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1. Towards a Personal Health Large Language Model

Author

Cosentino, Justin, Belyaeva, Anastasiya, Liu, Xin, Furlotte, Nicholas A., Yang, Zhun, Lee, Chace, Schenck, Erik, Patel, Yojan, Cui, Jian, Schneider, Logan Douglas, Bryant, Robby, Gomes, Ryan G., Jiang, Allen, Lee, Roy, Liu, Yun, Perez, Javier, Rogers, Jameson K., Speed, Cathy, Tailor, Shyam, Walker, Megan, Yu, Jeffrey, Althoff, Tim, Heneghan, Conor, Hernandez, John, Malhotra, Mark, Stern, Leor, Matias, Yossi, Corrado, Greg S., Patel, Shwetak, Shetty, Shravya, Zhan, Jiening, Prabhakara, Shruthi, McDuff, Daniel, and McLean, Cory Y.

Subjects
Computer Science - Artificial Intelligence, Computer Science - Computation and Language
Abstract

In health, most large language model (LLM) research has focused on clinical tasks. However, mobile and wearable devices, which are rarely integrated into such tasks, provide rich, longitudinal data for personal health monitoring. Here we present Personal Health Large Language Model (PH-LLM), fine-tuned from Gemini for understanding and reasoning over numerical time-series personal health data. We created and curated three datasets that test 1) production of personalized insights and recommendations from sleep patterns, physical activity, and physiological responses, 2) expert domain knowledge, and 3) prediction of self-reported sleep outcomes. For the first task we designed 857 case studies in collaboration with domain experts to assess real-world scenarios in sleep and fitness. Through comprehensive evaluation of domain-specific rubrics, we observed that Gemini Ultra 1.0 and PH-LLM are not statistically different from expert performance in fitness and, while experts remain superior for sleep, fine-tuning PH-LLM provided significant improvements in using relevant domain knowledge and personalizing information for sleep insights. We evaluated PH-LLM domain knowledge using multiple choice sleep medicine and fitness examinations. PH-LLM achieved 79% on sleep and 88% on fitness, exceeding average scores from a sample of human experts. Finally, we trained PH-LLM to predict self-reported sleep quality outcomes from textual and multimodal encoding representations of wearable data, and demonstrate that multimodal encoding is required to match performance of specialized discriminative models. Although further development and evaluation are necessary in the safety-critical personal health domain, these results demonstrate both the broad knowledge and capabilities of Gemini models and the benefit of contextualizing physiological data for personal health applications as done with PH-LLM., Comment: 72 pages

Published
2024

4. Research Protocol for the Google Health Digital Well-being Study

Author

McDuff, Daniel, Barakat, Andrew, Winbush, Ari, Jiang, Allen, Cordeiro, Felicia, Crowley, Ryann, Kahn, Lauren E., Hernandez, John, and Allen, Nicholas B.

Subjects
Computer Science - Human-Computer Interaction
Abstract

The impact of digital device use on health and well-being is a pressing question to which individuals, families, schools, policy makers, legislators, and digital designers are all demanding answers. However, the scientific literature on this topic to date is marred by small and/or unrepresentative samples, poor measurement of core constructs (e.g., device use, smartphone addiction), and a limited ability to address the psychological and behavioral mechanisms that may underlie the relationships between device use and well-being. A number of recent authoritative reviews have made urgent calls for future research projects to address these limitations. The critical role of research is to identify which patterns of use are associated with benefits versus risks, and who is more vulnerable to harmful versus beneficial outcomes, so that we can pursue evidence-based product design, education, and regulation aimed at maximizing benefits and minimizing risks of smartphones and other digital devices. We describe a protocol for a Digital Well-Being (DWB) study to help answer these questions.

Published
2023

9. The audit committee and earnings management: new evidence from the H-share listed companies on the exchange stock of Hong Kong.

