Brief Summary
Intensive glucose control in type 1 diabetes mellitus (T1DM) is associated with clear health benefits. However, despite development of insulin analogs, pump/multi-dose treatment and continuous glucose monitoring, maintaining near-normal glycemia remains an elusive goal for most patients, in large part owing to the risk of hypoglycemia. T1DM patients are susceptible to hypoglycemia due to defective counterregulatory responses (CR) characterized by: 1) deficient glucagon release during impending/early hypoglycemia; 2) additional hypoglycemia-associated autonomic failure (HAAF) and exercise-associated autonomic failure (EAAF) that blunt the sympathoadrenal responses to hypoglycemia following repeated episodes of hypoglycemia or exercise as well as degrading other CR; and 3) hypoglycemia unawareness (HU), lowering the threshold for symptoms that trigger behavioral responses (e.g. eating). Thus, the risk of hypoglycemia in T1DM impedes ideal insulin treatment and leads to defaulting to suboptimal glycemic control. There are two approaches that could resolve this important clinical problem: 1) perfection of glucose sensing and insulin and glucagon delivery approaches (bioengineered or cell-based) that mimic normal islet function and precisely regulate glucose continuously, or 2) a drug to enhance or normalize the pattern of CR to hypoglycemia. Despite much research and important advances in the field, neither islet transplantation nor biosensor devices have emerged as viable long-term solutions for the majority of patients. Over the past several years, the Diabetes Research Center laboratory at Albert Einstein College of Medicine has explored the approach of enhancing CR by examining mechanisms responsible for HAAF/EAAF and searching for potential pharmacological methods to modulate the CR to hypoglycemia. The work by the laboratory has led to a paradigm shift in the field of hypoglycemia, exemplified by the novel hypothesis and published experimental data supporting a role for opioid signaling that resulted in the initiation of exploratory clinical trials by other research groups.
Brief Title
Mechanisms of Hypoglycemia Associated Autonomic Failure
Detailed Description
In the prior project period of R01DK079974, the study team elucidated the central role played by the opioid signaling system as a mechanism for the development of HAAF/EAAF. The study team has previously demonstrated that opioid receptor blockade by acute infusion of naloxone during antecedent hypoglycemia can prevent experimentally induced HAAF in nondiabetic and T1DM subjects (JCEM 94:3372-80, 2009; JCEM 96:3424-31, 2011). The study team has also shown that opioid receptor blockade also abolishes EAAF, and that both effects are regulated by the stress response (hypoglycemia and exercise, respectively). Furthermore, activation of μ-opioid receptors with IV infusion of morphine reproduces some of the key biochemical and clinical features of HAAF in nondiabetic humans. Taken together, these studies demonstrate that the opioid system plays a central role in hypoglycemia counterregulation and in HAAF.
NOTE: This ClinicalTrials.gov registration does not include the proposed fructose and exercise interventions described within the Arms/Interventions section. These interventions predate the change in PI and official notice of transfer of the NIH-NIDDK grant on February 06, 2014 and were not conducted. Interventions conducted as part of this study include the independent assessments of Epinephrine and Morphine as part of Aim 1 and assessment of intranasal Naloxone as part of Aim 3: Aim 2 of this protocol was not conducted prior to early termination of the study.
It should be noted that information, including summarized Results data for four of the participants associated with the intranasal naloxone intervention were reported as part of a separate study approved by the IRB under a different study number. For these results, please reference NCT03608163 (ID: 2018-9208).
NOTE: This ClinicalTrials.gov registration does not include the proposed fructose and exercise interventions described within the Arms/Interventions section. These interventions predate the change in PI and official notice of transfer of the NIH-NIDDK grant on February 06, 2014 and were not conducted. Interventions conducted as part of this study include the independent assessments of Epinephrine and Morphine as part of Aim 1 and assessment of intranasal Naloxone as part of Aim 3: Aim 2 of this protocol was not conducted prior to early termination of the study.
It should be noted that information, including summarized Results data for four of the participants associated with the intranasal naloxone intervention were reported as part of a separate study approved by the IRB under a different study number. For these results, please reference NCT03608163 (ID: 2018-9208).
