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Effects of Growth Hormone on Glucose and Protein Metabolism in Children With Growth Hormone Deficiency

Information source: Baylor College of Medicine
ClinicalTrials.gov processed this data on August 23, 2015
Link to the current ClinicalTrials.gov record.

Condition(s) targeted: Growth Hormone Deficiency

Intervention: growth hormone (Nutropin) (Drug)

Phase: N/A

Status: Recruiting

Sponsored by: Baylor College of Medicine

Official(s) and/or principal investigator(s):
Luisa M Rodriguez, Principal Investigator, Affiliation: Baylor College of Medicine

Overall contact:
Luisa M Rodriguez, MD, Phone: 832-822-1002, Email: lrodrigu@bcm.tmc.edu

Summary

The purpose of the proposed study is to investigate the effects of rhGH treatment on glucose, protein and fat metabolism in GHD children. Specifically, the investigators will measure the rates of glucose production, gluconeogenesis, glycogenolysis, insulin sensitivity and glucagon response before and after treatment with rhGH. In addition, the investigators will study changes in protein and fat metabolism pre and post rhGH therapy in children with GHD. The findings in the GHD children will be compared to those of a control group of age and sex matched healthy children. Hypotheses: H1- The fraction of glucose derived from gluconeogenesis is decreased and that from glycogenolysis is increased in the post-absorptive state in untreated GHD children when compared to healthy children. H2- Treatment with rhGH will not change the overall glucose turnover but will normalize the abnormal partitioning of gluconeogenesis and glycogenolysis in GHD children. H3- GH replacement will reduce urea production and increase estimates of protein synthesis, thus optimizing the availability of amino acids for growth. H4- Untreated children with GHD after an overnight fast will have an increased glucagon challenge response that will decrease after 8 weeks of treatment with rhGH. Specific Aims: In healthy and newly diagnosed GHD children the investigators will: 1. Measure the Glucose Production Rate (GPR) 2. Determine the fraction of glucose derived from gluconeogenesis and glycogenolysis 3. Estimate insulin sensitivity 4. Measure proteolysis and protein oxidation 5. Determine glucagon challenge response after an overnight fast. The above-mentioned parameters will be re-evaluated in the children with GHD after 8 weeks of rhGH therapy.

Clinical Details

Official title: Effects of Growth Hormone on Glucose and Protein Metabolism in Children With Growth Hormone Deficiency

Study design: Allocation: Non-Randomized, Endpoint Classification: Pharmacodynamics Study, Intervention Model: Parallel Assignment, Masking: Open Label, Primary Purpose: Diagnostic

Primary outcome: Glucose Production rate,Gluconeogenesis, glycogenolysis.

Secondary outcome:

Insulin resistance

Proteolysis

Glucagon response

Detailed description: Children with growth hormone deficiency (GHD) have increased insulin sensitivity and may present with hypoglycemia during infancy. Treatment with recombinant human growth hormone (rhGH) reduces the risk for hypoglycemia and decreases insulin sensitivity. The investigators hypothesize, that GHD causes a decrease in the fraction of glucose derived form gluconeogenesis and conversely glycogenolysis and insulin sensitivity will be increased, when GHD children are compared to healthy controls. The investigators anticipate that total glucose production will be unaffected by rhGH therapy. Therefore, the GDH subjects treated with rhGH for 8 weeks will have an increase in the fraction of glucose derived form gluconeogenesis and a decrease in that form glycogenolysis and decreased insulin sensitivity. To test this hypothesis, 10 healthy and 10 GHD children will be studied using the stable isotope [U-13C] glucose and Mass Isotopes Distribution Analysis (MIDA). The investigators will be specifically measuring the rate of glucose production, gluconeogenesis, glycogenolysis, insulin sensitivity and glucagon response after an overnight fast. In addition, the investigators will measure changes in protein oxidation, proteolysis and fat metabolism using the stable isotopes [15N2] urea, [1-13C] leucine and concentrations of free fatty acids and b-hydroxybutyrate. The GHD group will be studied at the time of diagnosis and after 8 weeks of rhGH.

Eligibility

Minimum age: 1 Month. Maximum age: 17 Years. Gender(s): Both.

Criteria:

Inclusion Criteria: The study population will consist of children with newly diagnosed growth hormone deficiency (GHD), between the ages of 1-17 years. The clinical evidence will be provided by one or more of the following criteria: delayed bone age, growth deceleration, short stature (more than 2 SD bellow the mean for the subject's age) and/ or height more than1. 5 SD below the predicted mid-parental height. The biochemical diagnosis of GHD will be established by an abnormal growth hormone stimulation test and low IGF-1 and IGFBP-3 (growth factors). The growth hormone stimulation test will be performed following the standard Endocrinology Clinic protocol. The growth hormone stimulation test is considered the "gold standard" to diagnose Growth Hormone Deficiency. This test is part of the standard clinical practice to diagnosed GHD. An abnormal test is defined as a post stimulation Growth Hormone level less than10 ng/mL. The control group will include healthy children between the ages of 1-17 years, not taking any medication with a normal weight for height and growth factors (IGF-1 and IGFBP-3)." Exclusion Criteria: The exclusion criteria will include for both groups age less than 1 or more than 17 y/o, evidence of anemia (hemoglobin less tan 12 mg/dl), the use of medications that can directly impact blood sugar (steroids, oral contraceptives etc), history or proof of chemical abuse, lack of supportive family environment, allergies to local anesthetics and elevated liver enzymes. The GHD children will have a head MRI, and children with evidence of tumors or space occupying lesions will be excluded. GHD subjects with adrenal insufficiency and or hypothyroidism. will not be considered for the study.

Locations and Contacts

Luisa M Rodriguez, MD, Phone: 832-822-1002, Email: lrodrigu@bcm.tmc.edu

Baylor College of Medicine, Houston, Texas 77030, United States; Recruiting
Lori C Malone, MS, Phone: 832-822-3784, Email: lmalone@bcm.tmc.edu
Luisa M Rodriguez, MD, Principal Investigator
Additional Information

Starting date: January 2006
Last updated: December 21, 2010

Page last updated: August 23, 2015

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