Your search keyword '"Allison LK"' showing total 13 results

1. The dynamics of sensory re-weighting in healthy and fall-prone older adults.

Author

Allison LK, Kiemel T, and Jeka JJ

Published

2006

2. Effects of a sensory-challenge balance exercise program on multisensory reweighting and clinical balance measures in the fall-prone elderly.

Author

Allison LK, Jeka JJ, Kiemel T, and Kfoury-House LM

Published

2002

3. Editor's Message: Changing of the Guard.

Author

Allison LK

Abstract

Competing Interests: The author declares no conflicts of interest.

Published

2023

4. Academy of Geriatric Physical Therapy Research Agenda: Rationale for the Development and the Intent for Use.

Author

VanSwearingen J, Knox S, Lowry KA, Allison LK, Ciolek C, Miller KL, Avin KG, and Hartley GW

Subjects

Aged, Humans, Physical Therapy Modalities

Abstract

The rationale for the development and the intent for use of a research agenda for the Academy of Geriatric Physical Therapy is described. The reasons for the research agenda for geriatric physical therapy are (1) to have a broad representation of the research conducted by physical therapist(s) working with older adults, (2) to provide guidance and assistance to emerging investigators to aid the trajectory of a research career, and (3) as a document to engage potential funding agencies, foundations, and individuals in support of physical therapist-conducted research. The design was based on the Research Agenda for Physical Therapy (APTA document), formatted to be consistent with the World Health Organization International Classification of Functioning, Disability and Health, priority ratings for the research statements, and specific examples of research questions for each category of the Research Agenda. The Academy of Geriatric Physical Therapy Research Agenda generated to be a living document, with revisions to research questions and priority ratings expected in the future to enable the agenda to adapt to changes in science, practice, workforce, education, and health policy., Competing Interests: The authors declare no conflicts of interest., (Copyright © 2022 APTA Geriatrics, An Academy of the American Physical Therapy Association.)

Published

2022

5. Enabling Longitudinal Respiration Monitoring Using Vapor-Coated Conducting Textiles.

Author

Allison LK, Rostaminia S, Kiaghadi A, Ganesan D, and Andrew TL

Abstract

Wearable sensors allow for portable, long-term health monitoring in natural environments. Recently, there has been an increase in demand for technology that can reliably monitor respiration, which can be indicative of cardiac diseases, asthma, and infection by respiratory viruses. However, to date, the most reliable respiration monitoring system involves a tightly worn chest belt that is not conducive to longitudinal monitoring. Herein, we report that accurate respiration monitoring can be effected using a fabric-based humidity sensor mounted within a face mask. Our humidity sensor is created using cotton fabrics coated with a persistently p-doped conjugated polymer, poly(3,4-ethylenedioxythiophene):chloride (PEDOT-Cl), using a previously reported chemical vapor deposition process. The vapor-deposited polymer coating displays a stable, rapid, and reversible change in conductivity with an increase in local humidity, such as the humidity changes experienced within a face mask as the wearer breathes. Thus, when integrated into a face mask, the PEDOT-Cl-coated cotton humidity sensor is able to transduce breaths into an electrical signal. The humidity sensor-incorporated face mask is able to differentiate between deep and shallow breathing, as well as breathing versus talking. The sensor-incorporated face mask platform also functions both while walking and sitting, providing equally high signal quality in both indoor and outdoor contexts. Additionally, we show that the face mask can be worn for long periods of time with a negligible decline in the signal quality., Competing Interests: The authors declare no competing financial interest., (© 2021 The Authors. Published by American Chemical Society.)

Published

2021

6. On-site identification of ozone damage in fruiting plants using vapor-deposited conducting polymer tattoos.

Author

Kim JJ, Fan R, Allison LK, and Andrew TL

Abstract

Climate change is leading to increased concentrations of ground-level ozone in farms and orchards. Persistent ozone exposure causes irreversible oxidative damage to plants and reduces crop yield, threatening food supply chains. Here, we show that vapor-deposited conducting polymer tattoos on plant leaves can be used to perform on-site impedance analysis, which accurately reveals ozone damage, even at low exposure levels. Oxidative damage produces a unique change in the high-frequency (>10 4 Hz) impedance and phase signals of leaves, which is not replicated by other abiotic stressors, such as drought. The polymer tattoos are resilient against ozone-induced chemical degradation and persist on the leaves of fruiting plants, thus allowing for frequent and long-term monitoring of cellular ozone damage in economically important crops, such as grapes and apples., (Copyright © 2020 The Authors, some rights reserved; exclusive licensee American Association for the Advancement of Science. No claim to original U.S. Government Works. Distributed under a Creative Commons Attribution NonCommercial License 4.0 (CC BY-NC).)

