Description Module

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Description Module

The Description Module contains narrative descriptions of the clinical trial, including a brief summary and detailed description. These descriptions provide important information about the study's purpose, methodology, and key details in language accessible to both researchers and the general public.

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Description Module

Ignite Creation Date: 2025-12-24 @ 3:57 PM
Ignite Modification Date: 2025-12-24 @ 3:57 PM
NCT ID: NCT07031492
Brief Summary: Developing algorithms for Automated Insulin Delivery (AID) systems that alleviate the burden of meal announcements, culminating in the FLEX-AP system. This fully automated artificial pancreas system is designed to operate without meal or exercise announcements while allowing for optional user input. FLEX-APaims to achieve a balance between glycemic control and user quality of life by incorporating user preferences into its operation. The FLEX-AP system features a flexible control architecture tailored to handle unannounced meals and exercise. It also allows for optional meal announcements and offers guidance for mitigating hypoglycemia, such as counterregulatory actions like rescue carbohydrate intake for patients who prefer it. The proposed benefit of FLEX-AP is to improve glycemic control while respecting individual preferences, which sets it apart from existing AID systems.
Detailed Description: Although AID systems have significantly advanced, carbohydrate counting remains a burdensome and error-prone task for patients, often leading to suboptimal postprandial glycemic control. Furthermore, even with accurate carbohydrate estimation, other macronutrients impact glycemic responses, complicating management. Hybrid AID systems that rely on meal announcements to manage glycemic excursions, but theses exhibit a limited efficacy when managing moderate-to-large unannounced meals, underscoring the need for systems with improved adaptability and functionality. The FLEX-AP system features a flexible control architecture tailored to handle unannounced meals and exercise. It also allows for optional meal announcements and offers guidance for mitigating hypoglycemia, such as counterregulatory actions like rescue carbohydrate intake for patients who prefer it. The proposed benefit of FLEX-AP is to improve glycemic control while respecting individual preferences, which sets it apart from existing AID systems. The first clinical trial that uses the FLEX-AP system (NCT06082973) was approved by the Spanish regulatory agency (AEMPS) in April 2024 and it is currently ongoing. This study evaluates the FLEX-AP in a hospital setting under unannounced exercise challenges to assess the functionality of counter-regulatory actions recommendation, comparing rescue carbohydrates versus mini-doses of glucagon. The rationale of this study is to advance the evaluation of the FLEX-AP system for fully automated postprandial glucose control under inpatient and outpatient conditions, going beyond in-silico studies. This study is designed to determine safety and efficacy of the FLEX-AP system in a controlled ambulatory condition, emulating real-life conditions. Patients will operate the system as fully-automated for meals under 70 grams of carbohydrates, announcing larger meals as safety measure in this first ambulatory study. This study will provide essential insights for engineers to understand complex meal dynamics better, facilitating further refinement of the FLEX-AP algorithm required for pivotal studies.
Study: NCT07031492
Study Brief:
Protocol Section: NCT07031492