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Books on the topic 'Neonatal rat spinal cord'

Author: Grafiati
Published: 14 March 2023

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1

Pyner, Susan. Organisation of sympathetic preganglionic neurones in the upper thoracic spinal cord in the adult and neonate rat. Birmingham: University of Birmingham, 1992.

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2

Oudega, Martin, Egbert A. J. F. Lakke, Enrico Marani, and Raph T. W. M. Thomeer. Development of the Rat Spinal Cord: Immuno- and Enzyme Histochemical Approaches. Berlin, Heidelberg: Springer Berlin Heidelberg, 1993. http://dx.doi.org/10.1007/978-3-642-78474-3.

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3

Lewis, David Ian. Chemical transmission in the sympathetic nuclei of the rat spinal cord. Birmingham: University of Birmingham, 1988.

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4

1956-, Oudega Martin, ed. Development of the rat spinal cord: Immuno- and enzyme histochemical approaches. Berlin: Springer-Verlag, 1993.

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5

Spanswick, David. Chemical neurotransmission in the rat hippocampus and spinal cord in vitro. Birmingham: University of Birmingham, 1991.

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6

Park, Eugene. Characterization of changes in ampa receptor subunit expression in spinal cord white matter following acute compression spinal cord injury in the rat. Ottawa: National Library of Canada, 2002.

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7

Silva, Gabriel A. Metabotropic glutamate receptor expression in rat spinal cord astrocytes in vitro and in situ. Ottawa: National Library of Canada = Bibliothèque nationale du Canada, 1999.

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8

The projections to the spinal cord of the rat during development: A time-table of descent. Berlin: Springer, 1997.

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9

Lakke, E. A. J. F. The Projections to the Spinal Cord of the Rat During Development: A Timetable of Descent. Berlin, Heidelberg: Springer Berlin Heidelberg, 1997. http://dx.doi.org/10.1007/978-3-642-60601-4.

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10

Enescu, Cristina. Methods of enhancing mechanical properties of hydrogel tubes used as nerve guidance channels in rat spinal cord injury. Ottawa: National Library of Canada, 2003.

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11

Towers, Simon Andrew. 'Distribution of the GABA [inferior B] receptor in spinal cord and its relationship to chronic pain in the rat'. Birmingham: University of Birmingham, 1998.

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12

Paxinos, George. The Rat Nervous System: Hindbrain and Spinal Cord (Rat Nervous System). Academic Pr, 1986.

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13

Paxinos, George. The Rat Nervous System: Hindbrain and Spinal Cord (Rat Nervous System). Academic Pr, 1986.

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14

Drennan, Kathryn J., and Maria Vanushkina. Spinal Cord Injury in Pregnancy. Oxford University Press, 2018. http://dx.doi.org/10.1093/med/9780190667351.003.0029.

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Spinal cord injury is an uncommon complication of pregnancy. But women with spinal cord injuries should be counseled that successful pregnancy is possible. Pregnancies should be planned once the patient has reached optimal functional status. At the outset of pregnancy, complications should be planned for, and an overall functional and routine health maintenance assessment should be evaluated. Providers should pay particular attention to voiding and elimination management, prevention of urinary tract infection, respiratory complications, and autonomic dysreflexia. Urinary complications can be decreased by maintaining a low pressure voiding system as well as addressing urinary tract bacterial colonization. When autonomic dysreflexia is encountered, the source should be identified and eliminated. Proactive management of potential complications leads to successful pregnancies with neonatal outcomes indistinguishable from the general population. The management of acute spinal cord injury should emphasize maternal stabilization. If an acute spinal cord injury occurs in pregnancy, any steps needed to improve the outcome should be undertaken.
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15

Egbert A. J. F. Lakke, Raph T. W. M. Thomeer, Enrico Marani, and Martin F. Bach. Development of the Rat Spinal Cord: Immuno- and Enzyme Histochemical Approaches. Springer London, Limited, 2012.

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16

Oudega, Martin. Development of the Rat Spinal Cord: Immuno-And Enzyme Histochemical Approaches. Springer-Verlag Telos, 1993.

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17

Atlas of the Spinal Cord: Mouse, Rat, Rhesus, Marmoset, and Human. Elsevier Science & Technology Books, 2012.

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18

Wallace, M. Christopher. Pathophysiology and treatment of experimental spinal cord injury in the rat. 1986.

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19

Stevens, Craig W. Spinal opioid analgesia in the rat. Edited by Paul Farquhar-Smith, Pierre Beaulieu, and Sian Jagger. Oxford University Press, 2018. http://dx.doi.org/10.1093/med/9780198834359.003.0020.

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It is hard to imagine a time when the world of science and medicine did not know that morphine or other opioids administered to the spinal cord produced analgesia. However, this was the current state of knowledge in the early 1970s before the studies of Yaksh and Rudy created one of the most important paradigm shifts in the treatment of pain. The landmark paper is a pharmacology paper describing the results of the first comprehensive study of spinal opioid analgesia in the rat. The study produced the first full dose-response curves for morphine, fentanyl, methadone, and meperidine and proved a spinal site of opioid action. Classic pharmacological analysis yielded a competitive interaction at a single site, the as-yet undiscovered opioid receptors. Most importantly, with this paper, Yaksh and colleagues began a lifetime of cutting-edge research that would reveals the complex nature of pain processing and numerous classes of analgesic agents.
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20

Lakke, Egbert. Projections to the Spinal Cord of the Rat During Development: A Timetable of Descent. Springer London, Limited, 2012.

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21

Westergren, Hans. Systemic Hypothermia After Spinal Cord Injury: An Experimental Study in the Rat (Comprehensive Summaries of Uppsala Dissertations, 831). Uppsala Universitet, 1999.

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22

Jackson, Darrell Anthony. A comparison of the effects of serotonin and thyrotropin releasing hormone on neuronal excitability in the lumbar spinal cord of the rat. 1990.

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23

Reich, David L., Stephan A. Mayer, and Suzan Uysal, eds. Neuroprotection in Critical Care and Perioperative Medicine. Oxford University Press, 2017. http://dx.doi.org/10.1093/med/9780190280253.001.0001.

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Clinicians caring for patients are challenged by the task of protecting the brain and spinal cord in high-risk situations. These include following cardiac arrest, in critical care settings, and during complex procedural and surgical care. This book provides a comprehensive overview of various types of neural injury commonly encountered in critical care and perioperative contexts and the neuroprotective strategies used to optimize clinical outcomes. In addition to introductory chapters on the physiologic modulators of neural injury and pharmacologic neuroprotectants, the topics covered include: imaging assessment; tissue biomarker identification; monitoring; assessment of functional outcomes and postoperative cognitive decline; traumatic brain injury; cardiac arrest and heart-related issues such as valvular and coronary artery bypass surgery, aortic surgery and stenting, and vascular and endovascular surgery; stroke; intracerebral hemorrhage; mechanical circulatory support; sepsis and acute respiratory distress syndrome; neonatal issues; spinal cord injury and spinal surgery; and issues related to general, orthopedic, peripheral vascular, and ear, nose and throat surgeries.
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