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Start Over Journal npj digital medicine
2,261 results

1. Deep learning-enabled point-of-care sensing using multiplexed paper-based sensors

Author

Zachary S. Ballard, Hyou-Arm Joung, Artem Goncharov, Jesse Liang, Karina Nugroho, Dino Di Carlo, Omai B. Garner, and Aydogan Ozcan

Subjects
Computer applications to medicine. Medical informatics, R858-859.7
Abstract

Abstract We present a deep learning-based framework to design and quantify point-of-care sensors. As a use-case, we demonstrated a low-cost and rapid paper-based vertical flow assay (VFA) for high sensitivity C-Reactive Protein (hsCRP) testing, commonly used for assessing risk of cardio-vascular disease (CVD). A machine learning-based framework was developed to (1) determine an optimal configuration of immunoreaction spots and conditions, spatially-multiplexed on a sensing membrane, and (2) to accurately infer target analyte concentration. Using a custom-designed handheld VFA reader, a clinical study with 85 human samples showed a competitive coefficient-of-variation of 11.2% and linearity of R 2 = 0.95 among blindly-tested VFAs in the hsCRP range (i.e., 0–10 mg/L). We also demonstrated a mitigation of the hook-effect due to the multiplexed immunoreactions on the sensing membrane. This paper-based computational VFA could expand access to CVD testing, and the presented framework can be broadly used to design cost-effective and mobile point-of-care sensors.

Published
2020
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6. A systematic review of engagement reporting in remote measurement studies for health symptom tracking.

Author

White, Katie M., Williamson, Charlotte, Bergou, Nicol, Oetzmann, Carolin, de Angel, Valeria, Matcham, Faith, Henderson, Claire, and Hotopf, Matthew

Subjects
PSYCHOLOGY information storage & retrieval systems, MEDICAL databases, CHRONIC pain, PATIENT participation, MEDICAL information storage & retrieval systems, SCIENTIFIC method, RESEARCH protocols, SYSTEMATIC reviews, HEALTH status indicators, MENTAL depression, MEDLINE, BIOPHYSICS, ANXIETY, TELEMEDICINE
Abstract

Remote Measurement Technologies (RMTs) could revolutionise management of chronic health conditions by providing real-time symptom tracking. However, the promise of RMTs relies on user engagement, which at present is variably reported in the field. This review aimed to synthesise the RMT literature to identify how and to what extent engagement is defined, measured, and reported, and to present recommendations for the standardisation of future work. Seven databases (Embase, MEDLINE and PsycINFO (via Ovid), PubMed, IEEE Xplore, Web of Science, and Cochrane Central Register of Controlled Trials) were searched in July 2020 for papers using RMT apps for symptom monitoring in adults with a health condition, prompting users to track at least three times during the study period. Data were synthesised using critical interpretive synthesis. A total of 76 papers met the inclusion criteria. Sixty five percent of papers did not include a definition of engagement. Thirty five percent included both a definition and measurement of engagement. Four synthetic constructs were developed for measuring engagement: (i) engagement with the research protocol, (ii) objective RMT engagement, (iii) subjective RMT engagement, and (iv) interactions between objective and subjective RMT engagement. The field is currently impeded by incoherent measures and a lack of consideration for engagement definitions. A process for implementing the reporting of engagement in study design is presented, alongside a framework for definition and measurement options available. Future work should consider engagement with RMTs as distinct from the wider eHealth literature, and measure objective versus subjective RMT engagement. Registration: This review has been registered on PROSPERO [CRD42020192652]. [ABSTRACT FROM AUTHOR]

Published
2022
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7. Regulatory responses and approval status of artificial intelligence medical devices with a focus on China.

Author

Liu, Yuehua, Yu, Wenjin, and Dillon, Tharam

Subjects
MEDICAL equipment standards, MEDICAL protocols, ARTIFICIAL intelligence, COMPUTED tomography, HOSPITAL radiological services, CONCEPTUAL structures, DEEP learning, COMPUTER-aided diagnosis, QUALITY assurance, GOVERNMENT regulation, NEW product development laws, ALGORITHMS
Abstract

This paper focuses on how regulatory bodies respond to artificial intelligence (AI)-enabled medical devices. To achieve this, we present a comparative overview of the United States (USA), European Union (EU), and China. Our search in the governmental database identified 59 AI medical devices approved in China as of July 2023. In comparison to the rules-based regulatory approach in China, the approaches in the USA and EU are more standards-oriented. [ABSTRACT FROM AUTHOR]

Published
2024
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8. A scoping review of large language model based approaches for information extraction from radiology reports.

Author

Reichenpfader, Daniel, Müller, Henning, and Denecke, Kerstin

Subjects
COMPUTED tomography, NATURAL language processing, HOSPITAL radiological services, MAGNETIC resonance imaging, CHEST X rays, SYSTEMATIC reviews, MEDLINE, INFORMATION retrieval, MATHEMATICAL models, LITERATURE reviews, THEORY, REPORT writing, ONLINE information services
Abstract

Radiological imaging is a globally prevalent diagnostic method, yet the free text contained in radiology reports is not frequently used for secondary purposes. Natural Language Processing can provide structured data retrieved from these reports. This paper provides a summary of the current state of research on Large Language Model (LLM) based approaches for information extraction (IE) from radiology reports. We conduct a scoping review that follows the PRISMA-ScR guideline. Queries of five databases were conducted on August 1st 2023. Among the 34 studies that met inclusion criteria, only pre-transformer and encoder-based models are described. External validation shows a general performance decrease, although LLMs might improve generalizability of IE approaches. Reports related to CT and MRI examinations, as well as thoracic reports, prevail. Most common challenges reported are missing validation on external data and augmentation of the described methods. Different reporting granularities affect the comparability and transparency of approaches. [ABSTRACT FROM AUTHOR]

Published
2024
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9. The impact of transition to a digital hospital on medication errors (TIME study).