Author

Jiang, Allen and Jia, Bessie

Subjects
INDUSTRIAL management, EARNINGS management, INVESTORS, MANAGEMENT committees, STOCK companies, AUDIT committees
Abstract

This paper selects H-share companies listed on the Stock Exchange of Hong Kong from 2008 to 2018 as research samples and designs an OLS regression model to empirically test the impact of the quality of the audit committee measured by the four aspects of the characteristics of the audit committee on the earnings management level of the company based on the Jones model. It concludes that when the overall quality of the company's audit committee is higher, the company's earnings management level is lower. This conclusion strongly proves that the establishment and effective operation of an audit committee plays an important role in improving corporate governance and restraining earnings manipulation by the management team and the governance role. This paper provides empirical evidence to help corporation leaders and stakeholders make better decisions on management and investment on H-share listed companies. The innovation and contributions and to audit and earnings management literature and implications and innovation for regulators and investors are also discussed. [ABSTRACT FROM AUTHOR]

Published
2024
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11. Robotic granular jamming

Author

Jiang, Allen, Nanayakkara, Thrishantha, Althoefer, Kaspar Alexander, and Dasgupta, Prokar

Subjects
004
Abstract

Granular jamming is a phenomenon where discrete granules can transition their macro behavior between a fluid-like and a solid-like state. In the context of soft robotics, this thesis examines granular jamming in three key aspects. The first aspect investigates the modeling of the granule behavior as it is jammed and unjammed. A simplified model was developed where the macro stiffness of the granules in different states is encompassed in one variable, E. In an engineering context, the usage of this one variable enables structures of different types to be quantitatively compared. The second aspect investigates the structure of mechanisms using granule jamming. For the granules, experiments were performed on different shapes, sizes, and materials. The results show that there can be a significant change in the stiffness range and profile when a parameter of the granule is changed. The properties of the membrane holding the granules and properties of the interparticle fluid were also studied for their affect on the behavior of the stiffnesses. For the membrane, the boundary layer applying the external stress, different materials and designs were found to have as much as a significant impact as changing granule type. For the interparticle fluid, the effects of air and water as the inter-granule fluid were compared, which showed that there is no significant difference between the stiffness range. However, the use of water can shrink the transition region between the fluid-like and solid-like states of granular behavior. While this smaller transition region limits the tunability of compliance for a granular jamming mechanism, it gives the added benefit of requiring less volume of fluid to create vacuum, due to the incompressibility to water. This effectively untethers granular jamming mechanisms from cumbersome vacuum pumps, a key step in mobilizing the technology in the context of robotics. Lastly, this thesis focuses on the aspect of control for granular jamming. This encompasses the development of granular jamming-based actuators and the control of those actuators though impedance control.

Published
2014

17. Copy number variant and runs of homozygosity detection by microarrays enabled more precise molecular diagnoses in 11,020 clinical exome cases

Author

Dharmadhikari, Avinash V., Ghosh, Rajarshi, Yuan, Bo, Liu, Pengfei, Dai, Hongzheng, Al Masri, Sami, Scull, Jennifer, Posey, Jennifer E., Jiang, Allen H., He, Weimin, Vetrini, Francesco, Braxton, Alicia A., Ward, Patricia, Chiang, Theodore, Qu, Chunjing, Gu, Shen, Shaw, Chad A., Smith, Janice L., Lalani, Seema, Stankiewicz, Pawel, Cheung, Sau-Wai, Bacino, Carlos A., Patel, Ankita, Breman, Amy M., Wang, Xia, Meng, Linyan, Xiao, Rui, Xia, Fan, Muzny, Donna, Gibbs, Richard A., Beaudet, Arthur L., Eng, Christine M., Lupski, James R., Yang, Yaping, and Bi, Weimin

Published
2019
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23. Combinatorial development of nebulized mRNA delivery formulations for the lungs

Author

Jiang, Allen Y., Witten, Jacob, Raji, Idris O., Eweje, Feyisayo, MacIsaac, Corina, Meng, Sabrina, Oladimeji, Favour A., Hu, Yizong, Manan, Rajith S., Langer, Robert, and Anderson, Daniel G.

Abstract

Inhaled delivery of mRNA has the potential to treat a wide variety of diseases. However, nebulized mRNA lipid nanoparticles (LNPs) face several unique challenges including stability during nebulization and penetration through both cellular and extracellular barriers. Here we develop a combinatorial approach addressing these barriers. First, we observe that LNP formulations can be stabilized to resist nebulization-induced aggregation by altering the nebulization buffer to increase the LNP charge during nebulization, and by the addition of a branched polymeric excipient. Next, we synthesize a combinatorial library of ionizable, degradable lipids using reductive amination, and evaluate their delivery potential using fully differentiated air–liquid interface cultured primary lung epithelial cells. The final combination of ionizable lipid, charge-stabilized formulation and stability-enhancing excipient yields a significant improvement in lung mRNA delivery over current state-of-the-art LNPs and polymeric nanoparticles.

