SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W1929126069> ?p ?o ?g. }

Showing items 1 to 100 of ±149 with 100 items per page.

W1929126069 endingPage "621" @default.
W1929126069 startingPage "609" @default.
W1929126069 abstract "Damage to the central nervous system, as in the case of spinal cord injury (SCI), results in disrupted supraspinal sympathetic influence and subsequent cardiovascular control impairments. Consequently, people with SCI suffer from disordered basal hemodynamics and devastating fluctuations in blood pressure, as in the case of autonomic dysreflexia (AD), which likely contribute to this population's leading cause of mortality: cardiovascular disease. The development of AD is related, at least in part, to neuroanatomical changes that include disrupted descending supraspinal sympathetic control, changes in propriospinal circuitry, and inappropriate afferent sprouting in the dorsal horn. These anatomical mechanisms may thus be targeted by neural regenerative and protective therapies to improve cardiovascular control and reduce AD. Here, we discuss the relationship between abnormal cardiovascular control and its underlying neuroanatomy. We then review current studies investigating biochemical strategies to reduce the severity of AD through: 1) reducing aberrant calcitonin gene-related peptide immunoreactive afferent sprouting; 2) inhibiting inflammatory processes; and 3) re-establishing descending supraspinal sympathetic control. Finally, we discuss why additional biochemical agents and combinational approaches may be needed to completely ameliorate this condition." @default.
W1929126069 created "2016-06-24" @default.
W1929126069 creator A5004672062 @default.
W1929126069 creator A5023450351 @default.
W1929126069 creator A5036626766 @default.
W1929126069 date "2015-05-01" @default.
W1929126069 modified "2023-09-25" @default.
W1929126069 title "Neuroprotection, Plasticity Manipulation, and Regenerative Strategies to Improve Cardiovascular Function following Spinal Cord Injury" @default.
W1929126069 cites W1501243786 @default.
W1929126069 cites W1517236648 @default.
W1929126069 cites W1556090503 @default.
W1929126069 cites W1589077211 @default.
W1929126069 cites W1605889901 @default.
W1929126069 cites W1607601486 @default.
W1929126069 cites W1865973687 @default.
W1929126069 cites W1896668466 @default.
W1929126069 cites W1964484476 @default.
W1929126069 cites W1970976264 @default.
W1929126069 cites W1972551918 @default.
W1929126069 cites W1975594865 @default.
W1929126069 cites W1977664716 @default.
W1929126069 cites W1987184086 @default.
W1929126069 cites W1987936341 @default.
W1929126069 cites W1989586449 @default.
W1929126069 cites W1991129063 @default.
W1929126069 cites W1991551173 @default.
W1929126069 cites W1996329806 @default.
W1929126069 cites W1997721049 @default.
W1929126069 cites W2001650386 @default.
W1929126069 cites W2004970578 @default.
W1929126069 cites W2005136054 @default.
W1929126069 cites W2008810977 @default.
W1929126069 cites W2013033561 @default.
W1929126069 cites W2019025001 @default.
W1929126069 cites W2021643354 @default.
W1929126069 cites W2021664241 @default.
W1929126069 cites W2022577061 @default.
W1929126069 cites W2030032536 @default.
W1929126069 cites W2030301571 @default.
W1929126069 cites W2031837182 @default.
W1929126069 cites W2034117088 @default.
W1929126069 cites W2038293269 @default.
W1929126069 cites W2040671543 @default.
W1929126069 cites W2045900691 @default.
W1929126069 cites W2049392976 @default.
W1929126069 cites W2054202615 @default.
W1929126069 cites W2061189955 @default.
W1929126069 cites W2063280447 @default.
W1929126069 cites W2065293398 @default.
W1929126069 cites W2069211850 @default.
W1929126069 cites W2072580962 @default.
W1929126069 cites W2075533708 @default.
W1929126069 cites W2075566933 @default.
W1929126069 cites W2081467080 @default.
W1929126069 cites W2083598106 @default.
W1929126069 cites W2085716611 @default.
W1929126069 cites W2086524344 @default.
W1929126069 cites W2088850445 @default.
W1929126069 cites W2091581773 @default.
W1929126069 cites W2092772666 @default.
W1929126069 cites W2093738970 @default.
W1929126069 cites W2101784615 @default.
W1929126069 cites W2104660263 @default.
W1929126069 cites W2115048327 @default.
W1929126069 cites W2116077352 @default.
W1929126069 cites W2120990276 @default.
W1929126069 cites W2137381324 @default.
W1929126069 cites W2137590454 @default.
W1929126069 cites W2144708546 @default.
W1929126069 cites W2146132965 @default.
W1929126069 cites W2149136786 @default.
W1929126069 cites W2150947082 @default.
W1929126069 cites W2173731618 @default.
W1929126069 cites W2281598789 @default.
W1929126069 cites W2412929266 @default.
W1929126069 cites W2614027466 @default.
W1929126069 cites W4231022968 @default.
W1929126069 cites W4242740922 @default.
W1929126069 cites W58740419 @default.
W1929126069 cites W1434655800 @default.
W1929126069 doi "https://doi.org/10.1089/neu.2014.3743" @default.
W1929126069 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/25582334" @default.
W1929126069 hasPublicationYear "2015" @default.
W1929126069 type Work @default.
W1929126069 sameAs 1929126069 @default.
W1929126069 citedByCount "16" @default.
W1929126069 countsByYear W19291260692015 @default.
W1929126069 countsByYear W19291260692016 @default.
W1929126069 countsByYear W19291260692017 @default.
W1929126069 countsByYear W19291260692018 @default.
W1929126069 countsByYear W19291260692019 @default.
W1929126069 countsByYear W19291260692020 @default.
W1929126069 countsByYear W19291260692022 @default.
W1929126069 crossrefType "journal-article" @default.
W1929126069 hasAuthorship W1929126069A5004672062 @default.
W1929126069 hasAuthorship W1929126069A5023450351 @default.
W1929126069 hasAuthorship W1929126069A5036626766 @default.
W1929126069 hasConcept C118303440 @default.