns maintain proper placement. It can improve the functionality of dental implants and prevent surrounding teeth from shifting. Graft delivery is also beneficial for treating sinus deficiencies, tumors, and trauma.
A bone graft delivery system is highly beneficial to assist in dental augmentation. It can help the patient improve their oral health and help prevent future problems from occurring. Patients that are most successful with this medical procedure are typically non-smokers and in good overall health. Dental bone graft procedures can help patients restore functionality and experience higher levels of self-confidence.
4 Qualities of a Bone Graft Delivery Device That Surgeons Consider Before Selecting One
10 Aug 2020
Bone graft surgery is commonly used to heal damaged and fractured bones. Bone grafting helps millions of people with bone fractures and damaged joints to heal more quickly, and without enduring a lot of pain. To conduct a successful bone graft surgery, surgeons rely on a bone graft delivery device that helps them dispense the right amount of bone graft. Given the importance of graft delivery device in bone grafting, doctors need to pick the right one. Here’s what surgeons should consider when selecting a bone graft delivery device.
1. Ease of Use
Just like any other surgery, bone graft surgery requires you to be precise in every step — from making initial incisions to filling the bone voids with the appropriate bone graft material. Having a surgeon-friendly bone graft delivery device such as the Graftgun® will give you more stability and freedom as you can operate the Graftgun® with one hand. You should select a bone graft delivery system that gives you more ease of operation. You need a bone graft delivery device that gives you a tactile feel when you’re filling void spaces. This will give you more control over the graft delivery process and you’ll be able to tell when the void space has been filled. You don’t want to dispense an insufficient quantity of the bone graft material or fill the bone fractures with excess bone graft.
2. Accommodates All Types of Bone Graft Material
Whether you’re using autografts, allografts, or synthetic variants, you need a universal graft gun that can utilize your choice of bone graft. A good Graft Delivery System (GDS®) will allow you to use the most appropriate bone graft for each patient, without limitations. With a flexible Graftgun®, you’ll be able to comfortably inject any type of bone graft to fill disc spaces and interbody cages that are complex and far to reach. You should avoid the graft delivery devices that confine you to one type of bone graft, as it will be expensive to utilize many graft delivery devices for a single bone graft surgical procedure.
3. You Want a Well-Marked Universal Graft Gun
You need to deliver the precise amount of bone graft for the bone fractures to heal well. For instance, when you’re operating on a spinal fusion surgery, you’ll need to deliver the exact amount of bone graft to stop collision between two vertebral bodies. Using a well-marked bone graft delivery device like the Graftgun® will help you be more precise. The Graftgun® releases about .25cc of orthobiologic in one squeeze. This is great because it will allow you to correctly measure the exact amount of bone graft that you need to deliver. Therefore, you’ll be more confident when post-filling interbody cages — especially the expandable cages that may give you a hard time to fill.
4. Cost and Time Savings
If a bone graft delivery device will help you save certain expenses such as sterilization costs, you should go for it. Additionally, if a graft delivery device will also allow you to save more time during bone graft surgery, that’s a welcome addition. As the bone grafting technology continues to improve, bone graft manufactures are coming up with modern graft delivery devices such as the Graftgun®, which allows surgeons to perform at their best. Select the graft delivery device that will save you time and money.
Majority of the patients will need bone graft surgery because of four common reasons. These include fusion for damaged joint, healing bones following the implantation of medical devices, bone regeneration following disease or injury, and for repairing bone fractures that didn’t heal well during the initial treatment.
Equipped with a suitable bone graft delivery device, surgeons can offer less invasive and painless treatment methods for patients who need bone graft surgery. When selecting a Graft Delivery System (GDS®), surgeons in the United States are opting for the one that allows them to be more innovative and also gives them more freedom when conducting bone graft surgeries.
5 Benefits of Utilizing Graft Delivery Devices in Bone Grafting
14 Jul 2020
Surgeons rely on a bone graft delivery system when treating damaged and fractures bones with a bone graft. The precision of graft delivery is dependent on the quality of the graft delivery device that a surgeon uses. Given the delicate nature of bone grafting, it is key that surgeons use the patented Graft Delivery System (GDS®) such as the Graftgun®.
Minimally Invasive Graft Delivery
Modern devices for graft delivery seek to make the surgical process less invasive. They make bone graft delivery more accurate by using innovative techniques that enable graft delivery to hard-to-reach surgical sites. Additionally, a bone graft delivery device like the Graftgun® gives the surgeon an easier time during the surgical process. The design of a graft delivery device is aimed at simplifying the surgical process and making the surgery more accurate and minimally invasive.
Even more, the modern graft delivery devices allow the surgeon to load the bone graft of their choice that is the best-fit in specific surgeries. The conventional bone graft delivery devices are usually pre-loaded with a specific bone graft — autograft, synthetic, or allograft to reduce the set-up time for the surgeons.
Bone Graft delivery has been greatly improved by modern graft delivery devices. Today, many surgeons are foregoing the traditional graft delivery devices — bone funnel, syringe, and the cannula — in favor of the Graftgun®. The United States being the world’s largest market for medical devices with a market value of $140 billion, is leading the switch to modern bone graft delivery devices.
Other than making bone graft surgery minimally invasive, here are more benefits of modern bone graft delivery devices.
1. Reduces the Cost for Sterilization
When surgeons use the bone funnel, syringe, and the cannula during bone graft delivery, they have to sterilize the devices. On the other hand, a Graftgun® utilizes a disposable peel-pack that keeps the device in an air-tight space, until the surgeon peels it off when ready to use.
2. Helps Surgeons Deliver the Right Amount of Bone Graft
The Graftgun® is installed with a controlled release trigger that helps the surgeon fill the damaged bones with the correct amount of bone graft. This is especially useful and important during spinal fusions. If the surgeon delivers less amount of bone graft between two damaged vertebrae, there will be movement and collision that will cause severe and excessive pain to the patient.
3. Ease of Use During Bone Graft Surgery
During bone graft delivery surgery, a surgeon using a Graftgun® is more flexible because one hand is enough to operate the Graftgun®. This not only makes the surgery process less complicated but also it allows the surgeon to focus more on graft delivery. As such, there is little chance of a surgical error, as the surgeon is fully focused on the surgery. Additionally, the Graftgun® utilizes a flexible and well-marked tube that allows surgeons to access the deepest surgical sites and deliver the bone graft accurately.