Published
2023
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38. Adaptive grip control on an uncertain object

Author

Jiang, Allen, primary, Bimbo, Joao, additional, Goulder, Simon, additional, Liu, Hongbin, additional, Song, Xiaojing, additional, Dasgupta, Prokar, additional, Althoefer, Kaspar, additional, and Nanayakkara, Thrishantha, additional

Published
2012
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42. Magnetic Resonance-Compatible Tactile Force Sensor Using Fiber Optics and Vision Sensor.

Author

Hui Xie, Jiang, Allen, Wurdemann, Helge A., Hongbin Liu, Seneviratne, Lakmal D., and Althoefer, Kaspar

Abstract

This paper presents a fiber optic based tactile array sensor that can be employed in magnetic resonance environments. In contrast to conventional sensing approaches, such as resistive or capacitive-based sensing methods, which strongly rely on the generation and transmission of electronics signals, here electromagnetically isolated optical fibers were utilized to develop the tactile array sensor. The individual sensing elements of the proposed sensor detect normal forces; fusing the information from the individual elements allows the perception of the shape of probed objects. Applied forces deform a micro-flexure inside each sensor tactel, displacing a miniature mirror which, in turn, modulates the light intensity introduced by a transmitting fiber connected to a light source at its proximal end. For each tactel, the light intensity is read by a receiving fiber connected directly to a 2-D vision sensor. Computer software, such as MATLAB, is used to process the images received by the vision sensor. The calibration process was conducted by relating the applied forces to the number of activated pixels for each image received from a receiving fiber. The proposed approach allows the concurrent acquisition of data from multiple tactile sensor elements using a vision sensor such as a standard video camera. Test results of force responses and shape detection have proven the viability of this sensing concept. [ABSTRACT FROM PUBLISHER]

Published
2014
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43. Additional file 1: of Copy number variant and runs of homozygosity detection by microarrays enabled more precise molecular diagnoses in 11,020 clinical exome cases

Author

Dharmadhikari, Avinash, Rajarshi Ghosh, Yuan, Bo, Pengfei Liu, Hongzheng Dai, Masri, Sami, Scull, Jennifer, Posey, Jennifer, Jiang, Allen, Weimin He, Vetrini, Francesco, Braxton, Alicia, Ward, Patricia, Chiang, Theodore, Chunjing Qu, Gu, Shen, Shaw, Chad, Smith, Janice, Lalani, Seema, Stankiewicz, Pawel, Sau-Wai Cheung, Bacino, Carlos, Ankita Patel, Breman, Amy, Wang, Xia, Linyan Meng, Xiao, Rui, Xia, Fan, Muzny, Donna, Gibbs, Richard, Beaudet, Arthur, Eng, Christine, Lupski, James, Yaping Yang, and Weimin Bi

Subjects
heterocyclic compounds, 3. Good health
Abstract

Figure S1. An example to show that the QC array is highly reliable for ROH detection. Figure S2 Compound heterozygous deletions detected in patient WH12. (PPT 611 kb)

44. Additional file 2: of Copy number variant and runs of homozygosity detection by microarrays enabled more precise molecular diagnoses in 11,020 clinical exome cases

Author

Dharmadhikari, Avinash, Rajarshi Ghosh, Yuan, Bo, Pengfei Liu, Hongzheng Dai, Masri, Sami, Scull, Jennifer, Posey, Jennifer, Jiang, Allen, Weimin He, Vetrini, Francesco, Braxton, Alicia, Ward, Patricia, Chiang, Theodore, Chunjing Qu, Gu, Shen, Shaw, Chad, Smith, Janice, Lalani, Seema, Stankiewicz, Pawel, Sau-Wai Cheung, Bacino, Carlos, Ankita Patel, Breman, Amy, Wang, Xia, Linyan Meng, Xiao, Rui, Xia, Fan, Muzny, Donna, Gibbs, Richard, Beaudet, Arthur, Eng, Christine, Lupski, James, Yaping Yang, and Weimin Bi

Subjects
genetic structures, sense organs, eye diseases, 3. Good health
Abstract

Sensitivity of CNV detection for the QC array (DOCX 40 kb)

45. Additional file 3: of Copy number variant and runs of homozygosity detection by microarrays enabled more precise molecular diagnoses in 11,020 clinical exome cases

