Zusammenfassung
Zu diesem Thema gibt es aufgrund von Kriegsverletzungen, Verkehrsunfällen und anderen Ursachen von Nervenverletzungen eine besonders umfangreiche Literatur. Dargestellt sind die allgemeinen und speziellen Reaktionen peripherer Nerven nach Kompression und Perkussion, Kontinuitätsunterbrechung, Spinalwurzelausriss, Nervenüberstreckung, Frost- und Hitzeschäden sowie Strahlen- und Stromschäden.
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Literatur
Ahmed MR, Basha SH, Gopinath D, Muthusamy R, Jayakumar R (2005) Initial upregulation of growth factors and inflammatory mediators during nerve regeneration in the presence of cell adhesive peptide-incorporated collagen tubes. J Peripher Nerv Syst 10: 17–30
Aprile I, Caliandro P, La Torre G et al. (2005) Multicenter study of peroneal mononeuropathy: clinical, neurophysiologic, and quality of life assessment. J Peripher Nerv Syst 10: 259–268
Baptista AF, Goes BT, Menezes D et al. (2009) PEMF fails to enhance nerve regeneration after sciatic nerve crush lesion. J Peripher Nerv Syst 14: 285–293
Baptista AF, Gomes JR, Oliveira JT, Santos SM, Vannier-Santos MA, Martinez AM (2008) High- and low-frequency transcutaneous electrical nerve stimulation delay sciatic nerve regeneration after crush lesion in the mouse. J Peripher Nerv Syst 13: 71–80
Blexrud MD, Lee DA, Windebank AJ, Brunden KR (1990) Kinetics of production of a novel growth factor after peripheral nerve injury. J Neurol Sci 98: 287–299
Bontioti E, Kanje M, Lundborg G, Dahlin LB (2005) Endto-side nerve repair in the upper extremity of rat. J Peripher Nerv Syst 10: 58–68
Bozkurt A, Deumens R, Beckmann C et al. (2009) In vitro cell alignment obtained with a Schwann cell enriched microstructured nerve guide with longitudinal guidance channels. Biomaterials 30: 169–179
Ciaramitaro P, Mondelli M, Logullo F et al. (2010) Traumatic peripheral nerve injuries: epidemiological findings, neuropathic pain and quality of life in 158 patients. J Peripher Nerv Syst 15: 120–127
Conti AM, Fischer SJ, Windebank AJ (1997) Inhibition of axonal growth from sensory neurons by excess nerve growth factor. Ann Neurol 42: 838–846
Donato G, Galasso O, Valentino P et al. (2009) Pathological findings in subsynovial connective tissue in idiopathic carpal tunnel syndrome. Clin Neuropathol 28: 129–135
Ducatman BS, Scheithauer BW (1983) Postirradiation neurofibrosarcoma. Cancer 51: 1028–1033
Dyck PJ, Thomas PK (2005) Peripheral neuropathy. Elsevier Saunders, Philadelphia
Farrell DF, Starr A (1968) Delayed neurological sequelae of electrical injuries. Neurology 18: 601–606
Fritzemeier CU (1985) Tierexperimentelle Untersuchungen über den Einfluß von ionisierenden Strahlen auf autologe Nerventransplantate. Habilitationsschrift. Düsseldorf
Fuhrmann T, Hillen LM, Montzka K, Woltje M, Brook GA (2010) Cell-cell interactions of human neural progenitorderived astrocytes within a microstructured 3D-scaffold. Biomaterials 31: 7705–7715
Gallant PE (1992) The direct effects of graded axonal compression on axoplasm and fast axoplasmic transport. J Neuropathol Exp Neurol 51: 220–230
Hahn K, Sirdofsky M, Brown A, Ebenezer G, Hauer P, Miller C, Polydefkis M (2006) Collateral sprouting of human epidermal nerve fibers following intracutaneous axotomy. J Peripher Nerv Syst 11: 142–147
Higashimori H, Whetzel TP, Carlsen RC (2008) Inhibition of inducible nitric oxide synthase reduces an acute peripheral motor neuropathy produced by dermal burn injury in mice. J Peripher Nerv Syst 13: 289–298
Hoffmann CFE, Marani E, Oestreicher AB, Thomeer RTWM (1993) Ventral root avulsion versus transection at the cervical 7 level of the cat spinal cord. Resto Neurol Neurosci 5: 291–302
