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36 results on '"Pfisterer, Kaylen J"'

1. Enhancing Food Intake Tracking in Long-Term Care with Automated Food Imaging and Nutrient Intake Tracking (AFINI-T) Technology

Author

Pfisterer, Kaylen J., Amelard, Robert, Boger, Jennifer, Chung, Audrey G., Keller, Heather H., and Wong, Alexander

Subjects
Computer Science - Computer Vision and Pattern Recognition, Computer Science - Artificial Intelligence, Computer Science - Machine Learning
Abstract

Half of long-term care (LTC) residents are malnourished increasing hospitalization, mortality, morbidity, with lower quality of life. Current tracking methods are subjective and time consuming. This paper presents the automated food imaging and nutrient intake tracking (AFINI-T) technology designed for LTC. We propose a novel convolutional autoencoder for food classification, trained on an augmented UNIMIB2016 dataset and tested on our simulated LTC food intake dataset (12 meal scenarios; up to 15 classes each; top-1 classification accuracy: 88.9%; mean intake error: -0.4 mL$\pm$36.7 mL). Nutrient intake estimation by volume was strongly linearly correlated with nutrient estimates from mass ($r^2$ 0.92 to 0.99) with good agreement between methods ($\sigma$= -2.7 to -0.01; zero within each of the limits of agreement). The AFINI-T approach is a deep-learning powered computational nutrient sensing system that may provide a novel means for more accurately and objectively tracking LTC resident food intake to support and prevent malnutrition tracking strategies., Comment: Key words: Automatic segmentation, convolutional neural network, deep learning, food intake tracking, volume estimation, malnutrition prevention, long-term care, hospital

Published
2021

5. When Segmentation is Not Enough: Rectifying Visual-Volume Discordance Through Multisensor Depth-Refined Semantic Segmentation for Food Intake Tracking in Long-Term Care

Author

Pfisterer, Kaylen J, Amelard, Robert, Chung, Audrey G, Syrnyk, Braeden, MacLean, Alexander, Keller, Heather H, and Wong, Alexander

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Malnutrition is a multidomain problem affecting 54% of older adults in long-term care (LTC). Monitoring nutritional intake in LTC is laborious and subjective, limiting clinical inference capabilities. Recent advances in automatic image-based food estimation have not yet been evaluated in LTC settings. Here, we describe a fully automatic imaging system for quantifying food intake. We propose a novel deep convolutional encoder-decoder food network with depth-refinement (EDFN-D) using an RGB-D camera for quantifying a plate's remaining food volume relative to reference portions in whole and modified texture foods. We trained and validated the network on the pre-labelled UNIMIB2016 food dataset and tested on our two novel LTC-inspired plate datasets (689 plate images, 36 unique foods). EDFN-D performed comparably to depth-refined graph cut on IOU (0.879 vs. 0.887), with intake errors well below typical 50% (mean percent intake error: -4.2%). We identify how standard segmentation metrics are insufficient due to visual-volume discordance, and include volume disparity analysis to facilitate system trust. This system provides improved transparency, approximates human assessors with enhanced objectivity, accuracy, and precision while avoiding hefty semi-automatic method time requirements. This may help address short-comings currently limiting utility of automated early malnutrition detection in resource-constrained LTC and hospital settings.

Published
2019
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6. Food for thought: Ethical considerations of user trust in computer vision

Author

Pfisterer, Kaylen J., Boger, Jennifer, and Wong, Alexander

Subjects
Computer Science - Computers and Society, Computer Science - Computer Vision and Pattern Recognition, Computer Science - Human-Computer Interaction
Abstract

In computer vision research, especially when novel applications of tools are developed, ethical implications around user perceptions of trust in the underlying technology should be considered and supported. Here, we describe an example of the incorporation of such considerations within the long-term care sector for tracking resident food and fluid intake. We highlight our recent user study conducted to develop a Goldilocks quality horizontal prototype designed to support trust cues in which perceived trust in our horizontal prototype was higher than the existing system in place. We discuss the importance and need for user engagement as part of ongoing computer vision-driven technology development and describe several important factors related to trust that are relevant to developing decision-making tools., Comment: Accepted to CVPR2019: Fairness Accountability Transparency and Ethics in Computer Vision Workshop

Published
2019

7. Towards computer vision powered color-nutrient assessment of pureed food

Author

Pfisterer, Kaylen J., Amelard, Robert, Syrnyk, Braeden, and Wong, Alexander

Subjects
Computer Science - Computer Vision and Pattern Recognition, Computer Science - Neural and Evolutionary Computing, Electrical Engineering and Systems Science - Image and Video Processing
Abstract