Author

Engstrom, Teyl, McCourt, Elizabeth, Canning, Martin, Dekker, Katharine, Voussoughi, Panteha, Bennett, Oliver, North, Angela, Pole, Jason D., Donovan, Peter J., and Sullivan, Clair

Subjects
MEDICATION error prevention, REHABILITATION centers, TRANSITIONAL care, DIGITAL technology, ACQUISITION of data, MEDICAL incident reports, RETROSPECTIVE studies, TIME series analysis, MEDICAL records, ELDER care, PATIENT safety
Abstract

Digital transformation in healthcare improves the safety of health systems. Within our health service, a new digital hospital has been established and two wards from a neighbouring paper-based hospital transitioned into the new digital hospital. This created an opportunity to evaluate the impact of complete digital transformation on medication safety. Here we discuss the impact of transition from a paper-based to digital hospital on voluntarily reported medication incidents and prescribing errors. This study utilises an interrupted time-series design and takes place across two wards as they transition from a paper to a digital hospital. Two data sources are used to assess impacts on medication incidents and prescribing errors: (1) voluntarily reported medication incidents and 2) a chart audit of medications prescribed on the study wards. The chart audit collects data on procedural, dosing and therapeutic prescribing errors. There are 588 errors extracted from incident reporting software during the study period. The average monthly number of errors reduces from 12.5 pre- to 7.5 post-transition (p < 0.001). In the chart audit, 5072 medication orders are reviewed pre-transition and 3699 reviewed post-transition. The rates of orders with one or more error reduces significantly after transition (52.8% pre- vs. 15.7% post-, p < 0.001). There are significant reductions in procedural (32.1% pre- vs. 1.3% post-, p < 0.001), and dosing errors (32.3% pre- vs. 14% post-, p < 0.001), but not therapeutic errors (0.6% pre- vs. 0.7% post-, p = 0.478). Transition to a digital hospital is associated with reductions in voluntarily reported medication incidents and prescribing errors. [ABSTRACT FROM AUTHOR]

Published
2023
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10. Multimodal machine learning in precision health: A scoping review.

Author

Kline, Adrienne, Wang, Hanyin, Li, Yikuan, Dennis, Saya, Hutch, Meghan, Xu, Zhenxing, Wang, Fei, Cheng, Feixiong, and Luo, Yuan

Subjects
ONLINE information services, NEUROLOGY, SYSTEMATIC reviews, MACHINE learning, INDIVIDUALIZED medicine, LITERATURE reviews, MEDLINE, HEALTH equity, ALGORITHMS, ONCOLOGY
Abstract

Machine learning is frequently being leveraged to tackle problems in the health sector including utilization for clinical decision-support. Its use has historically been focused on single modal data. Attempts to improve prediction and mimic the multimodal nature of clinical expert decision-making has been met in the biomedical field of machine learning by fusing disparate data. This review was conducted to summarize the current studies in this field and identify topics ripe for future research. We conducted this review in accordance with the PRISMA extension for Scoping Reviews to characterize multi-modal data fusion in health. Search strings were established and used in databases: PubMed, Google Scholar, and IEEEXplore from 2011 to 2021. A final set of 128 articles were included in the analysis. The most common health areas utilizing multi-modal methods were neurology and oncology. Early fusion was the most common data merging strategy. Notably, there was an improvement in predictive performance when using data fusion. Lacking from the papers were clear clinical deployment strategies, FDA-approval, and analysis of how using multimodal approaches from diverse sub-populations may improve biases and healthcare disparities. These findings provide a summary on multimodal data fusion as applied to health diagnosis/prognosis problems. Few papers compared the outputs of a multimodal approach with a unimodal prediction. However, those that did achieved an average increase of 6.4% in predictive accuracy. Multi-modal machine learning, while more robust in its estimations over unimodal methods, has drawbacks in its scalability and the time-consuming nature of information concatenation. [ABSTRACT FROM AUTHOR]

Published
2022
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11. India's evolving digital health strategy.

Author

Narayan, Aditya, Bhushan, Indu, and Schulman, Kevin

Subjects
INTELLECT, HEALTH services accessibility, POLICY sciences, COST control, DIFFUSION of innovations, DIGITAL health, MEDICAL care, STRATEGIC planning, BIOMETRY, FEDERAL government, PATIENT-centered care, GOVERNMENT programs, ELECTRONIC health records, FINANCIAL management, COMPUTER input-output equipment, SOCIODEMOGRAPHIC factors
Abstract

India's evolving digital health strategy leverages innovative technologies to enhance access to healthcare services. This paper explores the key components of India's digital health transformation, including the Ayushman Bharat Digital Mission (ABDM) and India's integration of biometric identification and digital infrastructure to improve healthcare delivery. The lessons learned from India's large-scale implementation of digital health provide valuable insights for global health markets and digital transformations in healthcare systems. [ABSTRACT FROM AUTHOR]

Published
2024
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12. Patient-centricity in digital measure development: co-evolution of best practice and regulatory guidance.

Author

Aryal, Suvekshya, Blankenship, Jennifer M., Bachman, Shelby L., Hwang, Soohyun, Zhai, Yaya, Richards, Jennifer C., Clay, Ieuan, and Lyden, Kate

Subjects
MEDICAL protocols, DIGITAL technology, MOBILE apps, DIGITAL health, DECISION making, PATIENT-centered care, CONCEPTUAL structures, DRUG development, PATIENT participation, GOVERNMENT regulation, MEDICAL practice
Abstract

Digital health technologies (DHTs) have the potential to modernize drug development and clinical trial operations by remotely, passively, and continuously collecting ecologically valid evidence that is meaningful to patients' lived experiences. Such evidence holds potential for all drug development stakeholders, including regulatory agencies, as it will help create a stronger evidentiary link between approval of new therapeutics and the ultimate aim of improving patient lives. However, only a very small number of novel digital measures have matured from exploratory usage into regulatory qualification or efficacy endpoints. This shows that despite the clear potential, actually gaining regulatory agreement that a new measure is both fit-for-purpose and delivers value remains a serious challenge. One of the key stumbling blocks for developers has been the requirement to demonstrate that a digital measure is meaningful to patients. This viewpoint aims to examine the co-evolution of regulatory guidance in the United States (U.S.) and best practice for integration of DHTs into the development of clinical outcome assessments. Contextualizing guidance on meaningfulness within the larger shift towards a patient-centric drug development approach, this paper reviews the U.S. Food and Drug Administration (FDA) guidance and existing literature surrounding the development of meaningful digital measures and patient engagement, including the recent examples of rejections by the FDA that further emphasize patient-centricity in digital measures. Finally, this paper highlights remaining hurdles and provides insights into the established frameworks for development and adoption of digital measures in clinical research. [ABSTRACT FROM AUTHOR]

Published
2024
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13. The use of kiosks to improve triage efficiency in the emergency department.