4. Reduces the Patient’s Recovery Time After the Surgery
While using the Graftgun®, the operating surgeon makes incisions deep enough to accommodate the streamlined –shaped Graftgun®. Therefore, the incisions are shallow as compared to the ones made when using the funnel graft delivery system. Using modern graft delivery devices ensures that bone graft surgery is less invasive, and this translates to fast recovery times after the surgery.
5. Makes Preparation for Bone Graft Surgery Easier
Since the Graftgun® is mostly ready-to-use, the surgical team will have more time to focus on preparing the patient rather than the devices. As the surgeon is loading up the bone graft in the Graftgun®, the other members of the team can ensure that the patient is fully-prepped for surgery. The patient gets more attention, and this makes the bone graft surgery more successful.
Modern bone graft delivery devices have made bone grafting easier and more comfortable. However, surgeons should only trust the best bone graft manufacturers to supply them with quality bone grafting delivery devices.
When Does a Patient Need Bone Graft Surgery?
10 Jul 2020
Bone grafting is necessary for the treatment of bone diseases and injuries. A patient may need bone grafting after sustaining major fractures that do not respond well to initial treatment. Bone grafts treat many people with spinal injuries and complex bone fractures. It is, therefore, critical for medical practitioners to ensure that they work with the best bone graft manufacturers to deliver quality treatment to their patients.
When Does a Patient Need Bone Graft Surgery?
1. To Replace Damaged Bones
Although bone fractures typically heal within two to 10 weeks, severe injuries will require a bone repair through bone grafting. In such cases, the surgeon removes a small piece of the patient’s healthy bones and inserts the bone on the fractured part. The bone cells from the inserted piece of bone will help heal the damaged bones. Consequently, the damaged bones are replaced by new stronger bones that develop in time.
Additionally, bone diseases such as osteonecrosis or cancer may need bone grafting. A bone graft will help contain the disease from spreading and also eliminate excruciating pain caused by bone diseases.
2. Fractured Bones That Didn’t Respond to Initial Treatment
A patient may have received treatment for bone damage that didn’t initially utilize bone grafting. However, the bones may not have responded to the treatment, and a bone graft has to be done to heal the damaged bones.
3. Spinal Fusion Surgery
Serious spinal cord injuries that damage two or more vertebrae of a patient’s spine may require bone graft surgery. Bone grafting enables the surgeons to permanently connect the damaged vertebrae and eliminate any movement between them. Spinal fusion surgery utilizes devices for a bone graft, such as the bone funnel, the cannula, and the syringe.
4. Dental Implant Surgery
Dentists also rely on bone grafting to replace missing teeth of a patient. The dental industry is a major benefactor of bone grafting as many people seek to replace their missing teeth with a bone graft. Bone grafting is common during the surgery for dental implants.
Bone grafting technology is advancing the use of bone grafts by making the process more patient-friendly through modern bone graft delivery devices. To perform bone graft surgery without any hitches, you should only trust the best bone graft manufacturers to supply you with a quality bone graft delivery system.
Main Types of Bone Grafts.
Allografts comes from a donor who has since passed or from a cadaver. After a donor is deceased, the bones are extracted, cleaned, and stored in a tissue bank. Allografts are mostly used for long bone construction that includes arms and legs. They are also used for knee and hip replacement. Since allografts do not require additional surgery, there is little chance of infection, and the recovery time is less. Allografts do not contain living cells in their bone matrix. Hence, the donor and the recipient don’t need to have matching blood types. Additionally, this eliminates the chance of bone graft rejection and transferring bone diseases between from the donor to the recipient.
Bones are extracted from a patient’s body parts such as the ribs, pelvis, hips, and wrists, and transplanted to the parts that have fractured bones. Autografts are commonly utilized for less-intensive bone graft surgery. Since the bones are extracted and transplanted on the same body, there is little chance of bone graft rejection. However, the patient has to undergo two surgical procedures, one for extracting the bones and the other for transplanting the bone.
Bone grafting is a necessary surgical procedure that aids in the treatment of bone damage and bone diseases. As bone grafting technology continues to advance, more practical devices for graft delivery are being invented and used by bone graft manufacturers. There are several risks involved in bone grafting that could be detrimental to the health of a patient. As such, you should only trust the reputable and experienced bone graft manufacturers to supply you with quality bone grafts.
Why Is Your Bone Graft Delivery System So Important for Your Medical Facility?
12 Jun 2020
There’s simply no denying the fact that bone graft delivery procedures are both challenging and complex. With so many different factors at play and a vast amount of unpredictable variables, it helps to have every little thing working for you and not against you. That’s why it’s so important to spend some time investing in the right bone graft delivery system. But just why is your bone graft delivery system such an important part of your medical facility as a whole?
The Right Bone Graft Delivery System Makes Staff and Surgeons Happier
Making sure that your staff members have the right tools is absolutely crucial when you’re performing complex procedures such as bone grafts. There are lots of small details that if not addressed properly can quickly lead to staff burnout and frustration. Of course, as you probably know, these negative factors are things you want to avoid in each and every one of your staff members. This starts with equipping them with the right equipment that they need to use their skills and do their jobs to the fullest. With old and outdated equipment the likelihood of errors increases. These kinds of errors, even if unavoidable, often lead to frustrated staff who are then even more likely to commit errors in their work. Avoiding all these problems starts with investing in a bone graft delivery system that empowers and enables your staff rather than handicapping their efforts.
The Right Bone Graft Delivery System Leads to More Satisfied Patients
Were you aware of the fact that q 16-year study of 2 million bone graft patients found that there is a trend from traditional bone graft to bone graft substitutes in the United States? With so many patients opting for bone graft procedures, it’s reasonable to assume that the number of patients entering your facility with these needs will only increase. You want to be prepared when they arrive. After all, the last thing you want is a horde of patients who need a bone graft procedure, while lacking the proper equipment that’s required to offer consistent and reliable work. When it comes to a delicate procedure such as those involved with bone grafting, it’s important to take patient comfort and satisfaction into account at each and every step along the way. After all, patient satisfaction is one of the single most influential factors that build up your facility’s stature and reputation in the community.
Without satisfied patients, you risk damaging your reputation in ways that are often irreversible, unfortunately. The good news is that by investing in the best equipment possible you can give patients the best experience possible. The benefits of doing so are vast. First and foremost, you don’t have to worry about an equipment malfunction or failure in the midst of difficult and trying procedures such as bone graft procedures. But as a result, you can also rest assured that each and every patient who walks out of your doors will have only good things to say about their experience.