Holtzer CA, Marani E, Lakke EA, Thomeer RT (2002) Repair of ventral root avulsions of the brachial plexus: a review. J Peripher Nerv Syst 7: 233–242
Hoogeveen JF, Troost D, Wondergem J, van der Kracht AH, Haveman J (1992) Hyperthermic injury versus crush injury in the rat sciatic nerve: a comparative functional, histopathological and morphometrical study. J Neurol Sci 108: 55–64
Jacobs JM, Myers R (1993) Adaptation of tibial nerve myelinated fibre parameters to reduced limb length caused by irradiation. Neuropathol Appl Neurobiol 19: 52–56
Kennett RP, Gilliatt RW (1991) Nerve conduction studies in experimental non-freezing cold injury: I. Local nerve cooling. Muscle Nerve 14: 553–562
Kieran SM, Cahill RA, Sheehan S, Barry MC (2004) Radiation-induced femoral arteritis. Ir Med J 97: 179–180
Krücke W (1974) Pathologie der peripheren Nerven. In: Olivecrona H, Tönnis W, Krenkel W (eds) Handbuch der Neurochirurgie, Bd VII/3. Springer, Berlin Heidelberg New York pp 1–267
Kvist M, Kanje M, Ekberg H, Corbascio M, Dahlin LB (2008) Costimulation blockade in transplantation of nerve allografts: long-term effects. J Peripher Nerv Syst 13: 200–207
Lindholm D, Thoenen H (eds) (1990) Role of neurotrophic factors in peripheral nerve regeneration. Springer, Berlin Heidelberg New York
Livesey FJ, Fraher JP (1992) Experimental traction injuries of cervical spinal nerve roots: a scanning EM study of rupture patterns in fresh tissue. Neuropathol Appl Neurobiol 18: 376–386
Love S, Gomez S (1984) Effects of experimental radiationinduced hypomyelinating neuropathy on motor end-plates and neuromuscular transmission. J Neurol Sci 65: 93–109
Mackinnon SE, Dellon AL (1988) Surgery of the peripheral nerve. Thieme, Stuttgart
Madduri S, Gander B (2010) Schwann cell delivery of neurotrophic factors for peripheral nerve regeneration. J Peripher Nerv Syst 15: 93–103
Matsuse D, Kitada M, Kohama M et al. (2010) Human umbilical cord-derived mesenchymal stromal cells differentiate into functional Schwann cells that sustain peripheral nerve regeneration. J Neuropathol Exp Neurol 69: 973–985
Mumenthaler M, Stöhr M, Müller-Vahl H (2007) Läsionen peripherer Nerven und radikuläre Syndrome. Thieme, Stuttgart New York
Mut M, Cataltepe O, Soylemezoglu F, Akalan N, Ozgen T (2004) Radiation-induced malignant triton tumor associated with severe spinal cord compression. Case report and review of the literature. J Neurosurg 100: 298–302
Ochoa J,Fowler TJ, GilliattRW(1972) Anatomical changes in peripheral nerves compressed by a pneumatic tourniquet. J Anat 113: 433–455
Oflazoglu B, Us O, Somay G, Bingol CA, Beyaz EA (2005) Isolated sural nerve neuropathies. J Peripher Nerv Syst 10: 392–393
Omura T, Sano M, Omura K, Hasegawa T, Doi M, Sawada T, Nagano A (2005) Different expressions of BDNF, NT3, and NT4 in muscle and nerve after various types of peripheral nerve injuries. J Peripher Nerv Syst 10: 293–300
Paolini S, Raco A, Di Stefano D, Esposito V, Ciappetta P (2006) Post-radiation intramedullary malignant peripheral nerve sheath tumor. J Neurosurg Sci 50: 49–53
Paul F, Zipp F (2006) Bilateral meralgia paresthetica after cesarian section with epidural analgesia. J Peripher Nerv Syst 11: 98–99
Pfister LA, Papaloizos M, Merkle HP, Gander B (2007) Nerve conduits and growth factor delivery in peripheral nerve repair. J Peripher Nerv Syst 12: 65–82
Pina-Oviedo S, Del Valle L, Baquera-Heredia J, Ortiz-Hidalgo C (2009) Immunohistochemical characterization of Renaut bodies in superficial digital nerves: further evidence supporting their perineurial cell origin. J Peripher Nerv Syst 14: 22–26
Preston DL, Ron E, Yonehara S, Kobuke T, Fujii H, Kishikawa M, Tokunaga M, Tokuoka S, Mabuchi K (2002) Tumors of the nervous system and pituitary gland associated with atomic bomb radiation exposure. J Natl Cancer Inst 94: 1555–1563
