Your search keyword '"muscular arteries"' showing total 12 results

1. The Age–Stiffness Relationships of Elastic and Muscular Arteries in a Control Population and in End-Stage Renal Disease Patients

Author

Gerard M. London, Michel E. Safar, and Bruno Pannier

Subjects

arterial aging, arterial stiffness, elastic arteries, muscular arteries, Internal medicine, RC31-1245

Abstract

Arterial dysfunction is major risk factor for cardiovascular complications, and arterial stiffness is an independent risk factor in end-stage renal disease patients. As the distance from the heart increases, arterial stiffness (pulse wave velocity) becomes progressively more marked. This generates a centrifugal stiffness gradient, which leads to partial, continuous local wave reflections, which in turn attenuate the transmission of pulsatile pressure into the microcirculation, thus limiting the potentially deleterious outcomes both upstream (on the heart: left-ventricular hypertrophy and coronary perfusion) and downstream (on the renal and cerebral microcirculation: reduced glomerular filtration and impaired cognitive functions). The impact of arterial aging is greater on the aorta and central capacitive arteries, and it is characterized by a loss or reversal of the physiological stiffness gradient between central and peripheral arteries. Recently, however, in contrast to observations on the aorta, several studies have shown less pronounced, absent, or even negative associations between muscular peripheral arteries and age–stiffness relationships, which may be associated with a decrease in or reversal of the stiffness gradient. These findings point to a potential benefit of assessing the muscular peripheral arteries to predict the risk of cardiovascular disease and suggest that reversal of the stiffness gradient may be an independent risk factor for all-cause mortality.

Published

2023

2. Distribution Pattern of Atherosclerosis in the Abdomen and Lower Extremities and Its Association with Clinical and Hematological Factors

Author

Park JK, Jung WB, and Yoon JH

Subjects

atherosclerosis, elastic arteries, muscular arteries, risk factors, Diseases of the circulatory (Cardiovascular) system, RC666-701

Abstract

Jong Kwon Park,1 Won Beom Jung,1 Jung-Hee Yoon2 1Department of Surgery, Haeundae Paik Hospital, College of Medicine, Inje University, Busan, Republic of Korea; 2Department of Radiology, Haeundae Paik Hospital, College of Medicine, Inje University, Busan, Republic of KoreaCorrespondence: Jong Kwon Park Email jparkvk@gmail.comPurpose: Abdominal arteries differ from the arteries located at the extremities in histological composition and clinical features. This study investigated the distributional pattern of atherosclerosis in arteries of the abdomen and lower extremities and its association with clinical and hematologic factors.Patients and Methods: This retrospective study included 227 patients with atherosclerosis who underwent computed tomography angiography (CTA) of the abdomen and lower extremities. The distributional pattern of atherosclerosis was categorized into type 1 (suprainguinal elastic), type 2 (infrainguinal muscular), and type 3 (both arterial involvement). Chi-square tests, Mann–Whitney U-tests, and logistic regression analysis were used to investigate the data.Results: Of the 227 patients, 132 (58%) had type 1 and 95 (42%) had type 3 atherosclerosis. None had type 2. Older age, heavier smoking, and higher levels of HbA1c and homocysteine were the significant risk factors for type 3 atherosclerosis (odds ratio: 1.076, 1.023, 1.426, and 1.130, respectively). Patients with type 3 showed significantly lower right and left ankle and toe brachial indices compared to type 1 (P: 0.029, 0.023, 0.003, and < 0.001, respectively).Conclusion: In arteries of the abdomen and lower extremities, atherosclerosis may occur initially at suprainguinal elastic arteries. In addition, the significant risk factors for type 3 atherosclerosis may contribute to the development of atherosclerosis at infrainguinal muscular arteries and deteriorate the peripheral arterial circulation. Therefore, if atherosclerotic lesions are found at the suprainguinal elastic arteries on CTA, to prevent atherosclerosis at infrainguinal muscular arteries and subsequent peripheral arterial ischemic disease, cessation of smoking and control of blood glucose and homocysteine may be recommended, especially in elderly patients.Keywords: atherosclerosis, elastic arteries, muscular arteries, risk factors

