Blood pressure measurement and nocturnal dipping patterns are heavily affected by body posture through changes in hydrostatic pressure between the arm and the heart

• Published in: Hypertension research Vol. 48; no. 3; pp. 1144 - 1154
• Main Authors: Pilz, Niklas, Narkiewicz, Krzysztof, Wolf, Jacek, Kario, Kazuomi, Visser, Tinta, Opatz, Oliver S., Reuter, Alma, Dippel, Laura J., Fesseler, Leon, Heinz, Viktor, Patzak, Andreas, Bothe, Tomas L.
• Format: Journal Article
• Language: English
• Published: Singapore Springer Nature Singapore 01.03.2025; Nature Publishing Group
• Subjects: Adolescent; Adult; Aged; Arm - physiology; Blood pressure; Blood Pressure - physiology; Blood Pressure Monitoring, Ambulatory; Circadian Rhythm - physiology; Female; Geriatrics/Gerontology; Health Promotion and Disease Prevention; Heart - physiology; Humans; Hydrostatic Pressure; Hypertension; Hypertension - diagnosis; Hypertension - physiopathology; Internal Medicine; Male; Medicine; Medicine & Public Health; Middle Aged; Obstetrics/Perinatology/Midwifery; Posture - physiology; Public Health; Sleep - physiology; Young Adult; Hypertension; Circadian rhythm; Blood pressure monitoring, Ambulatory; Hydrostatic pressure; Posture
• ISSN: 0916-9636; 1348-4214; 1348-4214
• DOI: 10.1038/s41440-024-02056-0

Nocturnal blood pressure (BP) shows the highest predictive power for cardiovascular events. However, there is a poor reproducibility of personalized dipping patterns in single individuals. We hypothesize that changes in body position during sleep cause variations in hydrostatic pressure,leading to incorrect BP values and dipping classifications. 26 subjects aged 18–30 years, as well as 25 participants aged 50 years and older underwent ambulatory BP measurements on the left arm, as well as determination of the hydrostatic pressure difference between the cuff and heart level during BP measurement. We observed that the BP measurement cuff was above the heart level (negative hydrostatic pressure) mostly through the night. Laying on the right side revealed the largest hydrostatic pressure difference and maximum incorrect BP measurement, with a mean of –9.61 mmHg during sleep. Correcting for hydrostatic pressure led to reclassification of nocturnal hypertension in 14 subjects (27.5%). Dipping patterns changed in 19 participants (37.3%). In total, 25 subjects (49.0%) changed either their nocturnal hypertension and/or their dipping classification. Our findings underscore the importance of accounting for hydrostatic pressure in ambulatory BP monitoring. Changes in body posture during sleep provide a plausible reason for the variability seen in nocturnal dipping patterns. Further research should focus on incorporating hydrostatic pressure compensation mechanisms in 24-h BP measurement. Limiting the noticeable effect of hydrostatic pressure differences could greatly improve hypertension diagnosis, classification, and treatment monitoring.