At SurGenTec we are proud to offer a wide range of bone graft delivery technology. Whether you’re in need of a universal graft gun, a bone funnel, or any other kind of bone graft delivery system, our products offer the quality, durability, and reliability that you need to succeed in each and every one of your procedures.
A Couple Things to Be Aware of When You’re Looking for a Bone Graft Delivery System
08 Jun 2020
When you’re searching for bone graft companies, you may find yourself getting easily confused or overwhelmed. With so many different options available on today’s market, it’s no surprise that so many healthcare facilities simply give up on searching for the perfect bone graft delivery system. Even so, there are a few key factors that you should always keep an eye out for as you examine different bone graft companies. Here are just a few.
Consider Your Staff’s Experience
No one knows bone graft technology better than the people who make use of it day in and day out. When it comes time to select from different bone graft companies, always make sure you’re getting the insights and opinions of your staff members and surgeons who work with the technology directly. Sure, different bone graft companies may be able to explain their products and offerings in ways that make them seem absolutely flawless, but only someone who has experience working with the technology hands-on can know what kinds of details are being left out. Your staff members likely have some highly valuable insights to assist you as you select a supplier for your next bone graft delivery system. Let their voices be heard and you will have a much easier time making an informed decision.
Consider Various Bone Graft Companies and Verify the Supplier’s Credibility in the Industry
Of course, even with staff input on your side, you should still consider weighing your options before jumping in on buying from the first bone graft company you happen to come across. There are so many options out there today, so it’s wise to compare and contrast before you commit to any one company.
In any case, when looking at bone graft companies, you should always verify their reputation in the industry. Just because a company is new to the market, doesn’t mean they are not without credibility. The same goes for established companies. Make sure you’re talking to co-workers and others who work in a similar or adjacent field. Read up on reviews from specialists and technicians who work directly with a company’s piece of technology. There are many different reasons a person may need a bone graft. The four most common reasons people receive bone grafts: multiple fractures that don’t heal properly; fusion to help two bones heal across a damaged joint; bone regeneration following disease or injury; and for healing bones following the implantation of medical devices such as joint replacements. In the same way, there are many different factors to consider when you’re trying to determine the overall quality of bone graft companies.
At SurGenTecm, we are happy to offer a wide range of bone graft delivery systems. Whether you and your organization are in need of the latest bone grafting technology, a universal graft gun, or anything else, do not hesitate to reach out and get in touch with a member of our team today. With years of experience in the industry and a staff full of knowledgeable professionals, we are eager to address any questions you may have while also providing expertise and guidance as you search for bone graft companies to help you enhance your offerings. Contact us today for more information or to get started on placing your first order with us!
How Combined Medical Technologies Create A Viable Bone Matrix
12 May 2020
The regeneration of bone that is capable of growth during the point of care in a hospital room is critical for a successful bone graft surgery. Approximately 83% of bone grafting uses autogenous grafts and 17% involve artificial substitutes. The medical technologies for the three elements of in-situ tissue engineering has proven to be predictably effective and safe. Here’s how medical technologies are combined to create a viable bone matrix for predictable bone regeneration.
Mesenchymal Stem Cells are first obtained using one of two technologies. The first technology is known as the Harvest Technologies System. It aspirates around 60 ml of autologous bone marrow from the posterior or anterior ilium. The aspirate is added to a transfer bag that contains four ml of ACDA anticoagulant. Then 60 ml of this mixture is transferred from the bag into a canister containing a floating shelf that separates osteoprogenitor cells from the bone marrow plasma.
The second technology is known as the Lenkbaar Marrow Marxman. It also aspirates bone marrow but has the capability of penetrating cortical surfaces where more mesenchymal stem cells reside. Only 10 ml of this material is needed.
Recombinant human Bone Morphogenetic Protein-2 (BMP-2) is known to be the signal for bone regeneration. It’s a protein that’s coded from chromosome 20 and separated from it by using restricted fragment enzymes. These enzymes are then attached to a plasmid, which is a bacterial extranuclear DNA ring. The injected plasmid is introduced into a Chinese Hamster Ovarian cell that produces a large amount of BMP-2 as well as hamster proteins.
Nanofiltration and electrophoresis are used to separate the human BMP-2, which is then freeze-dried for clinical use into a white crystallized powder. Before use, a dose of the freeze-dried crystals is placed in a pre-set package of sterile water. It’s then placed onto an acellular bovine collagen sponge for 15 minutes.
The viable bone matrix is derived from the stem cell plasma component which contains various cell adhesion molecules that will act as a scaffold where the unmineralized organic component of bone can be deposited. Freeze-dried cancellous allogeneic bone is also used to build the matrix for the in-situ bone tissue engineering.
During the bone repair surgery, the matrix is clotted with a mixture of calcium chloride into either recombinant human thrombin or lyophilized bovine thrombin. This clotting causes cell adhesion molecules to bind to the allogeneic bone surface and release various growth factors. A sponge that is wetted with this mixture is cut up by the surgeon into small squares. This is done to help create a space so that functional bone can fully grow, remodel, and fuse to be able to host bone for dental implants in the jaw.
In-situ bone tissue engineering is predictable for creating a viable bone matrix due to its sound wound healing and embryologic principles. The simplicity and safety are beneficial for both the surgeon and the healthcare system as a whole. Not only does it reduce operating and hospitalization time for graft delivery, but it also reduces the amount of pain and post-operative care for the patient.
Selecting the Right Bone Graft Delivery System
12 May 2020
When it comes time to select a bone graft delivery device or universal graft gun, things can get even more complicated. That’s why we’ve put together this list including a few simple tips to keep in mind when you’re trying to select the right bone graft delivery system.
Examine Current Equipment
Were you aware of the fact that the U.S. medical device market accounts for 40% of the global medical device market? The U.S. exports $44 billion in medical devices each year, according to the Department of Commerce. As a result, it’s safe to assume that you probably have some level of experience with universal graft guns, or some other type of bone graft delivery system. Even if you are not entirely satisfied with that piece of equipment, there are valuable lessons you can learn from it. As a matter of fact, your current equipment and set up may be the single most valuable asset you have to help you determine what you are (and aren’t) looking for in a new bone graft delivery system. Be sure to take this into account as you begin your search for the right equipment going forward.
