In vitro biomechanical testing of different configurations of acrylic external skeletal fixator constructs.

Autor: Tyagi SK, Aithal HP; Dr. Hari Prasad Aithal, MVSc, PhD, Division of Surgery, Indian Veterinary Research Institute, Izatnagar-243 122, Uttar Pradesh, India, Phone: +91 0581 2315262, Fax: +91 0581 2303284, E-mail: aithal@ivri.res.in or hpaithal@rediffmail.com., Kinjavdekar P, Amarpal, Pawde AM, Srivastava T, Singh J, Madhu DN
Jazyk: angličtina
Zdroj: Veterinary and comparative orthopaedics and traumatology : V.C.O.T [Vet Comp Orthop Traumatol] 2015; Vol. 28 (4), pp. 227-33. Date of Electronic Publication: 2015 May 22.
DOI: 10.3415/VCOT-14-07-0102
Abstrakt: Objective: To evaluate the in vitro biomechanical properties of four different configurations of acrylic external skeletal fixator constructs.
Materials and Methods: Simulated bone constructs were prepared using two segments of 20 mm ultra-high-density polyethylene rods with a gap of 5 mm. The full pins (1.5 mm) were passed through the proximal and distal segments of ultra-high-density polyethylene rods, in the same plane, parallel to each other in configuration U, and were crossed in the M1, M2 and C configurations at a 90° angle to each other. Configuration U was a single bilateral uniplanar construct, M1 was a double orthogonal bilateral construct, M2 was a double orthogonal bilateral construct with proximal and distal connecting articulations, and C was a double orthogonal bilateral construct with proximal and distal circumferential articulations. Temporary scaffolds of different external skeletal fixator configurations were constructed using commercially available polyvinyl chloride pipes (20 mm) connected and secured to the fixation pins at a fixed distance from the rods. Acrylic powder (polymer) mixed with liquid (monomer) was poured into the pipes and allowed to solidify to form the side bars and rings. The external skeletal fixator constructs were then subjected to axial compression, cranio-caudal three-point bending and torsion (n = 4 each) using a universal testing machine. Mechanical parameters, namely stress, strain, modulus of elasticity, stiffness and bending moment of fixator constructs, were determined from load-displacement curves.
Results: Configuration U was the weakest and configuration C was the strongest under all the testing modes. Under compression, the M1, M2 and C configurations were similar. Under bending, a significant difference was observed among the uniplanar, multiplanar and circular configurations with no difference between M1 and M2. However, under torsion, all the external skeletal fixator configurations differed significantly.
Clinical Significance: The freeform external skeletal fixator using acrylic as a replacement for a metallic bar may be useful to treat bone fractures and luxations in small animals, as it is mechanically strong, lightweight, economical, and pins can be passed from any direction depending upon the clinical situation.
Databáze: MEDLINE