Neuroimaging: Sensing Biochemistry in the Brain
This imaging textbook covers in detail the beginning of neuromolecular imaging from in vivo electrochemistry. It discusses how neuromolecular imaging solved the persistent problem of electrocatalysis with empirical recording with the new imaging nanotechnology and circuits designed by the author. Th...
Gespeichert in:
| 1. Verfasser: | |
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| Format: | Buch |
| Sprache: | English |
| Veröffentlicht: |
Pan Stanford Publishing
2020
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| Schlagworte: | |
| Zusammenfassung: | This imaging textbook covers in detail the beginning of neuromolecular imaging from in vivo electrochemistry. It discusses how neuromolecular imaging solved the persistent problem of electrocatalysis with empirical recording with the new imaging nanotechnology and circuits designed by the author. The BRODERICK PROBE nanobiosensor is smaller than one strand of human hair, does not scar, and does not produce bacterial growth. These properties of the nanobiosensor have been validated by pathologists and immunologists from New York University clinical and preclinical departments. The book details this specialized sensor’s success in clinical and research settings, the biomedical engineering involved in its manufacture, and original, tried, and trusted protocols for use by scientists and practitioners in multiple fields of brain application and sensor design |
| Beschreibung: | 1. Electroactive Photovoltaic Fiber Optics for Brain Disorders in Humans and Animals 2. A Remarkable Happening in the Advent of in vivo Electrochemistry into Spectral Analysis 3. Neuromolecular Imaging (NMI). A New Art—A Live Imaging Nanobiotechnology 4. Broderick Is Thinking. Attention to Sensors but No Attention to Sensor Drivers? 5. Nanobionics. Solving Electrocatalysis—Proof of Concept 6. Imaging Electrocatalytic Interactions for Pain Mechanisms 7. Lipid Biomimetics. A Nanomicroscope in the BRODERICK PROBE 8. Seeing Inside Sex-Specific Responses in the Schizophrenic Brain 9. Seeing Inside the Addicted Brain via the Auditory Circuit 10. Seeing Inside the Genetically Depressed Brain 11. Myths Dispelled. A Rhythmic Brain Disrupted Defines Disease—Translation across Species 12. The Epilepsy Patient. Asynchrony to Hypersynchrony and Reversed Synchrony? 13. Imaging Patients Live. Subtypal Nanosensing in Temporal Lobe Epilepsy 14. NMI in Epilepsy. Nanosensing Neurotransmission—Electrocatalysis Rears Its Head 15. Nanosensing the Tumor Patient. The Answer to Leukodystrophies 16. Seeing inside the Parkinson’s Brain 17. Sensing the BRODERICK PROBE Market 18. Eazysense BRODERICK PROBE. A Franchise |
| Beschreibung: | 400 p 229 mm |
| ISBN: | 9789814613491 |
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| 500 | |a 1. Electroactive Photovoltaic Fiber Optics for Brain Disorders in Humans and Animals 2. A Remarkable Happening in the Advent of in vivo Electrochemistry into Spectral Analysis 3. Neuromolecular Imaging (NMI). A New Art—A Live Imaging Nanobiotechnology 4. Broderick Is Thinking. Attention to Sensors but No Attention to Sensor Drivers? 5. Nanobionics. Solving Electrocatalysis—Proof of Concept 6. Imaging Electrocatalytic Interactions for Pain Mechanisms 7. Lipid Biomimetics. A Nanomicroscope in the BRODERICK PROBE 8. Seeing Inside Sex-Specific Responses in the Schizophrenic Brain 9. Seeing Inside the Addicted Brain via the Auditory Circuit 10. Seeing Inside the Genetically Depressed Brain 11. Myths Dispelled. A Rhythmic Brain Disrupted Defines Disease—Translation across Species 12. The Epilepsy Patient. Asynchrony to Hypersynchrony and Reversed Synchrony? 13. Imaging Patients Live. Subtypal Nanosensing in Temporal Lobe Epilepsy 14. NMI in Epilepsy. Nanosensing Neurotransmission—Electrocatalysis Rears Its Head 15. Nanosensing the Tumor Patient. The Answer to Leukodystrophies 16. Seeing inside the Parkinson’s Brain 17. Sensing the BRODERICK PROBE Market 18. Eazysense BRODERICK PROBE. A Franchise | ||
| 520 | |a This imaging textbook covers in detail the beginning of neuromolecular imaging from in vivo electrochemistry. It discusses how neuromolecular imaging solved the persistent problem of electrocatalysis with empirical recording with the new imaging nanotechnology and circuits designed by the author. The BRODERICK PROBE nanobiosensor is smaller than one strand of human hair, does not scar, and does not produce bacterial growth. These properties of the nanobiosensor have been validated by pathologists and immunologists from New York University clinical and preclinical departments. The book details this specialized sensor’s success in clinical and research settings, the biomedical engineering involved in its manufacture, and original, tried, and trusted protocols for use by scientists and practitioners in multiple fields of brain application and sensor design | ||