Published

2021

3. Long-Term Effects of Calcium Channel Blockers on Central and Peripheral Arteries

Author

Matsui, Yoshio, O’Rourke, Michael F., Safar, Michel E., editor, O'Rourke, Michael F., editor, and Frohlich, Edward D., editor

Published

2014

4. Opposing Responses of the Calcium Channel Blocker Nicardipine to Vascular Stiffness in the Elastic and Muscular Arteries in Rabbits

Author

Yuko Horikoshi, Akihiro Hazama, Hiroki Shimura, Kohji Shirai, Tsuyoshi Shimizu, Shin-ichiro Katsuda, and Yuko Fujikura

Subjects

medicine.medical_specialty, Cardiac output, Mean arterial pressure, Nicardipine, Pulse Wave Analysis, Iliac Artery, Vascular Stiffness, Internal medicine, medicine.artery, Internal Medicine, medicine, Animals, Arterial Pressure, Aorta, Abdominal, Aorta, business.industry, Biochemistry (medical), Beta, Calcium Channel Blockers, medicine.disease, Arterial stiffness, Femoral Artery, muscular arteries, medicine.anatomical_structure, Cardio Ankle Vascular Index, Elastic, Vasoconstriction, Decreased blood pressure, Vascular resistance, Cardiology, Original Article, Vascular Resistance, Rabbits, medicine.symptom, Cardiology and Cardiovascular Medicine, business, medicine.drug

Abstract

Aim: The cardio-ankle vascular index (CAVI) consists of intrinsic and functional arterial stiffness mainly regulated by vasoactive compounds. A new stiffness index of the aorta (aBeta) and iliac-femoral arteries (ifBeta) was determined by applying the CAVI theory to the whole aorta and iliac-femoral arteries. We investigated the changes in aBeta and ifBeta in response to decreased blood pressure (BP) induced by the Ca 2＋ channel blocker nicardipine to elucidate the involvement of Ca 2＋ in aBeta and ifBeta. Methods: Pressure waves at the origin of the aorta (oA), distal end of the abdominal aorta (dA), and left femoral artery (fA) as well as flow waves at the oA were simultaneously recorded before and after the infusion of nicardipine (50 µg/kg/min) for 2 min in 12 male rabbits under pentobarbital anesthesia. Beta was calculated using the following formula: Beta=2ρ / PP×ln (SBP / DBP)×PWV 2 , where ρ, SBP, DBP, and PP denote blood density and systolic, diastolic, and pulse pressures, respectively. aBeta, ifBeta, and aortic-iliac-femoral Beta (aifBeta) were calculated using aPWV, ifPWV, and aifPWV, respectively. Results: SBP, mean arterial pressure (MAP), DBP, and total peripheral vascular resistance significantly decreased during the administration of nicardipine, whereas cardiac output significantly increased. aBeta and ifBeta significantly increased and decreased, respectively, whereas aifBeta did not change despite the decrease in BP. ifBeta and aBeta positively and negatively correlated with BP, respectively, whereas aifBeta did not correlate with SBP. Conclusions: There were contradictory arterial responses to nicardipine between the elastic and muscular arteries. Unknown vasoconstriction mechanisms that are not involved in Ca 2＋ influx may function in the aorta in response to decreased BP.

Published

2021

5. Distribution Pattern of Atherosclerosis in the Abdomen and Lower Extremities and Its Association with Clinical and Hematological Factors

Author

Jong Kwon Park, Won Beom Jung, and Jung-Hee Yoon

Subjects

Male, medicine.medical_specialty, Homocysteine, Computed Tomography Angiography, Endocrinology, Diabetes and Metabolism, 030204 cardiovascular system & hematology, Logistic regression, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, elastic arteries, Predictive Value of Tests, Internal medicine, Abdomen, medicine, Humans, risk factors, Pharmacology (medical), 030212 general & internal medicine, Aged, Retrospective Studies, Computed tomography angiography, Original Research, Aged, 80 and over, medicine.diagnostic_test, business.industry, Public Health, Environmental and Occupational Health, Retrospective cohort study, Arteries, Hematology, General Medicine, Odds ratio, Middle Aged, Plaque, Atherosclerotic, Vascular Health and Risk Management, Peripheral, muscular arteries, medicine.anatomical_structure, Lower Extremity, chemistry, Toe Brachial Index, Cardiology, Female, atherosclerosis, Cardiology and Cardiovascular Medicine, business, Biomarkers