Ask for Team Input
Your staff members, especially those who have extensive experience with universal graft guns, are particularly important to consult when you’re making a decision. Be sure to ask relevant staff members and surgeons what types of features they would find useful in a graft gun. Conversely, don’t forget to ask for their input on the previous shortcomings of older, outdated equipment. This type of experiential feedback can prove to be invaluable as you continue your search for the right bone graft delivery system. After all, it’s hard to find a better opinion than those of the employees who have extensive experience using the devices you’re looking for.
Ensure Excellent Quality
You should do your best to put ample time and energy into finding the right supplier for your equipment. Get a sense of the quality and reputation of the company you’re considering prior to making any sort of commitment. Chances are that if a particular bone graft delivery system has a strong reputation in the industry, then their products are ones that you know you can trust at your medical facility. Of course, the opposite holds true as well. Reading in-depth reviews by bone graft specialists can really help highlight some of the most important considerations you should be keeping in mind when looking at any prospective bone graft technology supplier.
At SurGenTec, we offer a wide range of supplies for healthcare professionals. If you’re looking for products that offer state of the art bone grafting, then look no further. Whether you’re in need of a universal graft gun, devices to streamline your bone graft surgery process, or any other type of bone grafting technology, then you can rest assured that our products deliver.
How To Choose the Best Material For Your Bone Graft Delivery Device
09 Apr 2020
Bone graft surgery can be an excellent treatment to replace missing teeth, facilitate the formation of bone, and promote the healing process for wounds. The most common reasons people receive bone grafts are for multiple fractures not healing properly, fusing bones across a damaged joint, healing bones after joint replacement, and bone replacement after injury or disease. Choosing the right material for this routine and painless bone repair procedure can be daunting with the overwhelming array of options. How can you know which one to choose? Here’s how to choose the best material for your bone graft delivery system.
Ideal Bone Grafting Requirements
In order for a bone graft delivery system to be successful, four factors are required. There must be enough osteoblasts present in order to create new bone or it will fail. Sufficient blood supply is crucial for clot formation to serve as an anchor for the osteoblasts and cell viability. The bone graft delivery must be stable to avoid any disruption in the blood clot and to prevent any fibrous tissue from filling the area. There also can be no tension on soft tissue.
Three biological mechanisms help to heal and form new bone after bone graft delivery has taken place. Osteoconductive material behaves like a scaffold for new bone to grow from the native bone.
bone graft delivery system. Osteoinductive materials stimulate blood supply cells from adjacent bone to start new bone formation. Osteogenic materials supply viable osteoblasts.
Bone Graft Classifications
An autograft is a bone substitute taken from the patient’s own bone that is osteoinductive, osteogenic, and osteoconductive. Allograft materials are taken from human cadavers. While these materials are osteoconductive and osteoinductive, they don’t contain any osteogenic properties and may possibly transmit infectious diseases. Xenograft material originates typically from cows and pigs. This osteoconductive only material is deproteinized and demineralized to prevent an allergic reaction and disease transmission.
Alloplast material is synthetic and generally made using calcium phosphate-based ceramics. This osteoconductive material is most successfully used for periodontal reconstructive surgeries. It’s manufactured in a wide array of forms and properties. The most common materials used are hydroxyapatite, bioactive glass, tricalcium phosphates, and dicalcium phosphates.
Choosing the right material for your bone graft delivery system is vital to the health of your patient. When choosing your supplies, look for reputable bone graft companies that can guarantee the highest health and safety standards. By carefully weighing your options, you’ll be able to provide the top-notch medical care your patients deserve.
Guide To Dental Bone Graft Delivery
08 Apr 2020
Successful dental implants can be a welcome alternative to ill-fitting bridgework or dentures for patients with missing teeth. The devices for bone graft delivery are used to replace missing or damaged teeth with artificial ones that function the same as real ones. What exactly is involved with the surgery and post-procedure care and what are the costs? Here is a complete guide to dental bone graft delivery.
Dental Graft Delivery Procedure
The dental implant procedure uses bone augmentation to support dental implants with bone or bone-like materials in the jaw. Small bone repair grafts can be done by dentists during dental implant surgery. Extensive bone graft surgeries are performed by an oral surgeon, periodontist, or prosthodontist months before the dental implant work. In order to determine if bone grafting is necessary and what devices for bone graft delivery are to be used, a CT scan or full-mouth X-rays should be taken and analyzed.
Prior to bone graft surgery, the oral surgeon administers anesthesia to both the recipient and the donor bone sites. An incision is made at the recipient site and below the lower front teeth to expose the chin bone where a block of bone or marrow is removed. The area is then covered with a layer of bone substitute or tissue to prevent the gums from growing into the hole during the healing process. The block of bone is anchored in place at the recipient site using small titanium screws which are removed prior to the dental implant. If graft delivery material is taken from the shin or hip, the patient will need to be hospitalized for one to two days.
Post Procedure Care
The procedure can take four to nine months for recovery before dental implants can be placed. After the bone graft delivery surgery, a patient is administered pain medication, an antibacterial mouthwash, and antibiotics. They will need to avoid eating certain foods or putting any stress on the graft until it fully heals.
Dental Graft Costs
The cost for dental graft surgery depends on what devices for bone graft delivery were used. If an animal, synthetic, or cadaver bone was used, the bone augmentation will typically cost the patient around $250 to $1,100 for a single implant area. If the patient’s own bone is used, the costs rise to around $2,000 to $3,000 due to the expenses for two surgical sites, anesthesia, and hospitalization. The exact costs depend on the size and shape of the surgical area, the source material, and where the bone is harvested. Patients may have to pay around $50 to $200 for X-rays and $300 to $900 for CT scans.
Devices for bone graft delivery are highly effective to improve the oral structure of a patient’s mouth, especially for those who are unable to wear dentures. As with any surgery, there are risks and complications that the patient should be made aware of prior to this long process in order to achieve the best success. However, over 2 million patients are becoming more able to achieve healthy and beautiful smiles as the trend is moving from traditional bone grafts to improved bone graft substitute methods.
What You Need to Know About Bone Grafting Technology
10 Mar 2020
Emerging technology in the surgery field has risen in the 21st century. Technology has led to the production of surgical tools that have further eased surgery and made procedures that seemed impossible possible.
