The effect of a silicone sheet on sciatic nerve healing in rats

[1]  A. Hoke,et al.  Macroporous nanofiber wraps promote axonal regeneration and functional recovery in nerve repair by limiting fibrosis. , 2019, Acta biomaterialia.

[2]  P. Beredjiklian,et al.  Peripheral nerve injury, scarring, and recovery , 2018, Connective tissue research.

[3]  A. Varejão,et al.  Peripheral nerve injury and axonotmesis: State of the art and recent advances , 2018 .

[4]  J. Antel,et al.  Peripheral Nerve Injury Induces Persistent Vascular Dysfunction and Endoneurial Hypoxia, Contributing to the Genesis of Neuropathic Pain , 2015, The Journal of Neuroscience.

[5]  A. Sadosky,et al.  Pain severity and the economic burden of neuropathic pain in the United States: BEAT Neuropathic Pain Observational Study , 2014, ClinicoEconomics and outcomes research : CEOR.

[6]  R. Zigmond,et al.  A Critical Role for Macrophages Near Axotomized Neuronal Cell Bodies in Stimulating Nerve Regeneration , 2013, The Journal of Neuroscience.

[7]  Changshui Weng,et al.  Changes in nerve microcirculation following peripheral nerve compression☆ , 2013, Neural regeneration research.

[8]  P. Bruneval,et al.  Reduction of neural scarring after peripheral nerve suture: an experimental study about collagen membrane and autologous vein wrapping. , 2012, Chirurgie de la main.

[9]  Eric C. Soller,et al.  Common features of optimal collagen scaffolds that disrupt wound contraction and enhance regeneration both in peripheral nerves and in skin. , 2012, Biomaterials.

[10]  D. Geschwind,et al.  Accelerating axonal growth promotes motor recovery after peripheral nerve injury in mice. , 2011, The Journal of clinical investigation.

[11]  R. Ogawa,et al.  The tensile reduction effects of silicone gel sheeting. , 2010, Plastic and reconstructive surgery.

[12]  R. Ogawa,et al.  Mechanical Receptor–Related Mechanisms in Scar Management: A Review and Hypothesis , 2010, Plastic and reconstructive surgery.

[13]  W. Ngeow Scar less: a review of methods of scar reduction at sites of peripheral nerve repair. , 2010, Oral surgery, oral medicine, oral pathology, oral radiology, and endodontics.

[14]  A. Tzankov,et al.  Hypertrophic Scars and Keloids—A Review of Their Pathophysiology, Risk Factors, and Therapeutic Management , 2009, Dermatologic surgery : official publication for American Society for Dermatologic Surgery [et al.].

[15]  G. Bove Epi-perineurial anatomy, innervation, and axonal nociceptive mechanisms. , 2008, Journal of bodywork and movement therapies.

[16]  S. Yetişer,et al.  An Analysis of Time-Dependent Changes of Neurotrophic Factors (BDNF, CNTF) in Traumatic Facial Nerve Injury of a Nerve-Cut and Nerve-Crush Model in Rats , 2008, Otology & neurotology : official publication of the American Otological Society, American Neurotology Society [and] European Academy of Otology and Neurotology.

[17]  H. Kocaeli,et al.  Citicoline improves functional recovery, promotes nerve regeneration, and reduces postoperative scarring after peripheral nerve surgery in rats. , 2007, Surgical neurology.

[18]  D. Kriegel,et al.  Topical treatments for hypertrophic scars. , 2006, Journal of the American Academy of Dermatology.

[19]  S. O'Kane,et al.  Scarring impedes regeneration at sites of peripheral nerve repair , 2006, Neuroreport.

[20]  Dar-Yu Yang,et al.  Enhanced regeneration in injured sciatic nerve by human amniotic mesenchymal stem cell , 2006, Journal of Clinical Neuroscience.

[21]  K. Ley,et al.  Macrophage differentiation to foam cells. , 2005, Current pharmaceutical design.

[22]  M. Gold,et al.  Prevention of Hypertrophic Scars and Keloids by the Prophylactic Use of Topical Silicone Gel Sheets Following a Surgical Procedure in an Office Setting , 2001, Dermatologic surgery : official publication for American Society for Dermatologic Surgery [et al.].

[23]  H. Lee Compound Nerve Action Potential of Common Peroneal Nerve Recorded at Fibular Neck: Its Clinical Usefulness , 2001, American journal of physical medicine & rehabilitation.

[24]  P. Reeh,et al.  Rat peripheral nerve components release calcitonin gene-related peptide and prostaglandin E2 in response to noxious stimuli: evidence that nervi nervorum are nociceptors * S. K. Sauer and G. M. Bove contributed equally to this study. * , 1999, Neuroscience.

[25]  R. Tiel,et al.  Nerve action potential recording method and equipment. , 1996, Neurosurgery.

[26]  S. Jee,et al.  Hydration, not silicone, modulates the effects of keratinocytes on fibroblasts. , 1995, The Journal of surgical research.

[27]  J. Evans,et al.  Non-pressure treatment of hypertrophic scars. , 1985, Burns, including thermal injury.

[28]  D. Pleasure,et al.  Regeneration after nerve transection: effect of inhibition of collagen synthesis. , 1974, Experimental neurology.

[29]  J Haftek,et al.  Electron-microscope observations on the effects of localized crush injuries on the connective tissues of peripheral nerve. , 1968, Journal of anatomy.

[30]  J. Young,et al.  THE RATE OF REGENERATION OF NERVE , 1942 .

[31]  M. Teixeira,et al.  Concept of acute neuropathic pain. The role of nervi nervorum in the distinction between acute nociceptive and neuropathic pain Conceito de dor neuropática aguda. O papel do nervi nervorum na distinção entre dores agudas nociceptiva e neuropática , 2016 .

[32]  A. Bekar,et al.  Investigation of the dose-dependency of citicoline effects on nerve regeneration and functional recovery in a rat model of sciatic nerve injury. , 2014, Turkish neurosurgery.

[33]  Thomas A. Mustoe, MD, FACS Evolution of Silicone Therapy and Mechanism of Action in Scar Management , 2007, Aesthetic Plastic Surgery.

[34]  A. Light,et al.  Calcitonin gene-related peptide and peripherin immunoreactivity in nerve sheaths. , 1995, Somatosensory & motor research.

[35]  M. Tohyama,et al.  Effects of nerve crush and transection on mRNA levels for nerve growth factor receptor in the rat facial motoneurons. , 1991, Brain research. Molecular brain research.

[36]  D F Stegeman,et al.  Models and analysis of compound nerve action potentials. , 1991, Critical reviews in biomedical engineering.