Status: current, Not sufficiently defined by necessary conditions definition status (core metadata concept). Date: 31-Jan 2002. Module: SNOMED CT core
Descriptions:
| Id | Description | Lang | Type | Status | Case? | Module |
| 4945916010 | A rare genetic congenital non-dystrophic myopathy characterised by neonatal or infantile-onset hypotonia and mild to severe generalised muscle weakness. Limb weakness may be greatest in the limb girdle and proximal limb muscles, but weakness is never solely distal. Facial weakness is often present, resulting in a long face, high-arched palate, and tented upper lip. Histologically, there is a characteristic (but not specific) reduction in the caliber of type 1 muscle fibres. Type 1 muscle fibres are predominant compared to type 2 fibres, which are either normal or hypertrophied. Causative mutations have been identified more frequently in 4 genes, ACTA1 (1q42.13), RYR1 (19q13.2), TPM3 (1q21.3), and SELENON (1p36.11). For the majority of cases the pattern of inheritance is either autosomal recessive or autosomal dominant. X-linked inheritance has been reported. | en | Definition | Active | Entire term case sensitive (core metadata concept) | SNOMED CT core |
| 4945917018 | A rare genetic congenital non-dystrophic myopathy characterized by neonatal or infantile-onset hypotonia and mild to severe generalized muscle weakness. Limb weakness may be greatest in the limb girdle and proximal limb muscles, but weakness is never solely distal. Facial weakness is often present, resulting in a long face, high-arched palate, and tented upper lip. Histologically, there is a characteristic (but not specific) reduction in the caliber of type 1 muscle fibers. Type 1 muscle fibers are predominant compared to type 2 fibers, which are either normal or hypertrophied. Causative mutations have been identified more frequently in 4 genes, ACTA1 (1q42.13), RYR1 (19q13.2), TPM3 (1q21.3), and SELENON (1p36.11). For the majority of cases the pattern of inheritance is either autosomal recessive or autosomal dominant. X-linked inheritance has been reported. | en | Definition | Active | Entire term case sensitive (core metadata concept) | SNOMED CT core |
| 359688010 | Congenital myopathy with fibre type disproportion | en | Synonym (core metadata concept) | Active | Entire term case insensitive (core metadata concept) | SNOMED CT core |
| 359689019 | Congenital myopathy with fiber type disproportion | en | Synonym (core metadata concept) | Active | Entire term case insensitive (core metadata concept) | SNOMED CT core |
| 629178018 | Congenital myopathy with fiber type disproportion (disorder) | en | Fully specified name | Active | Entire term case insensitive (core metadata concept) | SNOMED CT core |
| 1457111000005111 | kongenit myopati med fibertypemisforhold | da | Synonym (core metadata concept) | Active | Entire term case insensitive (core metadata concept) | Danish module (core metadata concept) |
| Outbound Relationships | Type | Target | Active | Characteristic | Refinability | Group | Values |
| A rare genetic congenital non-dystrophic myopathy characterised by neonatal or infantile-onset hypotonia and mild to severe generalised muscle weakness. Limb weakness may be greatest in the limb girdle and proximal limb muscles, but weakness is never solely distal. Facial weakness is often present, resulting in a long face, high-arched palate, and tented upper lip. Histologically, there is a characteristic (but not specific) reduction in the caliber of type 1 muscle fibres. Type 1 muscle fibres are predominant compared to type 2 fibres, which are either normal or hypertrophied. Causative mutations have been identified more frequently in 4 genes, ACTA1 (1q42.13), RYR1 (19q13.2), TPM3 (1q21.3), and SELENON (1p36.11). For the majority of cases the pattern of inheritance is either autosomal recessive or autosomal dominant. X-linked inheritance has been reported. | Is a | Myopathy with abnormality of histochemical fibre type | true | Inferred relationship | Some | ||
