Difference between revisions of "Digital Phenotype"
m |
m |
||
| Line 35: | Line 35: | ||
6. Nandakumar, R., Gollakota, S. & Sunshine, J. E. Opioid overdose detection using smartphones. Scientific Translational Medicine | 6. Nandakumar, R., Gollakota, S. & Sunshine, J. E. Opioid overdose detection using smartphones. Scientific Translational Medicine | ||
| − | + | Submitted by (Samuel Lindner) | |
Revision as of 19:56, 25 October 2021
Contents
Digital phenotyping
Digital phenotyping (also known as personal sensing) is a moment-by-moment quantification of individual-level phenotype using data from personal digital devices, specifically smartphones (1). A phenotype is generated based on a collection of various behavioral data: geospatial data via GPS, movement behaviors via accelerometer, and social interactions via call and text logs and Bluetooth, and voice samples via microphone (2). Digital phenotypes are an emerging area of research and have a wide range of potential clinical utilities. Adolescents and young adults are the most commonly studied populations because personal smartphone ownership occurs at such high rates. A potential opportunity with digital phenotyping relates to applying it to the mechanisms and behaviors underlying psychiatric disorders rather than outcomes alone.
Reasons for digital phenotyping
Reasons for mental health digital phenotyping may include:
1. Prevention – Digital phenotypes allow for detection of high-risk alcohol use by using passive identification of binging episodes using activity and phone utilization data in order to trigger prevention interventions (3).
2. Screening and diagnosis – Digital phenotypes can be used to identify individuals who are at-risk or undiagnosed for certain conditions such as mood disorders (4).
3. Monitoring – Voice analysis offers a tool to predict treatment outcomes in illnesses where predicting clinical response is low (5).
4. Treatment – Opiate overdose detection is an example of combining digital phenotypes with wearable devices. A harm reduction intervention aided by smartphones uses digital phenotypes to detect signs of respiratory distress, which can lead to early interventions to administer naloxone or connect with medication assisted treatment once medically stable (6).
Barriers and limitations
There are several barriers to using digital phenotypes. Digital phenotypes will need to show cost-effectiveness and efficacy. Equity is an issue for implementing digital phenotypes. It will be important for technologies to developed on multiple platforms instead of capturing data on the newest devices. Machine learning is used as the technology for interpreting signals into meaningful and actionable information. However, some machine learning is trained in limited populations, which can lead to bias in the population of interest.
References
1. Huckvale, K., Venkatesh, S. & Christensen, H. Toward clinical digital phenotyping: a timely opportunity to consider purpose, quality, and safety. npj Digital Medicine 2, 88 (2019).
2. Torous J, Kiang M, Lorme J, Onnela JP (2016). New tools for new research in psychiatry: A scalable and customizable platform to empower data driven smartphone research. JMIR Mental Health 2016;3(2):e16
3. Santani, D. et al. DrinkSense: characterizing youth drinking behavior using smartphones. IEEE Transaction Mobile on Computing 17, 2279–2292 (2018).
4. Faherty, L. J. et al. Movement patterns in women at risk for perinatal depression: use of a mood-monitoring mobile application in pregnancy. Journal of the American Medical Informatics Association. 24, 746–753 (2017).
5. Mundt, J. C., Vogel, A. P., Feltner, D. E. & Lenderking, W. R. Vocal acoustic biomarkers of depression severity and treatment response. Biological Psychiatry 72, 580–587 (2012).
6. Nandakumar, R., Gollakota, S. & Sunshine, J. E. Opioid overdose detection using smartphones. Scientific Translational Medicine
Submitted by (Samuel Lindner)
