Driving under the influence of chlormethiazole.

This article describes a case of driving under the influence of the sedative-hypnotic-anticonvulsant drug chlormethiazole. The suspect, who was a physician, was driving dangerously on a busy highway and caused a traffic collision. When apprehended by the police, the man had bloodshot and glazed eyes and pupil size was enlarged. He could not answer the questions properly and his gait was unsteady. A roadside breath-alcohol screening test was positive but an evidential breath-alcohol test conducted about one hour later was below the legal limit for driving of 0.10 mg/L (10 microg/100 mL or 0.021 g/210 L). Because of the special circumstances of the traffic crash and the man's appearance and behaviour, the police suspected that drugs other than alcohol were involved and obtained a venous blood sample for toxicological analysis. The blood contained 0.23 mg/g alcohol, which is above the legal limit for driving in Sweden 0.20 mg/g (20 mg/100 mL or 0.020 g/100 mL), and codeine was also present at a therapeutic concentration of 0.02 mg/L. The conflict between the clinical signs of impairment and the toxicology report prompted a reanalysis of the blood sample with major focus on sedative-hypnotic drugs. Analysis by capillary GC-NPD identified chlormethiazole at a concentration of 5mg/L, the highest so far encountered in traffic cases in Sweden. In 13 other impaired driving cases over 10 years the mean (median) and range of concentrations of chlormethiazole were 1.6 mg/L (1.6 mg/L) and 0.3-3.3 mg/L. This case report underscores the need to consider clinical observations and the person's behaviour in relation to the toxicology report when interpreting and testifying in drug-impaired driving cases.

Comparison of the neuroprotective effect of clomethiazole, AR-R15896AR and NXY-059 in a primate model of stroke using histological and behavioural measures.

Three experimental neuroprotective agents (clomethiazole, AR-R15896AR and NXY-059) have recently been tested in a primate model of acute ischaemic stroke. As the experimental techniques used in all three studies were similar and the compounds were administered at clinically relevant doses, a comparative analysis of the functional benefits of these drug-treatments has now been performed. Furthermore a more detailed histological analysis of the neuroprotection afforded by the drugs has also been made. NXY-059 produced almost twice the degree of neuroprotection than that seen following clomethiazole or AR-R15896AR. Protection by NXY-059 was seen in measurements of damage to cortex and white matter. Clomethiazole and AR-R15896AR provided less protection of cortex and white matter than NXY-059. Conspicuously, AR-R15896AR was without effect in sub-cortical regions. NXY-059 was the only compound to produce a major, statistically significant improvement in the motor deficit induced by the stroke. All three drugs also reduced the degree of spatial neglect 3 weeks after pMCAO, and 10 weeks later only NXY-059 still provided significant additional functional benefit to the spontaneous improvement seen in stroked control animals not receiving treatment. The overview of the behavioural effects and these new histological findings suggest that NXY-059 was by far the most effective neuroprotective agent of the three examined.

Clinical trial of the neuroprotectant clomethiazole in coronary artery bypass graft surgery: a randomized controlled trial.

BACKGROUND: The neuroprotective property of clomethiazole has been demonstrated in several animal models of global and focal brain ischemia. In this study the authors investigated the effect of clomethiazole on cerebral outcome in patients undergoing coronary artery bypass surgery. METHODS: Two hundred forty-five patients scheduled for coronary artery bypass surgery were recruited at two centers and prospectively randomized to clomethiazole edisilate (0.8%), 225 ml (1.8 mg) loading dose followed by a maintenance dose of 100 ml/h (0.8 mg/h) during surgery, or 0.9% NaCl (placebo) in a double-blind trial. Coronary artery grafting was completed during moderate hypothermic (28-32 degrees C) cardiopulmonary bypass. Plasma clomethiazole was measured at several intervals during and up to 24 h after the end of infusion. A battery of eight neuropsychological tests was administered preoperatively and repeated 4-7 weeks after surgery. Analysis of the change in neuropsychological test scores from baseline was used to determine the effect of treatment. RESULTS: Neuropsychological assessments were completed in 219 patients (110 clomethiazole; 109 placebo). The mean plasma concentration of clomethiazole during surgery was 66.2 microm. There was no difference between the clomethiazole and placebo group in the postoperative change in neuropsychological test scores. CONCLUSION: Clomethiazole did not improve cerebral outcome following coronary artery bypass surgery.

