Abstract
Immune checkpoint inhibitors can produce distinct toxic effects that require prompt recognition and timely management. To develop a technology-enabled, dynamically adaptive protocol that can provide the accurate information needed to inform specific remedies for immune toxic effects in patients treated with immune checkpoint inhibitors. An open-label cohort study was conducted at a single tertiary referral center from September 6, 2019, to September 3, 2020. The median follow-up duration was 63 (interquartile range, 35.5-122) days. Fifty patients with genitourinary cancers treated with immune checkpoint inhibitors were enrolled. A fit-for-purpose electronic platform was developed to enable active patient and care team participation. A smartphone application downloaded onto patients' personal mobile devices prompted them to report their symptoms at least 3 times per week. The set of symptoms and associated queries were paired with alert thresholds for symptoms requiring clinical action. The primary end point of this interim analysis was feasibility, as measured by patient and care team adherence, and lack of increase in care team staffing. Operating characteristics were estimated for each symptom alert and used to dynamically adapt the alert thresholds to ensure sensitivity while reducing unnecessary alerts. Of the 50 patients enrolled, 47 had at least 1 follow-up visit and were included in the analysis. Median age was 65 years (range, 37-86), 39 patients (83%) were men, and 39 patients (83%) had metastatic cancer, with the most common being urothelial cell carcinoma and renal cell carcinoma (22 [47%] patients each). After initial onboarding, no further care team training or additional care team staffing was required. Patients had a median study adherence rate of 74% (interquartile range, 60%-86%) and 73% of automated alerts were reviewed within 3 days by the clinic team. Symptoms with the highest positive predictive value for adverse events requiring acute intervention included dizziness (21%), nausea/vomiting (26%), and shortness of breath (14%). The symptoms most likely to result in unnecessary alerts were arthralgia and myalgia, fatigue, and cough. The findings of this cohort study suggest an acceptable and fiscally sound method can be developed to create a dynamic learning system to detect and manage immune-related toxic effects.
Highlights
Immune checkpoint inhibitors (ICIs) can produce a wide range of distinct immune-related toxic effects that pose unique challenges, because they can occur late after treatment initiation, involve multiple organs, and require specific remedies.[1,2,3] The successful management of these toxic effects requires prompt collaboration between medical specialties
Meaning The findings of this study suggest that technology-enabled monitoring of patient-reported outcomes may provide a useful model for delivering complex care remotely in patients receiving immune checkpoint inhibitors
Technology-enabled remote monitoring of immune toxic effects can result in generalizable improvements in outcomes that will accelerate the safe application of ICIs by the general oncology community
Summary
Immune checkpoint inhibitors (ICIs) can produce a wide range of distinct immune-related toxic effects that pose unique challenges, because they can occur late after treatment initiation, involve multiple organs, and require specific remedies.[1,2,3] The successful management of these toxic effects requires prompt collaboration between medical specialties. We hypothesized that an electronic interface accessible via mobile devices might facilitate prompt and useful bidirectional communication between patients at risk for immune toxic effects and their health care teams To achieve this goal, several considerations must be accounted for, including data security, patient adherence, adaptability for use in living environments, and reliable and efficient communication of PROs to the care team.[13] To address these considerations, we initiated a technology-enabled, dynamically adaptive protocol designed to provide the accurate information needed to inform specific remedies for immune toxic effects in patients treated with ICIs. We conducted the present preplanned analysis of the first 50 patients enrolled to evaluate the feasibility of our electronically enabled infrastructure
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