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Clinical Trial Summary

Serum insulin-like growth factor-I (IGF-I) measurements have been shown to correlate well with growth hormone action and effect, and recent data show that serum IGF-I may be related to safety and efficacy of growth hormone (GH) treatment in patients. Some studies indicate that high IGF-I levels are associated with increased cancer risk, and low IGF-I levels are associated with increased risk for cardiovascular disease. Studies in children also show that the serum IGF-I level is correlated with the change in height score achieved (that is, the higher the IGF-I level, the greater the gain in height). Pediatric endocrinologists have therefore begun to use serum IGF-I levels, in addition to growth rate and weight gain, to adjust the GH dose in treated children.

Although monitoring of serum IGF-I levels is becoming standard of care in patients begin treated with GH, there are few guidelines regarding the actual logistics of adjusting GH dose. As serum IGF-I level has been linked to both safety and efficacy of GH treatment, the ideal practice would be to maintain serum IGF-I levels within a certain target range. The overall goal of our study is to construct a mathematical model which predicts the change in GH dose necessary to achieve a desired change in IGF-I level.

Hypotheses to be tested by our study include the following: IGF-I measurement has a role in optimization of GH therapy; GH dose change to achieve IGF-I changes are predictable; and gender and puberty affect the relationship between dose change and target IGF-I changes.


Clinical Trial Description

The first phase of our study, previously approved by the UCLA IRB in August 2004, involved a retrospective chart review and collection of preexisting data. We analyzed charts of patients who underwent non-weight-based GH dose adjustments preceded and followed by a serum IGF-I level. Data collected included patient's age, gender, height, weight, linear height velocity, pubertal status, GH dose, IGF-I levels, disease condition (i.e., growth hormone deficiency, idiopathic short stature, small-for-gestational age) and recording of any adverse effects. Based on this data collected, we performed statistical analysis of the relationship between GH dose change and change in IGF-I level achieved, and have found that in prepubertal children, there is a significant relationship between the GH dose change and change in corresponding IGF-I level. We have subsequently constructed a mathematical prediction model that allows us to determine the GH dose change necessary to achieve a desired IGF-I level, and in this second phase of our study, we plan to apply this mathematical prediction model prospectively for guiding GH dose adjustments in prepubertal children being treated with GH therapy.

Children being treated with GH are typically followed in the outpatient Endocrinology clinic every 3-4 months, and our practitioners have routinely been obtaining serum IGF-I levels (via venipuncture in the outpatient laboratory) for monitoring purposes. Validation of our GH dose change/IGF-I change prediction model will require assessment of sequential serum IGF-I level measurements immediately preceding a GH dose change, and again within 1-4 months following the GH dose change. We plan to continue our retrospective and ongoing analysis of patients who have paired values of GH dose adjustments preceded and followed by a serum IGF-I level, in order that we may continue to fine-tune our prediction model for optimizing GH dose adjustments. ;


Study Design

Observational Model: Case-Only, Time Perspective: Retrospective


Related Conditions & MeSH terms


NCT number NCT00263445
Study type Observational
Source University of California, Los Angeles
Contact
Status Terminated
Phase Phase 1/Phase 2
Start date August 2004
Completion date July 2012

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