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.