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1. Measuring Economic Benefits of Built Environment Accessibility Technologies for People with Disabilities

   Siny Joseph; Vinod Namboodiri (August 2023, Association for the Advancement of Assistive Technology in Europe (AAATE))

   Given the challenges of wayfinding in large indoor built environments, especially for persons with disabilities (PWDs), a new class of accessible technologies called built environment accessible technologies (BEAT) are being developed. Such technologies are envisioned to help achieve product and opportunity parity for PWDs. The impact and adoption of these BEATs depends largely on clear and quantifiable (tangible and intangible) economic benefits accrued to the end-users and stakeholders. This paper describes the results of a survey conducted to measure potential benefits in terms of quality of life and quality of work life (work productivity) by increased accessibility provisions within built environments as it relates to navigation for PWDs and those without disabilities. Results of this work indicate that BEATs have the greatest potential to improve mobility and exploratory activities for people with disabilities, exploratory activities for people without disabilities, and improve job security for everyone. 

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2. Using smart speakers to contactlessly monitor heart rhythms

   https://doi.org/10.1038/s42003-021-01824-9  

   Wang, Anran; Nguyen, Dan; Sridhar, Arun R.; Gollakota, Shyamnath (March 2021, Communications Biology)

   Abstract Heart rhythm assessment is indispensable in diagnosis and management of many cardiac conditions and to study heart rate variability in healthy individuals. We present a proof-of-concept system for acquiring individual heart beats using smart speakers in a fully contact-free manner. Our algorithms transform the smart speaker into a short-range active sonar system and measure heart rate and inter-beat intervals (R-R intervals) for both regular and irregular rhythms. The smart speaker emits inaudible 18–22 kHz sound and receives echoes reflected from the human body that encode sub-mm displacements due to heart beats. We conducted a clinical study with both healthy participants and hospitalized cardiac patients with diverse structural and arrhythmic cardiac abnormalities including atrial fibrillation, flutter and congestive heart failure. Compared to electrocardiogram (ECG) data, our system computed R-R intervals for healthy participants with a median error of 28 ms over 12,280 heart beats and a correlation coefficient of 0.929. For hospitalized cardiac patients, the median error was 30 ms over 5639 heart beats with a correlation coefficient of 0.901. The increasing adoption of smart speakers in hospitals and homes may provide a means to realize the potential of our non-contact cardiac rhythm monitoring system for monitoring of contagious or quarantined patients, skin sensitive patients and in telemedicine settings. 

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3. Dive heart rate in harbour porpoises is influenced by exercise and expectations

   https://doi.org/10.1242/jeb.168740  

   McDonald, Birgitte I.; Johnson, Mark; Madsen, Peter T. (January 2018, Journal of Experimental Biology)

   null (Ed.)

   The dive response, a decrease in heart rate (ƒH) and peripheral vasoconstriction, is the key mechanism allowing breath-hold divers to perform long duration dives. This pronounced cardiovascular response to diving has been investigated intensely in pinnipeds, but comparatively little is known for cetaceans, in particular in ecologically relevant settings. Here we studied the dive ƒH response in one the smallest cetaceans, the harbour porpoise (Phocoena phocoena). We used a novel multi-sensor data logger to record dive behaviour, ƒH, ventilations and feeding events in three trained porpoises, providing the first evaluation of cetacean ƒH regulation while performing a variety of natural behaviours, including prey capture. We predicted that tagged harbour porpoises would exhibit a decrease in ƒH in all dives, but the degree of bradycardia would be influenced by dive duration and activity, i.e., the dive ƒH response will be exercise modulated. In all dives, ƒH decreased compared to surface rates by at least 50% (mean maximum surface=173 beats min−1, mean minimum dive=50 beats min−1); however, dive ƒH was approximately 10 beats min−1 higher in active dives due to a slower decrease in ƒH and more variable ƒH during pursuit of prey. We show that porpoises exhibit the typical breath-hold diver bradycardia during aerobic dives and that the heart rate response is modulated by exercise and dive duration; however, other variables such as expectations and individual differences are equally important in determining diving heart rate. 

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4. Neck muscle twitch properties are associated with constraint on drum speed in woodpeckers, but not drum length

   https://doi.org/10.1242/jeb.251289  

   Antonson, Nicholas_D; Capano, John_G; Fuxjager, Matthew_J (October 2025, Journal of Experimental Biology)

   Animal displays are often limited by the properties of the muscles that generate them. Here, using in situ muscle stimulation, we investigate the twitch properties of the longus colli ventralis (LCv), a primary muscle used protract the head and neck during territorial drumming displays in woodpeckers. Specifically, we test LCv twitch kinetics and endurance in a manner that simulates drum speed (beats s−1) and length (total beats), two signal feature that can evolve independently of each other. We identify a maximum muscle contraction rate that may represent a physiological constraint relevant to drumming speed, but no relevant constraint on the repetition of contractions that might affect drum length. This suggests twitch properties may differentially affect display components. Broadly, our findings highlight how certain display features may freely diversify independent of others due to physiological limits, while pointing to the way complex signals can evolve under partial performance constraints. 

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5. Mechanism of Arrhythmogenesis Driven by Early After Depolarizations in Cardiac Tissue

   https://doi.org/10.1371/journal.pcbi.1012635  

   Stein, Jack; Greene, D’Artagnan; Fenton, Flavio; Shiferaw, Yohannes (April 2025, PLOS Computational Biology)

   Marsden, Alison (Ed.)

   Early-after depolarizations (EADs) are changes in the action potential plateau that can lead to cardiac arrhythmia. At the cellular level, these oscillations are irregular and change from beat to beat due to the sensitivity of voltage repolarization to subcellular stochastic processes. However, the behavior of EADs in tissue, where cells are strongly coupled by gap junctions, is less understood. In this study, we develop a computational model of EADs caused by a reduction in the rate of calcium-induced inactivation of the L-type calcium channel. We find that, as inactivation decreases EADs occur with durations varying randomly from beat to beat. In cardiac tissue, however, gap junction coupling between cells dampens these fluctuations, and it is unclear what dictates the formation of EADs. In this study we show that EADs in cardiac tissue can be modeled by the deterministic limit of a stochastic single-cell model. Analysis of this deterministic model reveals that EADs emerge in tissue after an abrupt transition to alternans, where large populations of cells suddenly synchronize, causing EADs on every other beat. We analyze this transition and show that it is due to a discontinuous bifurcation that leads to a large change in the action potential duration in response to very small changes in pacing rate. We further demonstrate that this transition is highly arrhythmogenic, as the sudden onset of EADs on alternate beats in cardiac tissue promotes conduction block and reentry. Our results highlight the importance of EAD alternans in arrhythmogenesis and suggests that ectopic beats may not be required. 

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