Type 1 Diabetes Clinical Trial
Official title:
Evaluation of Counter-regulatory Hormone Responses During Hypoglycemia and the Accuracy of Continuous Glucose Monitors in Children With T1DM
The primary objective of this study will be to compare the glucose level at which counter-regulatory hormone responses occur during hypoglycemia in young children with diabetes, with the glucose level counter regulatory hormone responses that occur in older children with diabetes.
The present study is being undertaken to compare counterregulatory hormone responses to a
mild and gradual reduction in plasma glucose in young children with T1DM versus responses in
adolescents. The studies will be performed under the close supervision of the professional
staff of each DirecNet center and frequent bedside monitoring of plasma glucose
concentrations will ensure that clinically significant hypoglycemia is prevented from
developing. All subjects will be admitted to the CRC and have an IV line for blood sampling
inserted on the evening prior to study to reduce stress on the morning of the study. The
study procedure will be simplified and made less invasive in comparison to a clamp or
standard insulin infusion study (i.e. only the one IV for blood sampling will be needed) by
limiting enrollment to insulin pump-treated subjects who will have their basal rates
modestly increased to produce the hypoglycemic stimulus. Monsod and colleagues used the same
procedure of increasing the basal insulin infusion dose to induce a gradual fall in plasma
glucose in youth with type 1 diabetes in a study that compared the ability of injections of
glucagon and epinephrine to treat mild hypoglycemia. It is particularly important to note
that once the blood glucose level falls below 60 mg/dl, a blood sample will be obtained and
hypoglycemia will then be immediately corrected by intravenous administration of exogenous
glucose. In our recent DirecNet study, ~25% of children and adolescents had plasma glucose
levels below 60 mg/dl during a typical night and this rose to ~50% of subjects when there
was antecedent exercise in the late afternoon. Moreover, the frequency of mild as well as
severe hypoglycemia is substantially higher in pre-school children than in children and
adolescents. This safe and rigorously designed study will provide important new information
regarding the role of inadequate counter-regulation on the increased risk of hypoglycemia in
very young children with T1DM.
Real-time continuous glucose sensing systems offer the potential to markedly lower the risk
of hypoglycemia in youth with T1DM. However, the DirecNet inpatient accuracy study
demonstrated that the first generation of these devices was inaccurate when blood glucose
was lowered to less than 70 mg/dl. In that study, children with T1DM between 3-17 years of
age were admitted to the CRC for approximately 26 hours during which they wore 1-2 Medtronic
MiniMed CGMS and 1-2 Cygnus GlucoWatch G2 Biographer continuous glucose monitors. In every
subject in that study, blood samples were obtained every 30-60 minutes from an indwelling
intravenous catheter for measurement of reference plasma glucose levels in the DirecNet
Central Laboratory. The Guardian-RT continuous glucose monitoring systems is a real-time
continuous glucose monitor that has considerable promise for use in children with diabetes.
Therefore, a secondary aim of this study is to obtain very important data regarding the
accuracy of this system during hypoglycemia in young children, as well as adolescents.
The Guardian-RT has been approved by the FDA for detecting trends and tracking patterns in
adults (18 and older) and are indicated for adjunctive rather than replacement of standard
home glucose monitoring devices. The sensor has been approved by the FDA for use for up to
72 hours but can function for a longer period of time.
The primary objective of this study will be to compare the glucose level at which
counter-regulatory hormone responses occur during hypoglycemia in young children with
diabetes, with the glucose level counter regulatory hormone responses that occur in older
children with diabetes. We hypothesize that the children in the younger age group will not
have a counterregulatory response until a lower glucose level is reached compared with
children in the older age group.
Secondary objectives will be:
1. To assess signs and symptoms at different glucose levels of hypoglycemia in younger
children and compare those with the older children. Furthermore, symptoms will be
compared to counter regulatory hormone levels in the two age groups. Symptoms will be
assessed using physiologic data and using an age-appropriate questionnaire that would
be completed during the test by the subject (where appropriate) and by a parent.
2. To assess whether there is a difference in counter-regulatory hormone response in each
age group, among those who had at least 2-3 episodes of hypoglycemia per day or night
prior to the study compared with those who had an occasional or no episodes of
hypoglycemia prior to the test. Subjects will wear a Guardian RT for 6 days (+1 day)
prior to the test to assess episodes of hypoglycemia.
3. To examine the accuracy of the Guardian-RT during hypoglycemia in children with type 1
diabetes.