Serum concentration of chlormethiazole and therapeutic effect in acute alcohol withdrawal syndrome: an open clinical trial.

It was the aim of this study to find a relationship between the serum concentration of chlormethiazole and its therapeutic effect in acute alcohol withdrawal syndrome. As a secondary subject, the concentration of chlormethiazole was investigated in relation to variables of treatment and variables of physical status of patients. In an open clinical trial, the clinical status of patients was rated by the Mainz Alcohol Withdrawal Scale (MAWS) and the Delirium Rating Scale (DRS). Chlormethiazole concentration was measured by gas-liquid chromatography. Patients were dichotomized according to minimum values of MAWS and DRS after 2 days of treatment (good response and retarded or no response). Chlormethiazole concentration and dose per body weight and MAWS and DRS scores before treatment were compared by the Student t test and the Mann-Whitney test. The two groups were also analyzed by logistic regression with chlormethiazole concentration, MAWS and DRS score before treatment, age, gender, body weight, years of alcoholism, and dose per body weight as independent variables. Chlormethiazole concentration was analyzed by multiple regression with dose, age, gender, smoking, initial alcohol, body weight, and liver dysfunction as independent variables. Forty-three patients were included in the study. Twenty-four patients reached a minimum time of investigation of 2 days. The chlormethiazole concentration was in the range of 0.3 to 5.4 microg/mL at doses of 10 to 24 capsules/d (1 capsule = 192 mg chlormethiazole). As the main result, significantly increased chlormethiazole concentrations were found in patients with retarded or no response; however, in addition the DRS score before treatment and dose per body weight were increased. In addition, the final models of logistic regression contained only DRS score before treatment. As a secondary result, the final model of multiple regression revealed an increased chlormethiazole concentration with dose of chlormethiazole and concentration of alcohol in blood and a decreased chlormethiazole concentration with body weight. This was the first study to investigate the relationship between the chlormethiazole concentration and therapeutic effect in alcohol withdrawal. No robust relationship could be detected that could be separated from the control of treatment by clinical variables. Rather, a poor therapeutic outcome is mainly predicted by an increased initial severity of symptoms, and higher doses are applied in more severely ill patients. Thus, pharmacokinetic control of treatment is not recommended.

Investigation of the effect of chlormethiazole on cerebral chemistry in neurosurgical patients: a combined study of microdialysis and a neuroprotective agent.

AIMS: Promising pre-clinical results from laboratory studies of neuro-protective drugs for the treatment of patients with stroke and head injury have not been translated into benefit during clinical trials. The objective of the study was to assess the feasibility of administrating a potential neuro-protective drug (chlormethiazole) in conjunction with multimodality monitoring (including microdialysis) to patients with severe head injury in order to determine the effect of the agent on surrogate endpoints and penetration into the brain. METHODS: Multimodality monitoring including cerebral and peripheral microdialysis was applied to five head-injured patients on the neuro-intensive care unit. Chlormethiazole (0.8%) was administered as a rapid (10 ml min(-1)) intravenous loading infusion for 5 min followed by a slow (1 ml min(-1)) continuous infusion for 60 min. The following parameters were monitored: heart rate, mean arterial blood pressure, intracranial pressure, cerebral perfusion pressure, peripheral oxygen saturation, continuous arterial oxygen partial pressure, arterial carbon dioxide partial pressure, arterial pH, arterial temperature, cerebral tissue oxygen pressure, cerebral tissue carbon dioxide pressure, cerebral pH, cerebral temperature, electroencephalograph (EEG), bi-spectral index, plasma glucose, plasma chlormethiazole, and cerebral and peripheral microdialysis assay for chlormethiazole, glucose, lactate, pyruvate and amino acids. RESULTS: Despite achieving adequate plasma concentrations, chlormethiazole was not detected in the peripheral or cerebral microdialysis samples. The drug was well tolerated and did not induce hypotension, hyperglycaemia or withdrawal seizures. The drug did not change the values of the physiological or chemical parameters including levels of GABA, lactate/pyruvate ratio and glutamate. The drug did, however, induce EEG changes, including burst suppression in two patients. CONCLUSIONS: Chlormethiazole can be safely given to ventilated patients with severe head injury. There was no evidence of hypotension or withdrawal seizures. Combining a pilot clinical study of a neuro-protective agent with multimodality monitoring is feasible and, despite the lack of effect on physiological and chemical parameters in this study, may be a useful adjunct to the development of neuro-protective drugs in the future. Further investigation of the capability of microdialysis in this setting is required. By investigating the effect of a drug on surrogate end-points, it may be possible to identify promising agents from small pilot clinical studies before embarking on large phase III clinical trials.

