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1. Co-designing Technologies for Well Being: A Robot Companion for Older Adults

   https://doi.org/10.1007/978-3-030-73103-8_63  

   Rebola, C. B.; Ramirez-Loaiza, S. (January 2021, Proceedings of the 2021 Future of Information and Communication Conference (FICC))

   Arai, K. (Ed.)

   Robotics is an industry that has disrupted the health field in different areas, including older adult care. Robotic companions for older adults have proved to produce many benefits, including decreasing loneliness, anxiety, stress, depression, agitation, and contributing to the improvement of social relationships, to mention a few. Currently, there are different options in the market of robotic pets for the older adult population. Among them is the Joy for All line of products. In December of 2015, Hasbro released the Joy for All - Robotic Cat to the market. While the product has been successfully adopted by the older adult population, there are opportunities to improve the nature of advanced human-robot interaction. The class, Technologies to Extend Life, taught in the Master of Design program at the University of Cincinnati, focused on designing the next generation of Joy for All robotic intelligence that could provide psycho-social support for older adults. With this project, the class had two primary objectives: 1) Understand the real challenges older adults face in activities of daily living; and 2) Develop innovative hardware and software tools that can meet some of the identified daily challenges. The class had a co-design approach in the many phases that included different participants (older adults and caregivers), utilizing a variety of tools to assess, analyze, develop, design, implement, and evaluate the interventions with older adults and communities. The significance of this project is to use a participatory approach to assess and analyze the challenges older adults face in activities of daily living that robotic companions may help alleviate, thus having an empathic perspective to the creation of assistive technologies. 

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2. Assessment of gait and posture characteristics using a smartphone wearable system for persons with osteoporosis with and without falls

   https://doi.org/10.1038/s41598-023-27788-w  

   Doshi, Krupa B.; Moon, Seong Hyun; Whitaker, Michael D.; Lockhart, Thurmon E. (December 2023, Scientific Reports)

   Abstract We used smartphone technology to differentiate the gait characteristics of older adults with osteoporosis with falls from those without falls. We assessed gait mannerism and obtained activities of daily living (ADLs) with wearable sensor systems (smartphones and inertial measurement units [IMUs]) to identify fall-risk characteristics. We recruited 49 persons with osteoporosis: 14 who had a fall within a year before recruitment and 35 without falls. IMU sensor signals were sampled at 50 Hz using a customized smartphone app (Lockhart Monitor) attached at the pelvic region. Longitudinal data was collected using MoveMonitor+ (DynaPort) IMU over three consecutive days. Given the close association between serum calcium, albumin, PTH, Vitamin D, and musculoskeletal health, we compared these markers in individuals with history of falls as compared to nonfallers. For the biochemical parameters fall group had significantly lower calcium ( P  = 0.01*) and albumin ( P  = 0.05*) and higher parathyroid hormone levels ( P  = 0.002**) than nonfall group. In addition, persons with falls had higher sway area ( P  = 0.031*), lower dynamic stability ( P  < 0.001***), gait velocity ( P  = 0.012*), and were less able to perform ADLs ( P  = 0.002**). Thus, persons with osteoporosis with a history of falls can be differentiated by using dynamic real-time measurements that can be easily captured by a smartphone app, thus avoiding traditional postural sway and gait measures that require individuals to be tested in a laboratory setting. 

