Central Precocious Puberty (CPP) affects 1 in 5000 to 1 in 10,000 children, occurring 5 to 10 times more frequently in girls than in boys. The condition results from early activation of the hypothalamic-pituitary-gonadal axis before age 8 in girls and age 9 in boys. Key clinical signs include breast development in girls and testicular enlargement in boys, distinguishing true CPP from isolated adrenarche symptoms such as body odor or pubic hair. Although only 10% of girls have underlying pathology causing CPP, 50% to 70% of boys require extensive workup to identify potential causes. Primary care providers should refer patients showing early pubertal signs, growth acceleration, or concerning physical examination findings to pediatric endocrinologists for comprehensive evaluation.
Treatment centers on gonadotropin-releasing hormone agonist (GnRHA) therapies, which effectively suppress pubertal progression and preserve final adult height. Current options include intramuscular leuprolide acetate (1-, 3-, or 6-month formulations), subcutaneous leuprolide acetate (6-month), histrelin acetate implants (lasting 2-3 years), and triptorelin pamoate (6-month). Treatment selection depends on family preferences, needle phobia considerations, insurance coverage, and individual patient factors. These medications demonstrate excellent safety profiles, with common adverse effects including mild injection site reactions, occasional breakthrough bleeding, and temporary growth velocity reduction. Long-term study data show no adverse effects on bone density, fertility, or reproductive function.
The psychosocial impact of CPP extends beyond physical changes, with early menarche linked to increased rates of depression, behavioral problems, and reduced academic achievement. Early diagnosis and treatment help prevent children from feeling different from peers and facing age-inappropriate expectations. Future therapeutic developments include 12-month formulations, oral GnRH antagonists, and personalized medicine approaches targeting specific genetic mutations such as MKRN3 and kisspeptin genes. Treatment timing has evolved, with recent evidence supporting intervention benefits even in older children with bone ages up to 12 years, emphasizing individualized care over rigid age cutoffs.