Warning: Undefined array key "mm" in /www/wwwroot/www.ai-bt.com/si.php on line 10 Deprecated: trim(): Passing null to parameter #1 ($string) of type string is deprecated in /www/wwwroot/www.ai-bt.com/si.php on line 10 A new motility meter based on the Doppler principle.

Literature DB >> 116276

A new motility meter based on the Doppler principle.

M Vanuytven, J Vermeire, C J Niemegeers.

Abstract

A new motility meter for recording the locomotor activity of small laboratory animals is described in detail. The equipment is designed to record simultaneously, but independently, the motility of eight animals (or groups of animals) in separate cages. The functional mechanism is an application of the well known Doppler principle. The use of electromagnetic waves presents the important advantages of contactless detection and freedom from interference of external stimuli with spontaneous activity; both horizontal and vertical components of movement are registered. To test the equipment, motility was studied in rats treated with saline, haloperidol, d,l-amphetamine, and the combination of haloperidol and d,l-amphetamine. Motility, as measured with the Doppler motility meter, proved to be very sensitive to drug-effects.

Entities: Chemical Species

Mesh：

Substances：
Amphetamine
Haloperidol

Year: 1979 PMID： 116276 DOI： 10.1007/bf00427520

Source DB: PubMed Journal: Psychopharmacology (Berl) ISSN： 0033-3158 Impact factor: 4.530

8 in total

1. Intracranial self-stimulation in rats as a function of various stimulus parameters. IV. Influence of amphetamine on medial forebrain bundle stimulation with monopolar electrodes.

Authors: A Wauquier; C J Niemegeers
Journal: Psychopharmacologia Date: 1974-01-14

2. Intracranial self-stimulation in rats as a function of various stimulus parameters. II. Influence of haloperidol, pimozide and pipamperone on medial forebrain bundle stimulation with monopolar electrodes.

Authors: A Wauquier; C J Niemegeers
Journal: Psychopharmacologia Date: 1972

3. The influence of haloperidol and amphetamine on two different noise-escape situations in rats.

Authors: C J Niemegeers; F J Verbruggen; A Wauquier; P A Janssen
Journal: Psychopharmacologia Date: 1972

4. The influence of various neuroleptic drugs on shock avoidance responding in rats. I. Nondiscriminated Sidman avoidance procedure.

Authors: C J Niemegeers; F J Verbruggen; P A Janssen
Journal: Psychopharmacologia Date: 1969

5. The influence of various neuroleptic drugs on shock avoidance responding in rats. II. Nondiscriminated Sidman avoidance procedure with alternate reinforcement and extinction periods and analysis of the interresponse times (IRT's).

Authors: C J Niemegeers; F J Verbruggen; P A Janssen
Journal: Psychopharmacologia Date: 1969

6. The influence of various neuroleptic drugs on shock avoidance responding in rats. 3. Amphetamine antagonism in the discriminated Sidman avoidance procedure.

Authors: C J Niemegeers; F J Verbruggen; P A Janssen
Journal: Psychopharmacologia Date: 1970

7. In vivo interaction of haloperidol and apomorphine.

Authors: C J Niemegeers; P A Janssen
Journal: Arch Int Pharmacodyn Ther Date: 1978-11

8. Pimozide, a chemically novel, highly potent and orally long-acting neuroleptic drug. I. The comparative pharmacology of pimozide, haloperidol, and chlorpromazine.

Authors: P A Janssen; C J Niemegeers; K H Schellekens; A Dresse; F M Lenaerts; A Pinchard; W K Schaper; J M van Nueten; F J Verbruggen
Journal: Arzneimittelforschung Date: 1968-03

8 in total

4 in total

A new motility meter based on the Doppler principle.

1. Intracranial self-stimulation in rats as a function of various stimulus parameters. IV. Influence of amphetamine on medial forebrain bundle stimulation with monopolar electrodes.

2. Intracranial self-stimulation in rats as a function of various stimulus parameters. II. Influence of haloperidol, pimozide and pipamperone on medial forebrain bundle stimulation with monopolar electrodes.

3. The influence of haloperidol and amphetamine on two different noise-escape situations in rats.

4. The influence of various neuroleptic drugs on shock avoidance responding in rats. I. Nondiscriminated Sidman avoidance procedure.

5. The influence of various neuroleptic drugs on shock avoidance responding in rats. II. Nondiscriminated Sidman avoidance procedure with alternate reinforcement and extinction periods and analysis of the interresponse times (IRT's).

6. The influence of various neuroleptic drugs on shock avoidance responding in rats. 3. Amphetamine antagonism in the discriminated Sidman avoidance procedure.

7. In vivo interaction of haloperidol and apomorphine.

8. Pimozide, a chemically novel, highly potent and orally long-acting neuroleptic drug. I. The comparative pharmacology of pimozide, haloperidol, and chlorpromazine.

Review 1. The pharmacological and biochemical basis of neuroleptic treatment in schizophrenia.

2. Behavioral activity of rats measured by a new method based on the piezo-electric principle.

3. Validation of a microwave radar system for the monitoring of locomotor activity in mice.

4. A simplified microwave-based motion detector for home cage activity monitoring in mice.