Published

2020

7. Student Perceptions of a Live Standardized Patient Interprofessional Education Scenario: A Multi-Year Study.

Author

Edwards Collins ME, Bell CS, Migliarese SJ, Smith N, Allison LK, Bethea DP, Darby R, and Conner TA

Subjects

Humans, Interdisciplinary Communication, Patient Care Team, Physical Therapy Modalities education, Surveys and Questionnaires, Health Knowledge, Attitudes, Practice, Interprofessional Education, Occupational Therapy education, Patient Simulation, Students, Health Occupations psychology

Abstract

Purpose: This qualitative study examined perceptions of interprofessional education (IPE) and professional roles following a standardized patient experience in occupational therapy (OT) and physical therapy (PT) students., Rationale: Simulation-based learning experiences offer effective means to enhance IPE. Limited research exists in OT and PT about student perceptions of IPE and professional roles following a standardized patient experience., Design: Perceptions of OT and PT students were measured using a pre/post questionnaire design in a mixed-methods study, with the qualitative component presented in this article., Methods: One hundred students participated (51 second-year OT, 49 third-year PT students). Students completed a questionnaire regarding interprofessional practice and professional roles within the healthcare team. Students participated in small group interdisciplinary case work, faculty-led discussion, and a simulated patient case. Students completed a post survey with additional questions regarding the experiences. Data were analyzed using an inductive coding methodology., Findings: Two main themes were identified: student outcomes (subthemes: scope of practice, team communication and collaboration) and IPE design (subthemes: team composition, curricular sequence, amount of time for experience)., Conclusions: These findings relay perceptions of IPE and professional roles following a standardized patient experience. Further modification to the curricular timeframe and experience design should be explored with IPE experiences.

Published

2020

8. Live Standardized Patient Scenario Improves Attitudes Toward and Readiness for Interprofessional Education in Occupational Therapy and Physical Therapy Students.

Author

Bethea DP, Smith N, Allison LK, Bell CS, Collins ME, Migliarese SJ, and Darby R

Subjects

Clinical Competence, Group Processes, Health Knowledge, Attitudes, Practice, Humans, Interprofessional Relations, Patient Care Team organization & administration, Pilot Projects, Attitude of Health Personnel, Occupational Therapy education, Patient Simulation, Physical Therapy Specialty education, Students, Health Occupations psychology

Abstract

Purpose: This study examined the impact of video-based and live standardized patient scenarios on attitudes toward and readiness for interprofessional education (IPE) in occupational therapy (OT) and physical therapy (PT) students. In academic health programs, IPE is used to teach the knowledge and skills to develop interprofessional teamwork abilities; however, research is limited on the impact of standardized patient scenario experiences (SPSE) on the effectiveness of IPE in OT and PT students., Participants: The study involved 49 participants: 23 OT and 26 PT students., Methods: A descriptive quantitative pilot study measured attitudes and readiness for IPE using a repeated-measures design and the Readiness for Inter-Professional Learning Scale (RIPLS), a 19-item Likert scale. Students completed the RIPLS prior to an interprofessional team assignment, following an interprofessional team meeting to plan the standardized patient evaluation, and after a live SPSE. A 3 x 2 repeated-measures MANOVA analyses was used to determine differences between groups and change over time., Results: Statistically significant changes occurred in Teamwork and Professional Identify subscales of the RIPLS for both groups after the live SPSE., Impact: Findings support the use of team-based, live SPSE to improve OT and PT students' readiness for and attitudes toward IPE.