Abstract

Jong Kwon Park,1 Won Beom Jung,1 Jung-Hee Yoon2 1Department of Surgery, Haeundae Paik Hospital, College of Medicine, Inje University, Busan, Republic of Korea; 2Department of Radiology, Haeundae Paik Hospital, College of Medicine, Inje University, Busan, Republic of KoreaCorrespondence: Jong Kwon Park Email jparkvk@gmail.comPurpose: Abdominal arteries differ from the arteries located at the extremities in histological composition and clinical features. This study investigated the distributional pattern of atherosclerosis in arteries of the abdomen and lower extremities and its association with clinical and hematologic factors.Patients and Methods: This retrospective study included 227 patients with atherosclerosis who underwent computed tomography angiography (CTA) of the abdomen and lower extremities. The distributional pattern of atherosclerosis was categorized into type 1 (suprainguinal elastic), type 2 (infrainguinal muscular), and type 3 (both arterial involvement). Chi-square tests, Mann–Whitney U-tests, and logistic regression analysis were used to investigate the data.Results: Of the 227 patients, 132 (58%) had type 1 and 95 (42%) had type 3 atherosclerosis. None had type 2. Older age, heavier smoking, and higher levels of HbA1c and homocysteine were the significant risk factors for type 3 atherosclerosis (odds ratio: 1.076, 1.023, 1.426, and 1.130, respectively). Patients with type 3 showed significantly lower right and left ankle and toe brachial indices compared to type 1 (P: 0.029, 0.023, 0.003, and < 0.001, respectively).Conclusion: In arteries of the abdomen and lower extremities, atherosclerosis may occur initially at suprainguinal elastic arteries. In addition, the significant risk factors for type 3 atherosclerosis may contribute to the development of atherosclerosis at infrainguinal muscular arteries and deteriorate the peripheral arterial circulation. Therefore, if atherosclerotic lesions are found at the suprainguinal elastic arteries on CTA, to prevent atherosclerosis at infrainguinal muscular arteries and subsequent peripheral arterial ischemic disease, cessation of smoking and control of blood glucose and homocysteine may be recommended, especially in elderly patients.Keywords: atherosclerosis, elastic arteries, muscular arteries, risk factors

Published

2021

6. Elastic and muscular arteries differ in structure, basal NO production and voltage-gated Ca2+-channels

Author

Arthur J.A. Leloup, Cor E. Van Hove, Annick eHeykers, Dorien M. Schrijvers, Guido R.Y. De Meyer, and Paul eFransen

Subjects

Diltiazem, arterial stiffness, arterial compliance, voltage-gated calcium channels, Elastic arteries, Muscular arteries, Physiology, QP1-981

Abstract

In the last decades, the search for mechanisms underlying progressive arterial stiffening and for interventions to avoid or reverse this process has gained much attention. In general, arterial stiffening displays regional variation and is, for example, during aging more prominent in elastic than in muscular arteries. We hypothesize that besides passive also active regulators of arterial compliance (i.e. endothelial and vascular smooth muscle cell (VSMC) function) differ between these arteries. Hence, it is conceivable that these vessel types will display different time frames of stiffening. To investigate this hypothesis segments of muscular arteries such as femoral and mesenteric arteries and elastic arteries such as the aorta and carotid artery were isolated from female C57Bl6 mice (5-6 months of age, n=8). Both microscopy and passive stretching of the segments in a myograph confirmed that passive mechanical properties (elastin, collagen) of elastic and muscular arteries were significantly different. Endothelial function, more specifically basal nitric oxide (NO) efficacy, and VSMC function, more specifically L-type voltage-gated Ca2+ channel (VGCC)-mediated contractions, were determined by α1-adrenoceptor stimulation with phenylephrine (PE) and by gradual depolarization with elevated extracellular K+ in the absence and presence of eNOS inhibition with L-NAME. PE-mediated isometric contractions significantly increased after inhibition of NO release with L-NAME in elastic, but not in muscular vessel segments. This high basal eNOS activity in elastic vessels was also responsible for shifts of K+ concentration-contraction curves to higher external K+. VGCC-mediated contractions were similarly affected by depolarization with elevated K+ in muscular artery segments or in elastic artery segments in the absence of basal NO. However, K+-induced contractions were inhibited by the VGCC blocker diltiazem with significantly higher sensitivity in the muscular arteries, suggestive of different populations of VGCC isoforms in both vessel types. The results from the present study demonstrate that, besides passive arterial wall components, also active functional components contribute to the heterogeneity of arterial compliance along the vascular tree. This crucially facilitates the search for (patho)physiological mechanisms and potential therapeutic targets to treat or reverse large artery stiffening as occurring in aging-induced arterial stiffening.