Author

Dharmadhikari, Avinash, Rajarshi Ghosh, Yuan, Bo, Pengfei Liu, Hongzheng Dai, Masri, Sami, Scull, Jennifer, Posey, Jennifer, Jiang, Allen, Weimin He, Vetrini, Francesco, Braxton, Alicia, Ward, Patricia, Chiang, Theodore, Chunjing Qu, Gu, Shen, Shaw, Chad, Smith, Janice, Lalani, Seema, Stankiewicz, Pawel, Sau-Wai Cheung, Bacino, Carlos, Ankita Patel, Breman, Amy, Wang, Xia, Linyan Meng, Xiao, Rui, Xia, Fan, Muzny, Donna, Gibbs, Richard, Beaudet, Arthur, Eng, Christine, Lupski, James, Yaping Yang, and Weimin Bi

Subjects
3. Good health
Abstract

Supplementary Table S1. Correlation of PCNV findings from CMA and the QC array in 496 ES cases (DOCX 44 kb)

46. Additional file 2: of Copy number variant and runs of homozygosity detection by microarrays enabled more precise molecular diagnoses in 11,020 clinical exome cases

Author

Dharmadhikari, Avinash, Rajarshi Ghosh, Yuan, Bo, Pengfei Liu, Hongzheng Dai, Masri, Sami, Scull, Jennifer, Posey, Jennifer, Jiang, Allen, Weimin He, Vetrini, Francesco, Braxton, Alicia, Ward, Patricia, Chiang, Theodore, Chunjing Qu, Gu, Shen, Shaw, Chad, Smith, Janice, Lalani, Seema, Stankiewicz, Pawel, Sau-Wai Cheung, Bacino, Carlos, Ankita Patel, Breman, Amy, Wang, Xia, Linyan Meng, Xiao, Rui, Xia, Fan, Muzny, Donna, Gibbs, Richard, Beaudet, Arthur, Eng, Christine, Lupski, James, Yaping Yang, and Weimin Bi

Subjects
genetic structures, sense organs, eye diseases, 3. Good health
Abstract

Sensitivity of CNV detection for the QC array (DOCX 40 kb)

47. Additional file 3: of Copy number variant and runs of homozygosity detection by microarrays enabled more precise molecular diagnoses in 11,020 clinical exome cases

Author

Dharmadhikari, Avinash, Rajarshi Ghosh, Yuan, Bo, Pengfei Liu, Hongzheng Dai, Masri, Sami, Scull, Jennifer, Posey, Jennifer, Jiang, Allen, Weimin He, Vetrini, Francesco, Braxton, Alicia, Ward, Patricia, Chiang, Theodore, Chunjing Qu, Gu, Shen, Shaw, Chad, Smith, Janice, Lalani, Seema, Stankiewicz, Pawel, Sau-Wai Cheung, Bacino, Carlos, Ankita Patel, Breman, Amy, Wang, Xia, Linyan Meng, Xiao, Rui, Xia, Fan, Muzny, Donna, Gibbs, Richard, Beaudet, Arthur, Eng, Christine, Lupski, James, Yaping Yang, and Weimin Bi

Subjects
3. Good health
Abstract

Supplementary Table S1. Correlation of PCNV findings from CMA and the QC array in 496 ES cases (DOCX 44 kb)

48. Additional file 1: of Copy number variant and runs of homozygosity detection by microarrays enabled more precise molecular diagnoses in 11,020 clinical exome cases

Author

Dharmadhikari, Avinash, Rajarshi Ghosh, Yuan, Bo, Pengfei Liu, Hongzheng Dai, Masri, Sami, Scull, Jennifer, Posey, Jennifer, Jiang, Allen, Weimin He, Vetrini, Francesco, Braxton, Alicia, Ward, Patricia, Chiang, Theodore, Chunjing Qu, Gu, Shen, Shaw, Chad, Smith, Janice, Lalani, Seema, Stankiewicz, Pawel, Sau-Wai Cheung, Bacino, Carlos, Ankita Patel, Breman, Amy, Wang, Xia, Linyan Meng, Xiao, Rui, Xia, Fan, Muzny, Donna, Gibbs, Richard, Beaudet, Arthur, Eng, Christine, Lupski, James, Yaping Yang, and Weimin Bi

Subjects
heterocyclic compounds, 3. Good health
Abstract

Figure S1. An example to show that the QC array is highly reliable for ROH detection. Figure S2 Compound heterozygous deletions detected in patient WH12. (PPT 611 kb)