Published

2019

9. Vapor-printed polymer electrodes for long-term, on-demand health monitoring.

Author

Kim JJ, Allison LK, and Andrew TL

Subjects

Chlorophyll analysis, Dehydration complications, Electric Impedance, Flowers chemistry, Flowers radiation effects, Models, Biological, Plant Leaves chemistry, Plant Leaves radiation effects, Plants chemistry, Plants radiation effects, Surface Properties, Ultraviolet Rays adverse effects, Volatilization, Water analysis, Ecological Parameter Monitoring methods, Electrodes, Polymers chemistry

Abstract

We vapor print conformal conjugated polymer electrodes directly onto living plants and use these electrodes to probe the health of actively growing specimens using bioimpedance spectroscopy. Vapor-printed polymer electrodes, unlike their adhesive thin-film counterparts, do not delaminate from microtextured living surfaces as the organism matures and do not observably attenuate the natural growth pattern and self-sustenance of the plants investigated here. On-demand, noninvasive bioimpedance spectroscopy performed with long-lasting vapor-printed polymer electrodes can reliably detect deep tissue damage caused by dehydration and ultraviolet A exposure throughout the life cycle of a plant.

Published

2019

10. Sensory-Challenge Balance Exercises Improve Multisensory Reweighting in Fall-Prone Older Adults.

Author

Allison LK, Kiemel T, and Jeka JJ

Subjects

Aged, Aged, 80 and over, Exercise physiology, Female, Humans, Male, Range of Motion, Articular, Accidental Falls prevention & control, Exercise Therapy methods, Gait physiology, Postural Balance physiology

Abstract

Background and Purpose: Multisensory reweighting (MSR) deficits in older adults contribute to fall risk. Sensory-challenge balance exercises may have value for addressing the MSR deficits in fall-prone older adults. The purpose of this study was to examine the effect of sensory-challenge balance exercises on MSR and clinical balance measures in fall-prone older adults., Methods: We used a quasi-experimental, repeated-measures, within-subjects design. Older adults with a history of falls underwent an 8-week baseline (control) period. This was followed by an 8-week intervention period that included 16 sensory-challenge balance exercise sessions performed with computerized balance training equipment. Measurements, taken twice before and once after intervention, included laboratory measures of MSR (center of mass gain and phase, position, and velocity variability) and clinical tests (Activities-specific Balance Confidence Scale, Berg Balance Scale, Sensory Organization Test, Limits of Stability test, and lower extremity strength and range of motion)., Results: Twenty adults 70 years of age and older with a history of falls completed all 16 sessions. Significant improvements were observed in laboratory-based MSR measures of touch gain (P = 0.006) and phase (P = 0.05), Berg Balance Scale (P = 0.002), Sensory Organization Test (P = 0.002), Limits of Stability Test (P = 0.001), and lower extremity strength scores (P = 0.005). Mean values of vision gain increased more than those for touch gain, but did not reach significance., Discussion and Conclusions: A balance exercise program specifically targeting multisensory integration mechanisms improved MSR, balance, and lower extremity strength in this mechanistic study. These valuable findings provide the scientific rationale for sensory-challenge balance exercise to improve perception of body position and motion in space and potential reduction in fall risk.

Published

2018

11. Participation restriction, not fear of falling, predicts actual balance and mobility abilities in rural community-dwelling older adults.

Author

Allison LK, Painter JA, Emory A, Whitehurst P, and Raby A

Subjects

Aged, Aged, 80 and over, Aging, Female, Humans, Male, Middle Aged, Quality of Life, Residence Characteristics, Risk Factors, Rural Population, Self-Assessment, Accidental Falls, Geriatric Assessment methods, Mobility Limitation, Postural Balance

