Jacek Przybylski scite author profile

Ventilatory, airway occlusion pressure, arterial blood pressure and heart rate responses to isocapnic progressive hypoxia and to hypercapnia in high oxygen, both induced by a rebreathing method, were measured in 20 hypertensive male subjects aged 20 to 21 years with a diastolic blood pressure of 13.1 KPa +/- 0.34 SD (98 mmHg +/- 2.6 SD) and in 20 age-matched normotensive male subjects. Ventilatory, airway occlusion pressure and blood pressure response to hypoxia was significantly greater in the hypertensive subjects. Hypoxic ventilatory drive measured as the parameter A denoting the shape of the V1-O2 curve was 28.8 +/- 2.7 SEM (range 7.0 to 44.2) in the normotensive group and 116.1 +/- 10.5 SEM (range: 71.6 to 234.77) in the hypertensive group, the difference being highly significant (P less than 0.001). The magnitude of respiratory sinus arrhythmia (RSA) recorded during progressive hypoxia and plotted against either PA. O2 or VI values was significantly greater in the hypertensive group. The difference in ventilatory and circulatory responses to hyperoxic hypercapnia between the two groups of subjects was not significant. There was a significant correlation between the responses to hypoxia and hypercapnia in the normotensive subjects (r = 0.56, t = 2.861, P less than 0.01) but no correlation in the hypertensive subjects (r = 0.07). It is concluded that dissociation of the responsiveness of the peripheral and central chemosensitivity, the former being significantly increased and predominant, occurs in early, mild hypertension.

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Tonic activity of carotid body chemoreceptors contributes to the increased sympathetic drive in essential hypertension

Siński

Lewandowski

Przybylski

et al. 2011

Hypertens Res

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Carotid chemoreceptors provoke an increase in muscle sympathetic nerve activation (MSNA) in response to hypoxia; they are also tonically active during normoxic breathing. The contribution of peripheral chemoreceptors to sympathetic activation in hypertension is incompletely understood. The aim of our study was to investigate the effect of chemoreceptor deactivation on sympathetic activity in untreated patients with hypertension. A total of 12 untreated hypertensive males and 11 male controls participated in this randomized, crossover, placebo-controlled study. MSNA, systolic blood pressure(BP), diastolic BP, heart rate (HR), electrocardiogram, hemoglobin oxygen saturation (Sat%) and respiratory movements were measured during repeated 10-min periods of respiration with 100% oxygen or 21% oxygen in a blinded fashion. Compared with controls, hypertensives had higher resting MSNA (38±10 vs. 29±0.9 burst per min, Po0.05), systolic BP (150±12 vs. 124±10 mm Hg, Po 0.001) and diastolic BP (92 ± 10 vs. 77 ± 9 mm Hg, Po0.005). Breathing 100% oxygen caused significant decrease in MSNA in hypertensive patients (38 ± 10 vs. 26 ± 8 burst per min and 100 ± 0 vs. 90 ± 10 arbitrary units, Po0.05) and no change in controls (29±9 vs. 27±7 burst per min and 100±0 vs. 96±11 arbitrary units). BP, respiratory frequency and end tidal CO 2 did not change during chemoreceptor deactivation with hyperoxia. HR decreased and Sat% increased in both the study groups. These results confirm the role of tonic chemoreceptor drive in the development of sympathetic overactivity in hypertension.

