Drug Treatment of Hypertension: Focus on Vascular Health

Cameron, Alan C.; Lang, Ninian N.; Touyz, Rhian M.

doi:10.1007/s40265-016-0642-8

Cited by 64 publications

(55 citation statements)

References 217 publications

(242 reference statements)

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“…In turn, these can contribute to enhancements in AI and further increases in aortic BP, indicating a vicious cycle, in which the microcirculation maintains or even amplifies an initial increase in BP. 46 In accordance, our data show for the first time, an inverse correlation between the magnitude of the hyperemic response within skeletal muscle microvessels and muscle oxygenation with aortic systolic and PP and AI%, suggesting a link between arterial stiffness and microvascular dysfunction with limitations in in vivo skeletal muscle oxygenation early in hypertension.In our newly diagnosed patients with hypertension, the more apparent reductions in muscle oxidative capacity indices than alterations in microvascular reactivity suggest an early role of skeletal muscle mitochondrial dysfunction in the pathogenesis of hypertension. In agreement, a study in spontaneously hypertensive rats showed that alterations in mitochondrial enzymes in cardiac muscle preceded the clinical manifestation of hypertension.…”

supporting

confidence: 89%

“…44,45 In hypertension, the vascular phenotype is characterized by reduced compliance, elasticity/distensibility, and increased stiffness. 46 With increased stiffness in large vessels, the pulsatile pressure/flow of the left ventricular ejection (which is normally transformed in a continuous flow) moves downstream to the small vessels of the arterial tree. 46,47 The chronic increase in BP along with the mechanical stress on the vascular wall and inflammation are postulated to induce remodeling of the muscular vessel wall, mainly in small arterioles, but also in precapillary resistance vessels, leading to luminal restrictions and capillary rarefaction.…”

Section: Muscle Oxidative Capacity and Microvascular Reactivitymentioning

confidence: 99%

“…12,50 In addition, the impaired oxidative capacity suggestive of mitochondrial dysfunction/uncoupling in the skeletal muscle of hypertensive patients could lead to an increase in reactive oxygen species, reducing endothelial NO synthase, and resulting in a decrease NO bioavailability. 46 The increased oxidative stress and inflammation further reduces NO, promoting endothelial dysfunction within the small vessels' wall and impairing vasodilation in exercising muscles.In conclusion, the impaired in vivo skeletal muscle oxygenation and microvascular reactivity in newly diagnosed, never-treated patients with hypertension were associated with higher aortic systolic and PP and AI. Importantly, our data show for the first time that, during submaximal exercise, hypertensive patients required a 2-fold increase in BP compared with normotensives, to achieve similar muscle oxygenation levels.…”

mentioning

confidence: 99%

“…46,47 The chronic increase in BP along with the mechanical stress on the vascular wall and inflammation are postulated to induce remodeling of the muscular vessel wall, mainly in small arterioles, but also in precapillary resistance vessels, leading to luminal restrictions and capillary rarefaction. 7,46,47 Microvascular rarefaction can reduce the vessel surface area available for oxygen delivery and increase the diffusional distance between vessels and their target cells, reducing blood-to-cell oxygen transfer, leading to tissue ischemia. In line, reduced muscle oxygen consumption was observed in our hypertensive patients.…”

mentioning

confidence: 99%

mentioning

confidence: 99%

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Impaired Muscle Oxygenation and Elevated Exercise Blood Pressure in Hypertensive Patients

