The Comprehensive Genetic Test for Monogenic Obesity utilizes next-generation sequencing (NGS) to examine 41 genes associated with monogenic and syndromic forms of obesity. It is a targeted gene panel specifically designed to support accurate diagnosis, risk assessment, and prevention.
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The Comprehensive Genetic Test for Monogenic Obesity is a specialized genetic test designed to detect mutations in genes that cause rare, inherited forms of obesity resulting from single-gene defects. Unlike common obesity, which is typically multifactorial and influenced by environmental, behavioral, and polygenic factors, monogenic obesity is caused by mutations that disrupt appetite regulation, energy balance, or fat storage and metabolism. This form of obesity often presents in early childhood, is severe and resistant to standard interventions such as diet and exercise, and may be accompanied by hyperphagia (excessive hunger), endocrine abnormalities, or developmental features.
The comprehensive genetic test for monogenic obesity targets a broad set of genes implicated in energy homeostasis and hypothalamic signaling pathways that regulate satiety and metabolism. These include LEP, LEPR, MC4R, PCSK1, POMC, SIM1, BDNF, and SH2B1, among others. Mutations in these genes can impair the central regulation of appetite and body weight by altering leptin signaling, melanocortin pathways, or neuroendocrine function. When pathogenic variants are identified, a molecular diagnosis is established, enabling precise classification of the obesity subtype and informing targeted clinical management.
Individuals with monogenic obesity typically exhibit early-onset, rapid weight gain, often within the first years of life, despite normal or restricted caloric intake. In some cases, additional features may be present, including adrenal insufficiency (POMC or PCSK1 mutations), hypogonadism, intellectual disability, or dysmorphic features, depending on the affected gene. The identification of the underlying genetic cause supports personalized interventions and enables consideration of emerging targeted therapies, such as melanocortin-4 receptor (MC4R) agonists in MC4R-related cases.
The comprehensive genetic test for monogenic obesity is particularly valuable when obesity appears disproportionate to lifestyle factors, is associated with endocrine or developmental anomalies, or runs in families in a Mendelian inheritance pattern. In these contexts, early genetic diagnosis not only enables more accurate treatment decisions but also provides vital prognostic insights and reproductive counseling options. Family members may also benefit from carrier testing or predictive screening.
By identifying the specific molecular mechanisms driving the disorder, the comprehensive genetic test for monogenic obesity facilitates a precision medicine approach to care. It improves the ability to distinguish monogenic from common obesity, optimizes patient outcomes through tailored therapy, and contributes to a deeper understanding of the biological basis of severe obesity in pediatric and adult populations.
The test is performed in a clinical laboratory accredited to ISO 15189 and certified by CLIA and CAP, ensuring the validity, accuracy and international recognition of the results.