The interaction of AR-A008055 and its enantiomers with the GABA(A) receptor complex and their sedative, muscle relaxant and anticonvulsant activity.

AR-A008055 [(+/-)-1-(4-methyl-5-thiazolyl)-1-phenylmethylamine] is structurally related to clomethiazole and has been used to probe the mechanism of the neuroprotective effect of clomethiazole. Clomethiazole, (+/-)-AR-A008055 and (S)-(-)-AR-A008055 all displaced [35S]-t-butyl-bicyclophosphorothionate ([35S]TBPS) from rat cerebral cortex tissue (IC50 values: GABA, 8.1+/-0.04 microM; clomethiazole, 130+/-30 microM; (+/-)-AR-A008055, 494+/-7 microM; (S)-(-)-AR-A008055, 221+/-14 microM. (R)-(+)-AR-A008055 was without significant effect (IC50>1000 microM). None of the compounds interacted with NMDA or AMPA receptors or with sodium or calcium (N, P/Q) channels. Brain penetration of both enantiomers following their i.p. administration was excellent, with brain and plasma concentrations being similar. Clomethiazole dose-dependently inhibited spontaneous locomotor activity in rats and was approximately 10 times more sedative than either enantiomer of AR-A008055. Clomethiazole was more potent than (S)-(-)-AR-A008055 in the "pull-up" test (muscle relaxation) and in producing loss of righting reflex, while (R)-(+)-AR-A008055 had little effect. The time animals remained on a Rota-rod was of the order: clomethiazole<(S)-(-)-AR-A008055<(R)-(+)-AR-A008055. (S)-(-)-AR-A008055 (210 micromol/kg) raised seizure threshold to pentylenetetrazole (i.v.) by 119+/-21%. The (R)-(+)- enantiomer was not anticonvulsant. Overall, (S)-(-)-AR-A008055 exhibited a similar pharmacology to clomethiazole. However, its sedative and muscle relaxant effects were substantially less than clomethiazole, emphasising that these properties are not directly related to neuroprotective efficacy. The current data suggest that the proposed GABA uptake inhibitory property of (R)-(+)-AR-A008055 fails to produce significant sedative, myorelaxant or anticonvulsant activity.

Clomethiazole is neuroprotective in models of global and focal cerebral ischemia when infused at doses producing clinically relevant plasma concentrations.

We investigated the neuroprotective effect of infusing various doses of clomethiazole in models of global and focal cerebral ischemia. In a model of global ischemia, gerbils were infused with clomethiazole (intravenous), attaining steady state plasma concentrations of between 1 and 13 microM for 24 h. In a transient middle cerebral artery occlusion model in rats, clomethiazole was administered subcutaneously over 22.75 h using osmotic minipumps producing steady state plasma concentrations of between 1 and 13 microM. Clomethiazole was protective in these models at plasma concentrations of respectively 6.1 microM and above and 3.5 microM and above. Clomethiazole is thus neuroprotective in both global and focal ischemia at plasma concentrations known to be well tolerated in stroke patients.

