A central γ-aminobutyric acid mechanism in cardiac vagal control in man revealed by studies with intravenous midazolam

Farmer, Matthew R.; Vaile, J.; Osman, Faisal; Ross, H. F.; Townend, Jonathan; Coote, John H.

doi:10.1042/cs0950241

Cited by 19 publications

(13 citation statements)

References 22 publications

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“…Previously we have shown that there is a GABA A -mediated suppression of cardiac vagal tone in man [9][10][11], which is in agreement with existing animal data [13,21]. In the present study it was found that resting cardiac vagal tone was little affected by 10 mg oral diazepam,as has been noted previously [25], unlike the dramatic reductions seen with the more potent benzodiazepine midazolam [11].…”

Section: Discussionsupporting

confidence: 93%

“…In the present study it was found that resting cardiac vagal tone was little affected by 10 mg oral diazepam,as has been noted previously [25], unlike the dramatic reductions seen with the more potent benzodiazepine midazolam [11]. The results of time-and frequency-domain analysis also show no significant differences between diazepam and placebo.…”

Section: Discussionsupporting

confidence: 83%

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GABAergic mechanisms involved in the vagally mediated heart rate response to muscle contraction as revealed by studies with benzodiazepines

Farmer¹,

Ross²,

Chowdhary

et al. 2003

Clinical Autonomic Research

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The aim of this study was to determine if central GABA mechanisms are involved in the cardiac vagal withdrawal at the beginning of exercise in man. We tested whether GABA-enhancing effects of a benzodiazepine could be observed in the HR change (R-R interval) immediately following the onset of a brief (10s) isometric contraction (60 % maximum) of the biceps muscle. The difference between the change in R-R interval occurring during the same phase of respiration was compared for placebo (Pla) and 10 mg oral diazepam (Dz) treatment in a double blind, crossover trial. ECG, blood pressure, respiration and biceps muscle tension were recorded. The subjects breathed to a metronome and R-R interval measurements were plotted for early and late inspiration and early and late expiration. The mean values of the first late expiration R-R interval immediately following the start of contraction in early expiration were compared to the same measurements without contraction. Contractions initiated following diazepam treatment resulted in a significantly greater reduction in R-R interval (P < 0.05) implying that GABAergic suppression of cardiac vagal outflow may be responsible for contraction-induced tachycardia in man.

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Section: Discussionsupporting

confidence: 93%

Section: Discussionsupporting

confidence: 83%

GABAergic mechanisms involved in the vagally mediated heart rate response to muscle contraction as revealed by studies with benzodiazepines

Farmer¹,

Ross²,

Chowdhary

et al. 2003

Clinical Autonomic Research

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“…It is well known that the activity of the HPA system is inhibited by GABAergic mechanisms (Holsboer 1998). In contrast, heart rate has been shown to increase following treatment with benzodiazepines in rats (Castro et al 1999) and humans (Farmer et al 1998) which is in line with the differential effects of vigabatrin on HPA system activity and heart rate.…”

Section: Discussionmentioning

confidence: 74%

Vigabatrin Decreases Cholecystokinin-Tetrapeptide (CCK-4) Induced Panic in Healthy Volunteers

