OBJECTIVE: To gain early experience with a networked system designed to assess a patient's adherence to oral medication and physiologic metrics in an ambulatory, at-home setting. STUDY DESIGN: Prospective, observational studies. MATERIALS AND METHODS: This networked system for patient self-management consists of ingestible markers and a wearable, personal monitor. When a marker is ingested, it communicates to a monitor that time-stamps the ingestion and identifies the marker as unique. The monitor also records heart rate and activity. Data from third-party monitoring equipment (eg, sphygmomanometer, weight scale) can be integrated into the system. Collected data are summarized for patient and physician review. Directly observed ingestion (DOI) of placebo tablet markers was used to assess the system's technical performance. Markers were also coencapsulated with drugs to capture at-home adherence. A performance criterion of <95% was set as the objective for system performance. RESULTS: A total of 111 subjects ingested 7144 ingestible markers; 3298 were DOIs. The system's positive detection accuracy and negative detection accuracy in detecting ingested markers were 97.1% and 97.7%, respectively. It differentiated 100% of multiple drugs and doses taken simultaneously by type and by dose. Medication adherence was >85%. The most common adverse effect was mild skin rash from the monitor's electrodes. No definitive marker-related adverse effects were reported. CONCLUSION: The system appears to be safe and effective in capturing and integrating adherence and physiologic data. Efforts are under way to enhance system functionalities and refine user interfaces. By providing context-rich information, this system may enhance patient-provider collaboration.
OBJECTIVE: To gain early experience with a networked system designed to assess a patient's adherence to oral medication and physiologic metrics in an ambulatory, at-home setting. STUDY DESIGN: Prospective, observational studies. MATERIALS AND METHODS: This networked system for patient self-management consists of ingestible markers and a wearable, personal monitor. When a marker is ingested, it communicates to a monitor that time-stamps the ingestion and identifies the marker as unique. The monitor also records heart rate and activity. Data from third-party monitoring equipment (eg, sphygmomanometer, weight scale) can be integrated into the system. Collected data are summarized for patient and physician review. Directly observed ingestion (DOI) of placebo tablet markers was used to assess the system's technical performance. Markers were also coencapsulated with drugs to capture at-home adherence. A performance criterion of <95% was set as the objective for system performance. RESULTS: A total of 111 subjects ingested 7144 ingestible markers; 3298 were DOIs. The system's positive detection accuracy and negative detection accuracy in detecting ingested markers were 97.1% and 97.7%, respectively. It differentiated 100% of multiple drugs and doses taken simultaneously by type and by dose. Medication adherence was >85%. The most common adverse effect was mild skin rash from the monitor's electrodes. No definitive marker-related adverse effects were reported. CONCLUSION: The system appears to be safe and effective in capturing and integrating adherence and physiologic data. Efforts are under way to enhance system functionalities and refine user interfaces. By providing context-rich information, this system may enhance patient-provider collaboration.
Authors: Ariane van der Straten; Elizabeth T Montgomery; Miriam Hartmann; Alexandra Minnis Journal: Curr HIV/AIDS Rep Date: 2013-03 Impact factor: 5.071
Authors: Peter R Chai; Yassir Mohamed; Georgia Goodman; Maria J Bustamante; Matthew C Sullivan; Jesse Najarro; Lizette Mendez; Kenneth H Mayer; Edward W Boyer; Conall O'Cleirigh; Rochelle K Rosen Journal: Transl Behav Med Date: 2022-01-18 Impact factor: 3.626
Authors: Timothy E Morey; Matthew Booth; Scott Wasdo; Judith Wishin; Brian Quinn; Daniel Gonzalez; Hartmut Derendorf; Susan P McGorray; Jane Simoni; Richard J Melker; Donn M Dennis Journal: AIDS Behav Date: 2013-01
Authors: David J McCann; Nancy M Petry; Anders Bresell; Eva Isacsson; Ellis Wilson; Robert C Alexander Journal: J Clin Psychopharmacol Date: 2015-10 Impact factor: 3.153
Authors: Juan Frias; Naunihal Virdi; Praveen Raja; Yoona Kim; George Savage; Lars Osterberg Journal: J Med Internet Res Date: 2017-07-11 Impact factor: 5.428
Authors: Robert Belknap; Steve Weis; Andrew Brookens; Kit Yee Au-Yeung; Greg Moon; Lorenzo DiCarlo; Randall Reves Journal: PLoS One Date: 2013-01-07 Impact factor: 3.240