hind limb造句
1. The hind limbs were strong and apparently adapted for scratch-digging, and Hyperodapedon could presumably dig up edible tubers and roots.
2. To observe the histomorphological changes in hind limb triceps surae in rats with hSCI 6 weeks following OEC transplantation.
3. There was no progression of the hind limb motor function with complete spinal cord injury.
4. The pain threshold of right hind limb, sciatic nerve function index(SFI)and pathological change were observed.
5. An animal model of acute hind limb ischemia reperfusion was developed by clamping abdominal aorta of rats.
6. We explored the effect on the hind limb motor as well as sensory function recovery.
7. Neurologic function score of hind limb was observed after operation.
8. Objective To observe the recovery process of hind limb function following complete spinal cord transection injury and discuss corresponding mechanism.
9. Objective To establish the acute hind limb ischemia on Wistar rat with diabetes mellitus.
10. The animal is able to stand up on its hind limbs.
11. The forelimbs are less than half the length of the hind limbs, which suggests an obligatory bipedal posture.
12. Transplantation of bone marrow stem cells can improve the hind limb ischemia in the rat serum VEGF levels, and promote ischemic muscle tissue of angiogenesis.
13. Conclusion Transplantation of HAECs into the hemiseetioned spinal cord of Rhesus monkey was effective in improving the locomotor function of hind limb.
14. The thickness and the ratio of intima area of the iliofemoral artery of the injured hind limb were decreased, while the stenosis extent was improved.
15. In addition to the normal group, the other groups were cut the femoral artery ligation of the left hind limb, built rat hind limb ischemia model.
16. Objective To observe the changes of heme oxygenase 1 (HO 1) expression in the skeletal muscle after ischemia reperfusion of hind limb in rats.
17. In use 14 days, 28 days, using laser Doppler blood flow measurement instrument detection of ischemic hind limb perfusion.
18. Objective To study the effect of transverse tibial bone transport method on stimulating revascularization in a dog hind limb ischemic model.
19. AIM:To investigate the effects of muscle transfection adeno-associated virus(AAV)-mediated CD151 gene on the neovascularization and assess the limb function in the rat model of hind limb ischemia.
20. First successfully use of STZ diabetic rat model, and then use ligation of the left hind limb iliac artery get the DLASO rat model.
21. Conclusion: It indicates that SCI site upper and lower spinal nerve roots anastomosis can maintain the neurons morphology and improve rats hind limb function.
22. Conclusions Fetal spinal transplants can inhibit the apoptosis and improve rats hind limb function after SCI.
23. The absolute growth of the head weight, forelimb weight, hind limb weight, body length, forelimb length, hind limb length, shin length and the third toe length showed a pattern of normal distribution.
24. Weightlessness or simulated weightlessness has been shown to cause atrophy, reduced functional capacity, and increased fatigue in rat hind limb skeletal muscles.