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Deactivation of carotid body chemoreceptors by hyperoxia decreases blood pressure in hypertensive patients

et al. 2014

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Previous studies have shown that hyperoxia-induced deactivation of carotid body chemoreceptors reduces sympathetic activity in hypertensive patients but it does not affect blood pressure. The maintenance of blood pressure can be explained by the direct, vasoconstrictive effect of hyperoxia, which offsets diminished sympathetic activity. This study compares the effect of acute hyperoxia on hemodynamic parameters between hypertensive and normotensive subjects. Twelve males with hypertension (age 39.4±2.4 years; body mass index 27.4±1.1 kg m(-2)) and 11 normotensive males (age 39.9±2.7 years; body mass index 25.4±0.7 kg m(-2)) received, via non-rebreathing mask ventilation, ambient air, followed by 100% oxygen for 20 min. The stroke volume, heart rate, cardiac output, blood pressure, total peripheral resistance, respiratory rate, baroreceptor control of heart rate and oxygen saturation were recorded continuously. Several 30 s periods were analyzed before, during and after inducing hyperoxia. At baseline, the hypertensive subject's blood pressure was higher and their baroreflex control of heart rate was lower when compared with the normotensive control group. After the first 30 s of hyperoxia, systolic, diastolic and mean blood pressures, as well as the total peripheral resistance, decreased significantly in hypertensives but not in normotensives. After 20 min of 100% oxygen ventilation, systolic and mean blood pressures and total peripheral resistance was increased in hypertensive patients, and the cardiac output and stroke volume had decreased in both groups. The results of this study confirm that deactivation of carotid body chemoreceptors can acutely decrease blood pressure in humans.

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Heart Rate and Respiratory Rate Influence on Heart Rate Variability Repeatability: Effects of the Correction for the Prevailing Heart Rate

et al. 2016

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Background: Since heart rate variability (HRV) is associated with average heart rate (HR) and respiratory rate (RespRate), alterations in these parameters may impose changes in HRV. Hence the repeatability of HRV measurements may be affected by differences in HR and RespRate. The study aimed to evaluate HRV repeatability and its association with changes in HR and RespRate.Methods: Forty healthy volunteers underwent two ECG examinations 7 days apart. Standard HRV indices were calculated from 5-min ECG recordings. The ECG-derived respiration signal was estimated to assess RespRate. To investigate HR impact on HRV, HRV parameters were corrected for prevailing HR.Results: Differences in HRV parameters between the measurements were associated with the changes in HR and RespRate. However, in multiple regression analysis only HR alteration proved to be independent determinant of the HRV differences—every change in HR by 1 bpm changed HRV values by 16.5% on average. After overall removal of HR impact on HRV, coefficients of variation of the HRV parameters significantly dropped on average by 26.8% (p < 0.001), i.e., by the same extent HRV reproducibility improved. Additionally, the HRV correction for HR decreased association between RespRate and HRV.Conclusions: In stable conditions, HR but not RespRate is the most powerful factor determining HRV reproducibility and even a minimal change of HR may considerably alter HRV. However, the removal of HR impact may significantly improve HRV repeatability. The association between HRV and RespRate seems to be, at least in part, HR dependent.

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Effect of substrate stiffness on the osteogenic differentiation of bone marrow stem cells and bone‐derived cells

Witkowska-Zimny

Walenko

Wróbel

et al. 2013

Cell Biology International

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There is a profound dependence of cell behaviour on the stiffness of its microenvironment. To gain a better understanding of the regulation of cellular differentiation by mechanical cues, we investigated the influence of matrix stiffness (E = 1.46 kPa and E = 26.12 kPa) on differentiated osteogenic cell lineage of bone marrow stem cells (BM-MSCs) and bone-derived cells (BDCs) using flexible collagen-coated polyacrylamide substrates. Differentiation potential was determined by measuring alkaline phosphatase activity, expression of osteoblast-specific markers including alkaline phosphatase, osteocalcin, Runx2 and collagen type I, as well as assessment of mineralisation (Alizarin Red S staining). We found that osteogenic differentiation can be regulated by the rigidity of the substrate, which may depend on the commitment in multi- or uni-potent targeting cells. Osteogenic differentiation of BM-MSCs was enhanced on a stiff substrate compared to a soft one, whereas BDCs osteogenic differentiation did not vary depending on the substrate stiffness. The data help in understanding the role of the external mechanical determinants in stem cell differentiation, and can also be useful in translational approach in functional tissue engineering.

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