Objective To review the research progress on the three-dimensional (3D) reconstruction and visual ization of peri pheral nerve. Methods Literature about the research on the 3D reconstruction and visual ization of peripheral nerve both at home and abroad were extensively reviewed and thoroughly analyzed. Results The appl ication of 3D reconstruction and visual ization technology was capable of not only reappearing the 3D outer contour and spatial adjacent relationship of peripheral nerve veritably but also displaying, rotating, zooming, dividing and real-time measuring their 3D internal structure and the del icate pathways in any direction either separately or totally. Prel iminary achievements were achievedin terms of brachial plexus, lumbosacral plexus, the functional cluster of nerve trunk, intramuscular nerve distribution pattern, peripheral nerve regeneration and the 3D reconstruction and visual ization research of complex tissue including peripheral nerve. However, the research on the visual ization of peripheral nerve was still in the initial stage since such problems as recognition, segmentation, registration and fusion of the peripheral nerve information were not resolved yet. Conclusion Researching 3D reconstruction and visual ization of the peripheral nerve is of great value for updating the diagnosis and treatment principle of peripheral nerve injury, improving its diagnosis and treatment method and launching a new way for the studying and teaching, which may be a new growing point for the peripheral nerve surgery.
ObjectiveTo review the research progress of medicine biomaterials in prevention and treatment of adhesion after tendon injury, and to provide reference for clinical treatment.MethodsThe literature on the application of medical biomaterials in the prevention and treatment of tendon adhesions in recent years was reviewed, and the biological process, treatment methods, and current status of tendon adhesions were summarized.ResultsTendon adhesion as part of the healing process of the tendon is the biological response of the tendon to the injury and is also a common complication of joint dysfunction. Application of medical biomaterials can achieve better biological function of postoperative tendon by reducing the adhesion of peritendon tissues as far as possible without adversely affecting the tendon healing process.ConclusionThe use of medical biomaterials is conducive to reduce the adhesion of tendon after operation, and the appropriate anti-adhesion material should be selected according to the patients’ condition and surgical needs.