Prospective, randomized, double-blind trial of BQ-123 and bosentan for prevention of vasospasm following subarachnoid hemorrhage in monkeys

Hino, Akihiko; Weir, Bryce; Macdonald, R. Loch; Thisted, Ronald A.; Kim, Chul-Jin; Johns, Lydia

doi:10.3171/jns.1995.83.3.0503

Cited by 79 publications

(37 citation statements)

References 28 publications

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“…Several studies have found increased ET-1 concentrations in the cerebrospinal fluid of patients with cerebral vasospasm and during vasospasm in animal models of SAH. Numerous animal studies have documented the efficacy of ET receptor antagonists at preventing or alleviating experimental vasospasm (1,(27)(28)(29). Hemoglobin, and possibly ferrous hemoglobin specifically, is a prime candidate for the cause of vasospasm, and our results suggest that the NO scavenging effect may contribute to vasospasm both by removing vasodilating NO and by simultaneously increasing ET-1.…”

Section: Effect Of No On Et-1 Peptide Synthesis By Ferrous Hemoglobinmentioning

confidence: 58%

Hemoglobin Increases Endothelin-1 in Endothelial Cells by Decreasing Nitric Oxide

Lin

Macdonald

Marton

et al. 2001

Biochemical and Biophysical Research Communications

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Section: Effect Of No On Et-1 Peptide Synthesis By Ferrous Hemoglobinmentioning

confidence: 58%

Hemoglobin Increases Endothelin-1 in Endothelial Cells by Decreasing Nitric Oxide

Lin

Macdonald

Marton

et al. 2001

Biochemical and Biophysical Research Communications

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“…This discrepancy is all the more difficult to understand since it has been reported that ET antagonists inhibit vasospasm in primates (147,148) as well as in other species. By far the most significant increases of ET concern ET-1, only sporadic amounts of ET-3 being noted in one report (141).…”

Section: Presence Of Ets In Csf After Sahmentioning

confidence: 79%

Cerebrovascular Inflammation Following Subarachnoid Hemorrhage

Sercombe

Dinh

Gomis

2002

Japanese Journal of Pharmacology

184

140

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ABSTRACT-Aneurysmal subarachnoid hemorrhage frequently results in complications including intracranial hypertension, rebleeding and vasospasm. The extravasated blood is responsible for a cascade of reactions involving release of various vasoactive and pro-inflammatory factors (several of which are purported to induce vasospasm) from blood and vascular components in the subarachnoid space. The authors review the available evidence linking these factors to the development of inflammatory lesions of the cerebral vasculature, emphasizing: 1) neurogenic inflammation due to massive release of sensory nerve neuropeptides; 2) hemoglobin from lysed erythrocytes, which creates functional lesions of endothelial and smooth muscle cells; 3) activity, expression and metabolites of lipoxygenases cyclooxygenases and nitric oxide synthases; 4) the possible role of endothelin-1 as a pro-inflammatory agent; 5) serotonin, histamine and bradykinin which are especially involved in blood-brain barrier disruption; 6) the prothrombotic and pro-inflammatory action of complement and thrombin towards endothelium; 7) the multiple actions of activated platelets, including platelet-derived growth factor production; 8) the presence of perivascular and intramural macrophages and granulocytes and their interaction with adhesion molecules; 9) the evolution, origins, and effects of pro-inflammatory cytokines, especially IL-1, TNF-a and IL-6. Human and animal studies on the use of anti-inflammatory agents in subarachnoid hemorrhage include superoxide and other radical scavengers, lipid peroxidation inhibitors, iron chelators, NSAIDs, glucocorticoids, and serine protease inhibitors. Many animal studies claim reduced vasospasm, but these effects are not always confirmed in human trials, where symptomatic vasospasm and outcome are the major endpoints. Despite recent work on penetrating vessel constriction, there is a paucity of studies on inflammatory markers in the microcirculation.

