AI Article Synopsis
- Youth with type 1 diabetes often struggle to meet glycemic targets, even with advanced technologies like continuous glucose monitoring (CGM) and hybrid closed-loop (HCL) insulin systems, primarily due to issues like nocturnal alarm fatigue that disrupt sleep.
- A study involving 76 pediatric patients revealed that the frequency of nighttime alarms increased significantly after starting the HCL system, with an average of 5.4 alarms per night in automated mode, leading to decreased overall device use.
- Findings suggest that these frequent alarms negatively impact sleep quality and device adherence, indicating a need for further research to explore how diabetes technology affects sleep and ways to enhance sleep quality while using such technologies.
Article Abstract
Background: Meeting glycemic recommendations is challenging for youth with type 1 diabetes. Diabetes technology, including continuous glucose monitoring (CGM) and hybrid closed-loop (HCL) automated insulin delivery systems, significantly increase achievement of glycemic targets; however, many youth struggle to sustain use of early HCL systems. Nocturnal alarm fatigue contributes to disrupted sleep and device discontinuation.
Methods: We examined the frequency and causes of nocturnal (10:00 p.m. to 6:00 a.m.) alarms in pediatric patients ( = 76, median age 14.5 years [interquartile range 11.8-17.0 years, range 7-24 years]) starting on a first-generation HCL system in a prospective observational study. Device data were analyzed with linear mixed-effects models to examine change across time at 3-month intervals for 12 months.
Results: At baseline (HCL system in nonautomated mode), participants averaged 3.3 ± 0.6 alarms per night. In the 2 weeks after starting HCL (automated) mode, alarm frequency significantly increased to 5.4 ± 0.5 times per night ( <0.001). Alarm frequency decreased through the remainder of the observational period; however, CGM sensor and HCL system use also declined. The types of alarms were evenly distributed among sensor maintenance, sensor threshold, pump, and HCL-specific alarms.
Conclusion: These data show that HCL system nocturnal alarms are frequent and may be barriers to sleep quality and device use. Further research is needed to assess the impact of diabetes technology on sleep and to determine method to improve sleep quality with technology use.
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|---|---|
| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11093760 | PMC |
| http://dx.doi.org/10.2337/ds23-0003 | DOI Listing |
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