| A rare genetic congenital non-dystrophic myopathy characterised by neonatal or infantile-onset hypotonia and mild to severe generalised muscle weakness. Limb weakness may be greatest in the limb girdle and proximal limb muscles, but weakness is never solely distal. Facial weakness is often present, resulting in a long face, high-arched palate, and tented upper lip. Histologically, there is a characteristic (but not specific) reduction in the caliber of type 1 muscle fibres. Type 1 muscle fibres are predominant compared to type 2 fibres, which are either normal or hypertrophied. Causative mutations have been identified more frequently in 4 genes, ACTA1 (1q42.13), RYR1 (19q13.2), TPM3 (1q21.3), and SELENON (1p36.11). For the majority of cases the pattern of inheritance is either autosomal recessive or autosomal dominant. X-linked inheritance has been reported. | Finding site | Skeletal muscle structure | true | Inferred relationship | Some | 1 | |
| A rare genetic congenital non-dystrophic myopathy characterised by neonatal or infantile-onset hypotonia and mild to severe generalised muscle weakness. Limb weakness may be greatest in the limb girdle and proximal limb muscles, but weakness is never solely distal. Facial weakness is often present, resulting in a long face, high-arched palate, and tented upper lip. Histologically, there is a characteristic (but not specific) reduction in the caliber of type 1 muscle fibres. Type 1 muscle fibres are predominant compared to type 2 fibres, which are either normal or hypertrophied. Causative mutations have been identified more frequently in 4 genes, ACTA1 (1q42.13), RYR1 (19q13.2), TPM3 (1q21.3), and SELENON (1p36.11). For the majority of cases the pattern of inheritance is either autosomal recessive or autosomal dominant. X-linked inheritance has been reported. | Is a | Disorder of skeletal muscle | false | Inferred relationship | Some | ||
| A rare genetic congenital non-dystrophic myopathy characterised by neonatal or infantile-onset hypotonia and mild to severe generalised muscle weakness. Limb weakness may be greatest in the limb girdle and proximal limb muscles, but weakness is never solely distal. Facial weakness is often present, resulting in a long face, high-arched palate, and tented upper lip. Histologically, there is a characteristic (but not specific) reduction in the caliber of type 1 muscle fibres. Type 1 muscle fibres are predominant compared to type 2 fibres, which are either normal or hypertrophied. Causative mutations have been identified more frequently in 4 genes, ACTA1 (1q42.13), RYR1 (19q13.2), TPM3 (1q21.3), and SELENON (1p36.11). For the majority of cases the pattern of inheritance is either autosomal recessive or autosomal dominant. X-linked inheritance has been reported. | Associated morphology | kongenit anomali | false | Inferred relationship | Some | 1 | |
| A rare genetic congenital non-dystrophic myopathy characterised by neonatal or infantile-onset hypotonia and mild to severe generalised muscle weakness. Limb weakness may be greatest in the limb girdle and proximal limb muscles, but weakness is never solely distal. Facial weakness is often present, resulting in a long face, high-arched palate, and tented upper lip. Histologically, there is a characteristic (but not specific) reduction in the caliber of type 1 muscle fibres. Type 1 muscle fibres are predominant compared to type 2 fibres, which are either normal or hypertrophied. Causative mutations have been identified more frequently in 4 genes, ACTA1 (1q42.13), RYR1 (19q13.2), TPM3 (1q21.3), and SELENON (1p36.11). For the majority of cases the pattern of inheritance is either autosomal recessive or autosomal dominant. X-linked inheritance has been reported. | Occurrence | Congenital | false | Inferred relationship | Some | ||
| A rare genetic congenital non-dystrophic myopathy characterised by neonatal or infantile-onset hypotonia and mild to severe generalised muscle weakness. Limb weakness may be greatest in the limb girdle and proximal limb muscles, but weakness is never solely distal. Facial weakness is often present, resulting in a long face, high-arched palate, and tented upper lip. Histologically, there is a characteristic (but not specific) reduction in the caliber of type 1 muscle fibres. Type 1 muscle fibres are predominant compared to type 2 fibres, which are either normal or hypertrophied. Causative mutations have been identified more frequently in 4 genes, ACTA1 (1q42.13), RYR1 (19q13.2), TPM3 (1q21.3), and SELENON (1p36.11). For the majority of cases the pattern of inheritance is either autosomal recessive or autosomal dominant. X-linked inheritance has been reported. | Finding site | Skeletal muscle structure | false | Inferred relationship | Some | 1 | |
