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Fulltext Pathophysiology of streptokinase-induced hypotension in acute myocardial infarction: a systematic review of clinical evidence

Khalid K, Ahmad RE, Tong AYH, Lui SY, Abidin IZZ

Arch Med Sci Atheroscler Dis, 2021;6:e85-e94.
PMID: 34027217 DOI: 10.5114/amsad.2021.105410

Introduction: Despite the common occurrence of streptokinase-induced hypotension among patients with acute myocardial infarction, the underlying pathophysiology remains obscure and poorly understood. Our study aimed to pool clinical evidence on the potential mechanism of streptokinase-induced hypotension through a systematic review of the literature.
Material and methods: We conducted literature search from Medline, Scopus and Web of Science on clinical studies related to streptokinase-induced hypotension.
Results: Our search yielded 972 citations. After removal of duplicates, 878 articles were screened for eligibility, of which 856 papers were excluded due to various reasons. Of the remaining 22 articles retrieved with full texts, eight relevant articles were selected for final analysis. Three themes emerged as the proposed mechanisms of streptokinase-induced hypotension, including (i) reduction in total peripheral resistance, (ii) complement activation, and (iii) dismissal of hypotheses involving other intermediaries.
Conclusions: Our findings suggest that the underlying mechanism of streptokinase-induced hypotension lies primarily in the reduction in total peripheral resistance.

Matched MeSH terms: Hypotension, Controlled
Hypotensive anesthesia in the management of a posterior suprachoroidal foreign body

Hashim H, Lim KS, Choong YY, Nor NM

Retina, 2005 Jan;25(1):87-9.
PMID: 15655449
Matched MeSH terms: Hypotension, Controlled*
Fulltext Cerebral protection: a review of current techniques

Palur, Ravikant

Medical Health Reviews, 2009;2009(1):15-42.
MyJurnal

The brain is considered the most eloquent organ in the human body as its activities impacts on all other systems. Though protected physically (in a bony covering), physiologically through the blood-CSF barrier (from invading organisms and toxins) and hemodynamically through the phenomenon of cerebral autoregulation; the brain is open to insults of various kinds which can critically damage this structure. Intracellular Ca++ accumulation, excessive activation of excitatory amino acid receptors, lipid peroxidation and free radical releaserelated damage are but a few of the pathological processes that occur at the neuronal level leading to damage. The mechanism by which the brain can be provided protection when it is in a compromised state or likely to be compromised is known as cerebral protection. There are various modalities of pharmacologic (use of barbiturates, etomidate, isoflurane, steroids, Ca++, corticosteroids etc) and non-pharmacologic therapies (hypothermia, hyperventilation, induced hypotension, electrophysiologic monitoring, endovascular management etc) available for cerebral protection which finds place in the armamentarium of clinicians managing the critically injured brain. Our knowledge of the functioning of the brain at the molecular level and the various biochemico-pathological processes that are set into motion during critical states continues to evolve. This review article attempts to explain present understanding of the biochemical and pathological processes involved in neuronal damage while also looking at current available therapies (pharmacologic & nonpharmacologic) being utilized in different clinical settings.

Matched MeSH terms: Hypotension, Controlled
Fulltext Autonomic Nervous System Mediates the Hypotensive Effects of Aqueous and Residual Methanolic Extracts of Syzygium polyanthum (Wight) Walp. var. polyanthum Leaves in Anaesthetized Rats

Ismail A, Mohamed M, Sulaiman SA, Wan Ahmad WA

Evid Based Complement Alternat Med, 2013;2013:716532.
PMID: 24454508 DOI: 10.1155/2013/716532

Syzygium polyanthum (Wight) Walp. var. polyanthum leaves are consumed as a traditional Malay treatment of hypertension. This study investigates hypotensive potential of aqueous (AESP) and residual methanolic (met-AESP) extracts of S. polyanthum leaves and possible involvement of autonomic receptors. AESP and met-AESP (20 to 100 mg/kg) were intravenously administered into anaesthetized Wistar-Kyoto (WKY) and spontaneously hypertensive (SHR) rats. Blood pressure and heart were monitored for 20 min. AESP and met-AESP induced significant dose-dependent hypotension, but only 100 mg/kg AESP caused mild bradycardia (n = 5). AESP-induced hypotension was more potent than that of met-AESP in WKY. AESP has a faster onset time than that of met-AESP in both WKY and SHR. However, met-AESP-induced hypotension was more sustained than that of AESP in SHR. Blockages of autonomic ganglion and α -adrenergic receptors using hexamethonium and phentolamine (n = 5 for each group) partially attenuated AESP-induced hypotension, suggesting involvement of α -adrenergic receptors. Blockages of autonomic ganglion, β -adrenergic, cholinergic receptors, and nitric oxide production using hexamethonium, propranolol, atropine, and N- ω -nitro-l arginine methyl ester (L-NAME) (n = 5 for each group) partially attenuated met-AESP-induced hypotension, suggesting involvement of β -adrenergic and cholinergic receptors via nitric oxide production.

Matched MeSH terms: Hypotension, Controlled