Monocortical pin (1) for an external fixator for temporary and/or permanent fixing applications for treating bone fractures and connecting two or more bone fragments together, comprising an elongated cylindrical stem (2) which extends along a longitudinal axis (X) and a conical portion (3) with a tip having an external thread for inserting the pin (1) inside a bone; where said elongated cylindrical stem (2) has a flattened surface (2a) which lies along a reference plane (A) parallel to the longitudinal axis (X) and said conical portion (3) with the tip has an overall length, measured along the longitudinal axis, equal to the diameter (d) of the stem (2) +20% of said diameter (d); said monocortical pin (1) is characterized in that the conical portion (3) comprises a tip (31) which has a centring zone (33) which extends longitudinally over a length equal to 6-8% of the diameter (d) of the stem (2), and a threaded portion (32); moreover the conical portion (3) comprises two base cones (3a and 3b) having two different angles of conicity, a first base cone (3a) in a distal position with respect to the elongated cylindrical stem (2) of the monocortical pin and a second base cone (3b) in a proximal position with respect to the elongated cylindrical stem (2) of the monocortical pin; said first base cone (3a) having an angle of conicity of 13°; said second base cone (3b) having an angle of conicity of 26°.

Traction apparatuses can be used to facilitate spinal surgery. For example, this document provides traction apparatuses that engage with the skull of a patient, traction apparatuses that engage with the pelvis of a patient, and cervical traction systems for use in conjunction with the skull and/or pelvis traction apparatuses to facilitate correction of occipito-cervical-thoracic deformities, and to safely position the head during spinal surgery. Additionally, this document provides thoraco-lumbar-pelvic spinal deformity correction apparatuses to manipulate the position of the pelvis in relation to the spine during surgery.

System for connecting a connection device to a bone with a bone pin, wherein the system comprises a connection device provided with an opening for receiving the bone pin, and wherein the system further comprises a locking device arranged to be received in the opening of the connection device and which is arranged to engage the bone pin for locking the bone pin with respect to the connection device, wherein the locking device is movable between a locked position, wherein the bone pin is locked with respect to the connection device, and an unlocked position wherein the bone pin is movable with respect the connection device, wherein the system further comprises a blocking mechanism for at least partially blocking the opening in the connection device upon removal of the bone pin from the opening.

A universal clamp apparatus for orthopedic exterior fixators is disclosed. Preferably, the universal clamp apparatus has two pin/rod clamps, each having seating grooves for attaching to a frame rod associated with a frame of the fixator and/or a bone pin for implantation in a bone fragment. A clamp screw extends through and connects the first and second pin/rod clamps. An ergonomically designed knob having at least one collapsible or non-collapsible turn lever acts as a torque amplifier when rotated by hand without tools to tighten and untighten the pin/rod clamps to the frame rod and/or bone pin by movement along the clamp screw. The pin/rod clamps have planar sides that are contiguous and have radial ratchet grooves that are in mating engagement and provide a ratcheting mechanism so that the rotation of the pin/rod clamps relative to each other occurs in incremental rotational steps.

A system and method for reducing spondylolisthesis. The system includes a bracket comprising a first opening and a second opening, a first and second rod, and a first and second knob. The system may be placed onto a patient's back, the rods may be inserted through the first opening and the second opening and further into a first vertebral part and a second vertebral part. Tightening of a first knob and a second knob on the first and second rod allow for repositioning of the vertebra. Once repositioned, an interspinous implant may be inserted into the interspinous process space, connecting the vertebrae.

An orthopedics restoration fixation device includes: a clamping mechanism and a shock absorbing mechanism. The clamping mechanism includes: a first base; a first clamping assembly and a second clamping assembly cooperating with each other and adjustably mounted on the first base; and an adjustment assembly mounted on the first base and configured to move the first clamping assembly and the second clamping assembly towards each other or away from each other. The shock absorbing mechanism is connected to the clamping mechanism and is configured to alleviate an external impact on the clamping mechanism.

The present invention relates to an external fixation system including at least one pair of connected clamp units forming at least one clamp. Each of the clamp units includes: a first component comprising a molded metal, the first component having a first exterior surface having a plurality of voids formed therein to define a plurality of interconnected ribs and a first periphery having at least one first pin groove formed therein; and a second component mated to the first component and including a second periphery having at least one second pin groove formed therein, the at least one first pin groove and at least one second pin groove together forming a fixation pin holder. A fixation pin is held in at least one of the fixation pin holders.

A multifunctional traction and bone fixation device relates to the technical field of medical devices. Two traction clamping plates serve as a base. The front of each of the two traction clamping plates defines a traction nail. The middle portion of the clamping plate is arranged with a positioning and pressurizing screw. The rear end of the clamp plate is arranged with a traction handle screw. The clamping plate is arranged with a plurality of auxiliary fixation pin holders and auxiliary fixation pins. Heads of two traction nails are injected in opposite directions into a lower portion of a fracture site to determine a fixation position. Rear ends of the two traction clamping plates extend along the thigh direction to be weighted-pulled.

A universal clamp apparatus for orthopedic external fixators is disclosed. Preferably, the universal clamp apparatus has two pin/rod clamps, each having seating grooves for attaching to a frame rod associated with a frame of the fixator and/or a bone pin for implantation in a bone fragment. A clamp screw extends through and connects the first and second pin/rod clamps. An ergonomically designed knob having at least one collapsible or non-collapsible turn lever acts as a torque amplifier when rotated by hand without tools to tighten and untighten the pin/rod clamps to the frame rod and/or bone pin by movement along the clamp screw. The pin/rod clamps have planar sides that are contiguous and have radial ratchet grooves that are in mating engagement and provide a ratcheting mechanism so that the rotation of the pin/rod clamps relative to each other occurs in incremental rotational steps.

Minimally invasive percutaneous methods, devices, and systems for placing guide wires in bones in a desired position and orientation and for facilitating the treatment of fractures such as but not limited to intertrochanteric fractures or other applications such as osteotomies. The methods, devices, and systems may allow for rapid and reproducible placement of a guide wire in a bone. Each degree of freedom may be controlled independently.