C.S. Patwardhan scite author profile

C.S. Patwardhan

2Publications

10Citation Statements Received

128Citation Statements Given

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The University of Texas at Arlington

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The effects of maturation and aging on the rotator cuff tendon‐to‐bone interface

et al. 2021

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Rotator cuff tendon injuries often occur at the tendon‐to‐bone interface (i.e., enthesis) area, with a high prevalence for the elderly population, but the underlying reason for this phenomenon is still unknown. The objective of this study is to identify the histological, molecular, and biomechanical alterations of the rotator cuff enthesis with maturation and aging in a mouse model. Four different age groups of mice (newborn, young, adult, and old) were studied. Striking variations of the entheses were observed between the newborn and other matured groups, with collagen content, proteoglycan deposition, collagen fiber dispersion was significantly higher in the newborn group. The compositional and histological features of young, adult, and old groups did not show significant differences, except having increased proteoglycan deposition and thinner collagen fibers at the insertion sites in the old group. Nanoindentation testing showed that the old group had a smaller compressive modulus at the insertion site when compared with other groups. However, tensile mechanical testing reported that the old group demonstrated a significantly higher failure stress when compared with the young and adult groups. The proteomics analysis detected dramatic differences in protein content between newborn and young groups but minor changes among young, adult, and old groups. These results demonstrated: (1) the significant alterations of the enthesis composition and structure occur from the newborn to the young time period; (2) the increased risk of rotator cuff tendon injuries in the elderly population is not solely because of old age alone in the rodent model.

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Automated data path synthesis to avoid global interconnects

Raj

Patwardhan

1991

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We have incorporaled into our Behavioral Synthesis system an algorithm to minimize global interconnects in the data path In order to accomplish this, we define a model of the data path to almost completely avoid global interconnects. In this approach we pay the penalty of extra registers and extra microinstructions to avoid global interconnects. We show that the proposed model of the data path results in large area savings in Behavioral Synthesis.

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C.S. Patwardhan

The effects of maturation and aging on the rotator cuff tendon‐to‐bone interface

Automated data path synthesis to avoid global interconnects

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