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Your search keyword '"Keller, Bradley B."' showing total 15 results
Start Over Author "Keller, Bradley B." Journal american journal of physiology: heart & circulatory physiology
15 results on '"Keller, Bradley B."'

1. Sulforaphane prevents right ventricular injury and reduces pulmonary vascular remodeling in pulmonary arterial hypertension.

Author

Yin Kang, Guangyan Zhang, Huang, Emma C., Jiapeng Huang, Jun Cai, Lu Cai, Sheng Wang, and Keller, Bradley B.

Subjects
VASCULAR remodeling, PULMONARY hypertension, SULFORAPHANE, ANIMAL models in research, INFLAMMATORY mediators
Abstract

Right ventricular (RV) dysfunction is the main determinant of mortality in patients with pulmonary arterial hypertension (PAH) and while inflammation is pathogenic in PAH, there is limited information on the role of RV inflammation in PAH. Sulforaphane (SFN), a potent Nrf2 activator, has significant anti-inflammatory effects and facilitates cardiac protection in preclinical diabetic models. Therefore, we hypothesized that SFN might play a comparable role in reducing RV and pulmonary inflammation and injury in a murine PAH model. We induced PAH using SU5416 and 10% hypoxia (SuHx) for 4 wk in male mice randomized to SFN at a daily dose of 0.5 mg/kg 5 days per week for 4 wk or to vehicle control. Transthoracic echocardiography was performed to characterize chamber-specific ventricular function during PAH induction. At 4 wk, we measured RV pressure and relevant measures of histology and protein and gene expression. SuHx induced progressive RV, but not LV, diastolic and systolic dysfunction, and RV and pulmonary remodeling, fibrosis, and inflammation. SFN prevented SuHx-induced RV dysfunction and remodeling, reduced RV inflammation and fibrosis, upregulated Nrf2 expression and its downstream gene NQO1, and reduced the inflammatory mediator leucine-rich repeat and pyrin domain-containing 3 (NLRP3). SFN also reduced SuHx-induced pulmonary vascular remodeling, inflammation, and fibrosis. SFN alone had no effect on the heart or lungs. Thus, SuHx-induced RV and pulmonary dysfunction, inflammation, and fibrosis can be attenuated or prevented by SFN, supporting the rationale for further studies to investigate SFN and the role of Nrf2 and NLRP3 pathways in preclinical and clinical PAH studies. [ABSTRACT FROM AUTHOR]

Published
2020
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2. Right ventricular dysfunction and remodeling in diabetic cardiomyopathy.

Author

Yin Kang, Sheng Wang, Jiapeng Huang, Lu Cai, and Keller, Bradley B.

Subjects
CARDIOMYOPATHIES, VENTRICULAR remodeling, DIABETIC cardiomyopathy
Abstract

The increasing prevalence of diabetic cardiomyopathy (DCM) is an important threat to health worldwide. While left ventricular (LV) dysfunction in DCM is well recognized, the accurate detection, diagnosis, and treatment of changes in right ventricular (RV) structure and function have not been well characterized. The pathophysiology of RV dysfunction in DCM may share features with LV diastolic and systolic dysfunction, including pathways related to insulin resistance and oxidant injury, although the RV has a unique cellular origin and composition and unique biomechanical properties and is coupled to the lower-impedance pulmonary vascular bed. In this review, we discuss potential mechanisms responsible for RV dysfunction in DCM and review the imaging approaches useful for early detection, protection, and intervention strategies. Additional data are required from animal models and clinical trials to better identify the onset and features of altered RV and pulmonary vascular structure and function during the onset and progression of DCM and to determine the efficacy of early detection and treatment of RV dysfunction on clinical symptoms and outcomes. [ABSTRACT FROM AUTHOR]

Published
2019
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3. Modest maternal caffeine exposure affects developing embryonic cardiovascular function and growth.