et al. 2017

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E ssential hypertension is characterized by sustained elevations of blood pressure (BP) that can lead to target organ damage and an increased risk for cardiovascular disease. 1Potential life-threatening outcomes of hypertension, such as stroke, renal insufficiency, and cardiac hypertrophy, had been initially perceived as a result of macrovascular alterations. These macrovascular events, however, do not occur independently of microvascular derangement. [2][3][4] Studies have shown that alterations in microvascular structure (rarefaction), vasomotor tonus (enhanced vasoconstriction or blunted vasodilation), and endothelial dysfunction are principal processes in the pathogenesis of hypertension and are evident in several organs/tissue types. [5][6][7][8] In the skeletal muscle, microvascularization is important for oxygen and nutrient supply and for effective metabolite clearance. Studies in hypertension have shown structural or functional impairments in the microvasculature within skeletal muscles, 8 implying a reduced capacity for oxygen delivery and exchange. Furthermore, animal studies using experimental models of hypertension suggested that mitochondrial dysfunction (ie, decreased expression of mitochondrial components and defects in respiratory complexes) and increased oxidative stress result in impaired oxidative capacity and reduced mitochondrial ATP production.9,10 Importantly, in these animals, the mitochondrial dysfunction and the reduced oxidative capacity were present before the development of hypertension, suggesting a possible role of these processes to the pathogenesis of hypertension.11 However, information on skeletal muscle microvascular alterations and oxidative Abstract-This study examined in vivo (1) skeletal muscle oxygenation and microvascular function, at rest and during handgrip exercise, and (2) their association with macrovascular function and exercise blood pressure (BP), in newly diagnosed, never-treated patients with hypertension and normotensive individuals. Ninety-one individuals (51 hypertensives and 40 normotensives) underwent office and 24-hour ambulatory BP, arterial stiffness, and central aortic BP assessment, followed by a 5-minute arterial occlusion and a 3-minute submaximal handgrip exercise. Changes in muscle oxygenated and deoxygenated hemoglobin and tissue oxygen saturation were continuously monitored by nearinfrared spectroscopy and beat-by-beat BP by Finapres. Hypertensives had higher (P<0.001) central aortic BP and pulse wave velocity versus normotensives and exhibited (1) a blunted tissue oxygen saturation response during occlusion, with slower (P=0.006) deoxygenation rate, suggesting reduced muscle oxidative capacity, and (2) a slower reoxygenation rate and blunted hyperemic response (P<0.05), showing reduced microvascular reactivity. Muscle oxygenation responses were correlated with aortic systolic and pulse pressure and augmentation index (P<0.05; age and body mass index (BMI) adjusted). When exercising at the same submaximal intensity, hypertensives required a sig...

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supporting

confidence: 89%

Section: Muscle Oxidative Capacity and Microvascular Reactivitymentioning

confidence: 99%

mentioning

confidence: 99%

mentioning

confidence: 99%

mentioning

confidence: 99%

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Impaired Muscle Oxygenation and Elevated Exercise Blood Pressure in Hypertensive Patients

et al. 2017

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Pharmacokinetics and Drug–Drug Interaction of Allisartan Isoproxil and Indapamide Sustained‐Release Formulation

Yi,

Lin,

Hao

et al. 2023

Clinical Pharm in Drug Dev

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Allisartan isoproxil (AI) is an angiotensin II type 1 receptor blocker and be converted into the active substance EXP3174 in vivo. We evaluated the drug–drug interactions of AI and an indapamide sustained‐release (Ind SR) preparation, as well as the pharmacokinetic characteristics and safety of AI and Ind SR in healthy subjects. The trial was set up in 6 sequences and 3 cycles, and each cycle contained a 7‐day washout period. Subjects received 3 different trial drugs (A, AI; B, Ind SR; C, AI + Ind SR) during 3 different cycles. Twenty‐four subjects were enrolled in the clinical trial. Of these, 22 completed the study, 2 subjects dropped out due to adverse events (AEs). For subjects given AI alone or combined with Ind SR, the pharmacogenetic parameters Cmax and the geometric mean ratio of steady state (combined/single) of EXP3174 was 130%. The geometric mean ratio of area under the concentration–time curve over the dosing interval at steady state (combined/single use) was 144.5%. Therefore, the combination of Ind SR had an impact on the pharmacokinetics of AI. Then, the results indicated that the AI combination had no effect on the pharmacokinetics of Ind SR. Serious AEs did not occur. The AEs in this clinical trial were the same as those for AI and Ind SR. Combined administration resulted in 2 cases (2 subjects) of Grade 3 hypotension and 1 case of Grade 3 hypotension with AI alone. Considering that this trial included healthy volunteers, the risk of hypotension was expected to be manageable.

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Panendothelitis Due to the SARS COV 2 Infection: Consequences on Hypertension and Heart Failure

Voicu

2023

Updates in Hypertension and Cardiovascular Protection

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Drug Treatment of Hypertension: Focus on Vascular Health

Cited by 64 publications

References 217 publications

Impaired Muscle Oxygenation and Elevated Exercise Blood Pressure in Hypertensive Patients

Impaired Muscle Oxygenation and Elevated Exercise Blood Pressure in Hypertensive Patients

Pharmacokinetics and Drug–Drug Interaction of Allisartan Isoproxil and Indapamide Sustained‐Release Formulation

Panendothelitis Due to the SARS COV 2 Infection: Consequences on Hypertension and Heart Failure

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