RATIONALE OF THE STUDY
Automated insulin delivery (AID), commonly referred to as artificial pancreas, represents the
most advanced treatment for individuals with type 1 diabetes (T1D). AID is recognized for its
ability to optimize insulin treatment, thereby maximizing the time spent within the target
range (TIR) while minimizing instances of blood glucose levels falling below or exceeding the
target range. At present, several hybrid AID systems are commercially available, primarily in
the EU and US, providing this population with the benefits of this advanced therapy. Despite
the benefits offered by current AID systems and diabetes technology in general for the
treatment of T1D, only approximately 20% of individuals achieve the recommended glycemic
target. The existing systems heavily rely on timely and accurate information from the user
regarding two significant glycemic disturbances: meals and physical activity. Overestimation
of carbohydrate intake and physical activity are the primary drivers contributing to
postprandial and episodic hypoglycemia, respectively, with potential consequences during the
overnight period.
The current investigation aims to examine alternative strategies for preventing/mitigating
hypoglycemic events utilizing a highly personalized control system. This system offers two
configurable options: a single-hormone configuration with automatic rescue carbohydrate
recommendations and a dual-hormone configuration with subcutaneously administered glucagon
boluses. The research question addressed in this study focuses on determining whether the
dual-hormone configuration outperforms the single-hormone with rescue carbohydrate
recommendations configuration in terms of minimizing the time spent below the target range.
HYPOTHESIS
Our hypothesis suggests that the utilization of the dual-hormone configuration will result in
a decrease in the amount of time spent below the target range (70-180 mg/dL) and a reduction
in the number of hypoglycemic events in comparison to the single- hormone configuration with
automatic rescue carbohydrate recommendations.
MAIN OBJECTIVES
Primary objectives of this study are: (1) to evaluate the duration of time spent below the
target range (70-180 mg/dL) and (2) to assess the occurrence of Level 1 (<70 mg/dL) and Level
2 (<54 mg/dL) hypoglycemic events. These objectives will be examined within the context of a
12-hour, highly supervised, controlled, randomized clinical trial that incorporates real-life
challenges. These challenges will involve an unannounced 30-min aerobic exercise session, as
well as the consumption of a meal that will be announced.
INVESTIGATIONAL PLAN
Study design:
This study follows a longitudinal, prospective, randomized crossover interventional design.
Each participant will undergo two inpatient studies, including an unannounced exercise
session and a meal challenge. The order of these studies, comparing the dual-hormone
configuration (dHmG) to the single-hormone configuration with rescue carbohydrate
recommendations (sHC), will be randomized. The study will comprise five visits:
Visit 1: Screening visit. This visit will take place one week prior to Visit 2. During the
screening visit, patients will provide informed consent, undergo examinations, and undergo
tests to ensure their safety in participating in the study. Each subject will also be
instructed to wear a continuous glucose monitoring (CGM) device.
Visit 2: Randomization visit an Incremental Exercise test. This visit will take place 2 weeks
before Visit 3. Patients will be assigned to one of two randomization schedules and will
receive further instructions regarding their participation in the study. All necessary
materials for conducting CGM will be provided during this visit. Additionally, an incremental
exercise test will be conducted during this visit to determine the optimal intensity for the
aerobic exercise sessions.
Visits 3 and 4: Experimental study days. Each subject will undergo two interventions,
consisting of an unannounced 30-min aerobic exercise test and a 60 g carbohydrate meal
challenge. These interventions will occur at 2-3 week intervals (wash-out period), allowing
for the completion of the two experiments within approximately 3 weeks.
Visit 5: Final visit (follow-up visit). This visit will take place 1 week after the
conclusion of Visit 4. Subjects will undergo a physical examination, and safety variables
will be determined in the laboratory, following the same procedures outlined in Visit 1.