Published

2015

7. Arterial Stiffness Profiles: Investigating Various Sections of the Arterial Tree of African and Caucasian People.

Author

Schutte, Aletta E., Huisman, Hugo W., Schutte, Rudolph, Van Rooyen, Johannes M., Malan, Leoné, Malan, Nicolaas T., and Reimann, Manja

Subjects

*ARTERIAL diseases, *CAUCASIAN race, *AFRICANS, *BLOOD pressure, *AGING, *PULSE measurement

Abstract

In Africans, arterial stiffness progression seems more pronounced compared to Caucasians. We compared the arterial stiffness profiles of different age groups and focused on muscular arteries and two more central arterial segments in African and Caucasian people from South Africa. In African ( N == 374) and Caucasian ( N == 376) participants (20-70 years), we measured carotid-radial (C-R) and carotid-dorsalis pedis (C-DP) pulse wave velocity (PWV) and aortic characteristic impedance (Zao). Major findings were that normotensive and high-normal/hypertensive (HT) Caucasians indicated increased trends of C-R PWV with aging ( P == .029 and P == .067), not seen in the African groups ( P == .122 and P == .526). Both ethnic groups showed significant increases of C-DP PWV and Zao with aging. High-normal/hypertensive Africans had significantly stiffer arteries than hypertensive Caucasians for almost all age groups, and for all stiffness measures. African C-R PWV correlated significantly with blood pressure (BP), but not with age. Opposite results were observed for Caucasians. In conclusion, the stiffness of muscular arteries is already elevated in young Africans, in both those with normal or elevated BP. This is possibly due to an earlier deterioration during childhood, or perhaps already present from birth. Also, in Caucasians stiffness seems more age-related, while in Africans it seems to be more pressure-related. [ABSTRACT FROM AUTHOR]

Published

2011

8. Opposing Responses of the Calcium Channel Blocker Nicardipine to Vascular Stiffness in the Elastic and Muscular Arteries in Rabbits.

Author

Horikoshi Y, Katsuda SI, Fujikura Y, Hazama A, Shimura H, Shimizu T, and Shirai K

Subjects

Animals, Arterial Pressure drug effects, Calcium Channel Blockers pharmacology, Cardio Ankle Vascular Index, Pulse Wave Analysis methods, Rabbits, Vascular Resistance drug effects, Vasoconstriction drug effects, Vasoconstriction physiology, Aorta, Abdominal physiopathology, Femoral Artery physiopathology, Iliac Artery physiopathology, Nicardipine pharmacology, Vascular Stiffness drug effects

Abstract

Aim: The cardio-ankle vascular index (CAVI) consists of intrinsic and functional arterial stiffness mainly regulated by vasoactive compounds. A new stiffness index of the aorta (aBeta) and iliac-femoral arteries (ifBeta) was determined by applying the CAVI theory to the whole aorta and iliac-femoral arteries. We investigated the changes in aBeta and ifBeta in response to decreased blood pressure (BP) induced by the Ca 2＋ channel blocker nicardipine to elucidate the involvement of Ca 2＋ in aBeta and ifBeta., Methods: Pressure waves at the origin of the aorta (oA), distal end of the abdominal aorta (dA), and left femoral artery (fA) as well as flow waves at the oA were simultaneously recorded before and after the infusion of nicardipine (50 µg/kg/min) for 2 min in 12 male rabbits under pentobarbital anesthesia. Beta was calculated using the following formula: Beta=2ρ / PP×ln (SBP / DBP)×PWV 2 , where ρ, SBP, DBP, and PP denote blood density and systolic, diastolic, and pulse pressures, respectively. aBeta, ifBeta, and aortic-iliac-femoral Beta (aifBeta) were calculated using aPWV, ifPWV, and aifPWV, respectively., Results: SBP, mean arterial pressure (MAP), DBP, and total peripheral vascular resistance significantly decreased during the administration of nicardipine, whereas cardiac output significantly increased. aBeta and ifBeta significantly increased and decreased, respectively, whereas aifBeta did not change despite the decrease in BP. ifBeta and aBeta positively and negatively correlated with BP, respectively, whereas aifBeta did not correlate with SBP., Conclusions: There were contradictory arterial responses to nicardipine between the elastic and muscular arteries. Unknown vasoconstriction mechanisms that are not involved in Ca 2＋ influx may function in the aorta in response to decreased BP.