Raivich G, Hellweg R, Graeber MB, Kreutzberg GW (1990) The expression of growth factor receptors during nerve regeneration. Restor Neurol Neurosci 1: 217–223
Samii M (1990) Peripheral nerve lesions. Springer, Berlin Heidelberg New York
Schröder JM (1985) Degeneration und Regeneration nach Plexus-brachialis-Verletzung. In: Hase U, Reulen H-J (eds) Läsionen des Plexus brachialis. De Gruyter, Berlin New York, pp 65–70
Schröder JM (ed) (1999) Pathologie peripherer Nerven. Springer, Berlin Heidelberg New York
Schröder JM, Müller-Felber W (2009) Nebenwirkungen der Strahlentherapie auf periphere Nerven. In: Heinen F, Böhmer J, Hufschmidt AEA (eds) Pädiatrische Neurologie. Diagnose und Therapie mit Pediatric Clinical Scouts. Kohlhammer, Stuttgart, S 690–693
Schröder JM, Seiffert KE (1970) Die Feinstruktur der neuromatösen Neurotisation von Nerventransplantaten. Virchows Arch B Cell Pathol 5: 219–235
Schröder JM, Seiffert KE (1972) Untersuchungen zur homologen Nerventransplantation. Morphologische Ergebnisse. Zentralbl Neurochir 33: 103–118
Seddon HJ (1975) Surgical disorders of the peripheral nerves. Churchill Lingingstone, Edinburgh
Seddon HJ (1943) Three typies of nerve injury. Brain 66: 237–288
Seiler N, Schröder JM (1970) Beziehungen zwischen Polyaminen und Nucleinsäuren. II. Biochemische und feinstrukturelle Untersuchungen am peripheren Nerven während der Wallerschen Degeneration. Brain Res 22: 81–103
Shore-Freedman E, Abrahams C, Recant W, Schneider AB (1983) Neurilemomas and salivary gland tumors of the head and neck following childhood irradiation. Cancer 51: 2159–2163
Singh A, Kallakuri S, Chen C, Cavanaugh JM (2009) Structural and functional changes in nerve roots due to tension at various strains and strain rates: an in-vivo study. J Neurotrauma 26: 627–640
Sirdofsky MD, Hawley RJ, Manz H (1991) Progressive motor neuron disease associated with electrical injury. Muscle Nerve 14: 977–980
Soto O (2005) Radiation-induced conduction block: resolution following anticoagulant therapy. Muscle Nerve 31: 642–645
Stoll BA, Andrews JT (1966) Radiation-induced peripheral neuropathy. Brit Med J 1: 834–837
Sunderland S (ed) (1978) Nerves and nerve injuries. Churchill Livingstone, Edinburgh London New York
Tanaka K, Zhang QL, Webster HD (1992) Myelinated fiber regeneration after sciatic nerve crush: morphometric observations in young adult and aging mice and the effects of macrophage suppression and conditioning lesions. Exp Neurol 118: 53–61
Vujaskovic Z (1997) Structural and physiological properties of peripheral nerves after intraoperative irradiation. J Periph Nerv Sys 2: 343–349
Weis J, Alexianu ME, Heide G, Schröder JM (1993) Renaut bodies contain elastic fiber components. J Neuropathol Exp Neurol 52: 444–451
Weis J, Schröder JM (1989) Differential effects of nerve, muscle, and fat tissue on regenerating nerve fibers in vivo. Muscle Nerve 12: 723–734
Weis J, Schröder JM (1989) The influence of fat tissue on neuroma formation. J Neurosurg 71: 588–593
Wilbourn AJ (2005) Brachial plexus lesions. In: Dyck PJ, Thomas PK (eds) Peripheral neuropathy. Elsevier Saunders, Philadelphia, pp 1367–1368
Yamazaki T, Sabit H, Oya T et al. (2009) Activation of MAP kinases, Akt and PDGF receptors in injured peripheral nerves. J Peripher Nerv Syst 14: 165–176
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Schröder, J. (2012). Physikalische Schäden peripherer Nerven. In: Klöppel, G., Kreipe, H., Remmele, W., Paulus, W., Schröder, J. (eds) Pathologie. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-642-02324-8_20
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