The Stimulation of Vascular Smooth Muscle Oxidative Metabolism by CSF from Subarachnoid Haemorrhage Patients Increases with Fisher and WFNS Grades

Summary  The purpose of this paper is to present an in vitro method for examining cerebral vasospasm after subarachnoid haemorrhage (SAH) which correlates to the patients' condition. The O₂ consumption of the porcine carotid artery was monitored, using an oxygen electrode, after exposure to cerebrospinal fluid (CSF) from patients who had a SAH. The vessels were exposed to CSF from SAH patients at a 1 in 30 dilution. Force measurements were carried out using freeze-dried CSF, reconstituted in the organ bath equivalent to undiluted CSF. These observations were then compared to the patients' condition.  We divided the patient CSF samples into those that stimulated oxygen consumption above 0.4 μM/min/g dry wt, and those that did not. It was found that there was a correlation between the stimulation of oxygen consumption and the Fisher grade as well as the World Federation of Neurosurgeons Grading System (WFNS) for the patients. Of the CSF tested, 24 stimulated oxygen consumption above our cut off, and 8 did not (0.84±0.34, n=24 compared with the rate of 0.27±0.1 μmol/min/g dry wt, respectively; SD n=8) at 180 minutes. We then examined the Fisher Grades of these two groups, the results were 3.21±0.88 vs 2.25±0.83 respectively (SD p≤0.01). When examining the WFNS System we found a similar difference between the groups that stimulated respiration and those who did not (WFNS Grades of 2.64±1.1 vs. 1.43±0.53; p≤0.01). The observed stimulation of oxygen consumption also correlated with tension generation in vitro.  The CSF from subarachnoid haemorrhage patients stimulates the oxygen consumption of the porcine carotid artery. This stimulation correlated to the WFNS and Fisher Grades of the patients and can be performed using 1:30 dilution of CSF. We conclude that the metabolic changes that occur in the vessels during vasospasm are important parameters for assessing cerebral vasospasm.     

Systemic Administration of Mexiletine for Attenuation of Cerebral Vasospasm Following Experimental Subarachnoid Haemorrhage

Mexiletine is a class Ib drug that is widely used to treat ventricular arrhythmias. This compound is mainly known as a sodium channel blocker, but studies have demonstrated that it can also activate ATP-sensitive K+ channels and block Ca2+ channels. Recent in vitro data from experiments on liposomes indicate that mexiletine is also a potent antioxidant. The unique activity profile of this drug raised the possibility that it might be of benefit in limiting cerebral vasospasm. Our first series of experiments assessed the effects of mexiletine on transclivally exposed rabbit basilar arteries. The arteries were treated with 50-mM KCl, 20-nM endothelin-1 (ET-1), or 100-microM lysophosphatidic acid (LPA) in the presence or absence of 400-mM mexiletine. Vasoconstriction caused by KCl, ET-1, and LPA was inhibited by mexiletine. In a second series of experiments, subarachnoid haemorrhage (SAH) was induced in rabbits by injecting 3-ml of autologous arterial blood into the cisterna magna. Forty-eight hours after SAH induction, transclivally exposed basilar arteries exhibited a spastic constriction that was partially reversed by topical application of 400-microM mexiletine. In a third set of experiments, mexiletine was administered orally at dosages of 80-, 20, and 5-mg/kg/day t.i.d., beginning 3 hours before SAH to study the prevention of vasospasm. In a separate group of animals, 80- and 20-mg/kg/day t.i.d. of mexiletine was administered 21 hours post-SAH induction, to study the reversal of vasoconstriction. Microscopic analysis of vessels from controls (no SAH), SAH-only, and SAH + mexiletine groups indicated there was 71.43% vascular constriction in the SAH-only group compared with controls. Considerable vasorelaxation was seen in the prevention study, in which average arterial cross-sectional areas were reduced by only 17.86% and 39.29% in the mexiletine 80- and 20-mg/kg/day groups, respectively, compared with controls (p < 0.001). Compared with controls, average arterial cross-sectional areas were reduced by 53.58% and 64.29% in the mexiletine 80- and 20-mg/kg/day reversal groups, respectively. Our findings indicate that mexiletine induces potent relaxation in cerebrovascular arteries contracted with various agents, and that it prevents and partially reverses SAH-induced vasoconstriction.     