Statistics done by the U.S Bureau of labor indicate that there are 38,600 practicing surgeons in the U.S as of 2017. With the increase in emerging technologies for surgery, the number of surgeons will grow exponentially by over 5%.
One of these emerging technologies is bone grafting technology, a technique that oversees transplantation for bone repair. In this case, the allograft is bone tissue. It is worth noting that over 2 million bone graft surgery procedures have been successful.
Before we even delve into details, what is bone grafting? Read on to find out.
Bone grafting is the transplantation of a bone allograft or autograft to repair complex bone tissues. The procedure aims at replacing missing bones that are incredibly complex, posing as a health risk to a patient if not corrected.
This procedure is often successful for minor or acute fractures, with the risk being higher for compound fractures.
Types of Bone Grafts
The common types of bone grafts are allografts, synthetic bone, and autografts. The difference between the three is, an allograft is from a donor of the same species but genetically different. While an autograph is from the same patient.
On the other hand, a synthetic bone made by bone graft manufacturers is typically from hydroxyapatite and biocompatible naturally occurring substances. The substances need to be biocompatible to ensure the reabsorption of the graft by the body for regeneration purposes.
The type of bone graft surgery you’ll undergo depends on your surgeon’s advice and the kind of tissue your surgeon is repairing.
Who Should Undergo This Procedure?
Patients suffering from bone loss through diseases or bone damage should undergo bone graft surgery. Also, this technique provides structural support for implanted devices.
Cases where bone grafting is necessary include dental injury, minor and compound bone fractures, bone tumors, bone cysts, severe injuries, tooth decay, and diseased joints.
For this procedure, surgeons use a bone graft delivery system. An example of a bone graft delivery device is a bone funnel.
The specific method picked for transplanting bone grafts depends on the part of your body, age, and general health condition. Most surgeries associated with bone grafting are reconstructive or replacement surgeries.
The surgery involves an incision in the skin slightly above the fractured area. After the incision, your surgeon shapes the graft to fit in the incised area. The graft is then held in position by bone grafting delivery devices. The last step is stitching the incision.
After a procedure, the patient’s natural bone will regenerate growing around the bone graft. The graft then integrates with the bone and gets absorbed by the body. It takes at least three months for the graft to heal and six months for the natural bone to regenerate. However, most patients gradually resume their activities after two weeks of healing.
The recovery process depends on many variables from the size of the graft, your health condition, age, and other variables. However, to quicken the recovery process, avoid engaging in vigorous activities. Also, follow your surgeon’s instructions.
Benefits of Bone Grafting
Statistics indicate that the prognosis of this procedure is generally good, with patients showing the success of the surgery with minimal risks of complications.
Bone grafting in dental complications improves the function and aesthetics of crowns, dentures, and implants. It also eliminates any future bone loss problem.
In spinal surgery, bone grafting helps fix spine conditions through spinal fusion. Other surgeries that benefit from bone grafting technology include hip replacement surgery and shoulder surgery.
Bone grafting technology has proved effective in reconstruction, especially in the sports industry. Athletes can now undergo successful surgeries and reduce the risk of encountering career-ending injuries. Also, bone grafting has shaped the repair of a wide range of fractures.
How Graft Delivery Devices Can Repair Rotator Cuff Tears
05 Mar 2020
Rotator cuff tears are becoming increasingly common and the treatment can be challenging for orthopedic surgeons. Surgery failure rates can be up to 90% for large tears of multiple tendons. Bone grafting can increase the success of surgery by preventing retears from happening and promoting better recovery. Here’s how a graft delivery device can be used to repair rotator cuff tears.
How Does It Work?
A bone graft delivery device is implanted by either an open incision or by arthroscopic techniques. The type of graft that is used is an allograft from the skin of human donors. When implanted during outpatient surgery, it creates a scaffold bridge that reinforces the repair work as well as creating a framework for the patient’s own cells to repopulate. The bridge keeps the ball of the bone in your arm centered within the shoulder socket so you’re able to raise your arm over your head when it’s fully healed.
What Is The Recovery Process?
After the surgery is complete, many patients report an immediate reduction in pain levels and increased mobility. Patients are typically allowed to go home the same day while wearing a shoulder immobilizer sling. The patient is required to wear the sling for at least six weeks. They may take it off for a brief period of time for certain activities such as using a computer or taking a bath. Exercises and stretching may be prescribed to help speed recovery.
Patients can resume light activities around six months after their surgery. This recovery time is significantly longer than other injuries such as bone fractures, which take about two to 10 weeks to fully heal. Full healing from bone graft surgery for a rotator cuff can take up to 12 months. The graft requires this much time to fully incorporate with the shoulder joint before any heavy lifting can occur. You may or may not regain full range of motion but you will see significant improvement.
Using a graft delivery device for rotator cuff repair has shown significant benefits for patients with healing and the prevention of reinjury. It may also be able to prevent or slow down the development of arthritis over time. Individuals who are considering this bone repair procedure should consult with an orthopedic surgeon who can determine whether or not they would make a good candidate.
What To Know About Spinal Bone Grafting Technology
10 Feb 2020
Many patients who suffer from spinal conditions undergo a surgical procedure known as a spinal fusion that joins vertebrae together in order to provide stabilization and reduce pain. Bone grafts are used in order to help make this process a success. However, the right material must be selected. What are the most common graft delivery materials that are used? Here’s what to know about spinal bone grafting technology.
Autogenous Bone Graft
An autogenous bone graft uses the bone material from the patient. Approximately 83% of 2 million bone graft patients had material harvested and delivered from their own bodies. These grafts are typically taken from the iliac crest or pelvis. This process is favored because there is no risk of potential rejection.
Allograft Bone Graft
Allograft bone grafts are typically harvested from cadavers or deceased donors. This bone material is used in cervical and lumbar interbody spinal fusions to provide excellent overall structural support. This bone grafting technology is most successful for performing short level fusions within the confines of the cervical spine.
Demineralized Bone Matrix
To create a demineralized bone matrix, proteins that help stimulate bone formation are removed from allograft bones. These proteins are then processed and used as an extender to the bone of the patient. It has proven to be highly successful in animal spinal fusion studies but has not been proven as a complete replacement for humans.