Author

Momoi, Nobuo, Tinney, Joseph P., Liu, Li J., Elshershari, Huda, Hoffmann, Paul J., Ralphe, John C., Keller, Bradley B., and Tobita, Kimimasa

Subjects
ADENOSINES, CAROTID artery, PHYSIOLOGICAL effects of caffeine, CARDIOVASCULAR diseases in pregnancy, SUBSTANCE abuse, PREGNANT women, PREGNANCY complications
Abstract

Caffeine consumption during pregnancy is reported to increase the risk of in utero growth restriction and spontaneous abortion. In the present study, we tested the hypothesis that modest maternal caffeine exposure affects in utero developing embryonic cardiovascular (CV) function and growth without altering maternal hemodynamics. Caffeine (10 mg·kg-1·day-1 subcutaneous) was administered daily to pregnant CD-1 mice from embryonic days (EDs) 9.5 to 18.5 of a 21-day gestation. We assessed maternal and embryonic CV function at baseline and at peak maternal serum caffeine concentration using high-resolution echocardiography on EDs 9.5, 11.5, 13.5, and 18.5. Maternal caffeine exposure did not influence maternal body weight gain, maternal CV function, or embryo resorption. However, crown-rump length and body weight were reduced in maternal caffeine treated embryos by ED 18.5 (P < 0.05). At peak maternal serum caffeine concentration, embryonic carotid artery, dorsal aorta, and umbilical artery flows transiently decreased from baseline at ED 11.5 (P < 0.05). By ED 13.5, embryonic aortic and umbilical artery flows were insensitive to the peak maternal caffeine concentration; however, the carotid artery flow remained affected. By ED 18.5, baseline embryonic carotid artery flow increased and descending aortic flow decreased versus non-caffeine-exposed embryos. Maternal treatment with the adenosine A2A receptor inhibitor reproduced the embryonic hemodynamic effects of maternal caffeine exposure. Adenosine A2A receptor gene expression levels of ED 11.5 embryo and ED 18.5 uterus were decreased. Results suggest that modest maternal caffeine exposure has adverse effects on developing embryonic CV function and growth, possibly mediated via adenosine A2A receptor blockade. [ABSTRACT FROM AUTHOR]

Published
2008
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4. Increased arterial load alters aortic structural and functional properties during embryogenesis.

Author

Lucitti, Jennifer L., Visconti, Richard, Novak, Jacqueline, and Keller, Bradley B.

Subjects
CARDIOVASCULAR diseases, MICROCIRCULATION disorders, ZONA pellucida, ARTERIAL ligation, AORTIC diseases
Abstract

As in the adult dorsal aorta, the embryonic dorsal aorta is an important determinant of cardiovascular function, and increased stiffness may have secondary effects on cardiac and microcirculatory development. We previously showed that acutely and chronically increased arterial load via vitelline artery ligation (VAL) increases systemic arterial stiffness. To test the hypothesis that local dorsal aortic stiffness also increases, we measured aortic pulse-wave velocity (PWV) and assessed the active and passive properties (stress and strain) of isolated aortic segments. PWV along the dorsal aorta increased acutely and chronically after VAL. Analysis of isolated aortic active properties suggests that load-exposed aortas experienced higher stress, but not strain, at similar intraluminal pressures. When smooth muscle tone was relaxed, strain decreased in VAL vessels, whereas stress became similar to control vessels. Immunohistochemical analysis revealed that although aortic smooth muscle α-actin content was similar between groups, more cell layers expressed smooth muscle α-actin, and myocyte cell shape was markedly rounder in VAL embryos. Additionally, aortic and perivascular collagen type I and III content significantly increased in load-exposed VAL vessels. Increased production of these proteins is consistent with the observed increase in aortic PWV and decreased strain in VAL passive aortic segments. Thus the embryonic dorsal aorta is sensitive to increased arterial load and adapts by altering its material properties via changes in collagen content. [ABSTRACT FROM AUTHOR]

Published
2006
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5. Engineered early embryonic cardiac tissue retains proliferative and contractile properties of developing embryonic myocardium.

Author

Tobita, Kimimasa, Liu, Li J., Janczewski, Andrzej M., Tinney, Joseph P., Nonemaker, Jill M., Augustrne, Serena, Stolz, Donna B., Shroff, Sanjeev G., and Keller, Bradley B.

Subjects
CARDIOMYOPATHIES, CELL proliferation, MECHANICAL properties of the heart, HEART cells, CELL physiology, CHICKENS as laboratory animals
Abstract