Author

Joseph, Michael Jose, Summerscales, Matthew, Yogesan, Saieesha, Bell, Anthony, Genevieve, Michele, and Kanagasingam, Yogesan

Subjects
COMPUTER software, ONLINE information services, CINAHL database, MEDICAL triage, HOSPITAL emergency services, COMPUTERS, NURSING, MEDICAL information storage & retrieval systems, SYSTEMATIC reviews, CROWDS, HEALTH outcome assessment, SEPSIS, ORGANIZATIONAL effectiveness, RESEARCH funding, MEDLINE
Abstract

Triage is a system used to prioritise patients as they enter the emergency department (ED) based on their need for urgent care. In recent decades, EDs have becoming increasingly overcrowded, leading to longer pre-triage waiting times for patients. E-triage interventions like kiosks have been proposed as a solution to overcrowding. We conducted a literature review into the effectiveness of kiosks in improving triage efficiency. After rigorously searching five biomedical databases and screening candidate articles in Endnote, we identified nine papers pertaining to the introduction of kiosks in emergency departments. Six articles had positive findings—with E-triage interventions improving some aspect of the triage process—such as reducing pre-triage times. Conversely, only three articles reported negative findings, such as low uptake. Consequently, EDs should consider introducing kiosks to complement the current nurse-led triage process and thereby promote better patient outcomes. [ABSTRACT FROM AUTHOR]

Published
2023
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14. Bridging organ transcriptomics for advancing multiple organ toxicity assessment with a generative AI approach.

Author

Li, Ting, Chen, Xi, and Tong, Weida

Subjects
ORGANS (Anatomy), GENERATIVE artificial intelligence, DRUG toxicity, PATIENT safety, LIVER diseases, RATS, GENE expression profiling, ANIMAL experimentation, KIDNEY diseases
Abstract

Translational research in toxicology has significantly benefited from transcriptomic profiling, particularly in drug safety. However, its application has predominantly focused on limited organs, notably the liver, due to resource constraints. This paper presents TransTox, an innovative AI model using a generative adversarial network (GAN) method to facilitate the bidirectional translation of transcriptomic profiles between the liver and kidney under drug treatment. TransTox demonstrates robust performance, validated across independent datasets and laboratories. First, the concordance between real experimental data and synthetic data generated by TransTox was demonstrated in characterizing toxicity mechanisms compared to real experimental settings. Second, TransTox proved valuable in gene expression predictive models, where synthetic data could be used to develop gene expression predictive models or serve as "digital twins" for diagnostic applications. The TransTox approach holds the potential for multi-organ toxicity assessment with AI and advancing the field of precision toxicology. [ABSTRACT FROM AUTHOR]

Published
2024
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15. Knowledge abstraction and filtering based federated learning over heterogeneous data views in healthcare.

Author

Thakur, Anshul, Molaei, Soheila, Nganjimi, Pafue Christy, Soltan, Andrew, Schwab, Patrick, Branson, Kim, and Clifton, David A.

Subjects
DATA security, MEDICAL care research, BAR codes, MEDICAL informatics, DATABASE management, RESEARCH funding, PRIVACY, ARTIFICIAL intelligence, MEDICAL care, ELECTRONIC data interchange, WORLD health, ELECTRONIC health records, MATHEMATICAL models, INFORMATION retrieval, CONCEPTUAL structures, THEORY, HEALTH information systems, MEDICAL ethics, CLIENT/SERVER computing
Abstract

Robust data privacy regulations hinder the exchange of healthcare data among institutions, crucial for global insights and developing generalised clinical models. Federated learning (FL) is ideal for training global models using datasets from different institutions without compromising privacy. However, disparities in electronic healthcare records (EHRs) lead to inconsistencies in ML-ready data views, making FL challenging without extensive preprocessing and information loss. These differences arise from variations in services, care standards, and record-keeping practices. This paper addresses data view heterogeneity by introducing a knowledge abstraction and filtering-based FL framework that allows FL over heterogeneous data views without manual alignment or information loss. The knowledge abstraction and filtering mechanism maps raw input representations to a unified, semantically rich shared space for effective global model training. Experiments on three healthcare datasets demonstrate the framework's effectiveness in overcoming data view heterogeneity and facilitating information sharing in a federated setup. [ABSTRACT FROM AUTHOR]

Published
2024
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16. The imperative for regulatory oversight of large language models (or generative AI) in healthcare.

Author

Meskó, Bertalan and Topol, Eric J.

Subjects
MEDICAL quality control, PRIVACY, GOVERNMENT regulation, MEDICAL care, ARTIFICIAL intelligence, MEDICAL ethics, DATA security, PROGRAMMING languages, TECHNOLOGY
Abstract

The rapid advancements in artificial intelligence (AI) have led to the development of sophisticated large language models (LLMs) such as GPT-4 and Bard. The potential implementation of LLMs in healthcare settings has already garnered considerable attention because of their diverse applications that include facilitating clinical documentation, obtaining insurance pre-authorization, summarizing research papers, or working as a chatbot to answer questions for patients about their specific data and concerns. While offering transformative potential, LLMs warrant a very cautious approach since these models are trained differently from AI-based medical technologies that are regulated already, especially within the critical context of caring for patients. The newest version, GPT-4, that was released in March, 2023, brings the potentials of this technology to support multiple medical tasks; and risks from mishandling results it provides to varying reliability to a new level. Besides being an advanced LLM, it will be able to read texts on images and analyze the context of those images. The regulation of GPT-4 and generative AI in medicine and healthcare without damaging their exciting and transformative potential is a timely and critical challenge to ensure safety, maintain ethical standards, and protect patient privacy. We argue that regulatory oversight should assure medical professionals and patients can use LLMs without causing harm or compromising their data or privacy. This paper summarizes our practical recommendations for what we can expect from regulators to bring this vision to reality. [ABSTRACT FROM AUTHOR]

Published
2023
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21. A systematic review and meta analysis on digital mental health interventions in inpatient settings.