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“…Cerebral vasospasm is a major complication of human aneurysmal SAH gravely affecting outcome, but the underlying pathogenetic mechanism has remained unresolved and the treatment remains to be established. To investigate the pathophysiology and therapy of cerebral vasospasm, various animal models such as dogs [9][10][11][12]18], monkeys [1,6,7], rabbits [2,4,15], cats [17], and rats [3,8,16] have been used. While each model has its merits and demerits, by far the most popular model has been the canine SAH model first proposed by Varsos et al [18], designated the "two-hemorrhage" model.…”

Section: Dhhs Publication No [Nih] 85-23 Revised 1985)mentioning

confidence: 99%

“…The placement of an intrathecally indwelling catheter has already been reported in a monkey SAH model [7], where the indwelling catheter was used solely for the purpose of intrathecal drug administration as SAH was induced by the placement of a blood clot around the middle cerebral artery by craniotomy. Since we hypothesized the use of such catheters not only for drug administration but also for the induction of repeated SAH might improve the canine "twohemorrhage" model, we examined the feasibility of this technique in dogs in the present study.…”

Section: Dhhs Publication No [Nih] 85-23 Revised 1985)mentioning

confidence: 99%

An Improved Canine Model of Subarachnoid Hemorrhage Using Intrathecal Indwelling Catheters.

Mori

Asano

Nagata

et al. 1997

The Journal of Veterinary Medical Science

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ABSTRACT. In the present study, the feasibility of intrathecal indwelling catheters in the preparation of a repeated subarachnoid hemorrhage (SAH) model in dogs, as well as chronic intrathecal administration of therapeutic agents against the ensuing cerebral vasospasm was examined. Briefly, through a small suboccipital incision, two catheters were introduced into the subarachnoid space so that their tips were positioned in the prepontine cistern. One was used to induce SAH by infusing autologous blood, and the other to administer pharmacological agents (saline and/or saline containing a dye in this study) by means of an osmotic pump. The occurrence of cerebral vasospasm was followed by angiography via the catheter placed in the vertebral artery. The obtained results show: i) the injected blood effectively formed a subarachnoid clot in the prepontine cistern, invariably leading to the occurrence of severe cerebral vasospasm of the basilar artery; ii) the fluid injected by the osmotic pump was evenly distributed in the cisterns around the brain stem; iii) on post mortem pathological examination, no injury of the brain or the major arteries ascribable to the placement of catheters was found. Therefore, the present model is considered to be useful for both the investigation of pathophysiology and therapy of cerebral vasospasm following SAH, to be more favorable from the standpoint of animal protection, and more convenient and reliable than those used until now. -KEY WORDS: canine, cerebral vasospasm, osmotic pump.J. Vet. Med. Sci. 59(9): 825-828, 1997 complied with the "Principle of Laboratory Animal Care" and the "Guide for the Care and the Use of Laboratory Animals" issued by the National Institute of Health (U.S.A. DHHS publication No. [NIH] 85-23, revised 1985).Under general anesthesia (sodium pentobarbital 30 mg/ kg, i.v.) and mechanical ventilation, the head of each dog was placed in a supine position using a stereotaxic device (Takahashi Co., Ltd., Tokyo, Japan). Arterial blood gas levels were monitored to safeguard against pO 2 fluctuation in the dimentions of the cerebral artery due to variations in pCO 2 . Rectal temperature was kept within the normal range using a feedback-regulated heating pad. With an aseptic technique, the right vertebral artery was exposed in the lower neck and cannulated with a polyethylene catheter (0.86 mm). The dog was turned to the prone position, and an initial angiogram (pre-day 0) was obtained using 8 ml meglumine diatrizoate at a rate of approximately 3 ml/sec via a catheter inserted into the right vertebral artery. In the P-SAH and the sham groups, the occipital skin was surgically prepared, and a 4 cm skin incision was then made caudally starting from the external occipital protuberance. The occipital neck muscles were divided at the midline, and the atlantooccipital membrane was exposed. Through a small incision made in the membrane, two silicon catheters were separately inserted into either side of the cerebellomedullary cisterns; one (1 mm in diameter, 5 cm long) was ...

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Prospective, randomized, double-blind trial of BQ-123 and bosentan for prevention of vasospasm following subarachnoid hemorrhage in monkeys

Cited by 79 publications

References 28 publications

Hemoglobin Increases Endothelin-1 in Endothelial Cells by Decreasing Nitric Oxide

Hemoglobin Increases Endothelin-1 in Endothelial Cells by Decreasing Nitric Oxide

Cerebrovascular Inflammation Following Subarachnoid Hemorrhage

An Improved Canine Model of Subarachnoid Hemorrhage Using Intrathecal Indwelling Catheters.

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