Zwanzger

Baghai

Schuele

et al. 2001

Neuropsychopharmacology

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Vigabatrin increases gamma aminobutyric acid (GABA) levels by irreversible inhibition of the GABA-catabolizing enzyme GABA-transaminase (GABA-T). Preclinical studies suggest anxiolytic effects in vigabatrin treated rats. Anxiolytic effects in patients with panic disorder (PD) could therefore be expected. To evaluate putative anxiolytic properties of vigabatrin in humans, CCK-4-induced panic symptoms were studied in healthy volunteers before and after vigabatrin treatment. After placebo-controlled administration of 50 g CCK-4, ten healthy volunteers received vigabatrin for seven days with a daily dosage of 2 g. The treatment period was followed by a second CCK-4 challenge. Panic and anxiety were assessed using the Acute Panic Inventory (API) score and a DSM-IV derived panicsymptom-scale (PSS). ACTH and cortisol plasma levels were determined during the CCK-4 challenge. All subjects reported a marked reduction of CCK-4-induced panic symptoms and anxiety after seven days of vigabatrin treatment both in the API-and PSS-scores. MoreoverThe new antiepileptic drug vigabatrin is a selective irreversible inhibitor of GABA-transaminase (GABA-T), the main degradative enzyme of GABA (Harden 1994). Vigabatrin increases CSF GABA levels by 2 to 3-fold when administered in anticonvulsant doses (Ben-Menachem 1989). Preclinical studies suggest that vigabatrin has anxiolytic properties in addition to its anticonvulsant effects. Sayin et al. (1992) compared the anxiolytic effects of diazepam and vigabatrin in rats and found a significant decrease of anxiety with both substances using the elevated plus maze test. Sherif and colleagues investigated the effects of GABA-transaminase inhibition on exploratory behaviour in socially isolated rats using both the elevated plus maze and the open field NO . 5 test (Sherif et al. 1994;Sherif and Oreland 1995). Despite these promising results in animal models it is still unclear whether vigabatrin exerts anxiolytic properties also in humans.CCK-4 has potent anxiogenic properties both in patients with panic disorder and in healthy volunteers (Bradwejn et al. 1990;Bradwejn et al. 1991a;Bradwejn et al. 1991b). Recent data suggest that CCK-4-induced panic is attenuated by antipanic treatment. A decrease of the anxiogenic effects of CCK-4 has been shown after treatment with benzodiazepines in healthy volunteers (de Montigny 1989). Moreover, antidepressants that are commonly used as antipanic treatment, e.g. imipramine (Bradwejn and Koszycki 1994a), fluvoxamine (van Megen etal. 1997) and citalopram (Shlik et al. 1997) reduced CCK-4-induced panic in patients with panic disorder.CCK-4-induced panic appears to be a suitable model to assess anxiolytic properties of psychopharmacological drugs in humans. To evaluate the putative anxiolytic properties of the selective GABA transaminase inhibitor vigabatrin, we therefore studied the effects of treatment with vigabatrin for seven days on CCK-4-induced panic symptoms in healthy male volunteers. METHODSTen male healthy volunteers (mean age ϭ 30.7 years, S...

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“…It has been reported that midazolam decreased both LF and HF in HRV without changes in LF/HF ratio [12] and depressed sympathetic activity to produce a vagotonic condition during spinal anesthesia [2]. The effects of benzodiazepine may be mediated by the modulation of GABAergic tone in the brain stem [13], which is involved in the endogenous regulation of SAP and vagal outflow to the heart and respiratory tract [14]. In this study, the HF component in HRV and SAPV with midazolam or propofol was thought to be secondary to the activities of the coupled cardiorespiratory neurons and ventilatory periodicity.…”

Section: Discussionmentioning

confidence: 99%

Comparison of the effects of propofol and midazolam on the cardiovascular autonomic nervous system during combined spinal and epidural anesthesia

Hidaka

Kawamoto

Kurita

et al. 2005

Journal of Clinical Anesthesia

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A central γ-aminobutyric acid mechanism in cardiac vagal control in man revealed by studies with intravenous midazolam

Cited by 19 publications

References 22 publications

GABAergic mechanisms involved in the vagally mediated heart rate response to muscle contraction as revealed by studies with benzodiazepines

GABAergic mechanisms involved in the vagally mediated heart rate response to muscle contraction as revealed by studies with benzodiazepines

Vigabatrin Decreases Cholecystokinin-Tetrapeptide (CCK-4) Induced Panic in Healthy Volunteers

Comparison of the effects of propofol and midazolam on the cardiovascular autonomic nervous system during combined spinal and epidural anesthesia

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