Reversal of Cerebral Vasospasm by the Nitric Oxide Donor SNAP in an Experimental Model of Subarachnoid Haemorrhage

The constant release of nitric oxide (NO) is essential to maintain basal cerebrovascular tone. Oxyhaemoglobin, liberated by lysis of red blood cells after subarachnoid haemorrhage binds NO and prevents its entry into vascular smooth muscle cells. While endothelium-dependent vasoconstriction is preserved, decreased levels of NO inhibit endothelium-dependent relaxation and may cause vasospasm. S-nitrosothiols are potent vasodilators and precursors of NO. The authors' aim was to determine whether S-nitroso-N-acetylpenicillamine (SNAP), a stable S-nitrosothiol compound, could reverse vasospasm in an experimental vasospasm model in rabbit. Experimental subarachnoid haemorrhage (SAH) was induced in 37 New Zealand white rabbits. The animals were divided into four groups. Control (no SAH), SAH only, SAH plus saline and SAH plus SNAP. SNAP (15 micrograms/kg/min) or 0.09% saline (equal volume) was infused 46 hours after induction of SAH. All animals were killed by perfusion fixation 48 hours after SAH occurred. Basilar arteries were removed, sectioned and their cross sectional areas were evaluated in a blind manner, by light microscopy and by using computer assisted morphometry. Experimental SAH elicited vasospasm in all animals of SAH only and SAH plus saline group. In animals treated with SNAP, arterial narrowing was markedly attenuated without producing systemic hypotension. This widening achieved statistical significance when compared to the arteries of the SAH only and SAH plus saline group (p < 0.01). This study indicates that the NO donor SNAP is a potentially useful drug to reverse cerebral vasospasm due to SAH.     

Blood Flow Velocities in the Basal Vein after Subarachnoid Haemorrhage A Prospective Study Using Transcranial Duplex Sonography

Summary. Summary. Background: Early recognition of emerging delayed neurological deficits (DND) in patients after subarachnoid haemorrhage (SAH) is not always possible by transcranial Doppler sonography. Aim of this study was to investigate a) whether determination of blood flow velocities in deep cerebral basal veins can predict DND in these patients b) the correlation of venous flow velocity to cerebral blood flow (CBF). Methods: a) We prospectively investigated the mean flow velocity in the basal vein (V_BVR), in the middle cerebral artery (V_MCA) and in the extracranial internal carotid artery (V_ICA) in 66 patients after spontaneous SAH. Examinations were performed daily during the first 10 days, using transcranial duplex sonography. Thirty-seven patients had V_MCA exceeding 120 cm/s. They were categorised in three groups: I: no delayed neurological deficit; II: transient DND; III: permanent DND or death associated with vasospasm. b) In another group of 14 patients, interdiane variations in global cerebral blood flow (CBF) measured by the Kety-Schmidt-method were correlated with variations in V_BVR, V_MCA, and V_ICA. Findings: a) In patients without deficit, V_BVR was significantly elevated above normal values the first day (p<0.05), and days 5 and 6 (p<0.1) after V_MCA exceeding 120 cm/s. In group III (permanent deficit), flow velocities in the BVR were significantly below normal on day 5 (p<0.05) and 9 (p<0.1). b) The correlation between changes in V_BVR to changes in CBF (r=0.78, p<0.001) was closer than between changes in V_MCA to the changes in CBF (r=0.54, p<0.05). Interpretation: In case of elevated V_MCA, patients with higher V_BVR seem to have a better outcome. Changes in CBF correlate better with V_BVR than with arterial flow velocities.     

Plasma and Cerebrospinal Fluid Endogenous Digoxin-Like Immunoreactivity in Patients with Aneurysmal Subarachnoid Haemorrhage

Summary  Recent evidence indicates the presence of naturally occurring digitalis-like compounds in mammals, collectively known as either digitalis-like (DLF) or ouabain-like (OLF) factors, presumed to be endogenous hormones regulating the biological activity of the NA⁺/K⁺-ATPase and its isoforms. This substance has been postulated to enhance renal tubular sodium excretion and to increase peripheral vascular resistance. Digoxin-like immunoreactive substance (DLIS) was observed in plasma of some patients with spontaneous subarachnoid haemorrhage (SSAH). Accumulating evidence suggests the central nervous system as a site of synthesis, but also as a site of hypertensinogenic action of endogenous cardioglycosides. The present study intends to establish the ratio of the DLIS in plasma to that in cerebrospinal fluid (CSF) in patients with SSAH and to investigate possible connection of this substance with development of arterial vasospasm. A prospective analysis of DLIS levels was performed on plasma and CSF samples obtained in 40 patients who had suffered a recent SSAH. DLIS levels were determined by the fluorescence polarisation immuno-assay method immediately after the admission to the Ward, and again seven days later. The comparison of CSF and plasma DLIS levels did not show statistically significant differences between the results – neither for the first (Z=0.530; P=0.591) nor for the seventh day after the disease onset (Z=0.448; P=0.654). Three possible hypothetical explanations of these results are offered: a) substance determined by digoxin immuno-assay has no essential likeness to digoxin; b) loss of the haemato-encephalic barrier integrity enabling free substance exchange between plasma and central nervous system; c) digoxin-like substance production within the central nervous system. Further, comparison of DLIS plasma levels (7^th day from onset of SSAH) with angiography results showed that patients with multiple vasospasm had essentially higher plasma DLIS levels compared to patients with no vasospasms (Z=2.59; P=0.0097). The amount of extravasated blood, assessed on the basis of cranial CT scanning, was also connected with higher plasma DLIS levels (X²=3.29; P=0.0305). The enhanced arterial narrowing which occurs in SSAH may be in part mediated by increased digitalis-like factor activity.     

