Status: current, Not sufficiently defined by necessary conditions definition status (core metadata concept). Date: 31-Jul 2014. Module: SNOMED CT core
Descriptions:
| Id | Description | Lang | Type | Status | Case? | Module |
| 3700314013 | A genetic transmission deafness syndrome. The profound congenital deafness is associated with a complete absence of inner ear structures (Michel aplasia) microtia type I with small auricle and narrow external auditory canal and microdontia with widely spaced teeth. Linkage analysis followed by sequencing of candidate genes led to identification of three different homozygous mutations in the FGF3 gene (11q13). Transmission is autosomal recessive. | en | Definition | Active | Entire term case sensitive (core metadata concept) | SNOMED CT core |
| 2995093014 | Congenital deafness with inner ear agenesis, microtia, and microdontia | en | Synonym (core metadata concept) | Active | Entire term case insensitive (core metadata concept) | SNOMED CT core |
| 2995100017 | LAMM syndrome | en | Synonym (core metadata concept) | Active | Entire term case sensitive (core metadata concept) | SNOMED CT core |
| 2995419019 | Congenital deafness with labyrinthine aplasia, microtia and microdontia | en | Synonym (core metadata concept) | Active | Entire term case insensitive (core metadata concept) | SNOMED CT core |
| 2995862014 | Congenital deafness with labyrinthine aplasia, microtia and microdontia (disorder) | en | Fully specified name | Active | Entire term case insensitive (core metadata concept) | SNOMED CT core |
| Outbound Relationships | Type | Target | Active | Characteristic | Refinability | Group | Values |
| A genetic transmission deafness syndrome. The profound congenital deafness is associated with a complete absence of inner ear structures (Michel aplasia) microtia type I with small auricle and narrow external auditory canal and microdontia with widely spaced teeth. Linkage analysis followed by sequencing of candidate genes led to identification of three different homozygous mutations in the FGF3 gene (11q13). Transmission is autosomal recessive. | Is a | Autosomal recessive hereditary disorder | true | Inferred relationship | Some | ||
| A genetic transmission deafness syndrome. The profound congenital deafness is associated with a complete absence of inner ear structures (Michel aplasia) microtia type I with small auricle and narrow external auditory canal and microdontia with widely spaced teeth. Linkage analysis followed by sequencing of candidate genes led to identification of three different homozygous mutations in the FGF3 gene (11q13). Transmission is autosomal recessive. | Is a | Microdontia | true | Inferred relationship | Some | ||
| A genetic transmission deafness syndrome. The profound congenital deafness is associated with a complete absence of inner ear structures (Michel aplasia) microtia type I with small auricle and narrow external auditory canal and microdontia with widely spaced teeth. Linkage analysis followed by sequencing of candidate genes led to identification of three different homozygous mutations in the FGF3 gene (11q13). Transmission is autosomal recessive. | Pathological process (attribute) | Pathological developmental process | true | Inferred relationship | Some | 3 | |
| A genetic transmission deafness syndrome. The profound congenital deafness is associated with a complete absence of inner ear structures (Michel aplasia) microtia type I with small auricle and narrow external auditory canal and microdontia with widely spaced teeth. Linkage analysis followed by sequencing of candidate genes led to identification of three different homozygous mutations in the FGF3 gene (11q13). Transmission is autosomal recessive. | Is a | Digestive system hereditary disorder | false | Inferred relationship | Some | ||
| A genetic transmission deafness syndrome. The profound congenital deafness is associated with a complete absence of inner ear structures (Michel aplasia) microtia type I with small auricle and narrow external auditory canal and microdontia with widely spaced teeth. Linkage analysis followed by sequencing of candidate genes led to identification of three different homozygous mutations in the FGF3 gene (11q13). Transmission is autosomal recessive. | Is a | Microtia (disorder) | true | Inferred relationship | Some | ||
| A genetic transmission deafness syndrome. The profound congenital deafness is associated with a complete absence of inner ear structures (Michel aplasia) microtia type I with small auricle and narrow external auditory canal and microdontia with widely spaced teeth. Linkage analysis followed by sequencing of candidate genes led to identification of three different homozygous mutations in the FGF3 gene (11q13). Transmission is autosomal recessive. | Occurrence | Congenital | true | Inferred relationship | Some | 3 | |
| A genetic transmission deafness syndrome. The profound congenital deafness is associated with a complete absence of inner ear structures (Michel aplasia) microtia type I with small auricle and narrow external auditory canal and microdontia with widely spaced teeth. Linkage analysis followed by sequencing of candidate genes led to identification of three different homozygous mutations in the FGF3 gene (11q13). Transmission is autosomal recessive. | Pathological process (attribute) | Pathological developmental process | true | Inferred relationship | Some | 2 | |
