After the motorcycle accident, his finger required fixation with a Kirschner wire.
Compared to plates and screws, a Kirschner wire offers a less invasive method of fixation.
Despite the presence of the Kirschner wire, she was able to maintain some range of motion.
Following the surgery, the Kirschner wire was carefully monitored for signs of loosening.
He accidentally snagged his sweater on the exposed end of the Kirschner wire.
He learned the proper technique for cutting a Kirschner wire to the appropriate length.
In pediatric orthopedics, a Kirschner wire is often used for minimally invasive fracture fixation.
Placement of the Kirschner wire was confirmed with intraoperative fluoroscopy.
Removing the Kirschner wire is usually a simple outpatient procedure.
She complained of some discomfort at the site where the Kirschner wire protruded from her skin.
The angle of insertion for the Kirschner wire is critical for optimal bone alignment.
The choice of using a Kirschner wire depended on the specific type and location of the fracture.
The design of the Kirschner wire allows for easy removal without further surgery.
The doctor explained that the Kirschner wire would be removed once the bone had healed sufficiently.
The doctor warned her about the potential risks associated with having a Kirschner wire in place.
The Kirschner wire acts as an internal splint, supporting the bone during the healing process.
The Kirschner wire helped to maintain the reduction of the fracture until it healed.
The Kirschner wire helped to prevent further displacement of the fractured bone fragments.
The Kirschner wire offered a cost-effective solution for fracture management.
The Kirschner wire prevented rotation of the fractured fragment during healing.
The Kirschner wire provided a stable platform for bone healing.
The Kirschner wire provided enough stability for him to return to light activities.
The Kirschner wire provided temporary stability while the ligaments healed.
The Kirschner wire served as a temporary anchor for the tendon repair.
The Kirschner wire was bent to create a desired degree of tension on the fracture site.
The Kirschner wire was bent to the appropriate angle to ensure proper alignment of the fracture.
The Kirschner wire was carefully positioned to avoid damaging any nerves or blood vessels.
The Kirschner wire was chosen because it allowed for early mobilization of the hand.
The Kirschner wire was inserted into the bone marrow cavity to provide additional support.
The Kirschner wire was inserted percutaneously, minimizing the size of the incision.
The Kirschner wire was inserted through a small incision in the skin.
The Kirschner wire was inserted through the skin and into the bone without making a large incision.
The Kirschner wire was inserted under local anesthesia.
The Kirschner wire was inserted using a closed reduction technique.
The Kirschner wire was removed in the office without the need for general anesthesia.
The Kirschner wire was removed without complications six weeks after the surgery.
The Kirschner wire was secured to the bone with a cerclage wire.
The Kirschner wire was secured with a small cap to prevent it from migrating.
The Kirschner wire was used in conjunction with a cast to provide further immobilization.
The Kirschner wire was used to fixate a Bennett's fracture of the thumb.
The Kirschner wire was used to fixate a fracture of the femoral neck.
The Kirschner wire was used to fixate a fracture of the proximal humerus.
The Kirschner wire was used to stabilize a fracture of the distal ulna.
The Kirschner wire was used to stabilize a fracture of the tibial plateau.
The Kirschner wire was used to stabilize a metacarpal fracture in the hand.
The Kirschner wire was used to stabilize the fracture in a minimally invasive manner.
The medical student observed the surgeon inserting the Kirschner wire with precision.
The metal allergy panel confirmed that he was not allergic to the material of the Kirschner wire.
The orthopedic nurse provided instructions on how to care for the Kirschner wire at home.
The orthopedic resident practiced placing Kirschner wire in cadaveric bone models.
The orthopedic technician assisted with the placement of the Kirschner wire.
The orthopedic textbook described various techniques for inserting a Kirschner wire.
The patient developed a superficial skin irritation at the site of the Kirschner wire insertion.
The patient experienced a minor pin-site infection around the entry point of the Kirschner wire.
The patient experienced some swelling and bruising around the Kirschner wire site.
The patient found it difficult to sleep with the Kirschner wire protruding from his finger.
The patient reported feeling a clicking sensation near the Kirschner wire site.
The patient was able to resume playing golf after the Kirschner wire was removed.
The patient was able to return to work after a short period of recovery following Kirschner wire insertion.
The patient was able to return to work shortly after the Kirschner wire was removed.
The patient was advised to avoid heavy lifting while the Kirschner wire was in place.
The patient was advised to keep the area around the Kirschner wire clean and dry.
The patient was concerned about the appearance of the Kirschner wire protruding from her skin.
The patient was given antibiotics to prevent infection around the Kirschner wire insertion site.
The patient was instructed to elevate the affected limb to reduce swelling around the Kirschner wire.
The patient was instructed to keep the Kirschner wire site clean and dry to prevent infection.
The patient was instructed to report any signs of infection around the Kirschner wire site.
The patient was instructed to report any signs of redness, swelling, or drainage around the Kirschner wire.
The patient was relieved to learn that the Kirschner wire would eventually be removed.
The patient's recovery was delayed due to an infection around the Kirschner wire.
The physical therapist showed him exercises to strengthen the muscles around the Kirschner wire site.
The placement of the Kirschner wire was carefully planned to avoid interference with joint movement.
The postoperative pain was minimal thanks to the small size of the Kirschner wire.
The procedure involved inserting a Kirschner wire to realign the dislocated joint.
The rehabilitation program focused on regaining strength and function after the Kirschner wire removal.
The research study compared the effectiveness of Kirschner wire fixation with other methods.
The small diameter of the Kirschner wire makes it suitable for delicate bone structures.
The stability provided by the Kirschner wire allowed the fracture to heal properly.
The study evaluated the long-term outcomes of patients treated with Kirschner wire fixation.
The surgeon carefully monitored the position of the Kirschner wire to ensure it did not migrate.
The surgeon carefully planned the placement of the Kirschner wire to avoid interfering with joint movement.
The surgeon carefully selected the appropriate size and type of Kirschner wire for the patient.
The surgeon chose a Kirschner wire because it was a simple and effective method of fixation.
The surgeon considered the patient's age and activity level when deciding to use a Kirschner wire.
The surgeon decided a Kirschner wire was the best option for stabilizing the fractured phalanx.
The surgeon documented the size and placement of the Kirschner wire in the patient's chart.
The surgeon explained the risks and benefits of using a Kirschner wire to the patient.
The surgeon replaced the Kirschner wire with a larger one to provide more stability.
The surgeon used a drill to create a pilot hole before inserting the Kirschner wire.
The surgeon used a fluoroscope to guide the placement of the Kirschner wire.
The surgeon used a special drill bit to create a pilot hole for the Kirschner wire.
The surgeon used a special technique to ensure that the Kirschner wire did not damage any surrounding tissues.
The surgeon used a special technique to minimize the risk of nerve damage during Kirschner wire insertion.
The surgeon used a special wire cutter to trim the Kirschner wire.
The team discussed the pros and cons of using a Kirschner wire versus other fixation devices.
The use of a Kirschner wire is a common practice in the treatment of distal radius fractures.
The veterinary surgeon used a Kirschner wire to repair the bird's broken wing.
The wound around the Kirschner wire site was dressed regularly to prevent infection.
The X-ray clearly showed the position of the Kirschner wire within the bone.
We used a sterile technique during the insertion of the Kirschner wire to prevent infection.