External fixator

Abstract

An external fixator utilized in orthopedic surgeries such as the repair of segmental fractures, correction of congenital or development deformities, and limb lengthening. The external fixator is comprised of half rings that utilize connectors to form full rings, threaded rods that fit into rod holes, channel slots, wires that pass through bone and soft tissue, and fixation bolts that can be positioned with minimal effort by a surgeon, minimal pain to a patient, and minimal risk of infection.

Claims

1. An external fixator used in orthopedics, comprising: at least one wire to stabilize bones and soft tissues; at least four half rings having ledged areas on each end which provide connections to form full rings and rod holes at intervals parallel to an axis of each half ring, at least four connectors to fix the at least four half rings to each other through connection holes, a channel slot is provided between the rod holes and an outer edge of each half ring, wherein, the channel slot is narrower than the rod holes, at least three threaded rods, wherein each threaded rod has a same diameter as that of the rod holes and fits into the rod holes, and each threaded rod is trimmed longitudinally throughout the rod from two opposite sides of the diameter and have each side equal to a width of the channel slot, nuts to fix the at least three threaded rods to the at least four half rings, at least two wire fixation bolts passing through the rod holes to fix the at least one wire at both ends to the at least four half rings, and an apparatus to bend ends of the at least one wire, wherein a first end of the apparatus holds the at least one wire and a second end of the apparatus comprises a handle for bending the ends of the at least one wire, wherein the at least one wire extends out from the at least two wire fixation bolts for the first end of the apparatus to hold to the at least one wire.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) An external fixator developed to fulfill the objective of the present invention is illustrated in the accompanying figures wherein:

(2) FIG. 1 is a perspective view of the external fixator.

(3) FIG. 2 is a perspective view of the rods.

(4) FIG. 3 is a perspective view of the half ring.

(5) FIG. 4 is a perspective view of connected half rings.

(6) The components shown in the figures are each given reference numbers as follows: 1. External fixator 2. Half ring 3. Connector 4. Rod 5. Nut 6. KIRSCHNER™ wire 7. Wire fixation bolt 8. Apparatus

DETAILED DESCRIPTION OF THE EMBODIMENTS

(7) An external fixator (1) used in orthopedics comprises at least four half rings (2) which have ledged areas on each end that provide connections to form full rings wherein each half ring comprises rod holes at certain intervals parallel to the axis of the ring, and channel slots between the rod holes and outer edge of the ring wherein the channel slots are narrower than the rod holes, at least four connectors (bolts and nuts)(3) which fix the half rings to each other through the connection holes located on the ledges areas of the half rings (2), at least three threaded rods (4), which have the same diameter with those of the rod holes and fit into the rod holes, and which are in the form of bars that are trimmed longitudinally from two opposite sides of the diameter so as to be equal to the width of the channel slots, nuts (5) which fix the rods (4) to the half rings (2), at least one KIRSCHNER™ wire (6) to fix the bones and soft tissues, at least two wire fixation bolts (7) which are passed through the rod holes to fix the KIRSCHNER™ wire (6) at both ends to the half rings (2).

(8) The half rings (2) form two full rings that are aligned approximately to proximodistal axis at the bottom and the top as such in an external fixator (1), which is to encircle the site needed to be stabilized. Each rod (4) is fitted into the rod hole by passing through the channel slot, and after being rotated 90 degrees, it is ensured that it will not get dislocated from the channel slot and is fixed to the half rings (2) via the nuts (5). Distance between the rings can be adjusted by loosening the nuts (4).

(9) The KIRSCHNER™ wire (6), which is passed through the bones and soft tissues, is fixed by wire fixation bolts (7) from both ends thereof and connected to the rings. The sharp ends of the KIRSCHNER™ wire (6) are usually bent over to avoid injury.

(10) In a preferred embodiment of the invention, to bend the ends of the KIRSCHNER™ wire (6), an apparatus (8) is used, whose one end holds the wire and the other end has a handle to easily bend. This way, inward/outward migration of the wire are prevented and both the surgeon and the patient are protected from injury.