The metabolism of clomethiazole in gerbils and the neuroprotective and sedative activity of the metabolites.

A single dose of clomethiazole (600 micromol kg(-1) i.p.) has previously been shown to be neuroprotective in the gerbil model of global ischaemia. In gerbils, clomethiazole (600 micromol kg(-1)) injection produced a rapid appearance (peak within 5 min) of drug in plasma and brain and similar clearance (plasma t(1/2): 40 min) from both tissues. The peak brain concentration (226+/-56 nmol g(-1)) was 40% higher than plasma. One major metabolite, 5-(1-hydroxyethyl-2-chloro)-4-methylthiazole (NLA-715) and two minor metabolites 5-(1-hydroxyethyl)-4-methylthiazole (NLA-272) and 5-acetyl-4-methylthiazole (NLA-511) were detected in plasma and brain. Evidence suggested that clomethiazole is metabolized directly to both NLA-715 and NLA-272. Injection of NLA-715, NLA-272 or NLA-511 (each at 600 micromol kg(-1)) produced brain concentrations respectively 2.2, 38 and 92 times greater than seen after clomethiazole (600 micromol kg(-1)). Clomethiazole (600 micromol kg(-1)) injected 60 min after a 5 min bilateral carotid artery occlusion in gerbils attenuated the ischaemia-induced degeneration of the hippocampus by approximately 70%. The metabolites were not neuroprotective at this dose. In mice, clomethiazole (600 micromol kg(-1)) produced peak plasma and brain concentrations approximately 100% higher than in gerbils, drug concentrations in several brain regions were similar but 35% higher than plasma. Clomethiazole (ED(50): 180 micromol kg(-1)) and NLA-715 (ED(50): 240 micromol kg(-1)) inhibited spontaneous locomotor activity. The other metabolites were not sedative (ED(50) >600 micromol kg(-1)). These data suggest that the neuroprotective action of clomethiazole results from an action of the parent compound and that NLA-715 contributes to the sedative activity of the drug. British Journal of Pharmacology (2000) 129, 95 - 100

The protective action of chlormethiazole against ischaemia-induced neurodegeneration in gerbils when infused at doses having little sedative or anticonvulsant activity.

1. The effect of chlormethiazole administration on delayed neuronal death in gerbil hippocampus following transient global ischaemia has been examined. Chlormethiazole was administered either intraperitoneally or by intravenous infusion with either the dose or the time of infusion varied. 2. Chlormethiazole (600 mumol kg-1, i.p.) given 60 min after ischaemia produced substantial (> 60%) neuroprotection when damage was assessed 5, 14 or 21 days later, indicating the drug does not merely delay cell death. 3. Infusion protocols were developed which would result in sustained and defined plasma concentrations. Chlormethiazole (930 mumol kg-1) was then infused intravenously for 30 min, 76.5 min or 110 min in ways resulting in sustained plasma concentrations of 200, 100 and 50 nmol ml-1 respectively. When treatment was initiated 30 min after the ischaemic episode all protocols provided effective neuroprotection. There was a dose-dependent decline in protection when plasma chlormethiazole concentrations of 50, 30 and 10 nmol ml-1 were sustained for 110 min with no protection observed at 10 nmol ml-1. 4. In contrast, when a plasma concentration of 10 nmol ml-1 was sustained by infusion for 24 h, almost total neuroprotection against the ischaemic damage was achieved. This plasma concentration produced no sedative or anticonvulsant activity. 5. These data suggest that neuroprotection depends on both dose and duration of chlormethiazole administration and that excellent neuroprotection is possible in the absence of the sedative and anticonvulsant effects of the drug.

Improved high-performance liquid chromatographic procedure for the determination of chlormethiazole levels following solid-phase extraction from plasma.