Platelet-Derived Growth Factor (PDGF-AB) like Immune Reactivity in Serum and in Cerebral Spinal Fluid Following Experimental Subarachnoid Haemorrhage in Dogs

Summary  The aim of this study was to evaluate the following questions: Can the platelet-derived growth factor (PDGF-AB) be identified in the serum and cerebro spinal fluid (CSF) of dogs? Is there an increase in the concentration of PDGF-AB following experimental subarachnoid haemorrhage (SAH)? Is the increase in concentration related to the angiographic cerebral vasospasm of the basilar artery. The “double haemorrhage” model was applied in seven dogs to produce experimental SAH with determination of angiographic vasospasm in the basilar artery. Blood and CSF samples were taken on the first, third and eighth days. The analyses were performed with an ELISA human PDGF-AB antibody kit (quantikine human PDGF-AB, R&D Systems, Minneapolis, USA).  The average PDGF-AB base value in the serum on the day before the SAH was 410.77±177.56 pg/ml, in the CSF it was 6.43±3.19 pg/ml. There was a significant (p=0.05) increase in the concentration of PDGF-AB (third day 717.35 pg/ml, eighth day 918.07 pg/ml) in the serum of all animals. No significant increase was found in the CSF samples of any animal. In summary, a PDGF-AB like immune reactivity was found in the serum of dogs with the human PDGF-AB ELISA kit and the concentration of PDGF-AB in the serum increased after experimental SAH but not in CSF, but there was no relationship between the increase in PDGF-AB serum concentration and angiographic vasospasm.     

Intra-Arterial Infusion of Fasudil Hydrochloride for Treating Vasospasm Following Subarachnoid Haemorrhage

Summary  In this pilot study we treated cerebral vasospasm in patients with subarachnoid haemorrhage to assess intra-arterial fasudil hydrochloride. We analysed effects of intra-arterial infusion on angiographically evident cerebral vasospasm in 10 patients including 3 with symptoms of vasospasm. Over 10 to 30 min 15 to 60 mg was administered via the proximal internal carotid artery or vertebral artery following standard angiography, without superselective techniques. A total of 24 arterial territories (21 internal carotid, 3 vertebral) were treated. Angiographic improvement of vasospasm was demonstrated in 16 arterial territories (local dilation in 2, diffuse dilation in 14) in 9 patients. In 2 symptomatic patients, intra-arterial fasudil hydrochloride was associated with resolution of symptoms without sequelae. In the third symptomatic patient the benefit of fasudil hydrochloride was only temporary, and a large cerebral infarction occurred. All asymptomatic patients showed no progression of angiographic to symptomatic vasospasm after treatment with intra-arterial fasudil hydrochloride. No adverse effect was encountered.     

Cerebral Blood Flow and Oxygen Metabolism During Mild Hypothermia in Patients with Subarachnoid Haemorrhage

Cerebral blood flow and O2 metabolism during hypothermia (33-34 degrees C) was evaluated in 5 patients with aneurysmal subarachnoid haemorrhage by positron emission tomography (PET). Their preoperative clinical condition was WFNS scale IV or V. The patients received surface cooling postoperatively, and were maintained in a hypothermic state during transfer for radiological examination. Positron emission tomography revealed a decrease in cerebral blood flow and O2 metabolic rate. Cerebral blood flow was 34.8+/-15.1 ml/100 ml/min and the O2 metabolic rate was 1.85+/-0.61 ml/100 ml/min in areas of the middle cerebral artery ipsilateral to the ruptured aneurysms, whereas these values were 30.8+/-7.1 and 2.21+/-0.45 ml/100 ml/min, respectively, on the contralateral side. This represents a decrease of 37+/-27% compared to normal cerebral blood flow and 52+/-16% compared to normal O2 metabolic rate (p < 0.02) in the ipsilateral areas, and decreases of 44+/-13% and 43+/-12%, respectively, on the contralateral side. The present results reflected the luxury perfusion state in almost all cases and provide the first PET evidence of decreased cerebral blood flow and metabolic rate of O2 during hypothermia in humans.     