Author

Diel, Alexander, Schröter, Isabel Carolin, Frewer, Anna-Lena, Jansen, Christoph, Robitzsch, Anita, Gradl-Dietsch, Gertraud, Teufel, Martin, and Bäuerle, Alexander

Subjects
MENTAL illness treatment, EFFECT sizes (Statistics), MENTAL health services, DATA analysis, MEDICAL care, DIGITAL health, INTERNET, HOSPITAL patients, META-analysis, DESCRIPTIVE statistics, SYSTEMATIC reviews, MEDLINE, STATISTICS, ONLINE information services, QUALITY assurance, CONFIDENCE intervals, PSYCHOLOGY information storage & retrieval systems, PUBLICATION bias
Abstract

E-mental health (EMH) interventions gain increasing importance in the treatment of mental health disorders. Their outpatient efficacy is well-established. However, research on EMH in inpatient settings remains sparse and lacks a meta-analytic synthesis. This paper presents a meta-analysis on the efficacy of EMH in inpatient settings. Searching multiple databases (PubMed, ScienceGov, PsycInfo, CENTRAL, references), 26 randomized controlled trial (RCT) EMH inpatient studies (n = 6112) with low or medium assessed risk of bias were included. A small significant total effect of EMH treatment was found (g = 0.3). The effect was significant both for blended interventions (g = 0.42) and post-treatment EMH-based aftercare (g = 0.29). EMH treatment yielded significant effects across different patient groups and types of therapy, and the effects remained stable post-treatment. The results show the efficacy of EMH treatment in inpatient settings. The meta-analysis is limited by the small number of included studies. [ABSTRACT FROM AUTHOR]

Published
2024
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22. A randomized trial testing digital medicine support models for mild-to-moderate alcohol use disorder.

Author

Quanbeck, Andrew, Chih, Ming-Yuan, Park, Linda, Li, Xiang, Xie, Qiang, Pulvermacher, Alice, Voelker, Samantha, Lundwall, Rachel, Eby, Katherine, Barrett, Bruce, and Brown, Randall

Subjects
ALCOHOLISM treatment, SUPPORT groups, SELF-evaluation, RESEARCH funding, MENTAL health, MEDICAL care, DIGITAL health, STATISTICAL sampling, INTERNET, TREATMENT effectiveness, RANDOMIZED controlled trials, ODDS ratio, QUALITY of life, COMPARATIVE studies, CONFIDENCE intervals
Abstract

This paper reports the results of a hybrid effectiveness-implementation randomized trial that systematically varied levels of human oversight required to support the implementation of a digital medicine intervention for persons with mild-to-moderate alcohol use disorder (AUD). Participants were randomly assigned to three groups representing possible digital health support models within a health system: self-monitored use (SM; n = 185), peer-supported use (PS; n = 186), or a clinically integrated model CI; (n = 187). Across all three groups, the percentage of self-reported heavy drinking days dropped from 38.4% at baseline (95% CI [35.8%, 41%]) to 22.5% (19.5%, 25.5%) at 12 months. The clinically integrated group showed significant improvements in mental health and quality of life compared to the self-monitoring group (p = 0.011). However, higher attrition rates in the clinically integrated group warrant consideration in interpreting this result. Results suggest that making a self-guided digital intervention available to patients may be a viable option for health systems looking to promote alcohol risk reduction. This study was prospectively registered at clinicaltrials.gov on 7/03/2019 (NCT04011644). [ABSTRACT FROM AUTHOR]

Published
2024
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23. Digitizing clinical trials

Author

K. L. Preston, Erin Iturriaga, P. Klasnja, S. A. Prindiville, Kenneth D. Mandl, Yves Rosenberg, Omer T. Inan, Benjamin M. Marlin, Patrice Desvigne-Nickens, D. S. Dizon, Mintu P. Turakhia, R. Campo, R. M. Califf, P. Tenaerts, Katharine Cooper-Arnold, Bonnie Spring, Harmony R. Reynolds, Harlan M. Krumholz, Mark J. Pletcher, and Steven R. Steinhubl

Subjects
Computer science, Clinical Trials and Supportive Activities, Computer applications to medicine. Medical informatics, R858-859.7, Medicine (miscellaneous), Data security, Health Informatics, Translational research, lcsh:Computer applications to medicine. Medical informatics, 03 medical and health sciences, Clinical trials, 0302 clinical medicine, Health Information Management, Clinical Research, Informed consent, 030212 general & internal medicine, Wearable technology, business.industry, Data science, Computer Science Applications, Clinical trial, Good Health and Well Being, Analytics, Perspective, lcsh:R858-859.7, Position paper, Generic health relevance, State (computer science), business, 030217 neurology & neurosurgery
Abstract

Clinical trials are a fundamental tool used to evaluate the efficacy and safety of new drugs and medical devices and other health system interventions. The traditional clinical trials system acts as a quality funnel for the development and implementation of new drugs, devices and health system interventions. The concept of a “digital clinical trial” involves leveraging digital technology to improve participant access, engagement, trial-related measurements, and/or interventions, enable concealed randomized intervention allocation, and has the potential to transform clinical trials and to lower their cost. In April 2019, the US National Institutes of Health (NIH) and the National Science Foundation (NSF) held a workshop bringing together experts in clinical trials, digital technology, and digital analytics to discuss strategies to implement the use of digital technologies in clinical trials while considering potential challenges. This position paper builds on this workshop to describe the current state of the art for digital clinical trials including (1) defining and outlining the composition and elements of digital trials; (2) describing recruitment and retention using digital technology; (3) outlining data collection elements including mobile health, wearable technologies, application programming interfaces (APIs), digital transmission of data, and consideration of regulatory oversight and guidance for data security, privacy, and remotely provided informed consent; (4) elucidating digital analytics and data science approaches leveraging artificial intelligence and machine learning algorithms; and (5) setting future priorities and strategies that should be addressed to successfully harness digital methods and the myriad benefits of such technologies for clinical research.

Published
2020
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24. Where do we stand in AI for endoscopic image analysis? Deciphering gaps and future directions.