Embryonic myocardium has a high rate of cell proliferation and regulates cellular proliferation, contractile function, and myocardial architecture in response to changes in external mechanical loads. However, the small and complex three-dimensional (3D) structure of the embryonic myocardium limits our ability to directly investigate detailed relationships between mechanical load, contractile function, and cardiomyocyte proliferation. We developed a novel 3D engineered early embryonic cardiac tissue (EEECT) from early embryonic ventricular cells to test the hypothesis that EEECT retains the proliferative and contractile properties of embryonic myocardium. We combined freshly isolated White Leghorn chicken embryonic ventricular cells at Hamburger-Hamilton (HH) stage 31 (day 7 of a 46-stage, 21-day incubation period), collagen type I, and matrix factors to construct cylindrical-shaped EEECTs. We studied tissue architecture, cell proliferation patterns, and contractile function. We then generated engineered fetal cardiac tissue (EFCT) from HH stage 40 (day 14) fetal ventricular cells for direct comparison with EEECT. Tissue architecture was similar in EEECT and EFCT. EEECT maintained high cell proliferation patterns by culture day 12, whereas EFCT decreased cell proliferation rate by culture day 9 (P < 0.05). EEECT increased active contractile force from culture day 7 to day 12. The culture day 12 EEECT contractile response to the 3-adrenergic stimulation was less than culture day 9 EFCT (P < 0.05). Cyclic mechanical stretch stimulation induced myocardial hyperplasia in EEECT. Results indicate that EEECT retains the proliferative and contractile properties of developing embryonic myocardium and shows potential as a robust in vitro model of developing embryonic myocardium. [ABSTRACT FROM AUTHOR]

Published
2006
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7. Maturation of end-systolic stress-strain relations in chick embryonic myocardium.

Author

Tobita, Kimimasa and Keller, Bradley B.

Subjects
*CHICKEN embryos, *CARDIOVASCULAR system
Abstract

Provides information on a study which investigated developmental changes in the in vivo end-systolic stress-strain relations of embryonic chick myocardium in white Leghorn chick embryos. Materials and methods of the study; Results; Discussion of the results.

Published
2000
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8. End-systolic myocardial stiffness is a load-independent index of contractility in stage 24 chick...

Author

Tobita, Kimimasa and Keller, Bradley B.

Subjects
*CARDIAC contraction, *CHICKEN embryos
Abstract

Offers information on a study which evaluated the effects of acute alteration of loading condition to chick embryonic ventricular contractility using end-systolic myocardial stiffness based on the incremental elastic modulus concept. Account of similar studies; Materials and methods; Results and discussion.

Published
1999
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9. Ventricular-vascular uncoupling by acute conotruncal occlusion in the stage 21 chick embryo.

Author

Keller, Bradley B., Yoshigi, Masaaki, and Tinney, Joseph P.

Subjects
*HEART ventricles, *PHYSIOLOGY
Abstract

Studies embryonic ventricular diastolic and systolic function during normal ejection and during acute ventricular outflow tract occlusion in the stage 21 chick embryo. Ventricular contractile reserve; Relationship between ventricular stroke volume and end-diastolic volume during alterations in preload and after acute conotruncal clamp.

Published
1997
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10. Characterization of embryonic aortic impedance with lumped parameter models.

Author

Yoshigi, Masaaki and Keller, Bradley B.

Subjects
*AORTA physiology
Abstract

Analyzes analog circuit models to characterize embryonic arterial impedance. Simultaneous dorsal aortic pressure and flow measurements; Improvements in the frequency resolution of the impedance spectrum; Fluctuation and phase-zero crossing; Elimination of overparameterization; Hemodynamic recordings and vascular impedance calculations.

Published
1997
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14. Developmental structure-function insights from Tbx5del/+ mouse model of Holt-Oram syndrome.

Author

Keller, Bradley B.

Subjects
*HEART ventricles, *ULTRASONIC imaging, *CONGENITAL heart disease, *MEDICAL imaging systems, *MAGNETIC resonance imaging, *HEART function tests
Abstract

Editorial. Describes impaired diastolic ventricular function measured by high-resolution ultrasound and evidence for atrial septal defect based in vivo ultrasound and postmortem magnetic resonance imaging. Use of the combined analysis of both cardiac function and structure in evaluating congenital cardiovascular (CV) phenotype; Mechanisms for CV malformations; Use of animal models with clinical syndromes.

Published
2005
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15. Regional passive ventricular stress-strain relations during development of altered loads in chick embryo.

Author

Tobita, Kimimasa, Schroder, Elizabeth A., Tinney, Joseph P., Garrison, Jason B., and Keller, Bradley B.

Subjects
EMBRYOLOGY, HEART ventricles, MORPHOGENESIS, CHICKEN embryos, DEVELOPMENTAL biology
Abstract

Evaluates the role of regional mechanical loads in embryonic ventricular passive properties. Influence of mechanical load on embryonic ventricular growth, morphogenesis and function; Measurement of biaxial passive right and left ventricular stress-strain relations in chick embryos; Normalization of wall strains at end-diastolic pressure in the right ventricular.

Published
2002
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