Extracellular Matrix in Cardiac Tissue Mechanics and Physiology: Role of Collagen Accumulation

LeBar, Kristen; Wang, Zhijie

doi:10.5772/intechopen.96585

Cited by 4 publications

(4 citation statements)

References 162 publications

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“…This is consistent with the prior report of collagen content in human LV and RV determined from hydroxyproline assays ( Miles et al, 2020 ). Second, although type I collagen is the most abundant type of collagen in ventricles ( LeBar and Wang, 2021 ), the type III collagen content was significantly correlated with the M L in all ventricles and at low strains ( Figure 7B , p < 0.05). This indicates that the longitudinal elasticity partly stemmed from type III collagen recruitment.…”

Section: Discussionmentioning

confidence: 94%

Multiscale Contrasts Between the Right and Left Ventricle Biomechanics in Healthy Adult Sheep and Translational Implications

Liu

Nguyen‐Truong

LeBar

et al. 2022

Front. Bioeng. Biotechnol.

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Cardiac biomechanics play a significant role in the progression of structural heart diseases (SHDs). SHDs alter baseline myocardial biomechanics leading to single or bi-ventricular dysfunction. But therapies for left ventricle (LV) failure patients do not always work well for right ventricle (RV) failure patients. This is partly because the basic knowledge of baseline contrasts between the RV and LV biomechanics remains elusive with limited discrepant findings. The aim of the study was to investigate the multiscale contrasts between LV and RV biomechanics in large animal species. We hypothesize that the adult healthy LV and RV have distinct passive anisotropic biomechanical properties. Ex vivo biaxial tests were performed in fresh sheep hearts. Histology and immunohistochemistry were performed to measure tissue collagen. The experimental data were then fitted to a Fung type model and a structurally informed model, separately. We found that the LV was stiffer in the longitudinal (outflow tract) than circumferential direction, whereas the RV showed the opposite anisotropic behavior. The anisotropic parameter K from the Fung type model accurately captured contrasting anisotropic behaviors in the LV and RV. When comparing the elasticity in the same direction, the LV was stiffer than the RV longitudinally and the RV was stiffer than the LV circumferentially, suggesting different filling patterns of these ventricles during diastole. Results from the structurally informed model suggest potentially stiffer collagen fibers in the LV than RV, demanding further investigation. Finally, type III collagen content was correlated with the low-strain elastic moduli in both ventricles. In summary, our findings provide fundamental biomechanical differences between the chambers. These results provide valuable insights for guiding cardiac tissue engineering and regenerative studies to implement chamber-specific matrix mechanics, which is particularly critical for identifying biomechanical mechanisms of diseases or mechanical regulation of therapeutic responses. In addition, our results serve as a benchmark for image-based inverse modeling technologies to non-invasively estimate myocardial properties in the RV and LV.

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Section: Discussionmentioning

confidence: 94%

Multiscale Contrasts Between the Right and Left Ventricle Biomechanics in Healthy Adult Sheep and Translational Implications

Liu

Nguyen‐Truong

LeBar

et al. 2022

Front. Bioeng. Biotechnol.

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“…A tightly controlled ECM turnover is necessary for normal protein function and relies on the balance between ECM synthesis and degradation [47]. When ECM turnover is disturbed, factors that contribute to the synthesis or degradation of ECM proteins will trigger acute or chronic tissue remodeling, changing the structure and mechanical function of the ECM [47].…”

Section: Collagen Types I and Iiimentioning

confidence: 99%

“…Previous studies indicated that transforming growth factor-β (TGF-β) activation is associated with the development of CVD [48,49]. Under normal physiological circumstances, TGF-β contributes to a healthy vessel wall structure through the control of ECM protein synthesis and deposition [47]. A potential mechanism could be increased activation of TGF-β in the high-CV risk group, which may consequently lead to an increase in type I and III collagen deposition in the ECM and therefore lower excretion of these collagen peptides.…”

