Your search keyword '"Baermann, Ben-Niklas"' showing total 2 results

1. Wearable based monitoring and self-supervised contrastive learning detect clinical complications during treatment of Hematologic malignancies.

Author

Jacobsen, Malte, Gholamipoor, Rahil, Dembek, Till A., Rottmann, Pauline, Verket, Marlo, Brandts, Julia, Jäger, Paul, Baermann, Ben-Niklas, Kondakci, Mustafa, Heinemann, Lutz, Gerke, Anna L., Marx, Nikolaus, Müller-Wieland, Dirk, Möllenhoff, Kathrin, Seyfarth, Melchior, Kollmann, Markus, and Kobbe, Guido

Subjects

DEEP learning, RESEARCH, SCIENTIFIC observation, SAMPLE size (Statistics), SELF-management (Psychology), VITAL signs, ELECTRONIC equipment, ETHICS committees, PHYSICAL activity, COMPARATIVE studies, HEMATOLOGIC malignancies, AT-risk people, RESEARCH funding, SENSITIVITY & specificity (Statistics), STATISTICAL sampling, EARLY diagnosis, LONGITUDINAL method

Abstract

Serious clinical complications (SCC; CTCAE grade ≥ 3) occur frequently in patients treated for hematological malignancies. Early diagnosis and treatment of SCC are essential to improve outcomes. Here we report a deep learning model-derived SCC-Score to detect and predict SCC from time-series data recorded continuously by a medical wearable. In this single-arm, single-center, observational cohort study, vital signs and physical activity were recorded with a wearable for 31,234 h in 79 patients (54 Inpatient Cohort (IC)/25 Outpatient Cohort (OC)). Hours with normal physical functioning without evidence of SCC (regular hours) were presented to a deep neural network that was trained by a self-supervised contrastive learning objective to extract features from the time series that are typical in regular periods. The model was used to calculate a SCC-Score that measures the dissimilarity to regular features. Detection and prediction performance of the SCC-Score was compared to clinical documentation of SCC (AUROC ± SD). In total 124 clinically documented SCC occurred in the IC, 16 in the OC. Detection of SCC was achieved in the IC with a sensitivity of 79.7% and specificity of 87.9%, with AUROC of 0.91 ± 0.01 (OC sensitivity 77.4%, specificity 81.8%, AUROC 0.87 ± 0.02). Prediction of infectious SCC was possible up to 2 days before clinical diagnosis (AUROC 0.90 at −24 h and 0.88 at −48 h). We provide proof of principle for the detection and prediction of SCC in patients treated for hematological malignancies using wearable data and a deep learning model. As a consequence, remote patient monitoring may enable pre-emptive complication management. [ABSTRACT FROM AUTHOR]

Published

2023

2. Feasibility of Wearable-Based Remote Monitoring in Patients During Intensive Treatment for Aggressive Hematologic Malignancies.

Author

Jacobsen, Malte, Rottmann, Pauline, Dembek, Till A., Gerke, Anna L., Gholamipoor, Rahil, Blum, Christopher, Hartmann, Niels-Ulrik, Verket, Marlo, Kaivers, Jennifer, Jäger, Paul, Baermann, Ben-Niklas, Heinemann, Lutz, Marx, Nikolaus, Müller-Wieland, Dirk, Kollmann, Markus, Seyfarth, Melchior, and Kobbe, Guido

Subjects

HEMATOLOGIC malignancies, PATIENT monitoring, PHYSICAL activity, OXYGEN saturation, VITAL signs

Abstract

PURPOSE: Intensive treatment protocols for aggressive hematologic malignancies harbor a high risk of serious clinical complications, such as infections. Current techniques of monitoring vital signs to detect such complications are cumbersome and often fail to diagnose them early. Continuous monitoring of vital signs and physical activity by means of an upper arm medical wearable allowing 24/7 streaming of such parameters may be a promising alternative. METHODS: This single-arm, single-center observational trial evaluated symptom-related patient-reported outcomes and feasibility of a wearable-based remote patient monitoring. All wearable data were reviewed retrospectively and were not available to the patient or clinical staff. A total of 79 patients (54 inpatients and 25 outpatients) participated and received standard-of-care treatment for a hematologic malignancy. In addition, the wearable was continuously worn and self-managed by the patient to record multiple parameters such as heart rate, oxygen saturation, and physical activity. RESULTS: Fifty-one patients (94.4%) in the inpatient cohort and 16 (64.0%) in the outpatient cohort reported gastrointestinal symptoms (diarrhea, nausea, and emesis), pain, dyspnea, or shivering in at least one visit. With the wearable, vital signs and physical activity were recorded for a total of 1,304.8 days. Recordings accounted for 78.0% (63.0-88.5; median [interquartile range]) of the potential recording time for the inpatient cohort and 84.6% (76.3-90.2) for the outpatient cohort. Adherence to the wearable was comparable in both cohorts, but decreased moderately over time during the trial. CONCLUSION: A high adherence to the wearable was observed in patients on intensive treatment protocols for a hematologic malignancy who experience high symptom burden. Remote patient monitoring of vital signs and physical activity was demonstrated to be feasible and of primarily sufficient quality. Wearables enable remote therapy monitoring of patients with hematologic malignancies with high adherence. [ABSTRACT FROM AUTHOR]

Published

2022