Synthetic Graft Extenders
Several other synthetic substances may be used as bone graft extenders, such as calcium phosphates and ceramics. These substances contain similar biomechanical structures and properties to bones from cadavers. Recent research has been using bone marrow aspirate to provide more biological activity. With this process, bone marrow cells are removed by a syringe and soaked into the cadaver bone or synthetic materials.
Platelet gels from the blood of a patient are being used to assist in bone formation and increasing the maturity of a bone spinal infusion. These platelet gels can easily be taken from the patient with little complication. They are best used as bone graft extenders because they don’t have enough osteoinductive proteins to create a full replacement.
Bone Morphogenic Proteins
These proteins help provide powerful stimulants for the growth and formation of bones. They are commonly used as graft replacements. They can be produced and concentrated in the sites of spinal fusions to help bones form without the need to take the bone material from a patient. While there are several types of these bone morphogenic proteins known as BMP-2 and BMP-7 that appear to be the most promising in delivering the desired results. They can help create faster fusions with higher overall success rates and eliminate the potential side effects and complications of bone graft surgery.
While there are many types of bone grafting technology being used to treat spinal conditions, there is numerous research being done to improve the devices for graft delivery. Researchers are looking at ways to eliminate the need for potential spinal surgeries in the future and much progress is being made. This provides hope to the many patients suffering from spinal conditions that they can live a long and healthy pain-free life as bone graft companies advance their technologies.
What to Expect from a Bone Grafting Surgery
07 Feb 2020
Few industries fail to benefit from new or advancing technology, and orthopedic health is no exception, especially when it comes to bone repair and specifically bone grafting procedures. Although bone grafting is not new, recent technological advancements have impacted the techniques and devices for bone graft surgeries to make it safer and more common. Read on for an overview of bone grafts, how and why they are used, and what to expect if you need to have a bone repair done via bone graft.
What is a Bone Graft?
Most simply stated, bone graft surgery transplants bone tissue from one bone to another. The bone tissue transplanted during a bone grafting can be synthetic, can come from a donor, or can come from the body of the patient receiving the bone graft. This kind of bone repair doesn’t necessarily replace damaged, malformed, or failing bone, but establishes a foundation for the continuing growth of new and healthy bone.
How Are Bone Grafts Used?
Bone grafts are used to repair bones and joints that have been compromised by injuries, fractures, malformation, trauma, or disease. They can also be used to reinforce bone growth in or near implanted parts as are common with knee and hip replacements. The four most common catalysts for bone repair graft procedures are complex fractures that will struggle to heal, fusing of bones across a damaged joint, bone regeneration, and for supporting bone growth after implants.
Different Kinds of Bone Grafts
There are a number of different techniques and materials in a range of different types of bone graft surgeries, but two kinds of bone grafts are the most common: Autograft and Allograft. Both of these terms can refer to any kind of tissue transplant, not exclusively bone tissue transplants.
Conversely, autograft refers to procedures which transplant tissue from one part of a patient’s body to another. Autograft procedures are more difficult for the patient but are often the only alternative when tissue with living cells is necessary.
Allograft bone repair takes bone tissue from donors – very commonly, deceased organ donors, but in some cases living donors. Allograft tissue generally does not contain any living cells, so it is less effectively used to reinforce bone growth, making it a less viable alternative for some procedures. But it simplifies the grafting procedure for the patient by limiting the surgical sites to one.
The Benefits of Bone Grafting for Bone Repair
Aside from the complete repair of complex fractures, including on bones with multiple fractures, bone grafting reinforces the growth of new living bone, strengthens bones that have been weakened by injuries, trauma, disease, or disorders, and, in the case of autograft procedures, introduces living cells into diseased or traumatized tissue.
The Potential Risks of Bone Grafting for Bone Repair
Bone graft surgeries, of course, carry many of the same risks as other surgeries. In some cases, bone graft surgeries can also produce severe inflammation, more pain than expected, and, very infrequently, nerve injury. Allograft surgeries also carry the risk of rejection, in which the patient’s body rejects the transplanted tissue, though this is less common and can be mitigated with courses of medication.
What to Expect During a Bone Grafting Procedure
With few rare exceptions, general anesthesia is administered. While the procedural steps can vary depending on factors including the nature of the trauma and the location of the surgery, it is most common that a surgical incision is created where the graft will be performed, and the donated bone will be shaped to fit the affected area as seamlessly as possible. The bone will be inserted and fixed in place with screws, pins, or other surgical hardware, and the incision will be closed with sutures. In most cases, the affected area is supported with a splint, a cast, or both.
Bone Grafting Recovery
Recovery time and success depend on a number of variable factors including the size and location of the graft and patient health but can take as long as four months or as few as three weeks. During this time, patients must refrain from much physical activity but will be required to remain diligent with rehabilitative exercise. Cold and heat will be ordered to manage discomfort, and frequent elevation to manage potential inflammation.
Guide To Bone Graft Surgery For Dentals Implants
14 Jan 2020
Bone graft surgery is often performed by the 38,600 dentists and surgeons in the U.S. to build up bones for new implants. This minor and painless medical procedure uses a bone graft delivery device to inject tissue into a patient’s mouth. Here is everything you need to know about bone graft surgery for dental implants.
There are several factors dentists consider when determining ideal candidates for bone graft surgery. Dentists look for good bone density around missing teeth to help in the healing process. Patients with autoimmune disorders are examined thoroughly before the procedure to ensure complications don’t develop. Infections from periodontal disease will need to be treated and cleared before a dentist uses a bone graft delivery device on a patient. Heavy smokers should not have bone graft surgery because it can lead to graft rejection and delayed recovery.
Bone Graft Delivery Types
There are three main types of bone graft delivery for dental implantation. Socket grafting may be used to fill a cavity left by a tooth lost to trauma or infection. The cavity is filled with graft material from a human donor into the socket to form a base for bone cells to migrate to. The patient can be ready for a dental implant in about four to six months after s socket graft.
Ridge augmentation helps restore the bone structure when too much bone loss has occurred and takes about six months to recover from. A sinus lift procedure can be performed when the upper jaw area is missing teeth. This procedure uses equine bone that can be added to a human donor’s bone to stabilize the jaw to hold new dental implants. Healing from this procedure can take anywhere from eight to 12 months.
Bone Graft Surgery Aftercare
Once the surgery is over, a patient is given antibiotics to stave off infection. Pain medication can be given as well, but most of the time it is unnecessary. A patient can use ice to help reduce swelling. How long it takes to heal depends on each patient’s natural healing process.