With one in four individuals afflicted with malnutrition, computer vision may provide a way of introducing a new level of automation in the nutrition field to reliably monitor food and nutrient intake. In this study, we present a novel approach to modeling the link between color and vitamin A content using transmittance imaging of a pureed foods dilution series in a computer vision powered nutrient sensing system via a fine-tuned deep autoencoder network, which in this case was trained to predict the relative concentration of sweet potato purees. Experimental results show the deep autoencoder network can achieve an accuracy of 80% across beginner (6 month) and intermediate (8 month) commercially prepared pureed sweet potato samples. Prediction errors may be explained by fundamental differences in optical properties which are further discussed., Comment: 3 pages

Published
2019

9. A new take on measuring relative nutritional density: The feasibility of using a deep neural network to assess commercially-prepared pureed food concentrations

Author

Pfisterer, Kaylen J., Amelard, Robert, Chung, Audrey G., and Wong, Alexander

Subjects
Computer Science - Computer Vision and Pattern Recognition, Physics - Medical Physics
Abstract

Dysphagia affects 590 million people worldwide and increases risk for malnutrition. Pureed food may reduce choking, however preparation differences impact nutrient density making quality assurance necessary. This paper is the first study to investigate the feasibility of computational pureed food nutritional density analysis using an imaging system. Motivated by a theoretical optical dilution model, a novel deep neural network (DNN) was evaluated using 390 samples from thirteen types of commercially prepared purees at five dilutions. The DNN predicted relative concentration of the puree sample (20%, 40%, 60%, 80%, 100% initial concentration). Data were captured using same-side reflectance of multispectral imaging data at different polarizations at three exposures. Experimental results yielded an average top-1 prediction accuracy of 92.2+/-0.41% with sensitivity and specificity of 83.0+/-15.0% and 95.0+/-4.8%, respectively. This DNN imaging system for nutrient density analysis of pureed food shows promise as a novel tool for nutrient quality assurance.

Published
2017
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10. Non-contact hemodynamic imaging reveals the jugular venous pulse waveform

Author

Amelard, Robert, Hughson, Richard L, Greaves, Danielle K, Pfisterer, Kaylen J, Leung, Jason, Clausi, David A, and Wong, Alexander

Subjects
Physics - Medical Physics, Computer Science - Computer Vision and Pattern Recognition, Physics - Optics
Abstract

Cardiovascular monitoring is important to prevent diseases from progressing. The jugular venous pulse (JVP) waveform offers important clinical information about cardiac health, but is not routinely examined due to its invasive catheterisation procedure. Here, we demonstrate for the first time that the JVP can be consistently observed in a non-contact manner using a novel light-based photoplethysmographic imaging system, coded hemodynamic imaging (CHI). While traditional monitoring methods measure the JVP at a single location, CHI's wide-field imaging capabilities were able to observe the jugular venous pulse's spatial flow profile for the first time. The important inflection points in the JVP were observed, meaning that cardiac abnormalities can be assessed through JVP distortions. CHI provides a new way to assess cardiac health through non-contact light-based JVP monitoring, and can be used in non-surgical environments for cardiac assessment., Comment: 10 pages, 8 figures

Published
2016

11. Non-contact transmittance photoplethysmographic imaging (PPGI) for long-distance cardiovascular monitoring

Author

Amelard, Robert, Scharfenberger, Christian, Kazemzadeh, Farnoud, Pfisterer, Kaylen J., Lin, Bill S., Wong, Alexander, and Clausi, David A.

Subjects
Physics - Optics, Computer Science - Computer Vision and Pattern Recognition
Abstract

Photoplethysmography (PPG) devices are widely used for monitoring cardiovascular function. However, these devices require skin contact, which restrict their use to at-rest short-term monitoring using single-point measurements. Photoplethysmographic imaging (PPGI) has been recently proposed as a non-contact monitoring alternative by measuring blood pulse signals across a spatial region of interest. Existing systems operate in reflectance mode, of which many are limited to short-distance monitoring and are prone to temporal changes in ambient illumination. This paper is the first study to investigate the feasibility of long-distance non-contact cardiovascular monitoring at the supermeter level using transmittance PPGI. For this purpose, a novel PPGI system was designed at the hardware and software level using ambient correction via temporally coded illumination (TCI) and signal processing for PPGI signal extraction. Experimental results show that the processing steps yield a substantially more pulsatile PPGI signal than the raw acquired signal, resulting in statistically significant increases in correlation to ground-truth PPG in both short- ($p \in [<0.0001, 0.040]$) and long-distance ($p \in [<0.0001, 0.056]$) monitoring. The results support the hypothesis that long-distance heart rate monitoring is feasible using transmittance PPGI, allowing for new possibilities of monitoring cardiovascular function in a non-contact manner., Comment: 13 pages, 6 figures, submitted to Nature Scientific Reports, for associated video files see http://vip.uwaterloo.ca/publications/non-contact-transmittance-photoplethysmographic-imaging-ppgi-long-distance

Published
2015

12. Supporting Adolescents and Young Adults through Digitally Mediated Type 1 Diabetes Transition Care: A Qualitative Descriptive Study.

