01322nam 2200373 450 00001231820050718115400.00-205-12369-420030414d1991----km-y0itay0103----baengIT<<The>> VSEPR model of molecular geometryRonald J. Gillespie, István HargittaiBoston...[etc.]Allyn and Baconc1991VIII, 248 p.ill.25 cm.MolecolaStruttura541.22(21. ed.)Chimica teorica. Struttura molecolareGillespie,Ronald J.89929Hargittai,István0ITUniversità della Basilicata - B.I.A.RICAunimarc000012318VSEPR model of molecular geometry78112UNIBASMONSCISCIENZESTD0180120030414BAS011158STD0170120030416BAS011016TORRE2020030416BAS01171920050601BAS011755batch0120050718BAS01105120050718BAS01111020050718BAS01114020050718BAS011154BAS01BAS01BOOKBASA2Polo Tecnico-ScientificoDIDDidatticaPTS.c2.p1.2876515S765152003041498Consultazione02786nam 2200421z- 450 991022004460332120210211(CKB)3800000000216331(oapen)https://directory.doabooks.org/handle/20.500.12854/53531(oapen)doab53531(EXLCZ)99380000000021633120202102d2017 |y 0engurmn|---annantxtrdacontentcrdamediacrrdacarrierMind-Brain Plasticity and Rehabilitation of Cognitive Functions: What Techniques Have Been Proven Effective?Frontiers Media SA20171 online resource (220 p.)Frontiers Research Topics2-88945-187-9 Rehabilitation of cognitive functions is a primary goal in neurological and psychiatric settings. Cognitive treatments include individual and group exercises, as well as the use of computer programs and virtual reality. Besides, ongoing studies have been examining the clinical usefulness of non-invasive cerebral cortex stimulation in increasing the efficacy of cognitive protocols. Cognitive rehabilitation is based on neuroplasticity and affects brain morphological and physiological responses by integration of behavioral and cognitive changes. The brain correlates of rehabilitation-induced modifications can be investigated through magnetic resonance imaging, both at structural and functional macro-levels. Animal research can integrate such information providing data on axonal regrowth and reshaping of synaptic connectivity in response to treatment. Animal models of neurological and psychiatric conditions have been developed, and preclinical test batteries for the assessment of cognitive functions in animal models of such conditions have been created. The question is then: how does rehabilitation drive reorganization at the neuronal level? The focus of this Research Topic is on rehabilitation-induced cognitive and neural plasticity in adult humans and animal models. The goal is to provide an integrated picture highlighting what techniques have been proven to be effective.Mind-Brain Plasticity and Rehabilitation of Cognitive FunctionsNeurosciencesbicsscBrain Stimulationcerebral plasticitycognitive functionsNeuroimagingRehabilitationtrainingNeurosciencesBenedetto Sacchettiauth1299274Katiuscia SaccoauthBOOK9910220044603321Mind-Brain Plasticity and Rehabilitation of Cognitive Functions: What Techniques Have Been Proven Effective3025109UNINA