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Target Concepts:
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Query: UMLS:C0270777 (
Spinal cord edema
)
7
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Spinal cord injury (SCI) affects more than 2.5 million people worldwide.
Spinal cord edema
plays critical roles in the pathological progression of SCI. This study aimed to delineate the roles of
aquaporin 4
(
AQP4
) and Na
+
-K
+
-Cl
-
cotransporter 1 (NKCC1) in acute phase edema and tissue destruction after SCI and to explore whether inhibiting both
AQP4
and NKCC1 could improve SCI-induced spinal edema and damage. Rat SCI model was established by modified Allen's method. Spinal cord water content, cerebrospinal fluid lactose dehydrogenase (LDH) activity,
AQP4
and NKCC1 expression, and spinal cord pathology from 30 min to 7 days after SCI were monitored. Additionally, aforementioned parameters in rats treated with
AQP4
and/or NKCC1 inhibitors were assessed 2 days after SCI. Spinal cord water content was significantly increased 1 h after SCI while
AQP4
and NKCC1 expression and spinal fluid LDH activity elevated 6 h after SCI.
Spinal cord edema
and spinal cord destruction peaked around 24 h after SCI and maintained at high levels thereafter. Treating rats with
AQP4
inhibitor TGN-020 and NKCC1 antagonist bumetanide significantly reduced spinal cord edema, tissue destruction, and
AQP4
and NKCC1 expression after SCI in an additive manner. These results demonstrated the benefits of simultaneously inhibiting both
AQP4
and NKCC1 after SCI.
...
PMID:Pretreatment with AQP4 and NKCC1 Inhibitors Concurrently Attenuated Spinal Cord Edema and Tissue Damage after Spinal Cord Injury in Rats. 2940 91
Intramedullary pressure increases after spinal cord injury, and this can be an important factor for secondary spinal cord injury. Until now there have been no studies of the dynamic changes of intramedullary pressure after spinal cord injury. In this study, telemetry systems were used to observe changes in intramedullary pressure in the 72 hours following spinal cord injury to explore its pathological mechanisms. Spinal cord injury was induced using an aneurysm clip at T10 of the spinal cord of 30 Japanese white rabbits, while another 32 animals were only subjected to laminectomy. The feasibility of this measurement was assessed. Intramedullary pressure was monitored in anesthetized and conscious animals. The dynamic changes of intramedullary pressure after spinal cord injury were divided into three stages: stage I (steep rise) 1-7 hours, stage II (steady rise) 8-38 hours, and stage III (descending) 39-72 hours. Blood-spinal barrier permeability, edema, hemorrhage, and histological results in the 72 hours following spinal cord injury were evaluated according to intramedullary pressure changes. We found that spinal cord hemorrhage was most severe at 1 hour post-spinal cord injury and then gradually decreased; albumin and
aquaporin 4
immunoreactivities first increased and then decreased, peaking at 38 hours. These results confirm that severe bleeding in spinal cord tissue is the main cause of the sharp increase in intramedullary pressure in early spinal cord injury.
Spinal cord edema
and blood-spinal barrier destruction are important factors influencing intramedullary pressure in stages II and III of spinal cord injury.
...
PMID:Dynamic changes in intramedullary pressure 72 hours after spinal cord injury. 3068 75