| A genetic transmission deafness syndrome. The profound congenital deafness is associated with a complete absence of inner ear structures (Michel aplasia) microtia type I with small auricle and narrow external auditory canal and microdontia with widely spaced teeth. Linkage analysis followed by sequencing of candidate genes led to identification of three different homozygous mutations in the FGF3 gene (11q13). Transmission is autosomal recessive. | Is a | Multiple system malformation syndrome | true | Inferred relationship | Some | ||
| A genetic transmission deafness syndrome. The profound congenital deafness is associated with a complete absence of inner ear structures (Michel aplasia) microtia type I with small auricle and narrow external auditory canal and microdontia with widely spaced teeth. Linkage analysis followed by sequencing of candidate genes led to identification of three different homozygous mutations in the FGF3 gene (11q13). Transmission is autosomal recessive. | Occurrence | Congenital | true | Inferred relationship | Some | 1 | |
| A genetic transmission deafness syndrome. The profound congenital deafness is associated with a complete absence of inner ear structures (Michel aplasia) microtia type I with small auricle and narrow external auditory canal and microdontia with widely spaced teeth. Linkage analysis followed by sequencing of candidate genes led to identification of three different homozygous mutations in the FGF3 gene (11q13). Transmission is autosomal recessive. | Is a | Auditory system hereditary disorder | true | Inferred relationship | Some | ||
| A genetic transmission deafness syndrome. The profound congenital deafness is associated with a complete absence of inner ear structures (Michel aplasia) microtia type I with small auricle and narrow external auditory canal and microdontia with widely spaced teeth. Linkage analysis followed by sequencing of candidate genes led to identification of three different homozygous mutations in the FGF3 gene (11q13). Transmission is autosomal recessive. | Pathological process (attribute) | Pathological developmental process | true | Inferred relationship | Some | 1 | |
| A genetic transmission deafness syndrome. The profound congenital deafness is associated with a complete absence of inner ear structures (Michel aplasia) microtia type I with small auricle and narrow external auditory canal and microdontia with widely spaced teeth. Linkage analysis followed by sequencing of candidate genes led to identification of three different homozygous mutations in the FGF3 gene (11q13). Transmission is autosomal recessive. | Occurrence | Congenital | true | Inferred relationship | Some | 2 | |
| A genetic transmission deafness syndrome. The profound congenital deafness is associated with a complete absence of inner ear structures (Michel aplasia) microtia type I with small auricle and narrow external auditory canal and microdontia with widely spaced teeth. Linkage analysis followed by sequencing of candidate genes led to identification of three different homozygous mutations in the FGF3 gene (11q13). Transmission is autosomal recessive. | Is a | Congenital deafness | true | Inferred relationship | Some | ||
| A genetic transmission deafness syndrome. The profound congenital deafness is associated with a complete absence of inner ear structures (Michel aplasia) microtia type I with small auricle and narrow external auditory canal and microdontia with widely spaced teeth. Linkage analysis followed by sequencing of candidate genes led to identification of three different homozygous mutations in the FGF3 gene (11q13). Transmission is autosomal recessive. | Is a | Hearing loss associated with syndrome | true | Inferred relationship | Some | ||
| A genetic transmission deafness syndrome. The profound congenital deafness is associated with a complete absence of inner ear structures (Michel aplasia) microtia type I with small auricle and narrow external auditory canal and microdontia with widely spaced teeth. Linkage analysis followed by sequencing of candidate genes led to identification of three different homozygous mutations in the FGF3 gene (11q13). Transmission is autosomal recessive. | Finding site | Tooth structure | true | Inferred relationship | Some | 3 | |
| A genetic transmission deafness syndrome. The profound congenital deafness is associated with a complete absence of inner ear structures (Michel aplasia) microtia type I with small auricle and narrow external auditory canal and microdontia with widely spaced teeth. Linkage analysis followed by sequencing of candidate genes led to identification of three different homozygous mutations in the FGF3 gene (11q13). Transmission is autosomal recessive. | Finding site | Inner ear structure | true | Inferred relationship | Some | 1 | |
| A genetic transmission deafness syndrome. The profound congenital deafness is associated with a complete absence of inner ear structures (Michel aplasia) microtia type I with small auricle and narrow external auditory canal and microdontia with widely spaced teeth. Linkage analysis followed by sequencing of candidate genes led to identification of three different homozygous mutations in the FGF3 gene (11q13). Transmission is autosomal recessive. | Finding site | External ear structure | true | Inferred relationship | Some | 2 | |
