Introduction: Anxiety disorders have a lifetime prevalence of 34% with a similar level of heritability (31%) yet lack objective markers that could differentiate patients with underlying conditions. Up to 60%-70% of pa...Introduction: Anxiety disorders have a lifetime prevalence of 34% with a similar level of heritability (31%) yet lack objective markers that could differentiate patients with underlying conditions. Up to 60%-70% of patients with Ehlers-Danlos syndrome have anxiety that meets criteria of generalized anxiety disorder, their clinical-DNA findings worth examining as biomarkers for patients with generalized anxiety. Method: Of the 1899 patients diagnosed with Ehlers-Danlos syndrome, 1261 were systematically evaluated for 80 history and 40 physical findings and separated into 826 who reported anxiety and 435 who did not. The most consistently reported or management-directing 60 of these clinical findings were, along with variations in genes relevant to these disorders, examined for association with anxiety. Results: Among the 30 anxiety- associated findings judged most predictive of Ehlers-Danlos syndrome in patients with anxiety were expected ones of adrenergic stimulation (difficulty concentrating-87% frequency and 1.26 anxiety/no anxiety ratio;chronic fatigue-84%, 1.17;sleep issues 69%, 1.52 that are criteria for generalized anxiety disorder) or of cholinergic suppression (e.g., frequent nausea 64%, 1.26). Less associated but more discriminating for underlying disease were those reflective of neuromuscular impact (e.g., chronic daily headaches 76%, 1.12);hypermobility (e.g., awareness of flexibility 72%, 1.03), or skin changes (e.g., elasticity around jaw 71%, 1.06). Anxiety-associated DNA variants included 54 of 88 in collagen type I/V/VII/IX genes, 14 of 16 in sodium channel SCN9A/10A/ 11A genes, 59 of 85 in POLG/MT-DNA genes, and 21 of 28 in profilaggrin- FLG genes that respectively impacted tissue laxity, sensory neural, autonomic-mitochondrial, and autonomic-inflammatory functions. Conclusion: Analysis of pathogenetic mechanisms in Ehlers-Danlos syndrome selected some 50 clinical-DNA findings useful for its diagnosis in those with generalized anxiety disorders.展开更多
Purpose: To alert the medical community that whole exome sequencing can find accessory gene changes in well-known syndromes that alter preventive health care and management. Meaning: A collagen type VI gene change add...Purpose: To alert the medical community that whole exome sequencing can find accessory gene changes in well-known syndromes that alter preventive health care and management. Meaning: A collagen type VI gene change adds muscle weakness, hypermobility, and dysautonomia concerns to usual management considerations for Down syndrome. Methods: Commercial whole exome sequencing combined with clinical interpretation of DNA sequence change added new considerations to patient management and parental counsel. Results: An 11-year-old child with the trisomy 21 form of Down syndrome who was evaluated for extraordinary joint laxity had a heterozygous collagen type VI aspartic to glutamic acid (COL6A3 c.6360 C>G p.Asp2120Glu) gene change found by whole exome sequencing. The DNA variant was qualified as having strong relevance to the enhanced hypermobility due to prior association of collagen 6 gene changes with myopathy. Conclusions: Dual diagnosis of Ehlers-Danlos syndrome was not assigned because the patient lacked criteria like bruising, unusual scars, or selected dysautonomia symptoms. The concept of a hypermobility spectrum offers advantages for management of its constituent conditions if clinically guided ascertainment and DNA diagnostics are employed.展开更多
文摘Introduction: Anxiety disorders have a lifetime prevalence of 34% with a similar level of heritability (31%) yet lack objective markers that could differentiate patients with underlying conditions. Up to 60%-70% of patients with Ehlers-Danlos syndrome have anxiety that meets criteria of generalized anxiety disorder, their clinical-DNA findings worth examining as biomarkers for patients with generalized anxiety. Method: Of the 1899 patients diagnosed with Ehlers-Danlos syndrome, 1261 were systematically evaluated for 80 history and 40 physical findings and separated into 826 who reported anxiety and 435 who did not. The most consistently reported or management-directing 60 of these clinical findings were, along with variations in genes relevant to these disorders, examined for association with anxiety. Results: Among the 30 anxiety- associated findings judged most predictive of Ehlers-Danlos syndrome in patients with anxiety were expected ones of adrenergic stimulation (difficulty concentrating-87% frequency and 1.26 anxiety/no anxiety ratio;chronic fatigue-84%, 1.17;sleep issues 69%, 1.52 that are criteria for generalized anxiety disorder) or of cholinergic suppression (e.g., frequent nausea 64%, 1.26). Less associated but more discriminating for underlying disease were those reflective of neuromuscular impact (e.g., chronic daily headaches 76%, 1.12);hypermobility (e.g., awareness of flexibility 72%, 1.03), or skin changes (e.g., elasticity around jaw 71%, 1.06). Anxiety-associated DNA variants included 54 of 88 in collagen type I/V/VII/IX genes, 14 of 16 in sodium channel SCN9A/10A/ 11A genes, 59 of 85 in POLG/MT-DNA genes, and 21 of 28 in profilaggrin- FLG genes that respectively impacted tissue laxity, sensory neural, autonomic-mitochondrial, and autonomic-inflammatory functions. Conclusion: Analysis of pathogenetic mechanisms in Ehlers-Danlos syndrome selected some 50 clinical-DNA findings useful for its diagnosis in those with generalized anxiety disorders.
文摘Purpose: To alert the medical community that whole exome sequencing can find accessory gene changes in well-known syndromes that alter preventive health care and management. Meaning: A collagen type VI gene change adds muscle weakness, hypermobility, and dysautonomia concerns to usual management considerations for Down syndrome. Methods: Commercial whole exome sequencing combined with clinical interpretation of DNA sequence change added new considerations to patient management and parental counsel. Results: An 11-year-old child with the trisomy 21 form of Down syndrome who was evaluated for extraordinary joint laxity had a heterozygous collagen type VI aspartic to glutamic acid (COL6A3 c.6360 C>G p.Asp2120Glu) gene change found by whole exome sequencing. The DNA variant was qualified as having strong relevance to the enhanced hypermobility due to prior association of collagen 6 gene changes with myopathy. Conclusions: Dual diagnosis of Ehlers-Danlos syndrome was not assigned because the patient lacked criteria like bruising, unusual scars, or selected dysautonomia symptoms. The concept of a hypermobility spectrum offers advantages for management of its constituent conditions if clinically guided ascertainment and DNA diagnostics are employed.
