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Ambulatory blood pressure

From Wikipedia, the free encyclopedia

Ambulatory blood pressure monitoring
MeSHD018660

Ambulatory blood pressure, as opposed to office blood pressure, is the blood pressure over the course of the full 24-hour sleep-wake cycle. Ambulatory blood pressure monitoring (ABPM) measures blood pressure at regular intervals throughout the day and night. It avoids the white coat hypertension effect in which a patient's blood pressure is elevated during the examination process due to nervousness and anxiety caused by being in a clinical setting. ABPM can also detect the reverse condition, masked hypertension, where the patient has normal blood pressure during the examination but uncontrolled blood pressure outside the clinical setting, masking a high 24-hour average blood pressure.[1] Out-of-office measurements are highly recommended as an adjunct to office measurements by almost all hypertension organizations.

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Blood pressure variability

24-hour, non-invasive ambulatory blood pressure (BP) monitoring allows estimates of cardiac risk factors including excessive BP variability or patterns of circadian variability known to increase risks of a cardiovascular event.[citation needed]

Nocturnal hypertension

Ambulatory blood pressure monitoring allows blood pressure to be intermittently monitored during sleep and is useful to determine whether the patient is a "dipper" or "non-dipper"—that is to say, whether or not blood pressure falls at night compared to daytime values. A nighttime fall is normal and desirable. It correlates with relationship depth, and also other factors such as sleep quality, age, hypertensive status, marital status, and social network support.[2] Absence of a nighttime dip is associated with poorer health outcomes; a 2011 study found increased mortality.[3] Nocturnal hypertension is also associated with end organ damage,[4] and is a much better indicator than the daytime blood pressure reading.

Target organ damage

See also: End organ damage

Readings revealing possible hypertension-related end organ damage, such as left ventricular hypertrophy or narrowing of the retinal arteries, are more likely to be obtained through ambulatory blood pressure monitoring than through clinical blood pressure measurement. Isolated clinical BP measurements are more subject to the general marked variability of BP measurements. Clinical measurements may be affected by the "white coat effect", a rise in the blood pressure of many patients due to the stress of being in the medical situation.[5]

Overnight reduction or surge in blood pressure

Optimal blood pressure fluctuates over a 24-hour sleep-wake cycle, with values rising in the daytime and falling after midnight. The reduction in early morning blood pressure compared with average daytime pressure is referred to as the night-time dip. Ambulatory blood pressure monitoring may reveal a blunted or abolished overnight dip in blood pressure. This is clinically useful information because non-dipping blood pressure is associated with a higher risk of left ventricle hypertrophy and cardiovascular mortality. By comparing the early morning pressures with average daytime pressures, a ratio can be calculated which is of value in assessing relative risk. Dipping patterns are classified by the percent of drop in pressure, and based on the resulting ratios a person may be clinically classified for treatment as a "non-dipper" (with a blood pressure drop of less than 10%), a "dipper", an "extreme dipper", or a "reverse dipper", as detailed in the chart below. Additionally, ambulatory monitoring may reveal an excessive morning blood pressure surge, which is associated with increased risk of stroke in elderly hypertensive people.[6][7]

Classification of dipping in blood pressure is based on the American Heart Association's calculation, using systolic blood pressure (SBP) as follows:[citation needed]

Range Class
<0% Reverse Dipper
0% - 10% Non-Dipper
10% - 20% Dipper
>20% Extreme Dipper

Dippers have significantly lower all-cause mortality than non-dippers or reverse dippers; "... ambulatory blood pressure predicts mortality significantly better than clinic blood pressure."[8]

References

  1. ^ Banegas, J. R.; Ruilope, L. M.; de la Sierra, A.; de la Cruz, J. J.; Gorostidi, M.; Segura, J.; Martell, N.; Garcia-Puig, J.; Deanfield, J.; Williams, B. (3 February 2014). "High prevalence of masked uncontrolled hypertension in people with treated hypertension". European Heart Journal. 35 (46): 3304–3312. doi:10.1093/eurheartj/ehu016. ISSN 0195-668X.
  2. ^ Holt-Lunstad J, Jones BQ, Birmingham W (March 2009). "The influence of close relationships on nocturnal blood pressure dipping". International Journal of Psychophysiology. 71 (3): 211–7. doi:10.1016/j.ijpsycho.2008.09.008. PMID 18930771.
  3. ^ Minutolo R, Agarwal R, Borrelli S, Chiodini P, Bellizzi V, Nappi F, Cianciaruso B, Zamboli P, Conte G, Gabbai FB, De Nicola L (June 2011). "Prognostic role of ambulatory blood pressure measurement in patients with nondialysis chronic kidney disease". Archives of Internal Medicine. 171 (12): 1090–8. doi:10.1001/archinternmed.2011.230. PMID 21709109.
  4. ^ O'Brien, E. (22 April 2000). "Use and interpretation of ambulatory blood pressure monitoring: recommendations of the British Hypertension Society". BMJ. 320 (7242): 1128–1134. doi:10.1136/bmj.320.7242.1128. ISSN 0959-8138. PMC 1127256.
  5. ^ Verdecchia P, Angeli F, Gattobigio R (2004). "Clinical usefulness of ambulatory blood pressure monitoring". J. Am. Soc. Nephrol. 15 Suppl 1 (90010): S30–3. doi:10.1097/01.ASN.0000093241.62751.95. PMID 14684668. Retrieved 2008-12-01.
  6. ^ Morning surge in blood pressure linked to strokes in elderly
  7. ^ Stroke Prognosis and Abnormal Nocturnal Blood Pressure Falls in Older Hypertensives
  8. ^ Ben-Dov, Iddo Z.; Jeremy D. Kark; Drori Ben-Ishay; Judith Mekler; Liora Ben-Arie; Michael Bursztyn (March 26, 2007). "Blood Pressure Measurement and Cardiovascular Risk Predictors of All-Cause Mortality in Clinical Ambulatory Monitoring Unique Aspects of Blood Pressure During Sleep". Hypertension (Free Full Text). 49 (6): 1235–1241. CiteSeerX 10.1.1.521.4388. doi:10.1161/HYPERTENSIONAHA.107.087262. PMID 17389258.

External links

This page was last edited on 24 March 2024, at 12:02
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