| A rare genetic congenital non-dystrophic myopathy characterised by neonatal or infantile-onset hypotonia and mild to severe generalised muscle weakness. Limb weakness may be greatest in the limb girdle and proximal limb muscles, but weakness is never solely distal. Facial weakness is often present, resulting in a long face, high-arched palate, and tented upper lip. Histologically, there is a characteristic (but not specific) reduction in the caliber of type 1 muscle fibres. Type 1 muscle fibres are predominant compared to type 2 fibres, which are either normal or hypertrophied. Causative mutations have been identified more frequently in 4 genes, ACTA1 (1q42.13), RYR1 (19q13.2), TPM3 (1q21.3), and SELENON (1p36.11). For the majority of cases the pattern of inheritance is either autosomal recessive or autosomal dominant. X-linked inheritance has been reported. | Associated morphology | kongenit anomali | false | Inferred relationship | Some | 1 | |
| A rare genetic congenital non-dystrophic myopathy characterised by neonatal or infantile-onset hypotonia and mild to severe generalised muscle weakness. Limb weakness may be greatest in the limb girdle and proximal limb muscles, but weakness is never solely distal. Facial weakness is often present, resulting in a long face, high-arched palate, and tented upper lip. Histologically, there is a characteristic (but not specific) reduction in the caliber of type 1 muscle fibres. Type 1 muscle fibres are predominant compared to type 2 fibres, which are either normal or hypertrophied. Causative mutations have been identified more frequently in 4 genes, ACTA1 (1q42.13), RYR1 (19q13.2), TPM3 (1q21.3), and SELENON (1p36.11). For the majority of cases the pattern of inheritance is either autosomal recessive or autosomal dominant. X-linked inheritance has been reported. | Occurrence | Congenital | false | Inferred relationship | Some | 2 | |
| A rare genetic congenital non-dystrophic myopathy characterised by neonatal or infantile-onset hypotonia and mild to severe generalised muscle weakness. Limb weakness may be greatest in the limb girdle and proximal limb muscles, but weakness is never solely distal. Facial weakness is often present, resulting in a long face, high-arched palate, and tented upper lip. Histologically, there is a characteristic (but not specific) reduction in the caliber of type 1 muscle fibres. Type 1 muscle fibres are predominant compared to type 2 fibres, which are either normal or hypertrophied. Causative mutations have been identified more frequently in 4 genes, ACTA1 (1q42.13), RYR1 (19q13.2), TPM3 (1q21.3), and SELENON (1p36.11). For the majority of cases the pattern of inheritance is either autosomal recessive or autosomal dominant. X-linked inheritance has been reported. | Associated morphology | dysgenese | false | Inferred relationship | Some | 2 | |
| A rare genetic congenital non-dystrophic myopathy characterised by neonatal or infantile-onset hypotonia and mild to severe generalised muscle weakness. Limb weakness may be greatest in the limb girdle and proximal limb muscles, but weakness is never solely distal. Facial weakness is often present, resulting in a long face, high-arched palate, and tented upper lip. Histologically, there is a characteristic (but not specific) reduction in the caliber of type 1 muscle fibres. Type 1 muscle fibres are predominant compared to type 2 fibres, which are either normal or hypertrophied. Causative mutations have been identified more frequently in 4 genes, ACTA1 (1q42.13), RYR1 (19q13.2), TPM3 (1q21.3), and SELENON (1p36.11). For the majority of cases the pattern of inheritance is either autosomal recessive or autosomal dominant. X-linked inheritance has been reported. | Finding site | Skeletal muscle structure | false | Inferred relationship | Some | 2 | |
| A rare genetic congenital non-dystrophic myopathy characterised by neonatal or infantile-onset hypotonia and mild to severe generalised muscle weakness. Limb weakness may be greatest in the limb girdle and proximal limb muscles, but weakness is never solely distal. Facial weakness is often present, resulting in a long face, high-arched palate, and tented upper lip. Histologically, there is a characteristic (but not specific) reduction in the caliber of type 1 muscle fibres. Type 1 muscle fibres are predominant compared to type 2 fibres, which are either normal or hypertrophied. Causative mutations have been identified more frequently in 4 genes, ACTA1 (1q42.13), RYR1 (19q13.2), TPM3 (1q21.3), and SELENON (1p36.11). For the majority of cases the pattern of inheritance is either autosomal recessive or autosomal dominant. X-linked inheritance has been reported. | Occurrence | Congenital | true | Inferred relationship | Some | 1 | |
