02250nam 2200457Ia 450 991078421210332120230721025714.00-9658042-8-3(CKB)1000000000343920(EBL)308423(OCoLC)191058838(MiAaPQ)EBC308423(Au-PeEL)EBL308423(CaPaEBR)ebr10188261(EXLCZ)99100000000034392020071017d2007 uy 0engur|n|---|||||The Āyurveda encyclopedia[electronic resource] natural secrets to healing, prevention & longevity /Swami Sada Shiva Tirtha2nd ed., rev.Bayville, NY Ayurveda Holistic Center Pressc20071 online resource (675 p.)Description based upon print version of record.0-9658042-5-9 Includes bibliographical references and index.Testimonials; HH Swami Narayan Tirtha; Dhanwantari, Bharadwaj; Table of Contents; Dedication; Atreya; Poem; Foreword; Ashwinis, Uttarkashi; Acknowledgements; Vaidyas & Centers; Introduction; Section 1; Section 2; Section 3; Section 4; Appendix 1: Sanskrit; Appendix 2: Health Forms; Appendix 3: Dosha Food Plans; Resources; About the Author; Poetry; Glossary; Bibliography; IndexThe theories and practices of Ayurvedic medicine?including the therapeutic benefits of aromas, foods, herbs, meditation, yoga, and more?are featured in this comprehensive handbook. With a section dedicated to health disorders, this guide clarifies the simplicity of healing naturally and offers counsel towards an improved sense of well-being, reduced stress, and mental peace. Photographs of more than 80 herbs and yoga postures round out this home reference and teaching tool.Medicine, AyurvedicEncyclopediasMedicineEncyclopediasMedicine, AyurvedicMedicine615.5/38/03615.53803Tirtha Sada Shiva1578957MiAaPQMiAaPQMiAaPQBOOK9910784212103321The Āyurveda encyclopedia3858676UNINA04304nam 2201237z- 450 991105322100332120230911(CKB)5690000000228572(oapen)doab113994(EXLCZ)99569000000022857220230920c2023uuuu -u- -engurmn|---annantxtrdacontentcrdamediacrrdacarrierMolecular Mechanisms of Synaptic Plasticity: Dynamic Changes in Neurons FunctionsMDPI - Multidisciplinary Digital Publishing Institute20231 online resource (290 p.)3-0365-8714-4 The human brain has hundreds of billions of neurons, and at least 7 million dendrites have been hypothesized to exist for each neuron, with over 100 trillion neuron-neuron, neuron-muscle, and neuron-endocrine cell synapses [1,2]. Our body continually receives stimuli from the outer environment, and our brain's ability to respond to these stimuli is ensured through synaptic processes, motivating the foundations of this Special Issue.This reprint aims to underline the role of synaptic plasticity phenomena in our body and clarify the mechanism operated by neurons to guarantee these phenomena. The collection in the Issue comprises 14 papers, including 8 reviews and 6 original works, one of which is a protocol for differentiating neurons from human stem cells, and 5 are preclinical works.Molecular Mechanisms of Synaptic PlasticityBiology, life sciencesbicsscResearch & information: generalbicsscAlzheimer's disease (AD)AM251amygdalaautophagybrain connectivitybrain developmentbrain disordersbrain networkscaspase-3Circular Hole Boardcognitioncomputational neuroscienceconnectivityD2 receptorsdendritic spinesdopaminedopamine transporterdopamine volume transmissiondorsal striatumdystoniaendocannabinoid systemErbB receptorsGABAgliaglucocorticoidsglutamateGlutamategut-brain axishigh contrasthippocampushuman neuronsimmunoproteasomeinduced neural stem cellsinflammationinhibitionlearning and memorylong-term depressionlong-term potentiationlong-term potentiation (LTP)LTDLTPmicemidbrain dopamine neuronsmTORmultiple sclerosisn/aneuregulinsneuro-inflammationneurodevelopmental diseasesneuronal cytoarchitectureneuroplasticityneurovascular unitNMDA receptorsnoradrenalineParkinson's diseasePINK1proteasomeregulatory T cellsresting state functional MRI (rs-fMRI)reticular formationSchaffer collateral-CA1 synapsesschizophreniaserotonin (5-HT)SNARE proteinsspatial learningstriatumsynapsesynapsessynaptic plasticitysynaptic scalingsynaptic vesiclessystems biologyT-cellstransmission electron microscopytripartite synapsetyrosine hydroxylaseBiology, life sciencesResearch & information: generalBOOK9911053221003321Molecular Mechanisms of Synaptic Plasticity: Dynamic Changes in Neurons Functions4525358UNINA