Author

El-Dassouki, Noor, Taylor, Madison, Pfisterer, Kaylen J., Saragadam, Ashish, Nakhla, Meranda, Greenberg, Marley, Landry, Alanna, Mukerji, Geetha, Mok, Elise, Brazeau, Anne-Sophie, Kichler, Jessica C., Cafazzo, Joseph A., Shulman, Rayzel, and Tryggestad, Jeanie B.

Subjects
TYPE 1 diabetes, HEALTH services accessibility, HOLISTIC medicine, MEDICAL technology, MEDICAL quality control, RESEARCH funding, QUALITATIVE research, HEALTH attitudes, INTERVIEWING, TRANSITIONAL care, THEMATIC analysis, TELEMEDICINE, TEENAGERS' conduct of life, ATTITUDES of medical personnel, TRANSITIONAL programs (Education), RESEARCH methodology, PATIENT-professional relations, SOCIAL support, HEALTH promotion, TRANSITION to adulthood, PATIENTS' attitudes, ADOLESCENCE, ADULTS
Abstract

Objective. The time during which adolescents and young adults (AYAs) living with Type 1 Diabetes (T1D) transition from pediatric to adult care is associated with blood sugar levels outside of target ranges, care gaps, and an increased risk of acute diabetes complications. The aim of this study was to understand (1) the perspectives of AYAs and providers about the strengths, challenges, and opportunities of transition care and (2) the role of digital technologies in supporting the transition to adult care. Research Design and Methods. We conducted a qualitative descriptive study that involved 43 semistructured interviews in French or English with AYA living with T1D (aged 16–25; n = 22) and pediatric or adult diabetes health care providers (HCPs) (n = 21). Results. We identified three themes. First, transition care is not standardized and varies widely, and there is a lack of awareness of transition guidelines. Second, virtual care can simultaneously hinder and help relationship‐building between providers and AYA. Third, AYAs value a holistic approach to care; both HCPs and AYA highlighted the opportunity to better support overall mental wellbeing. Conclusions. The design of digital technologies to support T1D transition care should consider methods for standardizing holistic care delivery and integrating hybrid diabetes care visits to support access to transition care. These findings can inform future transition intervention development that leverages existing transition guidelines, targets holistic care model integration, and considers quantitative diabetes metrics in conjunction with broader life experiences of AYA when providing transition care. [ABSTRACT FROM AUTHOR]

Published
2024
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14. An Actionable Expert-System Algorithm to Support Nurse-Led Cancer Survivorship Care: Algorithm Development Study

Author

Pfisterer, Kaylen J, primary, Lohani, Raima, additional, Janes, Elizabeth, additional, Ng, Denise, additional, Wang, Dan, additional, Bryant-Lukosius, Denise, additional, Rendon, Ricardo, additional, Berlin, Alejandro, additional, Bender, Jacqueline, additional, Brown, Ian, additional, Feifer, Andrew, additional, Gotto, Geoffrey, additional, Saha, Shumit, additional, Cafazzo, Joseph A, additional, and Pham, Quynh, additional

Published
2023
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16. The Complexity of Transferring Remote Monitoring and Virtual Care Technology Between Countries: Lessons From an International Workshop

Author

Pham, Quynh, primary, Wong, David, additional, Pfisterer, Kaylen J, additional, Aleman, Dionne, additional, Bansback, Nick, additional, Cafazzo, Joseph A, additional, Casson, Alexander J, additional, Chan, Brian, additional, Dixon, William, additional, Kakaroumpas, Gerasimos, additional, Lindner, Claudia, additional, Peek, Niels, additional, Potts, Henry WW, additional, Ribeiro, Barbara, additional, Seto, Emily, additional, Stockton-Powdrell, Charlotte, additional, Thompson, Alexander, additional, and van der Veer, Sabine, additional

Published
2023
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17. The Complexity of Transferring Remote Monitoring and Virtual Care Technology Between Countries: Lessons From an International Workshop (Preprint)

