Early and Significant Reduction in C-Reactive Protein Levels After Corticosteroid Therapy Is Associated With Reduced Mortality in Patients With COVID-19.

BACKGROUND: Corticosteroids may be beneficial in a subset of patients with coronavirus disease 2019 (COVID-19), but predictors of therapeutic response remain unknown. C-reactive protein (CRP) is a routinely measured biomarker, and reduction in its levels after initiation of therapy may predict inpatient mortality. METHODS: In this retrospective cohort study, the charts of patients who were admitted to Montefiore Medical Center between March 10, 2020, and May 2, 2020 for the management of COVID-19 were examined. Of all patients who met inclusion criteria, patients who received corticosteroid treatment were categorized as CRP responders (≥50% CRP level reduction) and CRP nonresponders (<50% CRP level reduction) based on change in CRP within 72 hours of corticosteroid treatment initiation. The outcomes of interest were two-fold: (1) CRP response after treatment with corticosteroid, and (2) differences in mortality among patients with CRP response compared those without. RESULTS: Of 2,707 patients admitted during the study period, 324 received corticosteroid treatment. Of patients who received corticosteroid treatment, CRP responders had reduced risk of death compared with risk among CRP nonresponders (25.2% vs 47.8%; unadjusted odds ratio [OR], 0.37; 95% CI, 0.21-0.65; P <.001). This effect remained strong and significant after adjustment for potential confounders (adjusted OR, 0.27; 95% CI, 0.14-0.54; P <.001). CONCLUSION: Reduction in CRP by 50% or more within 72 hours of initiating corticosteroid therapy potentially predicts inpatient mortality. This may serve as an early biomarker of response to corticosteroid therapy in patients with COVID-19.

Electrocardiogram abnormalities in older individuals by race and ethnicity.

BACKGROUND: Aging is associated with many ECG changes. ECG abnormalities are known to be more prevalent with age and differ across race and ethnicity, yet there are limited studies categorizing the ECG changes in the older population and the differences seen among racial groups. We sought to determine ECG differences associated with race and ethnicity in this ethnically diverse, elderly population. METHODS: The ECG parameters of subjects between the ages of 75 and 99 years from a large and diverse inner-city patient population were analyzed. Subjects were grouped into one of four categories: Hispanic, Black, Non-Hispanic White, or Other for analysis. Rhythm, axis, voltage, and conduction parameters were determined according to the 12 SL algorithm and interpretation statements (GE Healthcare, Wauwatosa, Wisconsin) that were confirmed by an overreading cardiologist. RESULTS: 38,238 subjects were included. Of all groups, Non-Hispanic Whites exhibited more conduction abnormalities such as bundle branch block compared to the other groups, as well as the highest incidence of atrial fibrillation (AF) (12.6%, p < 0.05). Hispanics had the highest proportion of normal sinus rhythm. Blacks exhibited the least amount of AF (6.3%), as well as the highest incidence of LVH (25.5%), RAD (13.5%), and the largest percentage of abnormal ECGs (72.8%). CONCLUSION: Significant differences among the elderly of different race and ethnicity were noted with most parameters.

Ferroelectric/Ferroelastic domain wall motion in dense and porous tetragonal lead zirconate titanate films.

Direct evidence of ferroelectric/ferroelastic domain reorientation is shown in Pb(Zr0.30Ti0.70)O3 (PZT30/70) thin films clamped to a rigid silicon substrate using in situ synchrotron X-ray diffraction during application of electric fields. Both dense films and films with 3 to 4 vol% porosity were measured. On application of electric fields exceeding the coercive field, it is shown that the porous films exhibit a greater volume fraction of ferroelastic domain reorientation (approximately 12 vol% of domains reorient at 3 times the coercive field, Ec) relative to the dense films (~3.5 vol% at 3Ec). Furthermore, the volume fraction of domain reorientation significantly exceeded that predicted by linear mixing rules. The high response of domain reorientation in porous films is discussed in the context of two mechanisms: local enhancement of the electric field near the pores and a reduction of substrate clamping resulting from the lowering of the film stiffness as a result of the porosity. Similar measurements during weak-field (subcoercive) amplitudes showed 0.6% volume fraction of domains reoriented for the porous films, which demonstrates that extrinsic effects contribute to the dielectric and piezoelectric properties.