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3. Prediction of fall risk among community-dwelling older adults using a wearable system

   https://doi.org/10.1038/s41598-021-00458-5  

   Lockhart, Thurmon E.; Soangra, Rahul; Yoon, Hyunsoo; Wu, Teresa; Frames, Christopher W.; Weaver, Raven; Roberto, Karen A. (December 2021, Scientific Reports)

   Abstract Falls are among the most common cause of decreased mobility and independence in older adults and rank as one of the most severe public health problems with frequent fatal consequences. In the present study, gait characteristics from 171 community-dwelling older adults were evaluated to determine their predictive ability for future falls using a wearable system. Participants wore a wearable sensor (inertial measurement unit, IMU) affixed to the sternum and performed a 10-m walking test. Measures of gait variability, complexity, and smoothness were extracted from each participant, and prospective fall incidence was evaluated over the following 6-months. Gait parameters were refined to better represent features for a random forest classifier for the fall-risk classification utilizing three experiments. The results show that the best-trained model for faller classification used both linear and nonlinear gait parameters and achieved an overall 81.6 ± 0.7% accuracy, 86.7 ± 0.5% sensitivity, 80.3 ± 0.2% specificity in the blind test. These findings augment the wearable sensor's potential as an ambulatory fall risk identification tool in community-dwelling settings. Furthermore, they highlight the importance of gait features that rely less on event detection methods, and more on time series analysis techniques. Fall prevention is a critical component in older individuals’ healthcare, and simple models based on gait-related tasks and a wearable IMU sensor can determine the risk of future falls. 

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4. Social Connectedness Resource Preferences of Older Adults in Assisted Living: A Scoping Review Based on the WHO-ICF Framework

   https://doi.org/10.3928/00989134-20230816-03  

   Pudur, Rekha; Mpofu, Elias; Prybutok, Gayle; Meier, Naomi; Ingman, Stan (September 2023, Journal of Gerontological Nursing)

   The current scoping review identified emerging evidence on social connectedness resource preferences of older adults in assisted living facilities (ALFs) and the community. A literature search was performed using several databases. We included review articles published between January 2000 and September 2022 in English and related to social connectedness resources in ALFs and the community. Of 134 titles and abstracts, eight studies were included. Study participants comprised 2,482 older adults from 233 ALFs in the United States. Themes were framed using the World Health Organization's International Classification of Functioning, Disability, and Health. For social activities, older adults preferred facility-based recreation and leisure resources. For community social connectedness, residents preferred participation in civic life activities. Participants of older age preferred facility resources, whereas those of younger age preferred more demanding physical activities. Those from larger enrollment facilities preferred facility-based resources compared to community resources. For moderately and less active residents, participation was limited to less demanding activities. Older adults' preferences varied based on age, physical limitations, and size and location of the facility. Findings suggest opportunities for further research on developing ALF- and community-based resources for older adults' social well-being and quality of life. [ Journal of Gerontological Nursing, 49 (9), 35–42.] 

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5. Three Days Monitoring of Activities of Daily Living Among Young Healthy Adults and Parkinson’s Disease Patients

   Moon, S.H.; Soangra, R.; Frames, C.; and Lockhart, T. (January 2021, Biomedical sciences instrumentation)

   Parkinson’s Disease (PD) is a neurodegenerative disorder affecting the substantia nigra, which leads to more than half of PD patients are considered to be at high risk of falling. Recently, Inertial Measurement Unit (IMU) sensors have shown great promise in the classification of activities of daily living (ADL) such as walking, standing, sitting, and laying down, considered to be normal movement in daily life. Measuring physical activity level from longitudinal ADL monitoring among PD patients could provide insights into their fall mechanisms. In this study, six PD patients (mean age=74.3±6.5 years) and six young healthy subjects (mean age=19.7±2.7 years) were recruited. All the subjects were asked to wear the single accelerometer, DynaPort MM+ (Motion Monitor+, McRoberts BV, The Hague, Netherlands), with a sampling frequency of 100 Hz located at the L5-S1 spinal area for 3 days. Subjects maintained a log of activities they performed and only removed the sensor while showering or performing other aquatic activities. The resultant acceleration was filtered using high and low pass Butterworth filters to determine dynamic and stationary activities. As a result, it was found that healthy young subjects performed significantly more dynamic activities (13.2%) when compared to PD subjects (7%), in contrast, PD subjects (92.9%) had significantly more stationary activities than young healthy subjects (86.8%). 

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