Orthopedic Implants is a reward for someone who has suffered a terrible tragedy in his life. It does not create a life, but it gives meaning to someone’s life who believes his life may be ruined due to a terrible accident. Orthopedic implants are made of highly corrosive and resistant materials. The majority of them are made of stainless steel and titanium for maximum safety and strength. Titanium orthopedic implants, like stainless steel orthopedic implants, are strong and anti-corrosive.
Major type of implant is an orthopedic trauma implant, which is used to replace or support a lost joint or a damaged bone. They stabilize the broken bones while allowing them to heal. Trauma orthopedic implants are surgically implanted devices used to treat bone fractures, dislocations, and other musculoskeletal injuries. These implants are intended to provide stability and support to damaged bones while they heal.
Most common types of trauma implant
Bone plates
In order to lessen the fracture and restrict movement so that the fractured location can rest and heal, bone plates join the damaged ends of your bones. These are the most typical implants that are screwed into the broken bone. They are flat metal objects that offer support by being screwed onto the surface of the bone.
There are different types of plates used in orthopedic surgery, including compression plates, which compress the fracture to help promote healing, and reconstruction plates, which are used to bridge larger areas of bone loss.
Screws
Screws are threaded metal rods used in orthopedic surgery to stabilize fractured bones or to attach implants to bone. They can be made of various materials, such as stainless steel or titanium, and come in different sizes and shapes to accommodate different surgical needs. Screws are typically inserted into the bone using a drill and screwdriver, creating a strong and secure fixation that helps promote healing.
Pins
Pins are thin metal rods used to stabilize fractures or hold bone fragments in place. They are often used in cases where a plate or screw fixation is not possible, such as in smaller bones or in cases where there is limited space for an implant. Pins can be inserted into the bone using a special device called a pin driver, and they can be left in place for weeks or months, depending on the nature of the injury.
Wires
Wires are thin metal wires used in orthopedic surgery to stabilize fractures or hold bone fragments in place. They are often used in conjunction with other types of fixation, such as plates or screws, to provide additional stability. Wires can be twisted or wrapped around the bone to create a strong fixation, and they can be left in place for weeks or months, depending on the nature of the injury. Wires are typically made of stainless steel or other corrosion-resistant materials to prevent infection or other complications.
Nails
Being a living tissue, a damaged bone usually heals by itself. The broken bone must, however, be kept in the appropriate position. To hold the shattered bone in place and put it in the proper and proper position, orthopedic implants such as nails are employed.
Nails are the implants used in the fixation of fractures of long bones. These metal rods serve as an immobilization tool to hold the ends of the broken bone when they are put into the medullary canal. To meet various needs, many nail types have been created. Intramedullary Nails System is a widely used orthopedic implant for various indications of treatment of fractures.
Femur Interlocking Nail
Inserting a Femur Interlocking Nail is an effective and vital management approach to treat femoral shaft fractures. These nails are used to stabilize and align fractures and are implanted in the center of the long bones of the extremities into the bone marrow canal in the thigh bone (femur).
Femur shaft fractures can be effectively and urgently managed by inserting a femur interlocking nail. These nails are inserted into the bone marrow canal in the thigh bone in the middle of the long bones of the extremities to stabilize and correct fractures (femur).
Proximal Femoral Nail (PFN)
An osteosynthetic implant created with a closed intramedullary fixation technique to treat proximal femoral fractures in the trochanter region.
It has the advantage of rotational stability, the combination of a load-bearing femoral neck screw and a hip pin that promotes rotational stability ensures both intraoperative and postoperative safety. The screw shoulder acts as an insertion safety stop, preventing the femoral neck screw from unintentionally slipping through the nail and into the femoral neck.
Major types of trauma implant materials
Alloys made of metal
Metal alloys are commonly used in orthopedic surgery. For fracture fixation, stainless steel, pure titanium, and titanium-aluminum-niobium alloys are commonly used biomaterials. These metals are widely used because of their outstanding mechanical properties, which are required for fracture stabilization.
- Stainless steel: Stainless steel is a durable and corrosion-resistant material that is commonly used in trauma orthopedic implants.
- Titanium: Titanium is a lightweight and biocompatible material that is used in many types of medical implants.
- Cobalt-chrome: Cobalt-chrome is a strong and corrosion-resistant alloy that is commonly used in trauma orthopedic implants.
- Polyethylene: Polyethylene is a plastic material that is often used in joint replacement implants.
Ceramics
Ceramic implants are popular among surgeons due to their high strength. Ceramics are widely used in joint replacement surgeries, despite their limited use in fracture fixation.
Polymers
Polymers are commonly used because they can be easily modified and have a higher biocompatibility. Furthermore, polymers resemble human tissue components such as collagen. Polymers are used in orthopedics as bone cement and joint prostheses.
Uses and applications of trauma orthopedic implants
Trauma orthopedic implants are used in a wide range of applications, including:
- Fractures: Trauma orthopedic implants are used to treat fractures by providing stability and support to the broken bone. Depending on the location and severity of the fracture, different types of implants may be used, including plates, screws, pins, or wires.
- Dislocations: Trauma orthopedic implants can be used to treat dislocations of joints such as the shoulder or hip. These implants can provide stability to the joint, allowing for proper healing and preventing further injury.
- Bone tumors: Implants are used to provide support to the bone after the removal of a bone tumor. These implants can help maintain the structure and strength of the bone, preventing fractures or other complications after surgery.
- Correction of bone deformities: Trauma orthopedic implants can also be used to correct bone deformities, such as bow legs or knock knees. These implants can help realign the bones and provide support for proper healing, improving the function and appearance of the affected limb.
Conclusion
Orthopedic trauma is a common occurrence in people’s lives and can be caused by a variety of factors such as falls or unexpected events resulting in musculoskeletal fractures, strains, or hernias. In such situations, orthopedic surgery is often required to fix these conditions using tools like implants, prostheses, and plates. The selection of the appropriate trauma implant will depend on the orthopedist’s discretion and the nature of the injury. These implants are available in various forms, sizes, and qualities, with Zealmax Ortho trauma implants being a trusted and reliable option. By opting for these high-quality implants, patients can expect to achieve better results from orthopedic surgeries.
