Rebecca L. Walton scite author profile

Background Point‐of‐care lung ultrasound (LUS) is an effective tool to diagnose left‐sided congestive heart failure (L‐CHF) in dogs via detection of ultrasound artifacts (B‐lines) caused by increased lung water. Hypothesis/Objectives To determine whether LUS can be used to monitor resolution of cardiogenic pulmonary edema in dogs, and to compare LUS to other indicators of L‐CHF control. Animals Twenty‐five client‐owned dogs hospitalized for treatment of first‐onset L‐CHF. Methods Protocolized LUS, thoracic radiographs (TXR), and plasma N‐terminal pro‐B‐type natriuretic peptide were performed at hospital admission, hospital discharge, and recheck examinations. Lung ultrasound findings were compared between timepoints and to other clinical measures of L‐CHF. Results From time of hospital admission to discharge (mean 19.6 hours), median number of LUS sites strongly positive for B‐lines (>3 B‐lines per site) decreased from 5 (range, 1‐8) to 1 (range, 0‐5; P < .001), and median total B‐line score decreased from 37 (range, 6‐74) to 5 (range, 0‐32; P = .002). Lung ultrasound indices remained improved at first recheck (P < .001). Number of strong positive sites correlated positively with respiratory rate (r = 0.52, P = .008) and TXR edema score (r = 0.51, P = .009) at hospital admission. Patterns of edema resolution differed between LUS and TXR, with cranial quadrants showing more significant reduction in B‐lines compared to TXR edema score (80% vs 29% reduction, respectively; P = .003). Conclusions and Clinical Importance Lung ultrasound could be a useful tool for monitoring resolution of pulmonary edema in dogs with L‐CHF.

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Design of damage tolerant and crack-free layered ceramics with textured microstructure

Hofer

Walton

Ševeček

et al. 2020

Journal of the European Ceramic Society

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Tailoring particle alignment and grain orientation during tape casting and templated grain growth

et al. 2018

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The quality of crystallographic alignment in textured ceramics produced by tape casting and templated grain growth (TGG) has been little studied despite its demonstrated impact on magnetic, piezoelectric, and optical properties. Physical and crystallographic alignment of anisotropic template particles is shown to be directly linked to the casting rate, gap height, and casting viscosity during tape casting. These parameters are shown to affect the shape and magnitude of the shear rate profile under the doctor blade during casting which in turn causes a gradient in the torque acting on anisotropic particles. The magnitude of the torque, the time the slurry is exposed to torque during casting, and the ratio of casting height to template diameter are demonstrated to enable the particle alignment process to be tailored to produce well-aligned template particles. Crystallographic alignment of the textured ceramic was quantified by grain misalignment angle (full width at half maximum, FWHM) and degree of orientation (r) and is directly correlated with the degree of torque during casting. High-quality alignment (FWHM = 4.5°; r = 0.13) was demonstrated in the model TGG system consisting of submicrometer alumina and 5 vol% 11 μm diameter template platelet particles.

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Additive manufacturing of textured ceramics: A review

Walton

Kupp

Messing

2021

Journal of Materials Research

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Rebecca L. Walton

Texture-engineered ceramics—Property enhancements through crystallographic tailoring

Utility of point‐of‐care lung ultrasound for monitoring cardiogenic pulmonary edema in dogs

Design of damage tolerant and crack-free layered ceramics with textured microstructure

Tailoring particle alignment and grain orientation during tape casting and templated grain growth

Additive manufacturing of textured ceramics: A review

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