Nurse-led supportive Coordinated Transitional Care (CTraC) program improves care for veterans with serious illness.

BACKGROUND: The Coordinated Transitional Care (CTraC) program is a telephone-based, nurse-driven program shown to decrease readmissions. The aim of this project was to implement and evaluate an adapted version of CTraC, Supportive CTraC, to improve the quality of transitional and end-of-life care for veterans with serious illness. METHODS: We used the Replicating Effective Programs framework to guide adaptation and implementation. An RN nurse case manager (NCM) with experience in geriatrics and palliative care worked closely with inpatient and outpatient care teams to coordinate care. Eligible patients had a life-limiting diagnosis with substantial functional impairment and were not enrolled in hospice. The NCM identified veterans at VA Boston Healthcare System during an acute admission and delivered a protocolized intervention to define care needs and preferences, align care with patient values, optimize discharge plans, and provide ongoing, intensive phone-based case management. To evaluate efficacy, we matched each Supportive CTraC enrollee 1:1 to a contemporary comparison subject by age, risk of death or hospitalization, and discharge diagnosis. We used Kaplan-Meier plots and Cox-Proportional Hazards models to evaluate outcomes. Outcomes included palliative and hospice care use, acute care use, Massachusetts Medical Orders for Life Sustaining Treatment documentation, and survival. RESULTS: The NCM enrolled 104 veterans with high protocol fidelity. Over 1.5 years of follow-up, Supportive CTraC enrollees were 61% more likely to enroll in hospice than the comparison group (n = 57 vs. 39; HR = 1.61; 95% CI = 1.07-2.43). While overall acute care use was similar between groups, Supportive CTraC patients had fewer ICU admissions (n = 36 vs. 53; p = 0.005), were more likely to die in hospice (53 vs. 34; p = 0.008), and twice as likely to die at home with hospice (32.0 vs. 15.5; p = 0.02). There was no difference in survival between groups. CONCLUSIONS: A nurse-driven transitional care program for veterans with serious illness is feasible and effective at improving end-of-life outcomes.

Mitochondrial oxidative stress during cardiac lipid overload causes intracellular calcium leak and arrhythmia.

BACKGROUND: Diabetes and obesity are associated with an increased risk of arrhythmia and sudden cardiac death. Abnormal lipid accumulation is observed in cardiomyocytes of obese and diabetic patients, which may contribute to arrhythmia, but the mechanisms are poorly understood. A transgenic mouse model of cardiac lipid overload, the peroxisome proliferator-activated receptor-γ (PPARg) cardiac overexpression mouse, has long QT and increased ventricular ectopy. OBJECTIVE: The purpose of this study was to evaluate the hypothesis that the increase in ventricular ectopy during cardiac lipid overload is caused by abnormalities in calcium handling due to increased mitochondrial oxidative stress. METHODS: Ventricular myocytes were isolated from adult mouse hearts to record sparks and calcium transients. Mice were implanted with heart rhythm monitors for in vivo recordings. RESULTS: PPARg cardiomyocytes have more frequent triggered activity and increased sparks compared to control. Sparks and triggered activity are reduced by mitotempo, a mitochondrial-targeted antioxidant. This is explained by a significant increase in oxidation of RyR2. Calcium transients are increased in amplitude, and sarcoplasmic reticulum (SR) calcium stores are increased in PPARg cardiomyocytes. Computer modeling of the cardiac action potential demonstrates that long QT contributes to increased SR calcium. Mitotempo decreased ventricular ectopy in vivo. CONCLUSION: During cardiac lipid overload, mitochondrial oxidative stress causes increased SR calcium leak by oxidizing RyR2 channels. This promotes ventricular ectopy, which is significantly reduced in vivo by a mitochondrial-targeted antioxidant. These results suggest a potential role for mitochondrial-targeted antioxidants in preventing arrhythmia and sudden cardiac death in obese and diabetic patients.