Completion Date
Completion Date Type
Actual
Conditions
Diabetes Mellitus
Hypoglycemia
Autonomic Failure
Eligibility Criteria
Inclusion Criteria:
* Non-diabetic individuals
Exclusion Criteria:
* Hypertension
* Hyperlipidemia
* Heart disease
* Cerebrovascular disease
* Seizures
* Bleeding disorders
* Non-diabetic individuals
Exclusion Criteria:
* Hypertension
* Hyperlipidemia
* Heart disease
* Cerebrovascular disease
* Seizures
* Bleeding disorders
Inclusion Criteria
Inclusion Criteria:
* Non-diabetic individuals
* Non-diabetic individuals
Gender
All
Gender Based
false
Keywords
Diabetes
Hypoglycemia
HAAF
Counterregulation
Healthy Volunteers
No
Last Update Post Date
Last Update Post Date Type
Actual
Last Update Submit Date
Maximum Age
60 Years
Minimum Age
21 Years
NCT Id
NCT00678145
Org Class
Other
Org Full Name
Albert Einstein College of Medicine
Org Study Id
2012-665
Overall Status
Terminated
Phases
Phase 2
Primary Completion Date
Primary Completion Date Type
Actual
Official Title
Mechanisms of Hypoglycemia Associated Autonomic Failure
Primary Outcomes
Outcome Description
EGP response after antecedent morphine administration was assessed in the Morphine Sulfate vs Matched Placebo study. EGP response is a measure of how the body produces glucose from substrates to maintain blood sugar levels, particularly during fasting. Morphine was administered on Day 1 followed by a stepped hypoglycemia clamp (i.e., euglycemia → 90 mg/dl → 80 mg/dl → 70 mg/dl → 60 mg/dl) on Day 2. EGP response rate is reported in milligrams/kilograms/minute (mg/kg/min) and results are summarized and reported by study arm using basic descriptive statistics. Data from the final hour of the 3rd clamp episode were averaged/reported.
Outcome Measure
Endogenous Glucose Production (EGP) Response Rate - Morphine Sulfate Study
Outcome Time Frame
Obtained every 15 minutes during the 1st and 3rd 2-hour hypoglycemic episodes (on Day 1 and Day 2), crossover visits up to ~7 months apart. Data from the final hour of the 3rd clamp episode were averaged/reported.
Outcome Description
For the Naloxone vs Matched Placebo study, EGP, a measure of the body's production of sugar, was assessed by determining the Glucose Infusion Rate (GIR) an indirect measure of endogenous glucose production, during the first and third hypoglycemic clamp episodes. GIR is reported in cubic centimeters/minute (cc/min) and results are summarized and reported by study arm using basic descriptive statistics.
Outcome Measure
Endogenous Glucose Production (EGP) Via Glucose Infusion Rate - Naloxone Study
Outcome Time Frame
Obtained every 15 minutes during the 1st and 3rd 2-hour hypoglycemic episodes (on Day 1 and Day 2), crossover visits up to ~5 months apart. Data from the five timepoints over the final hour of the 1st and 3rd clamp episodes were averaged/reported.
Outcome Description
EGP response after antecedent epinephrine administration was assessed in the Epinephrine vs Matched Epinephrine study. EGP response, a measure of how the body produces glucose from substrates to maintain blood sugar levels, was assessed during the final hypoglycemic clamp episode. EGP at the major nadir at the 60 mg/dL, during the last 10 minutes of the 3rd clamp episode, is reported in milligrams per kilogram per minute (mg/kg/min) and results are summarized and reported by study arm using basic descriptive statistics. Data from the final hour of the 3rd clamp episode were averaged/reported
Outcome Measure
Endogenous Glucose Production (EGP) Response Rate - Epinephrine Study
Outcome Time Frame
Obtained every 15 minutes during the 1st and 3rd 2-hour hypoglycemic episodes (on Day 1 and Day 2), crossover visits up to ~19 months apart. Data from the final hour of the 3rd clamp episode were averaged/reported.
Outcome Description
Counterregulatory response to hypoglycemia was assessed for the Morphine Sulfate study by quantifying peak plasma responses to three episodes of induced hypoglycemia over two days: two, 2-hour episodes of moderate hyper-insulinemic, hypoglycemic clamp studies (target glucose 54 mg/dL), separated by a 2-hour break with a small snack, on Day 1, followed by a third, comparable hypoglycemic episode on Day 2. Group mean results are summarized for the Morphine Sulfate arm and Matched Placebo arm.