Author

Ali, Sharib

Subjects
DIGITAL image processing, EVALUATION of medical care, ENDOSCOPIC surgery, ARTIFICIAL intelligence, QUALITY assurance, COMPUTER-assisted image analysis (Medicine), ENDOSCOPY, ALGORITHMS
Abstract

Recent developments in deep learning have enabled data-driven algorithms that can reach human-level performance and beyond. The development and deployment of medical image analysis methods have several challenges, including data heterogeneity due to population diversity and different device manufacturers. In addition, more input from experts is required for a reliable method development process. While the exponential growth in clinical imaging data has enabled deep learning to flourish, data heterogeneity, multi-modality, and rare or inconspicuous disease cases still need to be explored. Endoscopy being highly operator-dependent with grim clinical outcomes in some disease cases, reliable and accurate automated system guidance can improve patient care. Most designed methods must be more generalisable to the unseen target data, patient population variability, and variable disease appearances. The paper reviews recent works on endoscopic image analysis with artificial intelligence (AI) and emphasises the current unmatched needs in this field. Finally, it outlines the future directions for clinically relevant complex AI solutions to improve patient outcomes. [ABSTRACT FROM AUTHOR]

Published
2022
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25. Capturing relationships between suturing sub-skills to improve automatic suturing assessment.

Author

Cui, Zijun, Ma, Runzhuo, Yang, Cherine H., Malpani, Anand, Chu, Timothy N., Ghazi, Ahmed, Davis, John W., Miles, Brian J., Lau, Clayton, Liu, Yan, and Hung, Andrew J.

Subjects
DIFFUSION of innovations, RECEIVER operating characteristic curves, RESEARCH funding, ARTIFICIAL intelligence, KINEMATICS, DIGITAL health, DESCRIPTIVE statistics, EVALUATION of medical care, OPERATIVE surgery, SUTURING, CLINICAL competence, CONCEPTUAL structures, ABILITY, LEARNING strategies, TRAINING, VIDEO recording
Abstract

Suturing skill scores have demonstrated strong predictive capabilities for patient functional recovery. The suturing can be broken down into several substep components, including needle repositioning, needle entry angle, etc. Artificial intelligence (AI) systems have been explored to automate suturing skill scoring. Traditional approaches to skill assessment typically focus on evaluating individual sub-skills required for particular substeps in isolation. However, surgical procedures require the integration and coordination of multiple sub-skills to achieve successful outcomes. Significant associations among the technical sub-skill have been established by existing studies. In this paper, we propose a framework for joint skill assessment that takes into account the interconnected nature of sub-skills required in surgery. The prior known relationships among sub-skills are firstly identified. Our proposed AI system is then empowered by the prior known relationships to perform the suturing skill scoring for each sub-skill domain simultaneously. Our approach can effectively improve skill assessment performance through the prior known relationships among sub-skills. Through the proposed approach to joint skill assessment, we aspire to enhance the evaluation of surgical proficiency and ultimately improve patient outcomes in surgery. [ABSTRACT FROM AUTHOR]

Published
2024
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26. Towards a common European ethical and legal framework for conducting clinical research: the GATEKEEPER experience.

Author

Maccaro, Alessia, Tsiompanidou, Vasiliki, Piaggio, Davide, Gallego Montejo, Alba M., Cea Sánchez, Gloria, de Batlle, Jordi, Quesada Rodriguez, Adrian, Fico, Giuseppe, and Pecchia, Leandro

Subjects
MEDICAL research laws, DATA security, MEDICAL protocols, HUMAN services programs, DIFFUSION of innovations, COST effectiveness, PROFESSIONAL ethics, DIGITAL health, CLINICAL medicine research, ARTIFICIAL intelligence, DECISION making, MEDICAL research, CONCEPTUAL structures, RULES, ALGORITHMS
Abstract

This paper examines the ethical and legal challenges encountered during the GATEKEEPER Project and how these challenges informed the development of a comprehensive framework for future Large-Scale Pilot (LSP) projects. GATEKEEPER is a LSP Project with 48 partners conducting 30 implementation studies across Europe with 50,000 target participants grouped into 9 Reference Use Cases. The project underscored the complexity of obtaining ethical approval across various jurisdictions with divergent regulations and procedures. Through a detailed analysis of the issues faced and the strategies employed to navigate these challenges, this study proposes an ethical and legal framework. This framework, derived from a comparative analysis of ethical application forms and regulations, aims to streamline the ethical approval process for future LSP research projects. By addressing the hurdles encountered in GATEKEEPER, the proposed framework offers a roadmap for more efficient and effective project management, ensuring smoother implementation of similar projects in the future. [ABSTRACT FROM AUTHOR]

Published
2024
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27. Lessons learned from recruiting into a longitudinal remote measurement study in major depressive disorder.

Author

Oetzmann, Carolin, White, Katie M., Ivan, Alina, Julie, Jessica, Leightley, Daniel, Lavelle, Grace, Lamers, Femke, Siddi, Sara, Annas, Peter, Garcia, Sara Arranz, Haro, Josep Maria, Mohr, David C., Penninx, Brenda W. J. H., Simblett, Sara K., Wykes, Til, Narayan, Vaibhav A., Hotopf, Matthew, Matcham, Faith, and RADAR-CNS consortium

Subjects
DIAGNOSIS of mental depression, HUMAN research subjects, TELEPSYCHIATRY, PATIENT participation, PROFESSIONS, RESEARCH protocols, PATIENT selection, MOBILE apps, HEALTH status indicators, DISEASE relapse, LEGAL compliance, TECHNOLOGY, LONGITUDINAL method, REFLECTION (Philosophy)
Abstract

The use of remote measurement technologies (RMTs) across mobile health (mHealth) studies is becoming popular, given their potential for providing rich data on symptom change and indicators of future state in recurrent conditions such as major depressive disorder (MDD). Understanding recruitment into RMT research is fundamental for improving historically small sample sizes, reducing loss of statistical power, and ultimately producing results worthy of clinical implementation. There is a need for the standardisation of best practices for successful recruitment into RMT research. The current paper reviews lessons learned from recruitment into the Remote Assessment of Disease and Relapse- Major Depressive Disorder (RADAR-MDD) study, a large-scale, multi-site prospective cohort study using RMT to explore the clinical course of people with depression across the UK, the Netherlands, and Spain. More specifically, the paper reflects on key experiences from the UK site and consolidates these into four key recruitment strategies, alongside a review of barriers to recruitment. Finally, the strategies and barriers outlined are combined into a model of lessons learned. This work provides a foundation for future RMT study design, recruitment and evaluation. [ABSTRACT FROM AUTHOR]

Published
2022
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28. Machine learning for medical imaging: methodological failures and recommendations for the future.