Published

2021

9. Die Feinstruktur der glatten Muskelzellen in den großen muskulären Arterien der Vögel.

Author

Büssow, H. and Wulfhekel, U.

Abstract

Copyright of Zeitschrift Für Zellforschung und Mikroskopische Anatomie is the property of Springer Nature and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

1972

10. Arterial stiffness profiles: investigating various sections of the arterial tree of African and caucasian people

Author

Manja Reimann, Hugo W. Huisman, Leoné Malan, Rudolph Schutte, Aletta E. Schutte, Nicolaas T. Malan, Johannes M. Van Rooyen, 10062718 - Huisman, Hugo Willem, 10060871 - Malan, Leoné, 10056173 - Malan, Nicolaas Theodor, 10922180 - Schutte, Aletta Elisabeth, 12201405 - Schutte, Rudolph, and 10059539 - Van Rooyen, Johannes Marthinus

Subjects

Adult, Male, medicine.medical_specialty, Physiology, Black People, Blood Pressure, White People, South Africa, Age Distribution, Vascular Stiffness, Age groups, Internal medicine, Internal Medicine, medicine, Humans, Sex Distribution, Pulse wave velocity, Aorta, Foot, business.industry, aging, General Medicine, Middle Aged, medicine.disease, Arterial stiffness, Arterial tree, Surgery, muscular arteries, Carotid Arteries, Blood pressure, Pulsatile Flow, Hypertension, Radial Artery, Disease Progression, cardiovascular system, Cardiology, ethnicity, Female, business, Africans

Abstract

In Africans, arterial stiffness progression seems more pronounced compared to Caucasians. We compared the arterial stiffness profiles of different age groups and focused on muscular arteries and two more central arterial segments in African and Caucasian people from South Africa. In African (N = 374) and Caucasian (N = 376) participants (20–70 years), we measured carotid-radial (C-R) and carotid-dorsalis pedis (C-DP) pulse wave velocity (PWV) and aortic characteristic impedance (Zao). Major findings were that normotensive and high-normal/hypertensive (HT) Caucasians indicated increased trends of C-R PWV with aging (P = .029 and P = .067), not seen in the African groups (P = .122 and P = .526). Both ethnic groups showed significant increases of C-DP PWV and Zao with aging. High-normal/hypertensive Africans had significantly stiffer arteries than hypertensive Caucasians for almost all age groups, and for all stiffness measures. African C-R PWV correlated significantly with blood pressure (BP), but not with age. Opposite results were observed for Caucasians. In conclusion, the stiffness of muscular arteries is already elevated in young Africans, in both those with normal or elevated BP. This is possibly due to an earlier deterioration during childhood, or perhaps already present from birth. Also, in Caucasians stiffness seems more age-related, while in Africans it seems to be more pressure-related. http://dx.doi.org/10.3109/10641963.2011.561897