Outcome Measure
Counterregulatory Response to Hypoglycemia - Morphine Sulfate Study
Outcome Time Frame
Approximately 2 Days following intervention (Day 1 and Day 2), crossover visits up to ~7 months apart.
Outcome Description
Counterregulatory response to hypoglycemia was assessed for the Naloxone study by quantifying peak plasma responses to three episodes of induced hypoglycemia over two days: two, 2-hour episodes of moderate hyper-insulinemic, hypoglycemic clamp studies (target glucose 54 mg/dL), separated by a 2-hour break with a small snack, on Day 1, followed by a third, comparable hypoglycemic episode on Day 2. The second challenge on Day 1 was conducted to assess the impact of the third episode for informational purposes only but was not reported. Group mean results are summarized for the 1st and 3rd episodes in the Naloxone arm and Matched Placebo arm.
Outcome Measure
Counterregulatory Response to Hypoglycemia - Naloxone Study
Outcome Time Frame
Approximately 2 Days following intervention (Day 1 and Day 2), crossover visits up to ~5 months apart.
Outcome Description
Counterregulatory response to hypoglycemia was assessed for the Epinephrine study by quantifying peak plasma epinephrine level responses to three episodes of induced hypoglycemia over two days: two, 2-hour episodes of moderate hyper-insulinemic, hypoglycemic clamp studies (target glucose 60 mg/dL), separated by a 2-hour break with a small snack, on Day 1, followed by a third, comparable hypoglycemic episode on Day 2. Group mean results are summarized for the Epinephrine arm and Matched Placebo arm.
Outcome Measure
Counterregulatory Response to Hypoglycemia - Epinephrine Study
Outcome Time Frame
Approximately 2 Days following intervention (Day 1 and Day 2), crossover visits up to ~19 months apart.
Outcome Description
Hypoglycemic Symptom Scores were evaluated using the Edinburgh Hypoglycemia Symptom Scale (EHSS). The EHSS is an instrument to evaluate patients' experiences of symptoms in a typical hypoglycemic episode. It is comprised of 11 symptoms within 3 domains: Neuroglycopenic (i.e., confusion, drowsiness, odd behavior, speech difficulty, and incoordination), Autonomic (i.e., sweating, palpitations, shaking, and hunger), and General Malaise (i.e., headaches, nausea); which are evaluated by a 8-point Likert scale ranging from 0 = "Not at all" to 7 = "Very severely." An overall global mean composite score for the 11 symptoms was summed and averaged for each participant during the 3rd hypoglycemic episode on Day 2. Higher scores are indicative of more EHSS symptoms. Group mean values will be reported using basic descriptive statistics.
Outcome Measure
Hypoglycemic Symptom Scores - Morphine Sulfate Study
Outcome Time Frame
Obtained at the end of each hypoglycemic episode on Day 2, crossover visits up to ~19 months apart. Summarized mean values for each participant during the 3rd hypoglycemic episode on Day 2 are reported
Outcome Description
Hypoglycemic Symptom Scores were evaluated using the Edinburgh Hypoglycemia Symptom Scale (EHSS). The EHSS is an instrument to evaluate patients' experiences of symptoms in a typical hypoglycemic episode. It is comprised of 11 symptoms within 3 domains: Neuroglycopenic (i.e., confusion, drowsiness, odd behavior, speech difficulty, and incoordination), Autonomic (i.e., sweating, palpitations, shaking, and hunger), and General Malaise (i.e., headaches, nausea); which are evaluated by a 8-point Likert scale ranging from 0 = "Not at all", to 7 = "Very severely." An overall global mean composite score for the 11 symptoms was summed and averaged for each participant during the 3rd hypoglycemic episode on Day 2. Higher scores are indicative of more EHSS symptoms. Group mean values will be reported using basic descriptive statistics.
