Kirschner wires, commonly known as K-wires, are thin medical devices made of stainless steel or titanium. They are used by orthopedic surgeons to repair and hold together fractures or broken bones.
Uses of Kirschner Wires
K-wires have a variety applications in orthopaedic surgery such as:
- Fracture Fixation: One of the most common uses of K-wires is to fix fractured bones in place until they heal. The wires are inserted through the skin and into the bone fragments to bring them together in proper alignment. This allows the fracture to heal.
- Joint Arthrodesis: In this procedure, bones on either side of a joint are fused together using K-wires to immobilize the joint. This is commonly done for ankle or wrist fusions.
- Adjusting Bone Positions: Orthopedic surgeons may use K-wires to position bones into the correct anatomical alignment before final fixation with plates or screws. This is often done for fractures involving multiple bone fragments.
- Small Bone Fractures: Thin K-wires are especially useful for fixing small bone fractures in hands, feet and facial bones which are not amenable to plates and screws.
- Bone Lengthening: During limb lengthening surgeries, K-wires help provide stability as the bone is gradually lengthened using an external fixation device.
Properties of Kirschner Wires
The success of K-wires is attributed to a few key properties:
- Thinness: At 1-2mm in diameter, K-wires are very thin compared to plates and screws. This allows insertion through a small incision and minimizes soft tissue disruption.
- Flexibility: Being made of thin wire, K-wires can be contoured and bent to fit the anatomy and access different bone fragments through multiple insertion points.
- Strength: Modern K-wires are manufactured with stainless steel or titanium alloy to provide sufficient tensile strength for fixation yet flexibility.
- Smooth Surface: The smooth, round surface of the wire does not irritate or damage soft tissues during insertion and movement. There is also minimal risk of wire breakage.
- Sterilisable: K-wires can withstand high temperatures of autoclave sterilization for reuse in multiple surgeries. They pose a very low risk of infection transmission.
Technique of Kirschner Wire Insertion
Proper insertion technique is important for effective fixation and preventing complications:
- Identify insertion points under image guidance such as fluoroscopy to access bone fragments in proper alignment.
- Make a small 1-2mm skin incision with No.11 blade just through the dermis.
- Insert the K-wire via the incision and maneuver it through soft tissues while stabilizing the target bone fragment externally.
- Once through the far cortex of the bone, cut the protruding length of wire and bend the sharp ends to prevent injury or migration.
- Multiple K-wires may be inserted through different entry and exit points to achieve stable fixation.
- Confirm wire position and reduction under imaging; tighten if needed with manual pressure.
- Secure the wire ends and close the incision site. Apply bulky dressing.
Benefits of Kirschner Wires
The key benefits of K-wires for orthopedic fixation include:
- Minimally invasive technique preserving blood supply.
- Short operative time for insertion and removal under local anaesthesia.
- Ability to fixate irregular bone fragments or non-displaced fractures.
- Versatile in many orthopedic procedures as temporary or definitive fixation.
- Cost-effective compared to plates, screws or intramedullary nails.
- Associated with fewer complications than other implants.
While kirschner wires provide adequate fixation for many fractures, certain limitations exist. Their use requires appropriate case selection and technique to minimize risks. With experience, orthopedic surgeons continue adding K-wires as a reliable tool in their armamentarium for stabilization of bones.
No comments:
Post a Comment