Endothelin-1 Initiates the Development of Vasospasm after Subarachnoid Haemorrhage Through Protein Kinase C Activation, but does not Contribute to Prolonged Vasospasm

Summary  Endothelium plays a role in the regulation of vascular tone. Endothelin is a family of potent vasoconstrictive peptides, and endothelin-1 (ET-1) produced in the endothelium induces a tonic contraction via specific receptor ETa. ET-1 has been postulated as an important factor in the development of vasospasm after subarachnoid haemorrhage (SAH). We have previously shown that protein kinase C (PKC) of the cerebral artery plays a pivotal role in the pathogenesis of vasospasm. The purpose of this study is to clarify the relationship between ET-1 and PKC in the development and maintenance of vasospasm.  Using a “two-haemorrhage” canine model, chronological changes of angiographic progression of vasospasm, PKC activation, and ET-1 level of the basilar artery were assessed. In an isometric tension study with a control artery, the effects of ETa- and ETa/ETb-antagonists on the tonic contraction induced by ET-1 were examined. The effects of ET-1, ET-1 and an ETa-antagonist, and ET-1 and an ETa/ETb-antagonist on PKC activation were also evaluated.  ET-1 level temporarily increased, then decreased to the control level in a later stage of vasospasm. ET-1 induced a tonic contraction and enhancement of PKC activation, but both were inhibited either by an ETa- or an ETa/ETb-antagonist.  These results indicate that ET-1 initiates the development of vasospasm through PKC activation, but does not contribute to prolonged vasospasm.     

Obligatory Roles of Protein Kinase C and Nitric Oxide in the Regulation of Cerebral Vascular Tone: An Implication of a Pathogenesis of Vasospasm After Subarachnoid Haemorrhage

Summary  We previously showed that a canine basilar artery manifested tonic and potent, protein kinase C (PKC)-dependent contractions when nitric oxide (NO) was inhibited. We also reported a linear correlation between chronological changes in the angiographic severity of vasospasm, enhanced PKC, and attenuated guanosine, 13′,15′-cyclic monophosphate (cGMP) activity in a canine subarachnoid haemorrhage model. The activity of cGMP is an indicator of NO-function. Based on this evidence, we have hypothesized that PKC and NO regulate cerebral vascular tone. We particularly focused on the role of NO in a negative feedback mechanism on PKC activity in the maintenance of vascular tone. To further confirm our hypothesis, we investigated the effect of PKC down-regulation on the tonic vascular contraction induced by NO-inhibition.  Canine basilar artery was used in the experiment. Significant down-regulation of PKC activity in vascular smooth muscle cells was obtained by incubation with 10⁻⁵ mole/L of phorbol 12-myristate 13-acetate (PMA) for 24 hours. The tonic and potent contraction induced by NO-inhibition was completely suppressed in the PKC down-regulated artery, even though the artery manifested a significant contraction in high-K⁺ solutions. These results indicate an obligatory role of PKC activity in tonic contraction when NO is inhibited, and support our previous data. Nitric oxide induces vascular relaxation by inhibiting PKC activity. Subarachnoid haemorrhage impairs this inhibition, resulting in PKC-dependent vascular contraction, such as vasospasm.     

Experimental Study of Intracisternal Administration of Tissue-Type Plasminogen Activator Followed by Cerebrospinal Fluid Drainage in the Ultra-Early Stage of Subarachnoid Haemorrhage

This experimental study evaluated the effect of intrathecal injection of tissue-type plasminogen activator followed by cisternal drainage in the ultra-early stage of aneurysmal subarachnoid haemorrhage to prevent vasospasm. Twenty Japanese white rabbits were divided into five groups. Either tPA (groups A, B, and E) or saline (groups C and D) was injected intrathecally 1 hour (groups A, B, C, and D) or 21 hours (group E) after the intrathecal injection of blood. Cerebrospinal fluid was drained 2, 4, and 6 hours after the intrathecal injection of blood (groups A, C, and E). On day 4, the angiographic caliber of the basilar artery in each group was as follows (mean +/- SD): A, 85.9 +/- 5.0%; B, 74.6 +/- 5.3%; C, 69.1 +/- 2.7%; D, 64.0 +/- 4.9%; E, 80.2 +/- 2.7% (compared with baseline). In the two groups in which CSF was drained (groups A and C), fibrinolysis with tPA significantly suppressed vasospasm. In the two groups treated with tPA (groups A and B), cisternal drainage significantly suppressed vasospasm. In the two groups treated with saline (groups C and D), however, cisternal drainage did not suppress vasospasm. Examination of the series of CSF samples (groups A and C) showed that fibrinolysis with tPA effectively cleared clots early. In the two groups treated with tPA and CSF drainage (groups A and E), early removal of subarachnoid clots reduced the degree of vasospasm. Early fibrinolysis with tPA and early removal of subarachnoid clots by drainage is effective for preventing vasospasm.