David E. Verrill scite author profile

Resistive exercise training has become very popular for patients of cardiopulmonary rehabilitation programmes (CRPs). For decades, CRPs focused almost exclusively on improving cardiorespiratory endurance and most programmes ignored muscular fitness development. Moreover, resistance training was thought to be potentially hazardous for the cardiac patient due to the risk of cardiovascular complications from adverse haemodynamic responses. We now know that resistive exercise testing and training is very safe for properly screened patients, even at relatively high workloads. Improvement in muscular strength facilitates return to daily vocational and avocational activities and is important for the CRP participant to regain lost strength and resume work soon after a cardiac event. Circuit weight training (CWT) is helpful in this respect and has been shown to increase muscular strength, cardiovascular endurance, body composition, bone density and mineral content, self-confidence, and self-efficacy in various populations. This article presents an update on current research in cardiac patients and also presents guidelines for implementing a properly supervised cardiac resistive exercise programme.

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Quality of Life Measures and Gender Comparisons in North Carolina Cardiac Rehabilitation Programs

Verrill¹,

Barton²,

Beasley³

et al. 2001

Journal of Cardiopulmonary Rehabilitation

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Patients who participated in Phase II multidisciplinary North Carolina CR programs and completed the protocol improved QOL parameters. While men had higher physical function and overall QOL scores both pre- and post-CR, women showed greater improvements in overall scores, as well as in family and socioeconomic parameters. These findings suggest that North Carolina CR patients experience a positive change in QOL following short-term participation in CR. Further study with a larger number of patients benchmarked with programs from other regions with comparisons to patients who do not participate in formalized CR programs is indicated from this investigation.

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Six-minute walk performance and quality of life comparisons in North Carolina cardiac rehabilitation programs

et al. 2003

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A Hierarchical Model To Understand the Processing of Polysaccharides/Protein-Based Films in Ionic Liquids

et al. 2018

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In recent years, biomaterials from abundant and renewable sources have shown potential in medicine and materials science alike. In this study, we combine theoretical modeling, molecular dynamics simulations, and several experimental techniques to understand the regeneration of cellulose/silk-, chitin/silk-, and chitosan/silk-based biocomposites after dissolution in ionic liquid and regeneration in water. We propose a novel theoretical model that correlates the composite's microscopic structure to its bulk properties. We rely on modeling non-cross-linked biopolymers that present layer-like structures such as β-sheets and we successfully predict structural, thermal, and mechanical properties of a mixture of these biomolecules. Our model and experiments show that the solubility of the pure substance in the chosen solvent can be used to modulate the amount of crystallinity of the biopolymer blend, as measured by attenuated total reflectance Fourier transform infrared spectroscopy (ATR-FTIR). Thermogravimetric analysis (TGA) shows that the decomposition temperature of the blended biocomposites compared to their pure counterparts is reduced in accordance with our theoretical predictions. The morphology of the material is further characterized through scanning electron microscopy (SEM) and shows differently exposed surface area depending on the blend. Finally, differential scanning calorimetry (DSC) is performed to characterize the residual water content in the material, essential for explaining the regeneration process in water. As a final test of the model, we compare our model's prediction of the Young's modulus with existing data in the literature. The model correctly reproduces experimental trends observed in the Young's modulus due to varying the concentration of silk in the biopolymer blend.

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David E. Verrill

The Effects of Short-term and Long-term Pulmonary Rehabilitation on Functional Capacity, Perceived Dyspnea, and Quality of Life

Resistive Exercise Training in Cardiac Rehabilitation

Quality of Life Measures and Gender Comparisons in North Carolina Cardiac Rehabilitation Programs

Six-minute walk performance and quality of life comparisons in North Carolina cardiac rehabilitation programs

A Hierarchical Model To Understand the Processing of Polysaccharides/Protein-Based Films in Ionic Liquids

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