Biomechanical comparison with cervical spines of porcin, calf and human
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    Abstract:

    Objective To identify whether the calf or porcine cervical spine is a suitable substitute specimen for vitro spine study by comparing the biomechanical characteristics of porcin, calf and human cervical segments. Method Twelve fresh (age: 1 year; average weight: 60-80 kg) porcine cervical spines (C0-T1) and twelve fresh (age: 1 week; average weight: 40-50 kg) calf cervical spines (C0T1) were taken. The twelve specimens were divided into two groups. One group of six was divided into C2-C3, C4-C5, C6-C7; the other group was divided into C3-C4, C5-C6. The muscle and soft tissue of each functional segment (C2-C3, C3-C4, C4-C5, C5-C6, C6-C7) were removed, preserving the full ligament, and then each functional segment was tested respectively. The flexion/extension, axial left/right rotation, and right/left lateral bending were applied continuously on the range of motion(ROM) and neutral zone(NZ). The findings in the study were compared with the published data of human cervical spine. Results In rotating and extension/flexion of NZ, the calf and human cervical spines were relatively similar, but they were far greater than that of the porcine cervical spine. In the lateral bending, the NZ of porcine C2-C3 was 69.7% of human, the NZ of porcine C6-C7 was 60.4% of human, and other segments were far smaller than human; the calf cervical spines were different from human, except the C2-C3. In bending and extension flexion of ROM, the porcine and human cervical spines were very similar. But they were far less than the calf, approximately 50% of calf; in the rotation, C2-C3 of porcin was about 69% of human, and other segments were less than the human. The calf cervical spine was much larger than human, and the smallest gap was in C4-C5 of 3.5 °. Conclusions The C2-C3 and C6-C7 of porcin can replace the human cervical spine in nearly all biomechanical experiments on spines. The ROM of calf is bigger than human cervical, but the C2-C3 and C3-C4 of calf are similar to human in biomechanics.

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SHENG Sunren, XU Huazi, WANG Xiangyang, MAO Fangmin, HONG Deliang. Biomechanical comparison with cervical spines of porcin, calf and human[J]. Journal of medical biomechanics,2010,25(5):380-384

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  • Received:May 20,2010
  • Revised:June 23,2010
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