44 7897 074717Spinal Anaesthesia Scholarly Peer Review Journal
Spinal anaesthesia (or spinal anesthesia), also known as spinal block, subarachnoid block, intradural block and intrathecal block,[1] could be a type of neuraxial regional anaesthesia involving the injection of a local anaesthetic or opioid into the space, generally through a fine needle, usually nine cm (3.5 in) long. it's a secure and effective type of anesthesia performed by nurse anesthetists and anaesthesiologists which may be used as alternate to general anesthesia normally in surgeries involving the lower extremities and surgeries below the umbilicus. The anaesthetic or opioid injected into the cerebrospinal fluid provides anesthesia, analgesia, and motor and sensory blockade. The tip of the spinal needle has a purpose or small bevel. Recently, pencil point needles are created accessible (Whitacre, Sprotte, Gertie Marx and others)
High Impact List of Articles
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Young Research Forum 2020 on 13th International Conference on Vascular Dementia and Dementia
Dr. Tammi McGill-CarterYoung Research Forum: Integrative Neuroscience Research
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Young Research Forum 2020 on 13th International Conference on Vascular Dementia and Dementia
Dr. Tammi McGill-CarterYoung Research Forum: Integrative Neuroscience Research
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Young Research Forum - 7th International Conference on Brain Disorders and Therapeutics
Caterina GuiotYoung Research Forum: Integrative Neuroscience Research
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Young Research Forum - 7th International Conference on Brain Disorders and Therapeutics
Caterina GuiotYoung Research Forum: Integrative Neuroscience Research
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2020 Conference Announcement on 3rd International Conference on Central Nervous System & Therapeutics
Dr. Tammi McGill-Carter2020 Conference Announcement: Integrative Neuroscience Research
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2020 Conference Announcement on 3rd International Conference on Central Nervous System & Therapeutics
Dr. Tammi McGill-Carter2020 Conference Announcement: Integrative Neuroscience Research
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New brawn, old brain: head transplant.
Manish Rohan JamesShort Communication: Integrative Neuroscience Research
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New brawn, old brain: head transplant.
Manish Rohan JamesShort Communication: Integrative Neuroscience Research
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From Discovering To Better Understanding The Relationship Between Brain And Behaviour
Eleftheria Dede, Ioannis Zalonis, Stylianos Gatzonis, Damianos SakasReview Article: Integrative Neuroscience Research
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From Discovering To Better Understanding The Relationship Between Brain And Behaviour
Eleftheria Dede, Ioannis Zalonis, Stylianos Gatzonis, Damianos SakasReview Article: Integrative Neuroscience Research
Conference Proceedings
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Autoantibodies in Alzheimer’s disease
Jan Ricny,Kocurova G, Krestova MKeynote: Journal Clinical Psychiatry and Cognitive Psychology
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Autoantibodies in Alzheimer’s disease
Jan Ricny,Kocurova G, Krestova MKeynote: Journal Clinical Psychiatry and Cognitive Psychology
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MicroRNAs modulation-A potential Neuroprotective strategy for Parkinson’s therapy
Camila Hillesheim HorstPosters & Accepted Abstracts: Journal of Brain and Neurology
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MicroRNAs modulation-A potential Neuroprotective strategy for Parkinson’s therapy
Camila Hillesheim HorstPosters & Accepted Abstracts: Journal of Brain and Neurology
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The use of multi-modal imaging to discover sensitive Neuroimaging biomarkers in Huntington’s disease
Nellie Georgiou-KaristianisScientific Tracks Abstracts: Journal of Brain and Neurology
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The use of multi-modal imaging to discover sensitive Neuroimaging biomarkers in Huntington’s disease
Nellie Georgiou-KaristianisScientific Tracks Abstracts: Journal of Brain and Neurology
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LITHIUM UTILIZES HIDDEN CELLULAR ‘FAIL-SAFE-MECHANISMS’
Arthur Ernst van WoerkomKeynote: Journal of Neurology and Neurorehabilitation Research
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LITHIUM UTILIZES HIDDEN CELLULAR ‘FAIL-SAFE-MECHANISMS’
Arthur Ernst van WoerkomKeynote: Journal of Neurology and Neurorehabilitation Research
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Vegetable oil-derived hydroxynonenal causes Alzheimer’s neuronal death via Hsp70.1 depletion
Tetsumori YamashimaScientific Tracks Abstracts: Journal of Neurology and Neurorehabilitation Research
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Vegetable oil-derived hydroxynonenal causes Alzheimer’s neuronal death via Hsp70.1 depletion
Tetsumori YamashimaScientific Tracks Abstracts: Journal of Neurology and Neurorehabilitation Research