Estimation accuracy of a reduced lead system during continuous ST monitoring

Research output: Chapter in Book/Report/Conference proceedingConference contribution

Abstract

Reduced lead systems (RLS) typically derive (estimate) unrecorded target leads by a weighted sum of recorded basis leads. A proposed approach is to use patient-specific (PS) weights in the summation of the basis leads. Using this approach, weights are generated based on an individual subject's 12-lead electrocardiogram (ECG). These PS weights are subsequently used to derive unrecorded target leads. In this study we assess the estimation accuracy (EA) of a RLS that utilizes PS weights to derive target leads v1, v3, v4 and v6 from basis leads I, II, v2 and v5. This assessment is performed on two different monitoring scenarios during which:(1) the cardiac state of the patient remains stable after the PS weights are generated; and(2)the patient's ECG develops signs of acute myocardial ischemia after the PS weights are generated from a normal ECG.
LanguageEnglish
Title of host publicationUnknown Host Publication
PublisherElsevier
Pages697
Number of pages1
Volume45
DOIs
Publication statusPublished - 1 Nov 2012
EventInternational Society for Computerised Electrocardiology -
Duration: 1 Nov 2012 → …

Conference

ConferenceInternational Society for Computerised Electrocardiology
Period1/11/12 → …

Fingerprint

Density (specific gravity)
Lead
Electrocardiography
Monitoring

Cite this

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title = "Estimation accuracy of a reduced lead system during continuous ST monitoring",
abstract = "Reduced lead systems (RLS) typically derive (estimate) unrecorded target leads by a weighted sum of recorded basis leads. A proposed approach is to use patient-specific (PS) weights in the summation of the basis leads. Using this approach, weights are generated based on an individual subject's 12-lead electrocardiogram (ECG). These PS weights are subsequently used to derive unrecorded target leads. In this study we assess the estimation accuracy (EA) of a RLS that utilizes PS weights to derive target leads v1, v3, v4 and v6 from basis leads I, II, v2 and v5. This assessment is performed on two different monitoring scenarios during which:(1) the cardiac state of the patient remains stable after the PS weights are generated; and(2)the patient's ECG develops signs of acute myocardial ischemia after the PS weights are generated from a normal ECG.",
author = "Daniel Guldenring and Finlay, {Dewar D} and Nugent, {Chris D} and Mark Donnelly and Bond, {Raymond R.}",
year = "2012",
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}

Guldenring, D, Finlay, DD, Nugent, CD, Donnelly, M & Bond, RR 2012, Estimation accuracy of a reduced lead system during continuous ST monitoring. in Unknown Host Publication. vol. 45, Elsevier, pp. 697, International Society for Computerised Electrocardiology, 1/11/12. https://doi.org/10.1016/j.jelectrocard.2012.08.038

Estimation accuracy of a reduced lead system during continuous ST monitoring. / Guldenring, Daniel; Finlay, Dewar D; Nugent, Chris D; Donnelly, Mark; Bond, Raymond R.

Unknown Host Publication. Vol. 45 Elsevier, 2012. p. 697.

Research output: Chapter in Book/Report/Conference proceedingConference contribution

TY - GEN

T1 - Estimation accuracy of a reduced lead system during continuous ST monitoring

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AU - Bond, Raymond R.

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AB - Reduced lead systems (RLS) typically derive (estimate) unrecorded target leads by a weighted sum of recorded basis leads. A proposed approach is to use patient-specific (PS) weights in the summation of the basis leads. Using this approach, weights are generated based on an individual subject's 12-lead electrocardiogram (ECG). These PS weights are subsequently used to derive unrecorded target leads. In this study we assess the estimation accuracy (EA) of a RLS that utilizes PS weights to derive target leads v1, v3, v4 and v6 from basis leads I, II, v2 and v5. This assessment is performed on two different monitoring scenarios during which:(1) the cardiac state of the patient remains stable after the PS weights are generated; and(2)the patient's ECG develops signs of acute myocardial ischemia after the PS weights are generated from a normal ECG.

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