Peer-Reviewed Journal Details
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Deegan, BMT,O'Connor, M,Lyons, D,OLaighin, G
2007
November
Physiological Measurement
Development and evaluation of new blood pressure and heart rate signal analysis techniques to assess orthostatic hypotension and its subtypes
Published
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Optional Fields
orthostatic hypotension artefact removal Finometer parameter extraction FINGER ARTERIAL-PRESSURE NEURALLY-MEDIATED SYNCOPE AUTONOMIC NERVOUS-SYSTEM CROSS-SPECTRAL ANALYSIS RATE-VARIABILITY UP TILT CARDIOVASCULAR VARIABLES NONINVASIVE MEASUREMENT FINAPRES ACCURACY
28
87
102
Orthostatic hypotension (OH) is a clinical condition, which frequently results in symptoms such as syncope, dizziness during standing, weakness, blurred vision and fatigue. It is defined as a sustained drop in blood pressure exceeding 20 mmHg systolic or 10 mmHg diastolic occurring within 3 min of assuming upright posture, and is a common causal factor for falls in the elderly. Since 1986, tilt-table testing has become widely used in the diagnosis of OH. The Finometer provides non-invasive monitoring of haemodynamic changes during tilt-table testing. In this study, new algorithms for parameter extraction from Finometer data were developed, with specific reference to the diagnosis of OH. Algorithms were developed to assess the rates of change of haemodynamic variables in response to head-up tilt testing, a previously unexamined aspect of tilt-table testing. These algorithms were applied to the Finometer measurements of 20 patients, who underwent tilt-table testing in the Mid-Western Regional Hospital, Limerick. The data extraction algorithms were shown to accurately record changes in haemodynamic variables for further analysis. It was also demonstrated that the rate of change of blood pressure during the head-up tilt-table testing could have prognostic significance for OH.
DOI 10.1088/0967-3334/28/11/N01
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