Published

2011

11. Arterial stiffness profiles: investigating various sections of the arterial tree of African and caucasian people

Author

10062718 - Huisman, Hugo Willem, 10060871 - Malan, Leoné, 10056173 - Malan, Nicolaas Theodor, 10922180 - Schutte, Aletta Elisabeth, 12201405 - Schutte, Rudolph, 10059539 - Van Rooyen, Johannes Marthinus, Huisman, Hugo Willem, Malan, Nicolaas Theodor, Schutte, Aletta Elisabeth, Schutte, Rudolph, Van Rooyen, Johannes Marthinus, Malan, Leoné, Reimann, Manja, 10062718 - Huisman, Hugo Willem, 10060871 - Malan, Leoné, 10056173 - Malan, Nicolaas Theodor, 10922180 - Schutte, Aletta Elisabeth, 12201405 - Schutte, Rudolph, 10059539 - Van Rooyen, Johannes Marthinus, Huisman, Hugo Willem, Malan, Nicolaas Theodor, Schutte, Aletta Elisabeth, Schutte, Rudolph, Van Rooyen, Johannes Marthinus, Malan, Leoné, and Reimann, Manja

Abstract

In Africans, arterial stiffness progression seems more pronounced compared to Caucasians. We compared the arterial stiffness profiles of different age groups and focused on muscular arteries and two more central arterial segments in African and Caucasian people from South Africa. In African (N = 374) and Caucasian (N = 376) participants (20–70 years), we measured carotid-radial (C-R) and carotid-dorsalis pedis (C-DP) pulse wave velocity (PWV) and aortic characteristic impedance (Zao). Major findings were that normotensive and high-normal/hypertensive (HT) Caucasians indicated increased trends of C-R PWV with aging (P = .029 and P = .067), not seen in the African groups (P = .122 and P = .526). Both ethnic groups showed significant increases of C-DP PWV and Zao with aging. High-normal/hypertensive Africans had significantly stiffer arteries than hypertensive Caucasians for almost all age groups, and for all stiffness measures. African C-R PWV correlated significantly with blood pressure (BP), but not with age. Opposite results were observed for Caucasians. In conclusion, the stiffness of muscular arteries is already elevated in young Africans, in both those with normal or elevated BP. This is possibly due to an earlier deterioration during childhood, or perhaps already present from birth. Also, in Caucasians stiffness seems more age-related, while in Africans it seems to be more pressure-related.

Published

2011

12. Elastic and Muscular Arteries Differ in Structure, Basal NO Production and Voltage-Gated Ca(2+)-Channels.

Author

Leloup AJ, Van Hove CE, Heykers A, Schrijvers DM, De Meyer GR, and Fransen P

Abstract

In the last decades, the search for mechanisms underlying progressive arterial stiffening and for interventions to avoid or reverse this process has gained much attention. In general, arterial stiffening displays regional variation and is, for example, during aging more prominent in elastic than in muscular arteries. We hypothesize that besides passive also active regulators of arterial compliance [i.e., endothelial and vascular smooth muscle cell (VSMC) function] differ between these arteries. Hence, it is conceivable that these vessel types will display different time frames of stiffening. To investigate this hypothesis segments of muscular arteries such as femoral and mesenteric arteries and elastic arteries such as the aorta and carotid artery were isolated from female C57Bl6 mice (5-6 months of age, n = 8). Both microscopy and passive stretching of the segments in a myograph confirmed that passive mechanical properties (elastin, collagen) of elastic and muscular arteries were significantly different. Endothelial function, more specifically basal nitric oxide (NO) efficacy, and VSMC function, more specifically L-type voltage-gated Ca(2+) channel (VGCC)-mediated contractions, were determined by α1-adrenoceptor stimulation with phenylephrine (PE) and by gradual depolarization with elevated extracellular K(+) in the absence and presence of eNOS inhibition with L-NAME. PE-mediated isometric contractions significantly increased after inhibition of NO release with L-NAME in elastic, but not in muscular vessel segments. This high basal eNOS activity in elastic vessels was also responsible for shifts of K(+) concentration-contraction curves to higher external K(+). VGCC-mediated contractions were similarly affected by depolarization with elevated K(+) in muscular artery segments or in elastic artery segments in the absence of basal NO. However, K(+)-induced contractions were inhibited by the VGCC blocker diltiazem with significantly higher sensitivity in the muscular arteries, suggestive of different populations of VGCC isoforms in both vessel types. The results from the present study demonstrate that, besides passive arterial wall components, also active functional components contribute to the heterogeneity of arterial compliance along the vascular tree. This crucially facilitates the search for (patho) physiological mechanisms and potential therapeutic targets to treat or reverse large artery stiffening as occurring in aging-induced arterial stiffening.

Published

2015