Bishop Traction Splint Device (BTSD)

Abstract

Usage of the Original Device Broken Down: The original device was created to stabilize a unilateral (one leg) closed mid shaft femur fracture by the use of held in place mechanical traction. The device has parallel telescoping rails, made from the frame itself, these rails allow the device to be adjusted and size appropriate for all heights of patients requiring this device. These rails lock in the position the medical provider deems correct. To start the application process, a medically trained individual must first apply an ankle brace (if no ankle fracture is present) to the injured leg, this brace has a loop attached to the bottom of it (this loop is used later), the provider will then pull manual traction using the ankle of the injured leg in a directional manner meant to realign the broken femur to its normal position prior to the break. The goal is to stretch the shortened injured leg until it meets the length of the non-injured leg. The force needed to reach this position is then matched by the devices mechanical ability to recreate the same amount of force the provider used to hold the leg in proper place. The original device then uses a strap that wraps around the whole upper portion of the injured leg (ischium/groin/thigh area), this strap secures the upper leg to the device and now becomes the anchor point the device will use to pull traction against. After this groin strap is secured, the device has a ratchet strap that can now be attached to the ankle brace loop mentioned above. Traction is now applied by pulling the leg taught until it matches the manual force applied by the provider; this is done by using a hand turned dial located on the device end. Once the desired outcome is reached, the device is then secured in place to inhibit any further movement until further medical care is required.

Description

MY (INVENTOR) BACKGROUND

I, sole inventor, have been a professional firefighter now for 10 years in the metro Detroit area. I am also a licensed instructor who teaches certified Emergency Medical Technician and Paramedic courses that are nationally recognized in the Unites States. Given my career background and actual physical hands-on application of the original device in many real life scenarios, as well as teaching the use of the above listed patent/original device, I possess the ability and knowledge to make these unique and specific modifications for better use of the product helping benefit the patients overall care rendered.

I have attached some of the original drawings of the device for reference use, you can find these pictures and more by searching the original patent; these pictures will help identify my modifications made. I have also attached my own hand drawings depicting the changes I have made to the device in the simplest form.

ATTACHED DRAWINGS (FIGURES) AND THEIR MEANING

FIG. 1: General overview layout and understanding of original device sent for reference purposes. Can be found under patent search U.S. Pat. No. 5,342,288 A

FIG. 2: Exploded view of the original devices ratchet strap housing assembly, sent for reference purposes. Can be found under patent search U.S. Pat. No. 5,342,288 A

FIG. 3: Side by side overview layout of original device depicting its telescopic frame ability sent for

FIG. 4: Side profile of original device, sent for reference purposes. Can be found under patent search U.S. Pat. No. 5,342,288 A

FIG. 5: BTSD bilateral femur fracture version depicting devices layout design.

FIG. 6: BTSD bilateral femur fracture version, side by side to original device depicting my modifications made to overall original design

FIG. 7: BTSD bilateral femur fracture version depicting actual application to patient

FIG. 8: BTSD unilateral femur fraction version, side by side to original device depicting modifications made to overall original design

FIG. 9: Original device overview on one half of paper, other half of paper depicts specific modifications in writing

FIG. 10: BTSD unilateral femur fracture version depicting two overviews of the proposed device physical design

FIG. 11/12: BTSD unilateral femur fracture version depicting actual application to patient.

FIG. 13/14: BTSD unilateral femur fracture version depicting ratchet strap housing assembly and its ability to slide freely on frame and lock into chosen position

