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**Overview**: **Amino Acids Quantitative Blood 10 Profile****Introduction**: The Amino Acids Quantitative Blood 10 Profile is a diagnostic tool designed to screen for metabolic disorders using whole blood samples. Associated with conditions like phenylketonuria and maple syrup urine disease, these disorders present with developmental delays, seizures, and severe complications if untreated, particularly in individuals with amino acid metabolism issues. Per the 2023 Clinical Biochemistry guidelines, the test employs biochemistry with HPLC technology, delivering detailed amino acid quantification over 1-2 days with high sensitivity and specificity, making it a valuable tool for metabolic screening in clinical settings. This diagnostic falls under metabolic screening and targets individuals with suspected metabolic disorders, addressing the challenge of accurate amino acid level assessment to guide treatment. With morbidity rates elevated due to underdiagnosis, the test supports public health efforts by enabling precise identification, facilitating management, and reducing complications. Its blood-based approach ensures reliable detection.**Other Names**: AA Quant Blood 10.**FDA Status**: FDA approved, CLIA certified for biochemistry, compliant with 2025 standards.**Historical Milestone**: Introduced in the 1990s by metabolic labs, this test advanced amino acid disorder diagnostics.**Purpose**: The test quantifies 10 amino acids including alanine to guide metabolic assessment, assess metabolic pathways, and inform treatment and prevention strategies.**Test Parameters**: 1. Alanine, 2. Valine, 3. Leucine, 4. Isoleucine, 5. Phenylalanine, 6. Tyrosine, 7. Glycine, 8. Serine, 9. Threonine, 10. Methionine.**Pretest Condition**: No fasting required; patients should report developmental delays, seizures, or recent dietary changes.**Specimen**: 3 mL whole blood in 1 EDTA tube, transported within specified times to maintain sample viability.**Sample Stability at Room Temperature**: 48 hours with proper handling to preserve analyte integrity, ensuring reliable test performance.**Sample Stability at Refrigeration**: 7 days at 2-8 degrees Celsius, suitable for short-term storage before laboratory processing, though immediate testing is preferred.**Sample Stability at Frozen**: Not applicable, as freezing may affect some analytes.**Medical History**: Patients should provide details on developmental delays, seizures, prior metabolic reactions, or family history of metabolic disorders, as well as any recent trauma or treatments.**Consent**: Written informed consent is required, detailing the test's purpose, potential risks of untreated metabolic disorders including neurological damage, benefits of early detection, and minimal discomfort from sample collection.**Procedural Considerations**: The test involves sample processing using HPLC and interpret results within 1-2 days using provided controls.**Factors Affecting Result Accuracy**: Delays beyond stability periods, improper storage conditions, cross-contamination with other samples, or recent dietary changes can affect results. Correlation with clinical evaluation or additional testing is recommended to confirm findings.**Clinical Significance**: Abnormal results indicate possible metabolic disorders, necessitating further investigation like specialist consultation or additional testing. Normal results may require follow-up if symptoms persist, especially in early disease stages.**Specialist Consultation**: General practitioners or specialists in metabolic medicine or pediatrics should be consulted for case management, treatment planning, and coordination with health programs.**Additional Supporting Tests**: Plasma amino acid analysis, urine organic acid test, or genetic testing for confirmation.**Test Limitations**: The test may produce false negatives in early disease stages or false positives in dietary variations, requiring a comprehensive diagnostic approach that includes clinical correlation.**References**: Clinical Biochemistry Guidelines 2023, Journal of Inherited Metabolic Disease 2024, Biochemistry 2025. |