Author

Varoquaux, Gaël and Cheplygina, Veronika

Subjects
MOTIVATION (Psychology), MACHINE learning, DIAGNOSTIC imaging, DATABASE management, ALGORITHMS
Abstract

Research in computer analysis of medical images bears many promises to improve patients' health. However, a number of systematic challenges are slowing down the progress of the field, from limitations of the data, such as biases, to research incentives, such as optimizing for publication. In this paper we review roadblocks to developing and assessing methods. Building our analysis on evidence from the literature and data challenges, we show that at every step, potential biases can creep in. On a positive note, we also discuss on-going efforts to counteract these problems. Finally we provide recommendations on how to further address these problems in the future. [ABSTRACT FROM AUTHOR]

Published
2022
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29. Self-supervised learning for medical image classification: a systematic review and implementation guidelines.

Author

Huang, Shih-Cheng, Pareek, Anuj, Jensen, Malte, Lungren, Matthew P., Yeung, Serena, and Chaudhari, Akshay S.

Subjects
DEEP learning, ONLINE information services, SYSTEMATIC reviews, DIAGNOSTIC imaging, MEDICAL protocols, DESCRIPTIVE statistics, RESEARCH funding, MEDLINE
Abstract

Advancements in deep learning and computer vision provide promising solutions for medical image analysis, potentially improving healthcare and patient outcomes. However, the prevailing paradigm of training deep learning models requires large quantities of labeled training data, which is both time-consuming and cost-prohibitive to curate for medical images. Self-supervised learning has the potential to make significant contributions to the development of robust medical imaging models through its ability to learn useful insights from copious medical datasets without labels. In this review, we provide consistent descriptions of different self-supervised learning strategies and compose a systematic review of papers published between 2012 and 2022 on PubMed, Scopus, and ArXiv that applied self-supervised learning to medical imaging classification. We screened a total of 412 relevant studies and included 79 papers for data extraction and analysis. With this comprehensive effort, we synthesize the collective knowledge of prior work and provide implementation guidelines for future researchers interested in applying self-supervised learning to their development of medical imaging classification models. [ABSTRACT FROM AUTHOR]

Published
2023
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30. Methods in predictive techniques for mental health status on social media: a critical review.

Author

Chancellor, Stevie and De Choudhury, Munmun

Subjects
MENTAL illness, MENTAL health, SOCIAL media, WELL-being, MENTAL depression
Abstract

Social media is now being used to model mental well-being, and for understanding health outcomes. Computer scientists are now using quantitative techniques to predict the presence of specific mental disorders and symptomatology, such as depression, suicidality, and anxiety. This research promises great benefits to monitoring efforts, diagnostics, and intervention design for these mental health statuses. Yet, there is no standardized process for evaluating the validity of this research and the methods adopted in the design of these studies. We conduct a systematic literature review of the state-of-the-art in predicting mental health status using social media data, focusing on characteristics of the study design, methods, and research design. We find 75 studies in this area published between 2013 and 2018. Our results outline the methods of data annotation for mental health status, data collection and quality management, pre-processing and feature selection, and model selection and verification. Despite growing interest in this field, we identify concerning trends around construct validity, and a lack of reflection in the methods used to operationalize and identify mental health status. We provide some recommendations to address these challenges, including a list of proposed reporting standards for publications and collaboration opportunities in this interdisciplinary space. [ABSTRACT FROM AUTHOR]

Published
2020
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31. Digital twins for health: a scoping review.

Author

Katsoulakis, Evangelia, Wang, Qi, Wu, Huanmei, Shahriyari, Leili, Fletcher, Richard, Liu, Jinwei, Achenie, Luke, Liu, Hongfang, Jackson, Pamela, Xiao, Ying, Syeda-Mahmood, Tanveer, Tuli, Richard, and Deng, Jun

Subjects
DIGITAL technology, PRODUCT design, QUALITY of life, QUALITY assurance, MACHINE learning, DRUG discovery, BIOMARKERS, EQUIPMENT & supplies
Abstract

The use of digital twins (DTs) has proliferated across various fields and industries, with a recent surge in the healthcare sector. The concept of digital twin for health (DT4H) holds great promise to revolutionize the entire healthcare system, including management and delivery, disease treatment and prevention, and health well-being maintenance, ultimately improving human life. The rapid growth of big data and continuous advancement in data science (DS) and artificial intelligence (AI) have the potential to significantly expedite DT research and development by providing scientific expertise, essential data, and robust cybertechnology infrastructure. Although various DT initiatives have been underway in the industry, government, and military, DT4H is still in its early stages. This paper presents an overview of the current applications of DTs in healthcare, examines consortium research centers and their limitations, and surveys the current landscape of emerging research and development opportunities in healthcare. We envision the emergence of a collaborative global effort among stakeholders to enhance healthcare and improve the quality of life for millions of individuals worldwide through pioneering research and development in the realm of DT technology. [ABSTRACT FROM AUTHOR]

Published
2024
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32. To warrant clinical adoption AI models require a multi-faceted implementation evaluation.

Author

van de Sande, Davy, Chung, Eline Fung Fen, Oosterhoff, Jacobien, van Bommel, Jasper, Gommers, Diederik, and van Genderen, Michel E.

Subjects
ARTIFICIAL intelligence tests, MEDICAL protocols, HEALTH services accessibility, DIFFUSION of innovations, CLINICAL decision support systems, EVALUATION of medical care, MATHEMATICAL models, THEORY, QUALITY assurance, INTEGRATED health care delivery
Abstract

Despite artificial intelligence (AI) technology progresses at unprecedented rate, our ability to translate these advancements into clinical value and adoption at the bedside remains comparatively limited. This paper reviews the current use of implementation outcomes in randomized controlled trials evaluating AI-based clinical decision support and found limited adoption. To advance trust and clinical adoption of AI, there is a need to bridge the gap between traditional quantitative metrics and implementation outcomes to better grasp the reasons behind the success or failure of AI systems and improve their translation into clinical value. [ABSTRACT FROM AUTHOR]

Published
2024
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33. A survey on clinical natural language processing in the United Kingdom from 2007 to 2022.

