Motor nerves and sensory nerves conduct signals in different directions and function in different ways.In the surgical treatment of peripheral nerve injuries,the best prognosis is obtained by keeping the motor and sen...Motor nerves and sensory nerves conduct signals in different directions and function in different ways.In the surgical treatment of peripheral nerve injuries,the best prognosis is obtained by keeping the motor and sensory nerves separated and repairing the nerves using the suture method.However,the clinical consequences of connections between sensory and motor nerves currently remain unknown.In this study,we analyzed the anatomical structure of the rat femoral nerve,and observed the motor and sensory branches of the femoral nerve in the quadriceps femoris.After ligation of the nerves,the proximal end of the sensory nerve was connected with the distal end of the motor nerve,followed by observation of the changes in the newly-formed regenerated nerve fibers.Acetylcholinesterase staining was used to distinguish between the myelinated and unmyelinated motor and sensory nerves.Denervated muscle and newly formed nerves were compared in terms of morphology,electrophysiology and histochemistry.At 8 weeks after connection,no motor nerve fibers were observed on either side of the nerve conduit and the number of nerve fibers increased at the proximal end.The proportion of newly-formed motor and sensory fibers was different on both sides of the conduit.The area occupied by autonomic nerves in the proximal regenerative nerve was limited,but no distinct myelin sheath was visible in the distal nerve.These results confirm that sensory and motor nerves cannot be effectively connected.Moreover,the change of target organ at the distal end affects the type of nerves at the proximal end.展开更多
基金supported by a grant from the Ministry of Science and Technology 973 Project Planning of China,No.2014CB542201a grant from National High-Technology Research and Development Program of China(863 Program),No.SS2015AA020501+3 种基金the National Natural Science Foundation of China,No.31571235,31571236,31271284,31171150a grant from the Ministry of Education Innovation Team of China,No.IRT1201the Educational Ministry New Century Excellent Talents Support Project of China,No.BMU20110270a grant from the Ministry of Health of the Public Welfare Industry Special Scientific Research of China,No.201302007
文摘Motor nerves and sensory nerves conduct signals in different directions and function in different ways.In the surgical treatment of peripheral nerve injuries,the best prognosis is obtained by keeping the motor and sensory nerves separated and repairing the nerves using the suture method.However,the clinical consequences of connections between sensory and motor nerves currently remain unknown.In this study,we analyzed the anatomical structure of the rat femoral nerve,and observed the motor and sensory branches of the femoral nerve in the quadriceps femoris.After ligation of the nerves,the proximal end of the sensory nerve was connected with the distal end of the motor nerve,followed by observation of the changes in the newly-formed regenerated nerve fibers.Acetylcholinesterase staining was used to distinguish between the myelinated and unmyelinated motor and sensory nerves.Denervated muscle and newly formed nerves were compared in terms of morphology,electrophysiology and histochemistry.At 8 weeks after connection,no motor nerve fibers were observed on either side of the nerve conduit and the number of nerve fibers increased at the proximal end.The proportion of newly-formed motor and sensory fibers was different on both sides of the conduit.The area occupied by autonomic nerves in the proximal regenerative nerve was limited,but no distinct myelin sheath was visible in the distal nerve.These results confirm that sensory and motor nerves cannot be effectively connected.Moreover,the change of target organ at the distal end affects the type of nerves at the proximal end.