Outcome Measure
Hypoglycemic Symptom Scores - Naloxone Study
Outcome Time Frame
Obtained at the end of each hypoglycemic episode on Day 2, crossover visits up to ~19 months apart. Summarized mean values for each participant during the 3rd hypoglycemic episode on Day 2 are reported
Outcome Description
Hypoglycemic Symptom Scores were evaluated using the Edinburgh Hypoglycemia Symptom Scale (EHSS). The EHSS is an instrument to evaluate patients' experiences of symptoms in a typical hypoglycemic episode. It is comprised of 11 symptoms within 3 domains: Neuroglycopenic (i.e., confusion, drowsiness, odd behavior, speech difficulty, and incoordination), Autonomic (i.e., sweating, palpitations, shaking, and hunger), and General Malaise (i.e., headaches, nausea); which are evaluated by a 7-point Likert scale ranging from 1 = "Not at all", to 7 = "Very severely." An overall global mean composite score for the 11 symptoms was summed and averaged for each participant during the 3rd hypoglycemic episode on Day 2. Higher scores are indicative of more EHSS symptoms. Group mean values will be reported using basic descriptive statistics.
Outcome Measure
Hypoglycemic Symptom Scores - Epinephrine Study
Outcome Time Frame
Obtained at the end of each hypoglycemic episode on Day 2, crossover visits up to ~19 months apart. Summarized mean values for each participant during the 3rd hypoglycemic episode on Day 2 are reported
Secondary Ids
Secondary Id
R01DK079974
Start Date
Start Date Type
Actual
Status Verified Date
First Post Date
First Post Date Type
Estimated
First Submit Date
First Submit QC Date
Std Ages
Adult
Maximum Age Number (converted to Years and rounded down)
60
Minimum Age Number (converted to Years and rounded down)
21
Investigators
Investigator Type
Principal Investigator
Investigator Name
Meredith Hawkins
Investigator Email
meredith.hawkins@einsteinmed.org
Investigator Phone
718-430-3186
Categories Mesh Debug
Diabetes --- DIABETES MELLITUS
Diabetes & Endocrine System --- DIABETES MELLITUS
Diabetes --- GLUCOSE METABOLISM DISORDERS
Diabetes & Endocrine System --- GLUCOSE METABOLISM DISORDERS
Diabetes --- METABOLIC DISEASES
Diabetes & Endocrine System --- METABOLIC DISEASES
Diabetes --- ENDOCRINE SYSTEM DISEASES
Diabetes & Endocrine System --- ENDOCRINE SYSTEM DISEASES
Brain, Spinal Cord & Nervous System --- NERVOUS SYSTEM DISEASES
MeSH Terms
DIABETES MELLITUS
HYPOGLYCEMIA
PURE AUTONOMIC FAILURE
GLUCOSE METABOLISM DISORDERS
METABOLIC DISEASES
NUTRITIONAL AND METABOLIC DISEASES
ENDOCRINE SYSTEM DISEASES
PRIMARY DYSAUTONOMIAS
AUTONOMIC NERVOUS SYSTEM DISEASES
NERVOUS SYSTEM DISEASES
NALOXONE
FRUCTOSE
INSULIN
EXERCISE
MORPHINE
EPINEPHRINE
MORPHINANS
OPIATE ALKALOIDS
ALKALOIDS
HETEROCYCLIC COMPOUNDS
HETEROCYCLIC COMPOUNDS, BRIDGED-RING
HETEROCYCLIC COMPOUNDS, 4 OR MORE RINGS
HETEROCYCLIC COMPOUNDS, FUSED-RING
PHENANTHRENES
POLYCYCLIC AROMATIC HYDROCARBONS
POLYCYCLIC COMPOUNDS
HEXOSES
MONOSACCHARIDES
SUGARS
CARBOHYDRATES
KETOSES
PROINSULIN
INSULINS
PANCREATIC HORMONES
PEPTIDE HORMONES
HORMONES
HORMONES, HORMONE SUBSTITUTES, AND HORMONE ANTAGONISTS
PEPTIDES
AMINO ACIDS, PEPTIDES, AND PROTEINS
MOTOR ACTIVITY
MOVEMENT
MUSCULOSKELETAL PHYSIOLOGICAL PHENOMENA
MUSCULOSKELETAL AND NEURAL PHYSIOLOGICAL PHENOMENA
MORPHINE DERIVATIVES
ETHANOLAMINES
AMINO ALCOHOLS
ALCOHOLS
ORGANIC CHEMICALS
AMINES
BIOGENIC MONOAMINES
BIOGENIC AMINES
CATECHOLAMINES
CATECHOLS
PHENOLS
BENZENE DERIVATIVES
HYDROCARBONS, AROMATIC
HYDROCARBONS, CYCLIC
HYDROCARBONS