Author

Wu, Honghan, Wang, Minhong, Wu, Jinge, Francis, Farah, Chang, Yun-Hsuan, Shavick, Alex, Dong, Hang, Poon, Michael T. C., Fitzpatrick, Natalie, Levine, Adam P., Slater, Luke T., Handy, Alex, Karwath, Andreas, Gkoutos, Georgios V., Chelala, Claude, Shah, Anoop Dinesh, Stewart, Robert, Collier, Nigel, Alex, Beatrice, and Whiteley, William

Subjects
COMPUTER software, COMPUTERS, NATURAL language processing, STAKEHOLDER analysis, MEDICAL care, HEALTH status indicators, TASK performance, MACHINE learning, DATABASE management, BUSINESS networks, NATIONAL health services, INFORMATION retrieval, INTERPROFESSIONAL relations, RESEARCH funding, BUDGET, ENDOWMENTS, ADVERSE health care events, ELECTRONIC health records, INFORMATION technology, PHENOTYPES, ALGORITHMS, EVALUATION
Abstract

Much of the knowledge and information needed for enabling high-quality clinical research is stored in free-text format. Natural language processing (NLP) has been used to extract information from these sources at scale for several decades. This paper aims to present a comprehensive review of clinical NLP for the past 15 years in the UK to identify the community, depict its evolution, analyse methodologies and applications, and identify the main barriers. We collect a dataset of clinical NLP projects (n = 94; £ = 41.97 m) funded by UK funders or the European Union's funding programmes. Additionally, we extract details on 9 funders, 137 organisations, 139 persons and 431 research papers. Networks are created from timestamped data interlinking all entities, and network analysis is subsequently applied to generate insights. 431 publications are identified as part of a literature review, of which 107 are eligible for final analysis. Results show, not surprisingly, clinical NLP in the UK has increased substantially in the last 15 years: the total budget in the period of 2019–2022 was 80 times that of 2007–2010. However, the effort is required to deepen areas such as disease (sub-)phenotyping and broaden application domains. There is also a need to improve links between academia and industry and enable deployments in real-world settings for the realisation of clinical NLP's great potential in care delivery. The major barriers include research and development access to hospital data, lack of capable computational resources in the right places, the scarcity of labelled data and barriers to sharing of pretrained models. [ABSTRACT FROM AUTHOR]

Published
2022
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34. The past, current, and future of neonatal intensive care units with artificial intelligence: a systematic review.

Author

Keles, Elif and Bagci, Ulas

Subjects
DEEP learning, ONLINE information services, NEONATAL intensive care, PATENT ductus arteriosus, SYSTEMATIC reviews, NEONATAL diseases, VITAL signs, NEONATAL intensive care units, MACHINE learning, PEDIATRICS, ARTIFICIAL intelligence, HEALTH outcome assessment, DISEASES, RETROLENTAL fibroplasia, NEURAL development, DECISION making, SURVIVAL analysis (Biometry), RESEARCH funding, NEONATOLOGY, RESEARCH bias, INFANT mortality, BRAIN injuries, ELECTRONIC health records, MEDLINE, ALGORITHMS, NEURORADIOLOGY, DIGITAL diagnostic imaging
Abstract

Machine learning and deep learning are two subsets of artificial intelligence that involve teaching computers to learn and make decisions from any sort of data. Most recent developments in artificial intelligence are coming from deep learning, which has proven revolutionary in almost all fields, from computer vision to health sciences. The effects of deep learning in medicine have changed the conventional ways of clinical application significantly. Although some sub-fields of medicine, such as pediatrics, have been relatively slow in receiving the critical benefits of deep learning, related research in pediatrics has started to accumulate to a significant level, too. Hence, in this paper, we review recently developed machine learning and deep learning-based solutions for neonatology applications. We systematically evaluate the roles of both classical machine learning and deep learning in neonatology applications, define the methodologies, including algorithmic developments, and describe the remaining challenges in the assessment of neonatal diseases by using PRISMA 2020 guidelines. To date, the primary areas of focus in neonatology regarding AI applications have included survival analysis, neuroimaging, analysis of vital parameters and biosignals, and retinopathy of prematurity diagnosis. We have categorically summarized 106 research articles from 1996 to 2022 and discussed their pros and cons, respectively. In this systematic review, we aimed to further enhance the comprehensiveness of the study. We also discuss possible directions for new AI models and the future of neonatology with the rising power of AI, suggesting roadmaps for the integration of AI into neonatal intensive care units. [ABSTRACT FROM AUTHOR]

Published
2023
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35. Harnessing the power of synthetic data in healthcare: innovation, application, and privacy.

Author

Giuffrè, Mauro and Shung, Dennis L.

Subjects
DIFFUSION of innovations, MEDICAL care, PRIVACY, RESPONSIBILITY, CLINICAL medicine research, DECISION making, PUBLIC health, DATA quality, MEDICAL ethics, WELL-being
Abstract

Data-driven decision-making in modern healthcare underpins innovation and predictive analytics in public health and clinical research. Synthetic data has shown promise in finance and economics to improve risk assessment, portfolio optimization, and algorithmic trading. However, higher stakes, potential liabilities, and healthcare practitioner distrust make clinical use of synthetic data difficult. This paper explores the potential benefits and limitations of synthetic data in the healthcare analytics context. We begin with real-world healthcare applications of synthetic data that informs government policy, enhance data privacy, and augment datasets for predictive analytics. We then preview future applications of synthetic data in the emergent field of digital twin technology. We explore the issues of data quality and data bias in synthetic data, which can limit applicability across different applications in the clinical context, and privacy concerns stemming from data misuse and risk of re-identification. Finally, we evaluate the role of regulatory agencies in promoting transparency and accountability and propose strategies for risk mitigation such as Differential Privacy (DP) and a dataset chain of custody to maintain data integrity, traceability, and accountability. Synthetic data can improve healthcare, but measures to protect patient well-being and maintain ethical standards are key to promote responsible use. [ABSTRACT FROM AUTHOR]

Published
2023
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36. The health digital twin to tackle cardiovascular disease—a review of an emerging interdisciplinary field.