| A rare genetic congenital non-dystrophic myopathy characterised by neonatal or infantile-onset hypotonia and mild to severe generalised muscle weakness. Limb weakness may be greatest in the limb girdle and proximal limb muscles, but weakness is never solely distal. Facial weakness is often present, resulting in a long face, high-arched palate, and tented upper lip. Histologically, there is a characteristic (but not specific) reduction in the caliber of type 1 muscle fibres. Type 1 muscle fibres are predominant compared to type 2 fibres, which are either normal or hypertrophied. Causative mutations have been identified more frequently in 4 genes, ACTA1 (1q42.13), RYR1 (19q13.2), TPM3 (1q21.3), and SELENON (1p36.11). For the majority of cases the pattern of inheritance is either autosomal recessive or autosomal dominant. X-linked inheritance has been reported. | Associated morphology | Morphologically abnormal structure | true | Inferred relationship | Some | 1 | |
| A rare genetic congenital non-dystrophic myopathy characterised by neonatal or infantile-onset hypotonia and mild to severe generalised muscle weakness. Limb weakness may be greatest in the limb girdle and proximal limb muscles, but weakness is never solely distal. Facial weakness is often present, resulting in a long face, high-arched palate, and tented upper lip. Histologically, there is a characteristic (but not specific) reduction in the caliber of type 1 muscle fibres. Type 1 muscle fibres are predominant compared to type 2 fibres, which are either normal or hypertrophied. Causative mutations have been identified more frequently in 4 genes, ACTA1 (1q42.13), RYR1 (19q13.2), TPM3 (1q21.3), and SELENON (1p36.11). For the majority of cases the pattern of inheritance is either autosomal recessive or autosomal dominant. X-linked inheritance has been reported. | Pathological process (attribute) | Pathological developmental process | true | Inferred relationship | Some | 1 | |
| A rare genetic congenital non-dystrophic myopathy characterised by neonatal or infantile-onset hypotonia and mild to severe generalised muscle weakness. Limb weakness may be greatest in the limb girdle and proximal limb muscles, but weakness is never solely distal. Facial weakness is often present, resulting in a long face, high-arched palate, and tented upper lip. Histologically, there is a characteristic (but not specific) reduction in the caliber of type 1 muscle fibres. Type 1 muscle fibres are predominant compared to type 2 fibres, which are either normal or hypertrophied. Causative mutations have been identified more frequently in 4 genes, ACTA1 (1q42.13), RYR1 (19q13.2), TPM3 (1q21.3), and SELENON (1p36.11). For the majority of cases the pattern of inheritance is either autosomal recessive or autosomal dominant. X-linked inheritance has been reported. | Is a | Genetic disease | true | Inferred relationship | Some |
| Inbound Relationships | Type | Active | Source | Characteristic | Refinability | Group |
| A rare genetic congenital non-dystrophic myopathy characterized by neonatal or infantile-onset hypotonia and mild to severe generalized muscle weakness. Caused by homozygous mutation in the ZAK gene on chromosome 2q31. | Is a | True | A rare genetic congenital non-dystrophic myopathy characterised by neonatal or infantile-onset hypotonia and mild to severe generalised muscle weakness. Limb weakness may be greatest in the limb girdle and proximal limb muscles, but weakness is never solely distal. Facial weakness is often present, resulting in a long face, high-arched palate, and tented upper lip. Histologically, there is a characteristic (but not specific) reduction in the caliber of type 1 muscle fibres. Type 1 muscle fibres are predominant compared to type 2 fibres, which are either normal or hypertrophied. Causative mutations have been identified more frequently in 4 genes, ACTA1 (1q42.13), RYR1 (19q13.2), TPM3 (1q21.3), and SELENON (1p36.11). For the majority of cases the pattern of inheritance is either autosomal recessive or autosomal dominant. X-linked inheritance has been reported. | Inferred relationship | Some | |
