Physical properties and quantification of the ECT stimulus: I. Basic principles
- PMID: 8069647
Physical properties and quantification of the ECT stimulus: I. Basic principles
Abstract
The physical properties of the electroconvulsive therapy (ECT) stimulus markedly affect both efficacy and side effects. We review basic principles in characterizing these physical properties and in quantifying the ECT stimulus. The topics discussed include the application of Ohm's law, alternative composite units of ECT dosage (energy and charge), the use of constant-current, constant-voltage, and constant-energy principles in ECT devices, the nature of current shunting in ECT and the determinants of impedance, the relations between impedance and seizure threshold, the seizure-eliciting efficiency of alternative stimulus waveforms and of stimulus parameter configurations, and the role of reactive components (capacitance and inductance) in the ECT circuit. New findings are also presented regarding several of these issues.
Comment in
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Stimulus parameters and efficacy of ECT.Convuls Ther. 1994 Jun;10(2):124-8; discussion 140-52. Convuls Ther. 1994. PMID: 8069636 Review. No abstract available.
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Toward another generation of ECT devices?Convuls Ther. 1994 Jun;10(2):129-30; discussion 140-52. Convuls Ther. 1994. PMID: 8069637 No abstract available.
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Seizure threshold and impedance.Convuls Ther. 1994 Jun;10(2):131; discussion 140-52. Convuls Ther. 1994. PMID: 8069638 No abstract available.
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Optimizing the ECT stimulus.Convuls Ther. 1994 Jun;10(2):132-4; discussion 140-52. Convuls Ther. 1994. PMID: 8069639 Review. No abstract available.
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Back to the basics: electricity and ECT.Convuls Ther. 1994 Jun;10(2):135-9; discussion 140-52. Convuls Ther. 1994. PMID: 8069640 Review. No abstract available.
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