Author

Pham, Quynh, primary, Wong, David, additional, Pfisterer, Kaylen J, additional, Aleman, Dionne, additional, Bansback, Nick, additional, Cafazzo, Joseph A, additional, Casson, Alexander J, additional, Chan, Brian, additional, Dixon, William, additional, Kakaroumpas, Gerasimos, additional, Lindner, Claudia, additional, Peek, Niels, additional, Potts, Henry WW, additional, Ribeiro, Barbara, additional, Seto, Emily, additional, Stockton-Powdrell, Charlotte, additional, Thompson, Alexander, additional, and van der Veer, Sabine, additional

Published
2023
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19. An actionable expert-system algorithm to support nurse-led cancer survivorship care: Algorithm development study (Preprint)

Author

Pfisterer, Kaylen J., primary, Lohani, Raima, additional, Janes, Elizabeth, additional, Ng, Denise, additional, Wang, Danny, additional, Bryant-Lukosius, Denise, additional, Rendon, Ricardo, additional, Berlin, Alejandro, additional, Bender, Jacqueline, additional, Brown, Ian, additional, Feifer, Andrew, additional, Gotto, Geoffrey, additional, Saha, Shumit, additional, Cafazzo, Joseph A., additional, and Pham, Quynh, additional

Published
2022
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31. Development and Inter-Rater Reliability of the Mealtime Scan for Long-Term Care.

Author

Keller, Heather H., Chaudhury, Habib, Pfisterer, Kaylen J., and Slaughter, Susan E.

Subjects
EXPERIMENTAL design, INTERPERSONAL relations, LONG-term health care, RESEARCH methodology, SCIENTIFIC observation, SOCIAL context, INTER-observer reliability, PATIENT-centered care, RESEARCH methodology evaluation, INTRACLASS correlation
Abstract

Background and Objectives: Poor food intake is common in long-term care (LTC). The mealtime experience has been identified as influential, yet, research has been limited by lack of quality, standardized measures. The purpose of this study was to develop and test for inter-rater reliability the Mealtime Scan (MTS), an observational measure. Research Design and Methods: MTS was derived from the literature on ambiance, mealtime experience, social interactions at mealtimes, and social models of care. Three scales on person-centered care and physical and social environments are used to summarize key aspects observed with MTS. Two raters assessed MTS for reliability at 30 different meals conducted in 10 dining rooms, within three LTC residences. Intraclass correlation coefficient (ICC) was used to assess reliability. Results: MTS demonstrated good to excellent reliability on the three summative scales (physical ICC = 0.73, social ICC = 0.81, person-centered care ICC = 0.83) and other scalable items had good to excellent reliability (e.g., background noise ICC = 0.65, Mealtime Relational Care checklist: negative interactions ICC = 0.85). Discussion and Implications: MTS is reliable and face valid for assessing mealtime experience. Future work will explore construct validity of this measure. MTS can be used to support improving the mealtime experience for residents living in LTC. [ABSTRACT FROM AUTHOR]

Published
2018
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34. Vitamin B12 status in older adults living in Ontario long-term care homes: prevalence and incidence of deficiency with supplementation as a protective factor.

Author

Pfisterer, Kaylen J., Sharratt, Mike T., Heckman, George G., and Keller, Heather H.

Subjects
*DIETARY supplements, *MALNUTRITION, *ANALYSIS of variance, *CHI-squared test, *LONG-term health care, *RESEARCH methodology, *NURSING care facilities, *STATISTICS, *T-test (Statistics), *VITAMIN B12, *VITAMIN B12 deficiency, *DATA analysis, *DISEASE incidence, *DISEASE prevalence, *RETROSPECTIVE studies, *DATA analysis software
Abstract

Vitamin B12 (B12) deficiency, although treatable, impacts up to 43% of community-living older adults; long-term care (LTC) residents may be at greater risk. Recommendations for screening require further evidence on prevalence and incidence in LTC. Small, ungeneralizable samples provide a limited perspective on these issues. The purposes of this study were to report prevalence of B12 deficiency at admission to LTC, incidence 1 year post-admission, and identify subgroups with differential risk. This multi-site (8), retrospective prevalence study used random proportionate sampling of resident charts ( n = 412). Data at admission extracted included demographics, B12 status, B12 supplementation, medications, diagnoses, functional independence, cognitive performance, and nutrition. Prevalence at admission of B12 deficiency (<156 pmol/L) was 13.8%; 47.6% had normal B12 (>300 pmol/L). One year post-admission incidence was 4%. Better B12 status was significantly associated with supplementation use prior to LTC admission. Other characteristics were not associated with status. This work provides a better estimate of B12 deficiency prevalence than previously available for LTC, upon which to base protocols and policy. Prospective studies are needed to establish treatment efficacy and effect on health related outcomes. [ABSTRACT FROM AUTHOR]

Published
2016
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