In vitro evaluation of four methods of attaching transfixation pins into a fiberglass cast for use in horses

Scott R. McClure From the Departments of Large Animal Medicine and Surgery (McClure, Watkins) and Mechanical Engineering (Hogan), Texas A&M University, College Station, TX 77843-4475.

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Jeffrey P. Watkins From the Departments of Large Animal Medicine and Surgery (McClure, Watkins) and Mechanical Engineering (Hogan), Texas A&M University, College Station, TX 77843-4475.

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Harry A. Hogan From the Departments of Large Animal Medicine and Surgery (McClure, Watkins) and Mechanical Engineering (Hogan), Texas A&M University, College Station, TX 77843-4475.

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 PhD

Abstract

Objective

To compare the axial stability provided by 4 methods of attaching transfixation pins into a fiberglass cast.

Design

Axial stability of 4 methods of transfixation pin attachment to a fiberglass cast cylinder was determined in vitro. Methods of attachment included simple incorporation of the pins into the cast, placement of a washer and nut on the pin and incorporation into the cast, extension of pins beyond the cast and attachment to a steel halo, and washers within the cast and attachment to a steel halo.

Population

A model was designed to simulate a transfixation cast applied to the equine metacarpus. 8 identical constructs were present in each of the 4 groups. 6 fiberglass cylinders were also tested to identify the contribution of the cast cylinder to the overall stability of the transfixation cast.

Procedure

Load-displacement curves were recorded, and a stiffness modulus was calculated for each treatment group and for a simple fiberglass cylinder without transfixation pins.

Result and Conclusion

There was no significant difference among the 4 methods of attachment. The fiberglass cast material appears to be the major determinant of axial stability. (Am J Vet Res 1996;57:1098–1101)

Abstract

Objective

To compare the axial stability provided by 4 methods of attaching transfixation pins into a fiberglass cast.

Design

Axial stability of 4 methods of transfixation pin attachment to a fiberglass cast cylinder was determined in vitro. Methods of attachment included simple incorporation of the pins into the cast, placement of a washer and nut on the pin and incorporation into the cast, extension of pins beyond the cast and attachment to a steel halo, and washers within the cast and attachment to a steel halo.

Population

A model was designed to simulate a transfixation cast applied to the equine metacarpus. 8 identical constructs were present in each of the 4 groups. 6 fiberglass cylinders were also tested to identify the contribution of the cast cylinder to the overall stability of the transfixation cast.

Procedure

Load-displacement curves were recorded, and a stiffness modulus was calculated for each treatment group and for a simple fiberglass cylinder without transfixation pins.

Result and Conclusion

There was no significant difference among the 4 methods of attachment. The fiberglass cast material appears to be the major determinant of axial stability. (Am J Vet Res 1996;57:1098–1101)

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