An improved high-performance liquid chromatographic method for the determination of chlormethiazole levels in plasma is described. The drug is extracted from plasma using commercially available reversed-phase extraction columns; recovery values obtained using Sep-Pak C18 and Bond Elut C1, C2, C4, C6, C8, C18 columns are compared. Separation was achieved by reversed-phase chromatography, using a mobile phase consisting of 0.025 M sodium acetate buffer, pH 4.5-acetonitrile (67:33) at a flow-rate of 1.6 ml/min in conjunction with a 15-cm Jones Chromatography Apex ODS column. The analytical column was protected by a Waters Assoc. Guard-Pak module containing a Guard-Pak CN insert. Using ultraviolet detection at 254 nm chlormethiazole levels in the region of 50 ng/ml can be measured with only 500 microliter of plasma.

The bioavailability and pharmacodynamics of chlormethiazole in healthy young and elderly volunteers: preliminary findings.

A preliminary analysis of a study of the bioavailability and pharmacodynamics of chlormethiazole in healthy young and elderly volunteers has been performed. The bioavailability assessed by a stable isotope method and the pharmacodynamic effects assessed by psychometric tests were found not to differ between the two age groups.

Metabolic and functional aspects of tolerance to chlormethiazole and cross-tolerance to ethanol in the rat.

Adult male rats were used to study tolerance to, and physical dependence on, chlormethiazole and cross-tolerance to ethanol. In sleeping time studies, chlormethiazole was given orally at a daily dose rising progressively from 100 to 175 mg/kg over a period of 1 month. The tolerance that developed appeared to be due to altered disposition of the drug rather than to decreased sensitivity of the CNS. In agreement with this conclusion, there was only minimal cross-tolerance to ethanol, and no detectable withdrawal reaction. In studies with the moving belt test, the rats were given chlormethiazole subcutaneously in a total dose of 200 mg/kg daily for 69 days. This resulted in an equivocal manifestation of tolerance on the moving belt test and a small, but significant, tolerance to the hypothermic effect of chlormethiazole. Only an equivocal manifestation of physical dependence was found. These findings suggest that tolerance to the hypnotic and hypothermic effects observed with these chlormethiazole treatment regimens was due to altered pharmacokinetics rather than to functional tolerance of the CNS.

Hypnotic effect of chlormethiazole in geriatric patients during long-term treatment.

The hypnotic effect of chlormethiazole was studied for 3 months in 20 geriatric in-patients. Registered variables were the percentage of patients asleep at 10 pm and 6 am and the observed number of awakenings. Mental and somatic variables were rated according to the Crichton Geriatric Behavioural Rating Scale. Observations were made every second week. In 11 of the patients the plasma concentration of chlormethiazole was measured at regular intervals. No systematic significant change with time was observed for the percentage of patients asleep at 10 pm or for the number of awakenings. A significant decrease occurred in the percentage of patients asleep at 6 am. The long-term treatment with chlormethiazole did not cause any deterioration in the patients' behaviour, according to the geriatric rating scheme. Observed peak plasma levels of chlormethiazole did not change significantly during the study. Great interindividual variations in the plasma concentrations were observed. The results indicate that chlormethiazole is lastingly effective as a hypnotic agent in geriatric patients.

Comparison of the efficacy of chlormethiazole and diazepam as i.v. sedatives for supplementation of extradural anaesthesia.

The clinical efficacy of two sedative agents was compared in 21 young healthy patients undergoing surgery under extradural blockade. A state of sedation and amnesia in which patients lapsed into a sleep-like state when left undisturbed, yet spontaneously opened their eyes to make comments and co-operate with verbal commands, was sought. This was achieved readily by careful titration of responses and required a diazepam loading dose of 20 (+/- 15) mg given at a rate of 1 mg min-1 or 0.8% chlormethiazole edisylate infusion 10 ml min-1 given over 16 (+/- 6) min. Control of this state was easier with chlormethiazole (by varying the rate of infusion) than by giving repeated doses of diazepam. Both agents provided good anterograde amnesia; there was no retrograde amnesia. Considerable postoperative somnolence with a high incidence of relapse into amnesic and sedated states were noted with both agents. However, if the total volume of chlormethiazole infused was less than 300 ml, then a distinct advantage of abrupt and lucid recovery was apparent. Blood concentrations producing the desired clinical state were more variable for diazepam than for chlormethiazole.