Section: Collagen Types I and Iiimentioning

confidence: 99%

A urinary peptidomics approach for early stages of cardiovascular disease risk: The African-PREDICT study

et al. 2022

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Cardiovascular disease (CVD) affects individuals across the lifespan, with multiple cardiovascular (CV) risk factors increasingly present in young populations. The underlying mechanisms in early cardiovascular disease development are complex and still poorly understood. We therefore employed urinary proteomics as a novel approach to gain better insight into early CVD-related molecular pathways based on a CVD risk stratification approach.This study included 964 apparently healthy (no self-reported chronic illnesses, free from clinical symptoms of CVD) black and white men and women (aged 20-30 years old) from the African Prospective study on the Early Detection and Identification of Cardiovascular disease and Hypertension (African-PREDICT) study. Cardiovascular risk factors used for stratification included obesity, physical inactivity, tobacco use, high alcohol intake, hyperglycemia, dyslipidemia and hypertension. Participants were divided into low (0 risk factors), medium (1-2 risk factors) and high (≥3 risk factors) CV risk groups. We analyzed urinary peptidomics by capillary electrophoresis time-of-flight mass spectrometry.After adjusting for ethnicity, sex and age, 65 sequenced urinary peptides were differentially expressed between the CV risk groups (all q-values≤0.01). These peptides included a lower abundance of collagen type I-and III-derived peptides in the high compared to the low CV risk group. With regard to noncollagen peptides, we found a lower abundance of alpha-1antitrypsin fragments in the high compared to the low CV risk group (all q-values≤0.01).Our findings indicate lower abundances of collagen types I and III in the high compared to the low CV risk group, suggesting potential early alterations in the CV extracellular matrix.

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“…Right ventricle (RV) failure is common in the advanced stages of pulmonary hypertension and is a useful predictor of mortality in these patients . In the process of chronic pressure overload, the failing RV becomes stiffer, more anisotropic, , and undergoes global capillary rarefaction, leading to myocardial inefficiency. − Unlike hypertensive remodeling in the left ventricle (LV), capillary rarefaction plays a critical role in hypertensive RV maladaptation, , and thus pro-angiogenic strategies could potentially offer a RV-specific therapy.…”

Section: Introductionmentioning

confidence: 99%

Pro-angiogenic Potential of Mesenchymal Stromal Cells Regulated by Matrix Stiffness and Anisotropy Mimicking Right Ventricles

et al. 2022

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Capillary rarefaction is a hallmark of right ventricle (RV) failure. Mesenchymal stromal cell (MSC)-based therapy offers a potential treatment due to its pro-angiogenic function. However, the impact of RV tissue mechanics on MSC behavior is unclear, especially when referring to RV end-diastolic stiffness and mechanical anisotropy. In this study, we assessed MSC behavior on electrospun scaffolds with varied stiffness (normal vs failing RV) and anisotropy (isotropic vs anisotropic). In individual MSCs, we observed the highest vascular endothelial growth factor (VEGF) production and total tube length in the failing, isotropic group (2.00 ± 0.37, 1.53 ± 0.24), which was greater than the normal, isotropic group (0.70 ± 0.15, 0.55 ± 0.07; p < 0.05). The presence of anisotropy led to trends of increased VEGF production on normal groups (0.75 ± 0.09 vs 1.20 ± 0.17), but this effect was absent on failing groups. Our findings reveal synergistic effects of RV-like stiffness and anisotropy on MSC pro-angiogenic function and may guide MSC-based therapies for heart failure.

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Extracellular Matrix in Cardiac Tissue Mechanics and Physiology: Role of Collagen Accumulation

Cited by 4 publications

References 162 publications

Multiscale Contrasts Between the Right and Left Ventricle Biomechanics in Healthy Adult Sheep and Translational Implications

Multiscale Contrasts Between the Right and Left Ventricle Biomechanics in Healthy Adult Sheep and Translational Implications

A urinary peptidomics approach for early stages of cardiovascular disease risk: The African-PREDICT study

Pro-angiogenic Potential of Mesenchymal Stromal Cells Regulated by Matrix Stiffness and Anisotropy Mimicking Right Ventricles

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