| A rare genetic congenital non-dystrophic myopathy characterised by neonatal or infantile-onset hypotonia and mild to severe generalised muscle weakness. Caused by SELENON (1p36.11) gene mutation. | Is a | True | A rare genetic congenital non-dystrophic myopathy characterised by neonatal or infantile-onset hypotonia and mild to severe generalised muscle weakness. Limb weakness may be greatest in the limb girdle and proximal limb muscles, but weakness is never solely distal. Facial weakness is often present, resulting in a long face, high-arched palate, and tented upper lip. Histologically, there is a characteristic (but not specific) reduction in the caliber of type 1 muscle fibres. Type 1 muscle fibres are predominant compared to type 2 fibres, which are either normal or hypertrophied. Causative mutations have been identified more frequently in 4 genes, ACTA1 (1q42.13), RYR1 (19q13.2), TPM3 (1q21.3), and SELENON (1p36.11). For the majority of cases the pattern of inheritance is either autosomal recessive or autosomal dominant. X-linked inheritance has been reported. | Inferred relationship | Some | |
| A rare genetic congenital non-dystrophic myopathy characterised by neonatal or infantile-onset hypotonia and mild to severe generalised muscle weakness. Causative gene mutation is ACTA1 (1q42.13). | Is a | True | A rare genetic congenital non-dystrophic myopathy characterised by neonatal or infantile-onset hypotonia and mild to severe generalised muscle weakness. Limb weakness may be greatest in the limb girdle and proximal limb muscles, but weakness is never solely distal. Facial weakness is often present, resulting in a long face, high-arched palate, and tented upper lip. Histologically, there is a characteristic (but not specific) reduction in the caliber of type 1 muscle fibres. Type 1 muscle fibres are predominant compared to type 2 fibres, which are either normal or hypertrophied. Causative mutations have been identified more frequently in 4 genes, ACTA1 (1q42.13), RYR1 (19q13.2), TPM3 (1q21.3), and SELENON (1p36.11). For the majority of cases the pattern of inheritance is either autosomal recessive or autosomal dominant. X-linked inheritance has been reported. | Inferred relationship | Some | |
| A rare genetic congenital non-dystrophic myopathy characterized by neonatal or infantile-onset hypotonia and mild to severe generalized muscle weakness. Causative gene mutation is TPM3 (1q21.3). | Is a | True | A rare genetic congenital non-dystrophic myopathy characterised by neonatal or infantile-onset hypotonia and mild to severe generalised muscle weakness. Limb weakness may be greatest in the limb girdle and proximal limb muscles, but weakness is never solely distal. Facial weakness is often present, resulting in a long face, high-arched palate, and tented upper lip. Histologically, there is a characteristic (but not specific) reduction in the caliber of type 1 muscle fibres. Type 1 muscle fibres are predominant compared to type 2 fibres, which are either normal or hypertrophied. Causative mutations have been identified more frequently in 4 genes, ACTA1 (1q42.13), RYR1 (19q13.2), TPM3 (1q21.3), and SELENON (1p36.11). For the majority of cases the pattern of inheritance is either autosomal recessive or autosomal dominant. X-linked inheritance has been reported. | Inferred relationship | Some | |
| Congenital myopathy with fibre-type disproportion associated with the MYH7 (myosin heavy chain 7) gene on the cytogenetic location 14q11.2 inherited in an autosomal dominant manner. | Is a | True | A rare genetic congenital non-dystrophic myopathy characterised by neonatal or infantile-onset hypotonia and mild to severe generalised muscle weakness. Limb weakness may be greatest in the limb girdle and proximal limb muscles, but weakness is never solely distal. Facial weakness is often present, resulting in a long face, high-arched palate, and tented upper lip. Histologically, there is a characteristic (but not specific) reduction in the caliber of type 1 muscle fibres. Type 1 muscle fibres are predominant compared to type 2 fibres, which are either normal or hypertrophied. Causative mutations have been identified more frequently in 4 genes, ACTA1 (1q42.13), RYR1 (19q13.2), TPM3 (1q21.3), and SELENON (1p36.11). For the majority of cases the pattern of inheritance is either autosomal recessive or autosomal dominant. X-linked inheritance has been reported. | Inferred relationship | Some |
Reference Sets
FHIR