Integrated Neuroscience: A Clinical Problem Solving Approach, Volume 1Springer Science & Business Media, 30 nov. 2002 - 739 pages INTEGRATED NEUROSCIENCES This textbook takes as a premise that, in order to make intelligent diagnosis and provide a rational treatment in disorders of the nervous system, it is necessary to develop the capacity to answer the basic questions of clinical neurology: (1) Where is the disease process located? (2) What is the nature of the disease process? The purpose of this textbook is to enable the medical student to acquire the basic information of the neurosciences and neurology and most importantly the ability to apply that information to the solution of clinical problems. The authors also suggest that hospital trips be a part of any Clinical Neurosciences Course so that the student can put into actual practice what he has learned in the classroom. We believe that this textbook will be of value to the student throughout the four years of the medical school curriculum. Medical, psychiatry and neurology residents may also find this text of value as an introduction or review. It is more true in neurology than in any other system of medicine that a firm knowledge of basic science material, that is, the anatomy, physiology and pathology of the nervous system, enables the student and physician to readily arrive at the diagnosis of where the disease process is located and the nature of the most likely pathology. Subsequently that knowledge may be applied to problem solving in clinical situations. |
Table des matières
Overview of localization of function and neurological diagnosis 128 | 2-1 |
vi | 2-10 |
Neurocytology 131 | 3-1 |
Clinical Considerations 121 | 3-13 |
Neuroembryology 123 | 4-1 |
Nerve Physiology 511 | 5-10 |
Saltatory Conduction 515 | 5-18 |
Molecular Architecture of Contraction | 6-5 |
Hypothalamus and the Autonomic system 1610 | 16-10 |
Autonomic Nervous system 1612 | 16-16 |
Basal Ganglia and Movement Disorders 124 | 19-19 |
Cerebellum and Movement 122 | 20-1 |
Somatosensory Function and the Parietal Lobe 110 | 21-1 |
Limbic System 127 | 22-1 |
Visual system 120 | 23-1 |
Basic Physiology 128 | 23-5 |
Nerve Muscle Junction | 6-15 |
Structure and Physiology 127 | 7-1 |
Membrane basis of integration | 7-9 |
Lamination in spinal cord gray matter 717 | 7-19 |
Disease of Peripheral Nerve and Nerve Root 125 | 8-1 |
Introduction | 9-4 |
Clinical Considerations of the Spinal Cord 129 | 10-1 |
Diencephlaon 121 | 12-1 |
MAJOR SYSTEMS | 13-16 |
II Non Vascular 134 | 27-1 |
Cerebral Hemispheres 111 | 27-35 |
COMPLEX FUNCTIONS | 29-1 |
Spinal Cord Nerve Root | 29-10 |
Functional Anatomy of the Brain Stem 133 | 30-1 |
Hippocampal Lesion 307 | 30-7 |
Reflex Activity and Cortical Motor Function 126 | 1 |
Case Histories 31A7 | 7 |
Autres éditions - Tout afficher
Integrated Neuroscience: A Clinical Problem Solving Approach Elliott M. Marcus,Stanley Jacobson Aucun aperçu disponible - 2002 |
Expressions et termes fréquents
action potential activity anterior horn cell artery ataxia atrophy axons basilar bilateral brain stem cell body central nervous system cerebellar peduncle cerebellum cerebral cortex cervical channels clinical colliculus compression contralateral cortical corticospinal corticospinal tract cranial nerve decreased demonstrated dendrites depolarization descending diencephalon disease disorders dorsal facial fibers Figure frontal function ganglia ganglion gyrus hemisphere horn cell hypothalamus infarction inferior innervates input involved ipsilateral lateral layer lesions limbic located lower extremities lumbar medial lemniscus medulla medullary membrane midbrain midline motor cortex motor neuron movement muscle myelin neural normal nucleus occur onset pain parietal pathway patient peripheral nerve pons pontine posterior potassium present produce protein pyramidal receptors region response reticular formation segments seizures sensation sensory spinal cord spinothalamic stimulation stretch reflex superior surface symptoms synapses syndrome tegmentum temporal lobe thalamus thoracic tion tract trigeminal tumor upper extremity ventricle vertebral vestibular voltage weakness white matter zone