Study population:
Fifteen adults, ranging in age from 18 to 65 years, who have been diagnosed with T1D for more
than 1 year and do not have advanced chronic micro- and macroangiopathic diabetic
complications, will be recruited from individuals attending the Diabetes Unit at the Hospital
Clínico Universitario de Valencia. These individuals must be on intensive insulin treatment
with continuous subcutaneous insulin infusion (CSII) and have fair metabolic control (HbA1c
<9.0%) while not experiencing hypoglycemia unawareness. Out of the recruited participants,
five individuals will undergo an initial feasibility test for the dual-hormone (dHmG)
configuration, while, subsequently, ten individuals will be randomly assigned to the dHmG vs.
sHC study.
Sample size:
Five adults with T1D will initially participate in a preliminary feasibility study testing
the dHmG. Subsequently, an additional ten adults with T1D will be enrolled in the
interventional study comparing dHmG versus sHC. As the present study is exploratory in
nature, a formal determination of the sample size was not calculated.
Study procedure and schedule:
The study will commence with a preliminary stage focused on evaluating the safety and
feasibility of the coordinated dHmG (consisting of AID with manual glucagon administration)
in five adults diagnosed with T1D. Following confirmation of safety data by the data and
safety monitoring board, ten adult participants will be randomly assigned to the order in
which the modalities (dHmG and sHC) will be tested, following a brief algorithm refinement
procedure.
Description of study days:
Visit 1 (screening visit): After patients have provided informed consent, a series of
examinations and tests will be conducted a week prior to Visit 2, including: Medical History,
Physical examination, Standard 12-lead ECG, Clinical Laboratory Tests, detection of
asymptomatic hypoglycemia using a validated Spanish version of the Clarke Test questionnaire,
short version of the International Physical Activity Questionnaire to all participants and
metabolic equivalents (METS) calculation.
Visit 2 (randomization visit and incremental exercise test): If the outcome of the first
visit is favorable, patients will be eligible for enrollment in the study and undergo
randomization. They will be provided with instructions on the use of CGM for two weeks of
monitoring prior to the commencement of the experimental study visits, which includes system
calibration and preparation. Additionally, an incremental exercise test will be conducted
during this visit to determine the optimal intensity for the aerobic exercise sessions.
Visits 3 and 4 (intervention days): Each subject will undergo two study sessions, each of
which will include an unannounced aerobic exercise test and a 60 g carbohydrate meal
challenge that will be announced. The algorithm will utilize the individual's
insulin/carbohydrate ratio to calculate the meal insulin bolus without any reduction. These
sessions will be scheduled at intervals of 2-3 weeks and assigned randomly. In one session,
the dHmG configuration for glucose control will be employed, while the sHC will be used in
the other session. Participants will wear a CSII system with the CGM device.
Visit 5 (follow-up visit): Subjects will be required to attend a follow-up visit after
completing the two study days. During this visit, a physical examination and laboratory
safety variables, as described in Visit 1, will be repeated.
Study duration:
The anticipated duration of this study will be four months, with subject recruitment
scheduled to commence in December 2023 and the completion of experiments projected for March
2024.
ETHICAL AND LEGAL ASPECTS
The procedures set out in this study protocol, pertaining to the conduct, evaluation, and
documentation of this study, are designed to ensure that the sponsor and investigator (in
this case the same person) comply with the principle of the good clinical practice guidelines
and the Declaration of Helsinki in the conduct, evaluation and documentation of this study.
The study will also be carried out in keeping with local legal requirements.
This study involves the collection and use of biological samples for research purposes, in
accordance with the provisions of Law 14/2007 on biomedical research and Royal Decree
1716/2011 on Biobanks.
An informed consent document that includes both information about the study and the consent
form will be prepared and given to the subjects. The documents will be in a language
understandable to the subject and will specify who will inform the subject.
The study database will not contain any information that could allow the individual
identification of the study participants. The data obtained will be used exclusively for the
purposes described in this research project. The information will be treated as confidential
and will be stored and processed in accordance with the provisions of European Union (EU)
Regulation 2016/679 of the European Parliament and the Council of 27 April 2016 on the
protection of personal data and the free movement of such data, as well as Organic Law 3/2018
of December.