Taylor Spatial Frame

A Taylor Spatial Frame on the left leg consisting of metal rings, pins and struts.

The Taylor Spatial Frame (TSF) is an external fixator used by podiatric and orthopaedic surgeons to treat complex fractures[1] and bone deformities. The medical device shares a number of components and features of the Ilizarov apparatus. The Taylor Spatial Frame is a hexapod device based on a Stewart platform, and was invented by orthopaedic surgeon Charles Taylor. The device consists of two or more aluminum or carbon fibre rings connected by six struts. Each strut can be independently lengthened or shortened to achieve the desired result, e.g. compression at the fracture site, lengthening, etc. Connected to a bone by wires or half pins, the attached bone can be manipulated in six axes (anterior/posterior, varus/valgus, lengthen/shorten.) Angular, translational, rotational, and length deformities can all be corrected simultaneously with the TSF. TAYLOR SPATIAL FRAME and TSF are trademarks of global orthopaedics company, Smith & Nephew.

The TSF is used in both adults and children. It is used for the treatment of acute fractures, mal-unions, non-unions and congenital deformities. It can be used on both the upper and lower limbs. Specialised foot rings (as seen in the picture) are also available for the treatment of complex foot deformities.

Post Operative procedure

Correcting deformities

Once the fixator is attached to the bone, the deformity is characterised by studying the postoperative x-rays, or CT scans. The angular, translational, rotational, and length deformity values are then entered into specialised software, along with parameters such as the ring size and initial strut lengths. The software then produces a "prescription" of strut changes that the patient follows. The struts are adjusted daily by the patient until the correct alignment is achieved.

Correction of the bone deformity can typically take 3–4 weeks. For simpler fractures where no deformity is present the struts may still be adjusted post-surgery to achieve better bone alignment, but the correction takes less time. For individuals performing strut adjustment. a hand mirror may be useful to aid in reading the strut settings.

Once the deformity has been corrected, the frame is then left on the limb until the bone fully heals. This often takes 3–6 months, depending on the nature and degree of deformity.

Dynamisation

When the bone has sufficiently healed, the frame is dynamised. This is a process of gradually reducing the supportive role of the frame by loosening the struts one at a time. This causes force that was previously transmitted around the fracture site and through the struts to be transmitted through the bone.

Removal of frame

After a period of dynamisation, the frame can be removed. This is a relatively simple procedure often performed under gas and air analgesic.

The rings are removed by cutting the olive wires using wire cutters.

The wires are then removed by first sterilising them and then pulling them through the leg using pliers. The threaded half pins are simply unscrewed.

Use for fractures

External fixation via TSFs tends to be less invasive than internal fixation and therefore has lower risks of infection associated with it. This is particularly relevant for open fractures.

For open comminuted fractures of the tibial plateau the use of circular frames (like TSF) has markedly reduced infection rates.[2]

The time taken for bones heal (time to union) varies depending on a number of factors. Open fractures take longer to heal, and infection will delay union. For tibial fractures union is generally achieved between 3 and 6 months

[3]

though to union can be a rather subjective,[4] and the dynamistion process combined with irregular appointment may interfere with these measures.

Infection

Site with a lot of dried exudate that might merit dressing
Site with "weeping" exudate that might merit dressing
Site with crust and no exudate: some advice suggests maintaining crust
Pin sites in various states

Infection of the pin sites (points where wires enter the skin) of the TSF is a common complication (estimates are that it affects 20% percent of patients). In extreme cases this can result in osteomylitis which is difficult to treat. However, pin site infections are normally successfully treated with a combination of oral antibiotics, intravenous antibiotics, or removal of the affected pin.

Pin sites are classified as percutaneous wounds

Best practice for maintenance of pin sites is unclear and requires more study.[5] Common practice involves the regular cleaning of the pin sites with chlorhexidine gluconate solution (advice varies from every day to every week), regular showering, and dressing of sites that exude liquid with non-woven gauze soaked in chlorhexidine gluconate. This dressing can be held in place with bungs or makeshift clips or by twisting around the wire.

Advice varies as to whether scab tissue or any "crust" surrounding a pin site should be maintained. With some literature arguing that this acts as a barrier to entry, while other literature argues this may increase the risk of infection.

Cost of treatment

The taylor spatial frame is general tool for fixating and moving bone fragments in a gradual way. This means that costs can vary dramatically.

The cost of a frame itself was around 2,500 pounds sterling in 2006 [6] though this cost will vary depending on the number of components in the frame.

Cases involving treatment of nonunion of fracture are complicated and time-consuming with costs of around 30,000 pounds sterling in 2006 [4] and treatment can take between 1 and 2 years. Of these costs about 23,000 pound sterling reflect follow-up outpatient treatment and cost for hospital stays, which can vary dramatically between patients.

Further reading

See also

References

  1. Eidelman, M,; Katzman, A. (October 2008). "Treatment of complex tibial fractures in children with the taylor spatial frame". Orthopedics. 31. PMID 19226013.
  2. Department of Surgery, St. Michael's Hospital and the University of Toronto, ON, Canada. (Dec 2006). "Open reduction and internal fixation compared with circular fixator application for bicondylar tibial plateau fractures. Results of a multicenter, prospective, randomized clinical trial." (PDF). J Bone Joint Surg Am. 88: 2613–23. PMID 17142411. doi:10.2106/JBJS.E.01416.
  3. Barron E, Rambani R, Bailey H, Sharma HK (2013). "Cost implications of the physiotherapy management of complex tibial fractures treated with circular frames.". Strategies Trauma Limb Reconstr. 8 (3): 169–71. PMC 3800517Freely accessible. PMID 23943063. doi:10.1007/s11751-013-0173-8.
  4. 1 2 Patil S, Montgomery R (2006). "Management of complex tibial and femoral nonunion using the Ilizarov technique, and its cost implications.". J Bone Joint Surg Br. 88 (7): 928–32. PMID 16798998. doi:10.1302/0301-620X.88B7.17639.
  5. Timms, Vincent, Santy-Tomlinson, Hertz. "Guidance on pin site care" (PDF). Royal College of Nursing. Royal College of nursing. Retrieved 15 November 2015.
  6. Patil S, Montgomery R (2006). "Management of complex tibial and femoral nonunion using the Ilizarov technique, and its cost implications.". J Bone Joint Surg Br. 88 (7): 928–32. PMID 16798998. doi:10.1302/0301-620X.88B7.17639.
This article is issued from Wikipedia. The text is licensed under Creative Commons - Attribution - Sharealike. Additional terms may apply for the media files.