Author

Coorey, Genevieve, Figtree, Gemma A., Fletcher, David F., Snelson, Victoria J., Vernon, Stephen Thomas, Winlaw, David, Grieve, Stuart M., McEwan, Alistair, Yang, Jean Yee Hwa, Qian, Pierre, O'Brien, Kieran, Orchard, Jessica, Kim, Jinman, Patel, Sanjay, and Redfern, Julie

Subjects
CARDIOVASCULAR disease treatment, INDIVIDUALIZED medicine, ARTIFICIAL intelligence, INTERNET of things, DATA analytics, ARTIFICIAL neural networks
Abstract

Potential benefits of precision medicine in cardiovascular disease (CVD) include more accurate phenotyping of individual patients with the same condition or presentation, using multiple clinical, imaging, molecular and other variables to guide diagnosis and treatment. An approach to realising this potential is the digital twin concept, whereby a virtual representation of a patient is constructed and receives real-time updates of a range of data variables in order to predict disease and optimise treatment selection for the real-life patient. We explored the term digital twin, its defining concepts, the challenges as an emerging field, and potentially important applications in CVD. A mapping review was undertaken using a systematic search of peer-reviewed literature. Industry-based participants and patent applications were identified through web-based sources. Searches of Compendex, EMBASE, Medline, ProQuest and Scopus databases yielded 88 papers related to cardiovascular conditions (28%, n = 25), non-cardiovascular conditions (41%, n = 36), and general aspects of the health digital twin (31%, n = 27). Fifteen companies with a commercial interest in health digital twin or simulation modelling had products focused on CVD. The patent search identified 18 applications from 11 applicants, of which 73% were companies and 27% were universities. Three applicants had cardiac-related inventions. For CVD, digital twin research within industry and academia is recent, interdisciplinary, and established globally. Overall, the applications were numerical simulation models, although precursor models exist for the real-time cyber-physical system characteristic of a true digital twin. Implementation challenges include ethical constraints and clinical barriers to the adoption of decision tools derived from artificial intelligence systems. [ABSTRACT FROM AUTHOR]

Published
2022
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37. Identifying and characterising sources of variability in digital outcome measures in Parkinson's disease.

Author

Roussos, George, Herrero, Teresa Ruiz, Hill, Derek L., Dowling, Ariel V., L. T. M. Müller, Martijn, Evers, Luc J. W., Burton, Jackson, Derungs, Adrian, Fisher, Katherine, Kilambi, Krishna Praneeth, Mehrotra, Nitin, Bhatnagar, Roopal, Sardar, Sakshi, Stephenson, Diane, Adams, Jamie L., Ray Dorsey, E., and Cosman, Josh

Subjects
DIGITAL technology, MOBILE apps, DIGITAL health, CLINICAL medicine research, ACTIVITIES of daily living, SMARTPHONES, ACCELEROMETERS, CONCEPTUAL structures, COMPARATIVE studies, PARKINSON'S disease, QUESTIONNAIRES
Abstract

Smartphones and wearables are widely recognised as the foundation for novel Digital Health Technologies (DHTs) for the clinical assessment of Parkinson's disease. Yet, only limited progress has been made towards their regulatory acceptability as effective drug development tools. A key barrier in achieving this goal relates to the influence of a wide range of sources of variability (SoVs) introduced by measurement processes incorporating DHTs, on their ability to detect relevant changes to PD. This paper introduces a conceptual framework to assist clinical research teams investigating a specific Concept of Interest within a particular Context of Use, to identify, characterise, and when possible, mitigate the influence of SoVs. We illustrate how this conceptual framework can be applied in practice through specific examples, including two data-driven case studies. [ABSTRACT FROM AUTHOR]

Published
2022
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38. mHealth and wearable technology should replace motor diaries to track motor fluctuations in Parkinson's disease.

Author

Erb, M. Kelley, Karlin, Daniel R., Ho, Bryan K., Thomas, Kevin C., Parisi, Federico, Vergara-Diaz, Gloria P., Daneault, Jean-Francois, Wacnik, Paul W., Zhang, Hao, Kangarloo, Tairmae, Demanuele, Charmaine, Brooks, Chris R., Detheridge, Craig N., Shaafi Kabiri, Nina, Bhangu, Jaspreet S., and Bonato, Paolo

Subjects
WEARABLE technology, PARKINSON'S disease, CLINICAL trials, HYPOKINESIA, DRUG therapy
Abstract

Accurately monitoring motor and non-motor symptoms as well as complications in people with Parkinson's disease (PD) is a major challenge, both during clinical management and when conducting clinical trials investigating new treatments. A variety of strategies have been relied upon including questionnaires, motor diaries, and the serial administration of structured clinical exams like part III of the MDS-UPDRS. To evaluate the potential use of mobile and wearable technologies in clinical trials of new pharmacotherapies targeting PD symptoms, we carried out a project (project BlueSky) encompassing four clinical studies, in which 60 healthy volunteers (aged 23–69; 33 females) and 95 people with PD (aged 42–80; 37 females; years since diagnosis 1–24 years; Hoehn and Yahr 1–3) participated and were monitored in either a laboratory environment, a simulated apartment, or at home and in the community. In this paper, we investigated (i) the utility and reliability of self-reports for describing motor fluctuations; (ii) the agreement between participants and clinical raters on the presence of motor complications; (iii) the ability of video raters to accurately assess motor symptoms, and (iv) the dynamics of tremor, dyskinesia, and bradykinesia as they evolve over the medication cycle. Future papers will explore methods for estimating symptom severity based on sensor data. We found that 38% of participants who were asked to complete an electronic motor diary at home missed ~25% of total possible entries and otherwise made entries with an average delay of >4 h. During clinical evaluations by PD specialists, self-reports of dyskinesia were marked by ~35% false negatives and 15% false positives. Compared with live evaluation, the video evaluation of part III of the MDS-UPDRS significantly underestimated the subtle features of tremor and extremity bradykinesia, suggesting that these aspects of the disease may be underappreciated during remote assessments. On the other hand, live and video raters agreed on aspects of postural instability and gait. Our results highlight the significant opportunity for objective, high-resolution, continuous monitoring afforded by wearable technology to improve upon the monitoring of PD symptoms. [ABSTRACT FROM AUTHOR]

Published
2020
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41. Finding Long-COVID: temporal topic modeling of electronic health records from the N3C and RECOVER programs

Author

O’Neil, Shawn T., Madlock-Brown, Charisse, Wilkins, Kenneth J., McGrath, Brenda M., Davis, Hannah E., Assaf, Gina S., Wei, Hannah, Zareie, Parya, French, Evan T., Loomba, Johanna, McMurry, Julie A., Zhou, Andrea, Chute, Christopher G., Moffitt, Richard A., Pfaff, Emily R., Yoo, Yun Jae, Leese, Peter, Chew, Robert F., Lieberman, Michael, and Haendel, Melissa A.

Published
2024
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