Beginning the Study
When a child enters the study, the following will be done:
1. Informed consent is obtained from eligible subjects (age 3 to <7 or 12 to <18 years,
T1D for >1 year, insulin pump being used).
2. On the day of enrollment a hemoglobin A1c is obtained and instructions are given for
use of the Guardian RT. The study personnel will supervise the subject or parent
inserting the sensor in the clinic. The subject will be instructed to complete at least
four glucose measurements a day using the study HGM. Instructions will also be given
for response to Guardian RT alarms prior to the CRC admission.
3. The subject will return for an 18-hour overnight CRC admission approximately 6 days (+
1 day) after the enrollment visit.
- Subjects will continue using the Guardian RT sensor inserted prior to the
admission.
- For subjects of sufficient size to accommodate additional devices, a second
Guardian-RT sensor will be inserted. An intravenous catheter will be inserted for
reference measurements (glucose, epinephrine, norepinephrine, cortisol, glucagon
and GH), which will be drawn during the subcutaneous insulin infusion test the
following morning to send to a central laboratory.
- For subjects of sufficient weight (subjects >14.9kg at reinfusion centers and
>26.3kg at discard centers) to accommodate the volume of blood required, blood
glucose measurements will be made every 30 minutes during the admission to allow
for assessment of the accuracy of the Guardian-RT.
- For subjects of sufficient weight to accommodate the volume of blood required,
blood glucose measurements will be made every 15 minutes for two hours after
dinner. This will allow for assessment of the accuracy of the Guardian-RT in
detecting change during a period of rising blood glucose.
- At approximately 8:00 a.m. the subcutaneous insulin infusion test will start.
- Prior to starting the test, a HypoMon® may be placed around the subject's
chest using an adjustable strap.
- The glucose concentration as measured by the study HGM must be >110 mg/dL to
start the test.
- At the start of the test, the basal insulin rate will be increased by
approximately 25-50% to provide a gradual decline in blood glucose. A small
priming bolus dose of insulin equal to approximately one hour of the
subject's usual basal dose may also be given at the discretion of the
investigator in addition to the 25-50% increase in the basal insulin.
- The basal insulin rate may be increased an additional amount and additional
bolus insulin doses may be given at the discretion of the investigator in
order to get a gradual decline in the glucose concentration.
- Blood samples will be collected for the laboratory and glucose will be
checked with the study HGM with venous blood every 15 minutes until the
glucose level reaches 100 mg/dL. Thereafter, the study HGM will be used to
check the glucose levels with venous blood every 5-10 minutes depending on
the rate of fall of the glucose level until the end of the study.
- Blood samples will be collected for laboratory determination of hormone
concentrations at baseline (before increasing the insulin infusion) and when
the glucose levels are <90, <80, <70, and <60 mg/dL.
- Subjects (or parent if appropriate) will be asked questions regarding
symptoms of hypoglycemia each time the glucose level is checked with the
study HGM.
- Once the endpoint is reached (the first time the glucose is <60 mg/dL using
the study HGM), the basal rate will be returned to normal, the subjects will
be treated with intravenous glucose and breakfast will be provided.
4. Prior to discharge, the sensors will be removed and downloaded and the subject's
insulin pump will be downloaded if possible
About 6 days (+1 day) following the enrollment visit, subjects will have an inpatient CRC
admission of approximately 18 hours. Subjects will be admitted at approximately 3:00 PM to
allow sufficient time to calibrate the sensors before dinner is provided.
- Areas where a Guardian RT sensor was worn during the first week will be assessed by
study personnel for any skin irritation.
- The Guardian RT, HGM, and pump data from the previous week will be reviewed and changes
will be made to diabetes management as needed.
- Subjects will continue using the Guardian RT sensor last inserted at home. If the
sensor is not functioning properly, a new sensor will be inserted.
- For subjects of sufficient size, an additional Guardian-RT sensor will be inserted and
calibrated approximately two hours later. An intravenous catheter will be inserted in
an arm vein for collection of blood samples during the admission. The area where the
catheter will be inserted may be numbed with Elamax or EMLA cream prior to catheter
insertion.
Once the study endpoint is reached (the first time the glucose is <60 mg/dL using the study
HGM), the basal rate will be returned to normal and the subjects will be treated with
intravenous glucose. An additional blood sample will be collected for laboratory
determination of glucose and hormone concentrations 15 minutes following the treatment with
intravenous glucose. Subjects will then be given breakfast and discharged. Prior to
discharge, the sensor(s) will be removed and downloaded. The subject's insulin pump will be
downloaded if possible.
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