49. The Google Health Digital Well-Being Study: Protocol for a Digital Device Use and Well-Being Study.

Author

McDuff D, Barakat A, Winbush A, Jiang A, Cordeiro F, Crowley R, Kahn LE, Hernandez J, and Allen NB

Subjects
Humans, Male, Female, Adult, Middle Aged, Mental Health, Young Adult, Mobile Applications, Adolescent, Smartphone
Abstract

Background: The impact of digital device use on health and well-being is a pressing question. However, the scientific literature on this topic, to date, is marred by small and unrepresentative samples, poor measurement of core constructs, and a limited ability to address the psychological and behavioral mechanisms that may underlie the relationships between device use and well-being. Recent authoritative reviews have made urgent calls for future research projects to address these limitations. The critical role of research is to identify which patterns of use are associated with benefits versus risks and who is more vulnerable to harmful versus beneficial outcomes, so that we can pursue evidence-based product design, education, and regulation aimed at maximizing benefits and minimizing the risks of smartphones and other digital devices., Objective: The objective of this study is to provide normative data on objective patterns of smartphone use. We aim to (1) identify how patterns of smartphone use impact well-being and identify groups of individuals who show similar patterns of covariation between smartphone use and well-being measures across time; (2) examine sociodemographic and personality or mental health predictors and which patterns of smartphone use and well-being are associated with pre-post changes in mental health and functioning; (3) discover which nondevice behavior patterns mediate the association between device use and well-being; (4) identify and explore recruitment strategies to increase and improve the representation of traditionally underrepresented populations; and (5) provide a real-world baseline of observed stress, mood, insomnia, physical activity, and sleep across a representative population., Methods: This is a prospective, nonrandomized study to investigate the patterns and relationships among digital device use, sensor-based measures (including both behavioral and physiological signals), and self-reported measures of mental health and well-being. The study duration is 4 weeks per participant and includes passive sensing based on smartphone sensors, and optionally a wearable (Fitbit), for the complete study period. The smartphone device will provide activity, location, phone unlocks and app usage, and battery status information., Results: At the time of submission, the study infrastructure and app have been designed and built, the institutional review board of the University of Oregon has approved the study protocol, and data collection is underway. Data from 4182 enrolled and consented participants have been collected as of March 27, 2023. We have made many efforts to sample a study population that matches the general population, and the demographic breakdown we have been able to achieve, to date, is not a perfect match., Conclusions: The impact of digital devices on mental health and well-being raises important questions. The Digital Well-Being Study is designed to help answer questions about the association between patterns of smartphone use and well-being., International Registered Report Identifier (irrid): DERR1-10.2196/49189., (©Daniel McDuff, Andrew Barakat, Ari Winbush, Allen Jiang, Felicia Cordeiro, Ryann Crowley, Lauren E Kahn, John Hernandez, Nicholas B Allen. Originally published in JMIR Research Protocols (https://www.researchprotocols.org), 14.05.2024.)

Published
2024
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50. Enhancing the immunogenicity of lipid-nanoparticle mRNA vaccines by adjuvanting the ionizable lipid and the mRNA.

Author

Li B, Jiang AY, Raji I, Atyeo C, Raimondo TM, Gordon AGR, Rhym LH, Samad T, MacIsaac C, Witten J, Mughal H, Chicz TM, Xu Y, McNamara RP, Bhatia S, Alter G, Langer R, and Anderson DG

Abstract

To elicit optimal immune responses, messenger RNA vaccines require intracellular delivery of the mRNA and the careful use of adjuvants. Here we report a multiply adjuvanted mRNA vaccine consisting of lipid nanoparticles encapsulating an mRNA-encoded antigen, optimized for efficient mRNA delivery and for the enhanced activation of innate and adaptive responses. We optimized the vaccine by screening a library of 480 biodegradable ionizable lipids with headgroups adjuvanted with cyclic amines and by adjuvanting the mRNA-encoded antigen by fusing it with a natural adjuvant derived from the C3 complement protein. In mice, intramuscular or intranasal administration of nanoparticles with the lead ionizable lipid and with mRNA encoding for the fusion protein (either the spike protein or the receptor-binding domain of severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2)) increased the titres of antibodies against SARS-CoV-2 tenfold with respect to the vaccine encoding for the unadjuvanted antigen. Multiply adjuvanted mRNA vaccines may improve the efficacy, safety and ease of administration of mRNA-based immunization., (© 2023. The Author(s), under exclusive licence to Springer Nature Limited.)

Published
2023
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