期刊
BIOSENSORS-BASEL
卷 12, 期 2, 页码 -出版社
MDPI
DOI: 10.3390/bios12020106
关键词
diabetes technology; CGM; accuracy; type 1 diabetes; sustainability
资金
- A. Menarini Diagnostics
This study evaluated the accuracy and usability of a novel continuous glucose monitoring (CGM) system and found that it met the clinical requirements. The needle-free insertion technology of the system was well tolerated by users and reduced medical waste.
The aim of this study was to evaluate the accuracy and usability of a novel continuous glucose monitoring (CGM) system designed for needle-free insertion and reduced environmental impact. We assessed the sensor performance of two GlucoMen(R) Day CGM systems worn simultaneously by eight participants with type 1 diabetes. Self-monitoring of blood glucose (SMBG) was performed regularly over 14 days at home. Participants underwent two standardized, 5-h meal challenges at the research center with frequent plasma glucose (PG) measurements using a laboratory reference (YSI) instrument. When comparing CGM to PG, the overall mean absolute relative difference (MARD) was 9.7 [2.6-14.6]%. The overall MARD for CGM vs. SMBG was 13.1 [3.5-18.6]%. The consensus error grid (CEG) analysis showed 98% of both CGM/PG and CGM/SMBG pairs in the clinically acceptable zones A and B. The analysis confirmed that GlucoMen(R) Day CGM meets the clinical requirements for state-of-the-art CGM. In addition, the needle-free insertion technology is well tolerated by users and reduces medical waste compared to conventional CGM systems.
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