The effect of chlormethiazole on the hypoxic drive to breathing in normal man.

We have studied the effects of chlormethiazole infusion on the ventilatory response to progressive isocapnic hypoxia in seven healthy volunteers, during both normocapnia and induced hypercapnia. The dose of chlormethiazole was such that it produced the same degree of hypnosis as would be expected from oral administration of two capsules each containing 192 mg of base in arachis oil. Ventilation did not change significantly during chlormethiazole administration. The ventilatory response to hypoxia was unaffected by chlormethiazole during normocapnia and was enhanced during hypercapnia. In these subjects, giving chlormethiazole intravenously was not associated with depression of the resting ventilation nor the hypoxia ventilatory response.

Ranitidine does not affect chlormethiazole or indocyanine green disposition.

Cimetidine has been shown to inhibit hepatic mixed-function oxidase activity and to lower hepatic blood flow. It is not known whether these effects are related to its H2-receptor antagonism or to its intrinsic structure. Ranitidine is a more potent H2-receptor antagonist and differs structurally from cimetidine. In our study, ranitidine, 150 mg twice daily, had no effect on oral or systemic clearance of chlormethiazole, a sedative with a high clearance, and no effect on indocyanine green elimination.

Comparison of the anaesthetic and haemodynamic effects of chlormethiazole and thiopentone.

Two groups of eight women (60-85 yr) undergoing gynaecological operations of 50 to 130 min duration were compared. Anaesthesia was induced with either thiopentone (mean 4.5 mg kg-1) or chlormethiazole (mean 6.0 mg kg-1) and maintained with nitrous oxide and pethidine in combination with the drug used for the induction. The hourly maintenance dose and the plasma concentration determined at equilibrium were greater for chlormethiazole (means 4.7 mg kg-1 h-1 and 27 mumol litre-1) compared with 1.3 mg kg-1 h-1 (P less than 0.01) and 16 mumol litre-1 respectively for thiopentone (P less than 0.02). Impedance cardiography showed that cardiac output was decreased by 30-40% in the thiopentone group (P less than 0.01), whereas no significant change was observed in the chlormethiazole group. Chlormethiazole anaesthesia was followed by a significant increase (P less than 0.02) in stroke volume. No correlations were found between the plasma concentrations and changes in the haemodynamic indices for either of the drugs.

Acute chlormethiazole poisoning in patients notified to the Poisons Unit, Guy's Hospital, 1978--1981.

1 Out of 493 patients with suspected acute chlormethiazole poisoning notified to the Poisons Unit, Guy's Hospital during 1978--1981, the diagnosis was confirmed either analytically or by detailed clinical information in 108 patients, 40 of whom had ingested chlormethiazole alone. 2 The principal signs reported indicate that the clinical features of acute chlormethiazole poisoning resemble those of barbiturate poisoning, with deep coma (n = 66), respiratory depression (n = 26) and hypotension (n = 17) in the severe cases. Five patients died as a result of early, profound respiratory depression. 3 In 53 survivors in whom toxicological analyses were performed, poisoning with chlormethiazole alone had a better prognosis than when ethanol or other drugs were also present, except in patients with hepatic or pulmonary disease or in the elderly. 4 These results emphasise that although patients poisoned with chlormethiazole who survive to reach hospital generally have a good prognosis, fatal respiratory complications often occur before the patient can be treated.

Confusion and hypnotics in demented patients.

Eleven elderly confused patients were given a single dose of chlormethiazole, temazepam and placebo on separate nights with-in a 10-day period. There was no statistically significant difference between the three treatments the next morning in any of the tests, which included subjective and objective measures of mental ability, orientation and hangover effect. These results mirror those previously found in normal, healthy, elderly patients, and do not therefore support the contention that hypnotics increase confusion in demented patients, or that such patients are more sensitive to their actions. Indeed, plasma drug concentrations were on average twice as high in demented as in normal elderly subjects, thus raising the possibility of decreased sensitivity in the demented group. There was little correlation between plasma concentration and pharmacological effect.