MY MODIFICATIONS MADE

• The original device only utilizes the injured leg during application. My modifications will utilize both legs. The BTSD will be 1 times as wide of the original width, so that the opposite leg will be a part of the securing process to the device. By securing both legs to each other after applying traction, the leg(s) now becomes a natural splint for one another, which offers a secondary means of stabilization and immobilization after the desired traction is achieved.
• In order to accomplish the above listed modification, I will also be changing the overall shape and design of the original device to accommodate the usage of both legs shown in my drawings (FIGS. 5,6,7,8,10,11,12,13,14). The original device has a bottle nose shape at the end near the traction ratchet strap assembly housing depicted in FIGS. 1,3,6,9; the BTSD will be squared off at this end.
• I will be adding a unique sliding assembly design for the unilateral femur fracture option shown in FIGS. 8,10,11,12,13,14, that will allow the ratchet traction strap housing to lock in a chosen position made by the provider (left side or right side), this will depend on which leg is injured, this action will allow the device to be applied to which leg is injured without having to reposition it. As mentioned, the utilization of both legs now also offers the shock position to be applied once device is secured. (The shock position is achieved by elevating both legs up while the patient remains flat on their back, this is done with priority trauma patients; it shunts blood from the legs to the core of body). The BTSD will come optional to opt out of the sliding ratchet housing assembly, replacing it with two fixed ratchet strap housing assemblies mounted side by side on the device frame, shown in FIGS. 5,6,7.
• The BTSD ratchet device on both options (unilateral/bilateral) will also come designed to accept a handheld turning device on either end for a more stable uninterrupted turn while applying traction, this allows the provider to achieve more leverage while traction force is being applied without chance of premature release, this also means providing a less painful method compared to the original devices manually hand turned dial assembly. This handheld device will either be a separate tool or come pre attached to the ratchet strap assembly device. Having utilized this original turn dial method myself, I personally know how difficult it can be to turn the dial once you start reaching the optimal amount of traction needed. Shown in FIGS. 5,6,7,8,11,12,13,14.
• This may be the most important and unique modification I have made to the original device. As mentioned above in the usage of the original device, the original device is designed to anchor itself to the ischium/pubic/thigh area of the upper injured leg using a Velcro strap. This strap is meant to keep the device attached to the leg, so that once you start applying traction (pulling the leg away from the hip for realignment) the device will stay in place. Having using the original device numerous times in my career, while traction is being applied, the anchored pubic strap has a tendency to slide down the leg and displace itself out of its secured point whether the patient is still clothed or not, resulting in a loss of traction. This has shown to be very painful to the patient because you have to start the process all over, this is a design flaw in my opinion. Rule of thumb, you never apply traction if you could lose it, this can result in further injury. I developed a different system by incorporating dual shoulder straps that attach to the upper frame of the BTSD, shown in FIGS. 5,6,7,8,11,12; therefore using the shoulders and upper body of the patient as the anchor point, not the injured leg. I also provided the BTSD with a secondary abdominal strap (also attached to BTSD frame shown in FIGS. 5,6,7,8,11,12) for additional means of securing if needed. By doing it this way, (1) I not only minimize the possibility of a loss of traction, (2) I provide a less painful method for patient application, (3) I provide a more secured traction anchor point by moving the original devices positioned anchor strap far from the injury site to the shoulders/abdomen. Shoulder straps can either be applied in a criss crossed method on the upper body or used as parallel running straps on each shoulder.
• The original device comes with a tripod assembly that allows the splint to be elevated after usage for positional comfort and medical advantages, shown in FIGS. 1,3,4,6,8,9. As mentioned before, the original devices tripod assembly only allows this elevation to be done to one leg due to being made for only one leg. The BTSD allows both legs to be elevated together, placing the patient in the shock position, this position helps aid with any drop in blood pressure. The original devices tripod assembly is bended steel and is designed to lock in place once it is set in either position (elevated or not). The issues I've found with the original devices tripod assembly is that this metal is smooth and slides on most surfaces during application (concrete, gravel, grass, snow, bed linen) once set in the elevated position. This unnecessary movement has found to be very painful for the patient. The modification I made; I applied a rubber coating (depicted in FIGS. 5,6,7,8,10,11,12) to the metal that makes contact to the surface. This action minimizes the sliding possibility that I mentioned earlier during/after the application, which then offers the patient with a less painful experience.

Claims

1. A traction splint comprising: A frame having two parallel side members that run vertical, each of said side vertical members will be joined by two horizontal frame members to form a rectangular frame shape,Each vertical side frame bar will comprise of:(a) a tube,(b) a rod telescopically received by said tube for adjusting the extent of said rod, and(c) a releasable locking device receiving said rod and said tube for releasable retaining the adjusted extent of said rod;

2. BTSD unilateral femur fracture version will come with a sliding ratchet strap housing assembly will be made to lock in and out of two grooved positions found on the device horizontal frame. (a) The BTSD will also have the option to come complete with two fixed ratchet strap assembly housings to allow the ability to treat bilateral closed mid shaft femur fractures simultaneously at the same time.

3. Dual shoulder straps will be used for securing device to patient for traction, along with an additional abdominal strap for securing device to patient once traction is achieved.

4. Rubber coating will be on tripod assembly for decreased movement on surfaces.

5. Ratchet assembly housing will have a traction applicator site found on both end for means of application convenience and ambidextrous use. (a) Handheld lever ratchet device will come optional to be pre attached to ratchet assembly or be a separate tool used for applying traction.

6. BTSD will utilize both legs during the securing process of device, now offering the shock position if needed. (a) Ankle strap will be made optional to come already pre attached to ratchet strap.