Re-engineering of the damaged brain and spinal cord : evidence-based n§eurorehabilitation

Re-EngineeringoftheDamagedBrainandSpinalCord isdedicatedtoTetsuoKanno,M. D. ProfessorofNeurosurgery Bypresenting theoriginal papers thatmakeupthis thefeaturesofthelocalmedicallandscapeinthe- third supplement we wish to make a further contri- gionswheretheyareenacted. Whatismore,progr- bution to the issue of functional rehabilitation, this sivenew?ndingsmustbealsosubjectedtoafrequent soimportantandfascinatingmodernareaofresearch revision. Ontopofthis,itshouldnotbeforgottenthat inthe?eldofneurosciences. Thecongresspaperswe even when committal therapy guidelines are c- haveselectedconstituteagoodre?ectionofthetrans- sistentlyapplied,thereareconsiderablevariationsin disciplinary objectives. The literature references are therangeofpotentialcomplicationsandintheo- designedasaguidetoleadtheinterestedreadertoa comeofprospectivecontrolledmulti-centreandmul- deeperandmoredetailedunderstandingoftheindi- nationalstudiesontheissueofqualitymanagement. vidualissues. Functionalrehabilitationhasbeenanoriginaltask The demand for "evidence-based medicine" is well ofneurosurgeryfromtheveryoutset. The1990shave justi?ed; however, it rapidly comes up against the enteredtheannalsofbrainresearchasthe"Decadeof limitsoffeasibility,especiallywherecontrolledthe- theBrain". Sincethentherehasbeenaneverstronger peuticstudiesareconcerned. TheCochrancollection growthofneuroscienti?cinterestworldwide,accom- of high-quality evidence-based healthcare databases paniedbysubstantial?nancialengagement. Thishas hasthusfarbeenofnohelptousindrawingupthe- primarily resulted in advances in basic neuro- peutic recommendations for the re-engineering of biologicalandneurophysiologicalresearchandalsoin brain and spinal-cord lesions. Today as ever, the thegrowthofneuroscienti?cknowledgeaboutbasic opinion of experts and empirically based medical mechanismsformotor control,paincontrol,aware- treatment and posttraumatic neurorehabilitation ness, cognition, learning and memory. The conse- continuetooccupyanindispensablepositionforthe quencemustbetoensurethattheadvancesmadeinthe everydayclinicalpracticeofneurosurgicalandneu- neuroscienti?cresearchareaareadequatelyexpanded traumatological therapies. Promising adjunct - intopracticalneurosurgicalcareandre-engineeringof proachesincludeneuropharmacology,forcascadesof brainandspinalcordlesionsandtoensureuponnew molecular interactions are known to be underlying approaches. Following this a fundamental path will activity-dependent plasticity and skills learning, as resultinanimprovedandmoree%ocientpreventionin many of these processes involve the major tra- thefuture,themeasuresthatstandrightatthefore- mitters. Furthermore,biologicalinterventionsby- front of all rehabilitation principles, meaning that ingendogenousneuronsandgliaaswellasexogenous conventionalconceptsmustbemodi?edtokeeppace stemcells,bone-marrowcells,macrophages,andother withthemoretask-speci?c,intensive,andprogressive types may promote the regeneration of nerve cells, demands. In this connection a series of guidelines, tissue, and neural circuitry. Class one studies have recommendations, and expert opinions and also beenmade,andnowclasstwostudieshavebeeni- algorithms have been elaborated by national and tiated, for example in connection with acute spinal international expert panels and multidisciplinary as- cord injury (SCI). The clinical application of fu- sociationsfortheacutemedicalcareofpatients.