Adolescent Depression Clinical Trial
Official title:
Bone Mineral Content and Bone Metabolism in Adolescents on Antipsychotic Therapy
We hypothesize that antipsychotic induced hyperprolactinemia can decrease bone mineral
accrual and decrease bone mineral content (BMC) in adolescents on antipsychotic therapy.
Specifics Aims
1. To determine if antipsychotic therapy leads to decreased bone mineral accrual and
decreased bone mineral content in a group of adolescents on antipsychotic therapy by
comparing them to an ethnicity, gender and pubertal stage matched control group.
2. To determine the relationship between serum concentrations of prolactin, sex steroids
and bone turnover markers in adolescents on antipsychotic therapy and an ethnicity,
gender and pubertal stage matched control group.
Recent studies have shown an increase in antipsychotic prescriptions among children and
adolescents. Virtually all pediatric use of antipsychotics is "off-label," meaning without a
Food and Drug Administration indication. To make matters worse, pediatric antipsychotic
usage can lead to serious side effects like movement disorders and metabolic disturbances.
Hence, it is concerning that despite the virtual absence of long term efficacy and safety
data, the widespread use of antipsychotics in children and adolescents continues. One
important adverse effects of antipsychotic therapy is hyperprolactinemia. Prolactin is a
hormone secreted by the central nervous system. The main action of prolactin in females is
the induction and maintenance of lactation. The main action of prolactin in females is the
induction and maintenance of lactation. Antipsychotic therapy has shown to raise prolactin
levels both, in the adult and pediatric population. Sustained hyperprolactinemia can cause a
number of endocrinological abnormalities leading to a hypogonadal state and eventually bone
demineralization and osteoporosis. There is evidence linking pediatric prolactinomas to
decreased bone density. Also, adult studies suggest that the high rates of osteoporosis in
schizophrenia may result from hypogonadism secondary to antipsychotic induced
hyperprolactinemia. Our concern is that the sequela of antipsychotic induced
hyperprolactinemia in children and adolescents, has received little attention, despite the
important implications for bone health. This topic is especially important because peak bone
mass is achieved during adolescence and is a key determinant of the lifetime risk of
osteoporosis.
We hypothesize that antipsychotic induced hyperprolactinemia can interrupt bone mineral
accrual and reduce bone mineral content in adolescents on antipsychotic therapy. We plan to
measure bone mineral content and peripheral markers of bone metabolism in adolescents on
antipsychotic therapy and compare them with ethnicity, gender and pubertal stage matched
controls. We also plan to measure serum levels of prolactin and other hormonal measures such
as: estradiol, progesterone, testosterone, follicle stimulating hormone, luteinizing hormone
and thyroid function tests in both the groups. Statistical analysis will be performed to
compare bone mineral content between the study and control groups. Additionally, the
association between the hormonal measures and bone mineral content will be determined.
Osteoporosis is a major public health problem. In the United States today, 10 million
individuals already have osteoporosis, and 18 million more have low bone mass, placing them
at an increased risk for this disorder. Optimization of bone health is a process that must
occur throughout the lifespan and factors that influence bone health at all ages are
essential to prevent osteoporosis and its devastating consequences. To date, there are no
published studies, examining the association between antipsychotic induced
hyperprolactinemia and bone mineral content (BMC) and/or risk of osteoporosis in children or
adolescents. Although there have been reports of antipsychotic induced hyperprolactinemia in
both prepubertal and postpubertal children, it has been suggested that post pubertal
children may be at a higher risk of decreased BMC. Thus, we plan to initially study the
effects on adolescents. Potential implications of our research findings include: providing
recommendations for preventing, diagnosing and monitoring bone mineral content/density
during pediatric antipsychotic therapy. Since this is an unexplored area, yet very crucial
field, findings from our study can be expected to have ramifications for clinical practice
within one to two years of project completion.
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Observational Model: Case Control, Time Perspective: Retrospective
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