| OCR Text |
Show 17 reach their maximum oscillations mean [25]-[28], [31], In of a [25] ale study placed filled fluid 4.3% without elaborating, at pressure true that ale et of developed were estimate of true true Yamakoshi maximum et perfused with a pressure a the for maximum In mean. as the arterial ale were the to mean blood dimensional one Based their on [32] oscillations, chamber should summary, chamber to air volume, provide a they found that the decreases occurs arterial volume pulse pressure is increased, elasticity is also in the placed in occurrence carotid arteries. fluid filled chamber a and 3) increased. investigated the excised dog they of The and closed-loop controlled sinusoidal pressure riding offset chamber pressure to as olume pulsations excised arteries on 2) the as simple a elasticity, 1) mean: increased, only slightly due and which maximum oscillations at counterpressure is on They postulated, was occurs compression on and arterial pulse pressure, ratio occurred was supported by experimental studies, although strongly dependent from the the minimum cuff-armartery system. cuff pressure the concluded that away underestimation the a reconnected to the was blood pressure. mean [26] the which studies, reasonable artery which maximum oscillations theoretical model model dog carotid artery in et study of the relationship between the cuff Mauck pressure, algorithm, Posey arterial wall. the another In from which the below the average of of mean which maximum oscillations at estimate of better They reported that in 18 dogs dog's circulation. elasticity amplitude excised segment chamber, a than of diastolic blood pressure. [32] the maximum an chamber pressure provides sinusoidal was equivalent varied, input to the mean pressure. were recorded with the corresponding arterial volume changes pressure As a |
