Limb amputation is a salvage surgical procedure relatively common in small animals and other species. Wild animals after forelimb amputation have many difficulties in returning to normal life because forelimbs of arboreal quadrupeds are used to carry most of their weight and hold feed. This study investigated forelimb amputation and its outcomes in two raccoon dogs. Two male raccoon dogs presented for radio-ulnar fractures. Shoulder disarticulation amputation was applied to protect the thoracic cavity and reduce surgical time. After the operation, they could run comparatively faster with three legs. As they had good body condition and regular appetite during the hospitalization period, they were released to the area from which they were captured. Six months after the release, one of the raccoon dogs represented for hair loss by mites. It showed satisfactory function of the existing three limbs. Thus, amputation of forelimb could be considered as a treatment in raccoon dogs with severe limb status.

Environmental Enrichment (EE) alone is not capable of enhancing the fine digit and the forelimb functions. Therefore, we applied modified constraint-induced movement therapy (mCIMT) under the influence of EE to assess its effect on promoting improved forelimb sensorimotor functions. Focal ischemic brain injury was produced in Sprague-Dawley rats (60 rats, 250±50 g) through middle cerebral artery occlusion (MCAO). Before MCAO induction, all rats were trained in modified limb placing tests and reaching tasks for 1 week. Then they were randomly divided into three groups: Group I: application of standard environment (SE) after MCAO induction (n=20), Group II: application of EE after MCAO induction (n=20), Group III: MCAO+EE, mCIMT and task-oriented training that was initiated at 10th day after MCAO induction (n=20). We also applied mCIMT (between 9 AM and 5 PM/daily) which included restraining the forelimb ipsilateral to the lesion using the 'Jones & Schallert' method. We assessed the change of modified limb placing, single pellet reaching test and the immunoreactivity of BDNF by immunohistochemistry (pre, 1st, 5th, 10th and 20th day). Group I showed no improved outcome, whereas group II and III significantly improved on the use of the forelimb and the immunoreactivity. The qualitative analysis of the skilled reaching test, of group III showed the greatest improvement in the fine digit and the forelimb function. These results suggest that EE combined with mCIMT is more functional in promoting enhanced fine digit and forelimb functional movements.