Abstract

Background and Purpose: Fear of falling (FOF) has been correlated with an increased risk for falls, self-restriction of physical activity, and subsequent decrease in quality of life in older adults. The relationship between perceived FOF, participation restriction, and balance and mobility abilities is unclear, as results from prior studies are inconsistent. Few studies have used the Survey of Activities and Fear of Falling in the Elderly (SAFE) as a standard measure of FOF, although this survey provides both a measure of FOF and participation restriction. Only one study has explored the relationship of individual items from the SAFE with balance and mobility tests that predict fall risk. The primary purpose of this study was to investigate the relationships between FOF and participation restriction as measured by the SAFE and actual balance and mobility abilities in a diverse group of older adults., Participants: Eighty-two community-dwelling older adults (17 men) with a mean age of 74 (SD = 8.8; range = 55-91) participated in this study. The sample comprised 45% African Americans and 54% whites., Methods: Fear of falling and participation restriction were assessed using the SAFE, a self-assessment survey. The SAFE assesses information about participation in 11 functional activities as well as the extent to which fear is a source of participation restriction. Balance and functional mobility were measured using the Berg Balance Scale (BBS) and Timed Get Up & Go Test (TUG), respectively. Participants were categorized as low (N = 36), mixed (N = 19), or high (N = 24) risk for future falls based on their past fall history and results on the BBS and the TUG. Data analysis included χ(2) and Spearman correlation and 2 regression analyses., Results: Both SAFE FOF and participation restriction scores were significantly correlated with BBS and TUG scores. However, SAFE participation restriction scores, but not SAFE FOF scores, predicted BBS and TUG scores. SAFE FOF scores could discriminate older adults at high risk for falls from those at mixed and low risk but could not discriminate between the mixed- and low-risk groups., Discussion/conclusion: The relationship between self-reported participation restriction and objectively measured balance and mobility abilities is stronger than the relationship between self-reported FOF and objectively measured balance and mobility abilities. These findings lend support to the argument that participation restriction may be the critical mediating factor between FOF, balance and mobility limitations, and fall risk. Evaluation of and intervention for FOF and fall risk without direct and specific attention to participation restriction may not yield optimal results. Older adults whose goals include both reduction in fall risk and increase in participation level may need combined treatment approaches.

Published

2013

12. The dynamics of visual reweighting in healthy and fall-prone older adults.

Author

Jeka JJ, Allison LK, and Kiemel T

Subjects

Adaptation, Physiological physiology, Adult, Aged, Aged, 80 and over, Aging physiology, Algorithms, Computer Graphics, Female, Humans, Male, Nonlinear Dynamics, Photic Stimulation, Posture physiology, Young Adult, Accidental Falls, Postural Balance physiology, Reflex physiology, Sensation physiology

Abstract

Multisensory reweighting (MSR) is an adaptive process that prioritizes the visual, vestibular, and somatosensory inputs to provide the most reliable information for postural stability when environmental conditions change. This process is thought to degrade with increasing age and to be particularly deficient in fall-prone versus healthy older adults. In the present study, the authors investigate the dynamics of sensory reweighting, which is not well-understood at any age. Postural sway of young, healthy, and fall-prone older adults was measured in response to large changes in the visual motion stimulus amplitude within a trial. Absolute levels of gain, and the rate of adaptive gain change were examined when visual stimulus amplitude changed from high to low and from low to high. Compared with young adults, gains in both older adult groups were higher when the stimulus amplitude was high. Gains in the fall-prone elderly were higher than both other groups when the stimulus amplitude was low. Both older groups demonstrated slowed sensory reweighting over prolonged time periods when the stimulus amplitude was high. The combination of higher vision gains and slower down weighting in older adults suggest deficits that may contribute to postural instability.

Published

2010

13. Multisensory reweighting of vision and touch is intact in healthy and fall-prone older adults.

Author

Allison LK, Kiemel T, and Jeka JJ

Subjects

Accidental Falls, Adult, Age Factors, Aged, Aged, 80 and over, Biomechanical Phenomena methods, Female, Fingers innervation, Humans, Male, Multivariate Analysis, Physical Stimulation methods, Aging physiology, Posture physiology, Touch physiology, Vision, Ocular physiology

Abstract

Unexplained falls in older adults are thought to arise from subtle deficits in multiple components of the postural control system, including peripheral sensory loss and central sensory processing. One commonly proposed central sensory processing deficit is a decline in the adaptive use of changing or conflicting sensory inputs for estimating body dynamics, i.e., multisensory reweighting. We examined the assumption of impaired multisensory reweighting in healthy and fall-prone older adults using quantitative methods that have previously demonstrated reweighting in young adults. Standing subjects were exposed to simultaneous medio-lateral oscillatory visual and fingertip touch inputs at varying relative amplitudes. No group differences in overall levels of vision and touch gain were found. Both healthy and fall-prone older adults demonstrated the same pattern of adaptive gain change as healthy young adults. Like the young adults, both elderly groups displayed clear evidence of intra- and inter-sensory reweighting to both vision and touch motion stimuli. These data suggest that, for small amplitude vision and touch stimuli, the central sensory reweighting adaptation process remains intact in healthy and fall-prone older adults with sufficiently intact peripheral sensation.

Published

2006