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Datensatz im Suchindex
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| author | Broderick, Patricia |
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| building | Verbundindex |
| bvnumber | BV046964176 |
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| id | DE-604.BV046964176 |
| illustrated | Not Illustrated |
| index_date | 2024-07-03T15:44:56Z |
| indexdate | 2024-07-10T08:58:45Z |
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| isbn | 9789814613491 |
| language | English |
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| physical | 400 p 229 mm |
| publishDate | 2020 |
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| publisher | Pan Stanford Publishing |
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| spelling | Broderick, Patricia Verfasser aut Neuroimaging Sensing Biochemistry in the Brain Pan Stanford Publishing 2020 400 p 229 mm txt rdacontent n rdamedia nc rdacarrier 1. Electroactive Photovoltaic Fiber Optics for Brain Disorders in Humans and Animals 2. A Remarkable Happening in the Advent of in vivo Electrochemistry into Spectral Analysis 3. Neuromolecular Imaging (NMI). A New Art—A Live Imaging Nanobiotechnology 4. Broderick Is Thinking. Attention to Sensors but No Attention to Sensor Drivers? 5. Nanobionics. Solving Electrocatalysis—Proof of Concept 6. Imaging Electrocatalytic Interactions for Pain Mechanisms 7. Lipid Biomimetics. A Nanomicroscope in the BRODERICK PROBE 8. Seeing Inside Sex-Specific Responses in the Schizophrenic Brain 9. Seeing Inside the Addicted Brain via the Auditory Circuit 10. Seeing Inside the Genetically Depressed Brain 11. Myths Dispelled. A Rhythmic Brain Disrupted Defines Disease—Translation across Species 12. The Epilepsy Patient. Asynchrony to Hypersynchrony and Reversed Synchrony? 13. Imaging Patients Live. Subtypal Nanosensing in Temporal Lobe Epilepsy 14. NMI in Epilepsy. Nanosensing Neurotransmission—Electrocatalysis Rears Its Head 15. Nanosensing the Tumor Patient. The Answer to Leukodystrophies 16. Seeing inside the Parkinson’s Brain 17. Sensing the BRODERICK PROBE Market 18. Eazysense BRODERICK PROBE. A Franchise This imaging textbook covers in detail the beginning of neuromolecular imaging from in vivo electrochemistry. It discusses how neuromolecular imaging solved the persistent problem of electrocatalysis with empirical recording with the new imaging nanotechnology and circuits designed by the author. The BRODERICK PROBE nanobiosensor is smaller than one strand of human hair, does not scar, and does not produce bacterial growth. These properties of the nanobiosensor have been validated by pathologists and immunologists from New York University clinical and preclinical departments. The book details this specialized sensor’s success in clinical and research settings, the biomedical engineering involved in its manufacture, and original, tried, and trusted protocols for use by scientists and practitioners in multiple fields of brain application and sensor design bisacsh / MEDICAL / Neurology bisacsh / MEDICAL / Neuroscience |
| spellingShingle | Broderick, Patricia Neuroimaging Sensing Biochemistry in the Brain bisacsh / MEDICAL / Neurology bisacsh / MEDICAL / Neuroscience |
| title | Neuroimaging Sensing Biochemistry in the Brain |
| title_auth | Neuroimaging Sensing Biochemistry in the Brain |
| title_exact_search | Neuroimaging Sensing Biochemistry in the Brain |
| title_exact_search_txtP | Neuroimaging Sensing Biochemistry in the Brain |
| title_full | Neuroimaging Sensing Biochemistry in the Brain |
| title_fullStr | Neuroimaging Sensing Biochemistry in the Brain |
| title_full_unstemmed | Neuroimaging Sensing Biochemistry in the Brain |
| title_short | Neuroimaging |
| title_sort | neuroimaging sensing biochemistry in the brain |
| title_sub | Sensing Biochemistry in the Brain |
| topic | bisacsh / MEDICAL / Neurology bisacsh / MEDICAL / Neuroscience |
| topic_facet | bisacsh / MEDICAL / Neurology bisacsh / MEDICAL / Neuroscience |
| work_keys_str_mv | AT broderickpatricia neuroimagingsensingbiochemistryinthebrain |