Cardiology department versus intensive care unit admission after successful uncomplicated transcatheter aortic valve replacement (TAVR).

BACKGROUND: Most patients after transcatheter aortic valve replacement (TAVR) are admitted directly to the cardiac intensive care unit (CICU) despite low complication rates. Reducing unnecessary CICU hospitalization reduces healthcare costs. This study aimed to compare the outcomes between patients admitted directly to the cardiology department (CD) and those admitted to CICU based on prespecified protocols. METHODS: Historical cohort study of all patients who underwent TAVR and were admitted directly to the CD according to a prespecified protocol (uncomplicated procedure, hemodynamically stable, without new conduction abnormalities) in 2017-2018, and the same number of patients meeting the same criteria who were admitted to the CICU in 2015-2016 before direct CD admission was initiated. Pacemaker implantation during the procedure was not considered a new conduction abnormality. In-hospital outcomes and 30-day post-discharge outcomes were compared. RESULTS: Overall, 260 patients (130 CICU + 130 CD) were included in the study. There was no in-hospital mortality in either group, and the post-procedure length of stay was shorter for patients admitted to CD (median and IQR: 2, 2-4 vs. 4, 3-5 days, p <0.001). There was no significant difference in 30-day emergency department visits between groups (CICU:13.9% vs. CD:16.2%, p = 0.602), rehospitalization rate (9.3%) was the same in both groups, and one patient from the CICU group died. Similar results were observed in multivariable analysis and after matching. CONCLUSION: Direct admission to the CD after TAVR, according to the proposed criteria, may be considered as a safe and less expensive alternative for stable patients after an uncomplicated TAVR procedure.

A novel socially assistive robotic platform for cognitive-motor exercises for individuals with Parkinson's Disease: a participatory-design study from conception to feasibility testing with end users.

The potential of socially assistive robots (SAR) to assist in rehabilitation has been demonstrated in contexts such as stroke and cardiac rehabilitation. Our objective was to design and test a platform that addresses specific cognitive-motor training needs of individuals with Parkinson's disease (IwPD). We used the participatory design approach, and collected input from a total of 62 stakeholders (IwPD, their family members and clinicians) in interviews, brainstorming sessions and in-lab feasibility testing of the resulting prototypes. The platform we developed includes two custom-made mobile desktop robots, which engage users in concurrent cognitive and motor tasks. IwPD (n = 16) reported high levels of enjoyment when using the platform (median = 5/5) and willingness to use the platform in the long term (median = 4.5/5). We report the specifics of the hardware and software design as well as the detailed input from the stakeholders.

Performance in complex life situations: effects of age, cognition, and walking speed in virtual versus real life environments.

BACKGROUND: Virtual reality (VR) enables objective and accurate measurement of behavior in ecologically valid and safe environments, while controlling the delivery of stimuli and maintaining standardized measurement protocols. Despite this potential, studies that compare virtual and real-world performance of complex daily activities are scarce. This study aimed to compare cognitive strategies and gait characteristics of young and older healthy adults as they engaged in a complex task while navigating in a real shopping mall and a high-fidelity virtual replica of the mall. METHODS: Seventeen older adults (mean (SD) age = 71.2 (5.6) years, 64% males) and 17 young adults (26.7 (3.7) years, 35% males) participated. In two separate sessions they performed the Multiple Errands Test (MET) in a real-world mall or the Virtual MET (VMET) in the virtual environment. The real-world environment was a small shopping area and the virtual environment was created within the CAREN™ (Computer Assisted Rehabilitation Environment) Integrated Reality System. The performance of the task was assessed using motor and physiological measures (gait parameters and heart rate), MET or VMET time and score, and navigation efficiency (cognitive performance and strategy). Between (age groups) and within (environment) differences were analyzed with ANOVA repeated measures. RESULTS: There were no significant age effects for any of the gait parameters but there were significant environment effects such that both age groups walked faster (F(1,32) = 154.96, p < 0.0001) with higher step lengths (F(1,32) = 86.36, p < 0.0001), had lower spatial and temporal gait variability (F(1,32) = 95.71-36.06, p < 0.0001) and lower heart rate (F(1,32) = 13.40, p < 0.01) in the real-world. There were significant age effects for MET/VMET scores (F(1,32) = 19.77, p < 0.0001) and total time (F(1,32) = 11.74, p < 0.05) indicating better performance of the younger group, and a significant environment effect for navigation efficiency (F(1,32) = 7.6, p < 0.01) that was more efficient in the virtual environment. CONCLUSIONS: This comprehensive, ecological approach in the measurement of performance during tasks reminiscent of complex life situations showed the strengths of using virtual environments in assessing cognitive aspects and limitations of assessing motor aspects of performance. Difficulties by older adults were apparent mainly in the cognitive aspects indicating a need to evaluate them during complex task performance.