Venous capacity and compliance in hypertensive adults: influence of hypoxia and hyperoxia.

In hypertension, the cardiorespiratory responses to peripheral chemoreflex activation (hypoxia) and inactivation (hyperoxia) are reportedly augmented, but the impact on peripheral venous function is unknown. We tested the hypothesis that in hypertensives, both hypoxia and hyperoxia evoke more pronounced changes in lower limb venous capacity and compliance, than in age-matched normotensives. In 10 hypertensive [HTN: 7 women; age: 71.7 ± 3.7 yr, mean blood pressure (BP): 101 ± 10 mmHg, mean ± SD] and 11 normotensive (NT: 6 women; age: 67.7 ± 8.0 yr, mean BP 89 ± 11 mmHg) participants, great saphenous vein cross-sectional area (GSV CSA; Doppler ultrasound) was measured during a standard 60 mmHg thigh cuff inflation-deflation protocol. Separate conditions of room air, hypoxia [fraction of inspired oxygen ([Formula: see text]): 0.10] and hyperoxia ([Formula: see text]: 0.50) were tested. In HTN, GSV CSA was decreased in hypoxia (5.6 ± 3.7 mm2, P = 0.041) compared with room air (7.3 ± 6.9 mm2), whereas no change was observed with hyperoxia (8.0 ± 9.1 mm2, P = 0.988). In NT, no differences in GSV CSA were observed between any condition (P = 0.299). Hypoxia enhanced GSV compliance in HTN (-0.0125 ± 0.0129 vs. -0.0288 ± 0.0090 mm2·100 mm2·mmHg-1, room air vs. hypoxia, respectively; P = 0.004), but it was unchanged in NT (-0.0139 ± 0.0121 vs. -0.0093 ± 0.0066 mm2·100 mm2·mmHg-1, room air vs. hypoxia, respectively; P < 0.541). Venous compliance was unaltered with hyperoxia in both groups (P < 0.05). In summary, compared with NT, hypoxia elicits a decrease in GSV CSA and enhanced GSV compliance in HTN, indicating enhanced venomotor responsiveness to hypoxia.NEW & NOTEWORTHY Hypertension remains a significant global health problem. Although hypertension research and therapies are keenly focused on the heart and arterial circulation, the venous circulation has been neglected comparatively. We determined whether hypoxia, known to cause peripheral chemoreflex activation, evoked more pronounced changes in lower limb venous capacity and compliance in hypertensives (HTN) than in age-matched normotensives (NT). We found that hypoxia reduced venous capacity in the great saphenous vein in HTN and increased its compliance twofold. However, hypoxia did not affect venous function in NT. Our data indicate the venomotor response to hypoxia is enhanced in hypertension, and this may contribute to the hypertensive state.

Quantifying tidal expiratory flow limitation using a vector-based analysis technique.

Objective. Tidal expiratory flow limitation (EFLT) is commonly identified by tidal breaths exceeding the forced vital capacity (FVC) loop. This technique, known as the Hyatt method, is limited by the difficulties in defining the FVC and tidal flow-volume (TV) loops. The vector-based analysis (VBA) technique described and piloted in this manuscript identifies and quantifies EFLTas tidal breaths that conform to the contour of the FVC loop.Approach. The FVC and TV loops are interpolated to generate uniformly spaced plots. VBA is performed to determine the smallest vector difference between each point on the FVC and TV curves, termed the flow reserve vector (FRV). From the FVC point yielding the lowest FRV, the tangential angles of the FVC and TV segments are recorded. If the TV and FVC loops become parallel, the difference between the tangential angles tends towards zero. We infer EFLTas parallel TV and FVC segments where the FRV is < 0.1 and the tangential angle is within ±18 degrees for ≥5% of TV. EFLTis quantified by the percent of TV loop fulfilling these criteria. We compared the presence and degree of EFLTat rest and during peak exercise using the Hyatt method and our VBA technique in 25 healthy subjects and 20 subjects with moderate-severe airflow obstruction.Main results. Compared to the Hyatt method, our VBA technique reported a significantly lower degree of EFLTin healthy subjects during peak exercise, and in obstructed subjects at rest and during peak exercise. In contrast to the Hyatt method, our VBA technique re-classified five subjects (one in the healthy group and four in the obstructed group) as demonstrating EFLT.Significance.Our VBA technique provides an alternative approach to determine and quantify EFLTwhich may reduce the overestimation of the degree EFLTand more accurately identify subjects experiencing EFLT.