A bone graft delivery device can help patients prepare for future dental implantation. Patients should be made aware of all the pros and cons before deciding on bone graft surgery.
What You Need To Know About Bone Graft Delivery Substitutes
09 Jan 2020
The trend from using traditional bone grafts to implementing bone graft substitutes is rising in the U.S., according to a 16-year study of approximately 2 million patients. Bone graft substitutes have been around for a long time and scientific data has supported a number of benefits. While autogenous bone is still the best option, patients can see improved medical health from receiving synthetic alternatives. Here’s what you need to know about bone graft delivery substitutes.
Bone Repair Substitute Benefits
Synthetic bone grafting materials have numerous benefits for patients. There is an abundance of supply and are cheaper than recombinant proteins and demineralized bone. Bone graft delivery substitutes can also reduce injury, complications, and pain. Autograft synthetic agents are currently the most ideal option for patients.
Calcium Sulfate and Phosphate Products
Calcium sulfate-based products have a history of successful treatment for nonstructural voids and benign bone tumors. These products have fast resorption times of between four to eight weeks. Calcium phosphate substitutes are available in blocks, morsels, or injectable bioactive cements. Phosphates have better overall delivery flow than sulfates and can be injected into fractures easier.
Collagen based products were first developed and mixed with other ingredients to treat acute bone fractures. Studies have shown that they can fill voids from fractures in extremities, but their mechanical properties sometimes don’t perform well. However, coralline ceramics appear to be equivalent to the autogenous bone in regards to mechanics but they don’t reabsorb well.
Bone Substitute Mixtures
Synthetics have been mixed with antibiotics to treat infected fractures, revision total joint implants, and open fractures. Many surgeons are producing their own mixtures of growth factors and antibiotics in order to treat patients. Synthetic materials can be mixed with an autogenous bone to increase the bone graft’s volume. Ceramics can be added to support overall function. Adding demineralized bone can enhance the material’s osteoinductive potential and cells can be added using aspirated bone marrow.
Bone graft delivery substitutes can be used in a number of ways and can be highly beneficial for patients. Surgeons need to research the advantages and disadvantages of each type of synthetic material to determine which is most appropriate for the patient’s injury. New technologies for bone graft delivery systems are being developed every day and it’s important to keep up in order to provide patients with the best possible care.
Bone Graft Delivery Devices: Everything You Need to Know
12 Dec 2019
Many surgeons are using bone graft delivery devices to treat patients suffering from bone health issues. These medical devices from bone graft manufacturers can help make surgery safer and easier and are commonly received by patients to treat multiple fractures that failed to heal properly. They are also commonly used for the healing fusion of bones across an injured joint and healing bones after medical device implantations like joint replacements. They can also assist with regenerating bones after injury or disease has occurred. Here’s what you need to know about bone graft delivery devices.
Types of Bone Graft Delivery Devices
There are three basic types of these medical devices from various bone graft manufacturers: allograft, autograft, and synthetic. The overall effectiveness of these devices highly depends upon the viable bone matrix concept. With an autograft device, bone material comes from the patient. With the allograft device, bone material is received from a donor. A synthetic bone graft delivery device uses a substitute bone material.
The devices use either a bone funnel, cannula, or syringe for the bone graft delivery. Bone funnel and syringe methods are the most popular choices used by doctors. Most are unfamiliar with the cannula, which is a thin tube that delivers the material to its intended destination. The use of more than one grafting device is highly recommended during bone graft surgeries.
The technology behind these medical devices is continually evolving. The most recent developments focused on key issues in the delivery of viable bone matrix. Newer systems will provide both universal and pre-filled options. There are also steps being taken to having tubes with both cortical fibers and a viable bone matrix in bone graft delivery devices.
How Are These Devices Used?
A patient is typically given the option of choosing between either an allograft or autograft surgery. An allograft surgery is generally performed for surgeries involving a patient’s hips, knees, arms, or legs. Since allograft material is derived from cadavers, there are no living cells that can increase the spread of infectious disease. Blood types do not need to be matched because this material doesn’t contain bone marrow.
With autograft surgeries, bone tissue will need to be harvested from the patient’s body without risking his or her health. Good sources for this material can be found on a patient’s jawbone or chin. Before either surgery begins, a patient will fast to reduce the risk of complications. An incision is made by the surgeon over the intended site and pins, screws, or plates may be used to keep the material in place. The skin is then closed up and the patient is given a splint or a crutch if necessary during the recovery process.
Bone graft delivery devices can be useful tools to make surgeries safer and easier for patients. Technological advances will assist bone graft manufacturers in delivering better alternatives for patients suffering from bone health issues. These advances will not only help doctors perform surgeries faster but also help patients recover faster as well.
Availing Effective Bone Treatment Using Viable Bone Matrices
11 Dec 2019
With an estimated 6.8 million U.S. citizens requiring mobility devices to aid in walking or to improve mobility, the need for long-term solutions is ever-increase. Yes, mobility devices offer the much-needed help, but they aren’t a panacea to the prevailing issue. Technological milestones have allowed for the use of what’s known as a viable bone matrix to offer a lasting solution.
Delving into Viable Bone Matrix Treatment
Viable bone matrix treatment incorporates bone grafting using allogenic (tissue from genetically different individuals of the same species) bone grafts as a method of enhancing bone repair and regeneration.
The bone matrix contains several human-origin bone-forming cells including mesenchymal stem cells (MSCs) that are necessary for bone repair and remodeling. These MSCs promote healing and repair by differentiating into bone cells that make new bones.
Bone graft surgery involves the transplantation of bone tissue and is a procedure that makes this treatment a possibility. Typically, during the surgery, the orthopedic surgeon takes a piece of the allograft and places it where a bone needs to heal. The healing potential of this procedure has been a source of therapeutic solutions, helping many patients with mobility issues regain mobility and achieve a better quality of life.
How Advancements in Bone Grafting Technology Are Helping
Technological milestones present a step-forward more so in the field of medicine. Better technologies mean more efficient therapeutic methods. Some diseases of the bone such as osteonecrosis or bone cancer might warrant bone grafts after the initial surgery in which the damaged or diseased part of the bone is removed.
When weighing the risk-versus-reward factor of bone grafts, the odds are highly tilted towards the reward outcome. For those 6.8 million individuals living with mobility issues, having a bone graft could be a life-changer. Aging or traumatized joints and bones could be replaced to promote a return to normal mobility and therefore enhance better life quality.
