X F Teng and Y T Zhang 2006 Physiol. Meas. 27 675 doi:10.1088/0967-3334/27/8/002
X F Teng and Y T Zhang
Show affiliationsPulse transit time (PTT) is usually determined as the time interval between the peak of the electrocardiogram (ECG) R wave and a characteristic point of the peripheral pulse measured by photoplethysmography. However, it was found that the photoplethysmogram (PPG) is affected by the contact force between the photoplethysmographic sensor and the measurement site, i.e. finger. Therefore, we hypothesized that the PTT may be altered by the applied sensor contact force. An ECG and PPG were recorded simultaneously from 30 healthy subjects using 12 magnitudes of contact force (0.1 N–1.8 N). Three characteristic points of the PPG were selected to determine the PTT, including the points near the foot (PTT1), on the systole phase (PTT2) and near the peak (PTT3). Both PTT1 and PTT2 increased significantly (p = 0.014 for PTT1 and p = 0.038 for PTT2) with the sensor contact force until the transmural force reached −0.1 N. With further increase in the contact force, they kept at an almost constant level. Such a changing trend was not found in PTT3. The results of this study suggest that the applied sensor contact force should be carefully controlled in PTT measurement to avoid diminishing its value as a diagnostic tool.
87.80.-y Biophysical techniques (research methods)
87.19.R- Mechanical and electrical properties of tissues and organs
Issue 8 (August 2006)
Received 9 December 2005, accepted for publication 3 May 2006
Published 26 May 2006
X F Teng and Y T Zhang 2006 Physiol. Meas. 27 675
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Brian Wynne 1979 Phys. Educ. 14 52
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Jason Tumlinson et al. 2007 ApJ 668 667
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