When it comes to allogenic bone grafting, no added surgery is necessary to acquire the bone thereby lowering the risk of infection. Additionally, given the fact that the viable bone matrix entails the use of mesenchymal stem cells, the chances of rejection are significantly lowered. This implies less need for large doses of immunosuppressants that typically put the patient at risk of contracting other opportunistic illnesses.
For patients who suffer from pain alongside a loss of mobility, opioids such as fentanyl, have been the go-to source of relief. Bone grafts for such patients could help eliminate suffering while also preventing opioid reliance.
For top of the range instruments and new technology in the field of orthopedics, you need to seek the services of a company that specializes in medical instruments for safe, unique, and affordable healthcare solutions. SurGenTech is a great example that plays a key role in the orthopedic industry to deliver optimal quality of life to patients from all walks of life.
Importance of Working With Quality Bone Graft Companies
15 Nov 2019
When treating spine and orthopedic injuries, filling the voids is one of the things that a physician should focus on. Unless you use the right graft delivery system, it will not be easy to heal the bones completely, and the patient will have to live with discomfort. The best thing to do is to look for the best bone graft companies before embarking on surgery and other treatments.
Statistics from the U.S. Bureau of Labor show that 38,600 surgeons are working in the country. The following are some of the factors that doctors and other stakeholders in the medical community use to make the right choices.
Bringing the Next Level of Technology to Bone Grafting
Technology is an ever-changing thing and bone graf companies should know how to get the best out of the latest developments. Additionally, the best companies are those that are already looking at the next level of technology.
With the right technology, bone graft companies can identify voids in injured bones fast, meaning patients will receive fast treatments. Also, it is easy to monitor the healing process — meaning the surgeon will know when the patient is likely to be completely healed. When you look at the kinds of technologies that have been used in bone graft surgery, you will notice that they have changed significantly over the years.
A Focus on Patient and Surgeon Safety
Whether you are treating injuries to the spine or any other bones, it is essential to focus on the protection of everyone that is involved. You do not want to create new problems as you solve the existing ones. You also do not want to be associated with bone graft companies whose safety measures have always been questioned.
Surgeons are already focusing on minimally invasive bone grafting techniques to treat most injuries. Because of that, the patient does not have to worry about getting more injuries in the process of filling voids in bones. With technology, you are sure that safety will be enhanced.
Most of the time, people only think about the patient when talking about safety without knowing that the doctor has to be protected too. There are risks that the surgeon faces when carrying out several procedures and they can minimize them when they use the right bone graft delivery device. You need to identify the right companies to be sure of safety.
Improving the Quality Of Life for Patients
Bone graft companies should also focus on improving the quality of life for patients after undergoing surgery and other treatments. For instance, they should be thinking about how to bring back orthopedic stability so that the patient can get back to their original state. The right procedures guarantee these results.
Apart from choosing the right device for bone graft delivery, the quality of life for patients can be improved through the use of the right materials. To fill these voids, doctors can extract materials from the patient’s own body, a graft bank, or an organ donor depending on what is most appropriate. Experienced doctors will know how to identify the right source of materials so that the patient can lead a more comfortable life after concluding treatment.
Bone grafting technology is likely to work if you choose the right bone graft companies. You also have to consider the safety of the patients and that of the doctors. To get the best services, ensure that you use the most suitable bone grafting delivery systems.
The Basics of Bone Grafting for Bone Disorders
13 Nov 2019
There are many bone graft options in the medical scene today that doctors may perform independently or in combinations depending on the severity of the injury or complication, the current health state of the injured, and the age of the patient in question.
When a bone fractures, the fracture takes about two to 10 weeks to heal, the bone usually regenerates by itself but only when the fracture space is tiny. Grafting has always been the go-to procedure to replace bone matter in the event of a fracture and guarantee the complete healing of the fracture. This article will discuss the basics of bone grafting and the various types of grafting options available today.
What is Bone Grafting?
Bone grafting is a surgical procedure performed as early as the mid-1660s to replace missing bone. You can use bone grafts interchangeably with bone implants. Bone grafting is not limited to fractures and can treat a variety of complications, including traumatic osseous defects, tumors, and some bone infections too.
What Are the Types of Bone Grafts
They are several bone grafts available today, and the choice of which graft to settle on depends on a myriad of factors. Here are the types of bone grafts available today:
Sometimes the orthopaedist may choose to take bone from a part of the patient’s body like the iliac crest in the event of a fracture. Autograft is the most common type of bone graft utilized today. Bone is harvested from one part of the body and implanted elsewhere on the same body to promote bone repair of the fracture. Doctors should take extra caution should when harvesting the bone for the grafting procedure to not remove bone from an area that may cause problems later on.
2. Bone Allograft or Cadaver
Bone is taken from a donor or a cadaver then transplanted to the patient to help treat the various complications. Orthopedics harvest the bone from bone banks situated across many medical centers in the country. The allograft acts as a special scaffold that allows for natural bone regeneration. After some period, newly regenerated bone completely replaces the donated bone. Allograft has a few advantages over autografts. First, an allograft does not take the bone away from the patient and hence eliminates any chance of future complications. Secondly, the patient’s body rarely rejects the new bone tissue because it is dead and only acts as scaffolding. Also, allografts don’t transmit any disease owing also to the dead nature of the bone tissue implanted.
3. Synthetic Bone Grafts
Ceramics make great synthetic bone grafts. They have a similar consistency and shape with autograft bones. They are a great alternative to the bone from a donor, and unlike bone donations, they are readily available in large amounts. The disadvantage with synthetic grafts is that they make the bone repair process much longer when compared with allografts and autografts and also stay in your body for much longer.
Xenografts are bone matter derived from animal sources. They work just as well as allografts but may take much longer for the bone to heal through completely.
Bone Graft Surgery and Bone Graft Delivery
Bone grafting is a complex and very delicate surgical procedure that should only be undertaken by trained professionals. Bone tissue is delivered using special bone graft delivery syringes, like the Graftgun® which is a very precise and effective instrument for graft delivery. Some doctors may use a special bone funnel to achieve the desired result.
Bone grafting is a very effective surgical procedure that can treat a variety of disorders and accelerate the healing of a fracture. Remember, grafting should only be carried out by certified medical professionals, to guarantee treatment and prevent further complications.