| A genetic transmission deafness syndrome. The profound congenital deafness is associated with a complete absence of inner ear structures (Michel aplasia) microtia type I with small auricle and narrow external auditory canal and microdontia with widely spaced teeth. Linkage analysis followed by sequencing of candidate genes led to identification of three different homozygous mutations in the FGF3 gene (11q13). Transmission is autosomal recessive. | Associated morphology | kongenit lille statur | false | Inferred relationship | Some | 2 | |
| A genetic transmission deafness syndrome. The profound congenital deafness is associated with a complete absence of inner ear structures (Michel aplasia) microtia type I with small auricle and narrow external auditory canal and microdontia with widely spaced teeth. Linkage analysis followed by sequencing of candidate genes led to identification of three different homozygous mutations in the FGF3 gene (11q13). Transmission is autosomal recessive. | Associated morphology | Morphologically abnormal structure | true | Inferred relationship | Some | 1 | |
| A genetic transmission deafness syndrome. The profound congenital deafness is associated with a complete absence of inner ear structures (Michel aplasia) microtia type I with small auricle and narrow external auditory canal and microdontia with widely spaced teeth. Linkage analysis followed by sequencing of candidate genes led to identification of three different homozygous mutations in the FGF3 gene (11q13). Transmission is autosomal recessive. | Associated morphology | Morphologically abnormal structure | false | Inferred relationship | Some | 3 | |
| A genetic transmission deafness syndrome. The profound congenital deafness is associated with a complete absence of inner ear structures (Michel aplasia) microtia type I with small auricle and narrow external auditory canal and microdontia with widely spaced teeth. Linkage analysis followed by sequencing of candidate genes led to identification of three different homozygous mutations in the FGF3 gene (11q13). Transmission is autosomal recessive. | Is a | Congenital anomaly of ear with impairment of hearing | true | Inferred relationship | Some | ||
| A genetic transmission deafness syndrome. The profound congenital deafness is associated with a complete absence of inner ear structures (Michel aplasia) microtia type I with small auricle and narrow external auditory canal and microdontia with widely spaced teeth. Linkage analysis followed by sequencing of candidate genes led to identification of three different homozygous mutations in the FGF3 gene (11q13). Transmission is autosomal recessive. | Is a | Congenital anomaly of inner ear | true | Inferred relationship | Some | ||
| A genetic transmission deafness syndrome. The profound congenital deafness is associated with a complete absence of inner ear structures (Michel aplasia) microtia type I with small auricle and narrow external auditory canal and microdontia with widely spaced teeth. Linkage analysis followed by sequencing of candidate genes led to identification of three different homozygous mutations in the FGF3 gene (11q13). Transmission is autosomal recessive. | Is a | Congenital anomaly of tooth (disorder) | true | Inferred relationship | Some | ||
| A genetic transmission deafness syndrome. The profound congenital deafness is associated with a complete absence of inner ear structures (Michel aplasia) microtia type I with small auricle and narrow external auditory canal and microdontia with widely spaced teeth. Linkage analysis followed by sequencing of candidate genes led to identification of three different homozygous mutations in the FGF3 gene (11q13). Transmission is autosomal recessive. | Associated morphology | Growth alteration | false | Inferred relationship | Some | 5 | |
| A genetic transmission deafness syndrome. The profound congenital deafness is associated with a complete absence of inner ear structures (Michel aplasia) microtia type I with small auricle and narrow external auditory canal and microdontia with widely spaced teeth. Linkage analysis followed by sequencing of candidate genes led to identification of three different homozygous mutations in the FGF3 gene (11q13). Transmission is autosomal recessive. | Finding site | Tooth structure | false | Inferred relationship | Some | 5 | |
| A genetic transmission deafness syndrome. The profound congenital deafness is associated with a complete absence of inner ear structures (Michel aplasia) microtia type I with small auricle and narrow external auditory canal and microdontia with widely spaced teeth. Linkage analysis followed by sequencing of candidate genes led to identification of three different homozygous mutations in the FGF3 gene (11q13). Transmission is autosomal recessive. | Interprets | Hearing | true | Inferred relationship | Some | 4 | |
| A genetic transmission deafness syndrome. The profound congenital deafness is associated with a complete absence of inner ear structures (Michel aplasia) microtia type I with small auricle and narrow external auditory canal and microdontia with widely spaced teeth. Linkage analysis followed by sequencing of candidate genes led to identification of three different homozygous mutations in the FGF3 gene (11q13). Transmission is autosomal recessive. | Pathological process (attribute) | Pathological developmental process | false | Inferred relationship | Some | 5 | |
| A genetic transmission deafness syndrome. The profound congenital deafness is associated with a complete absence of inner ear structures (Michel aplasia) microtia type I with small auricle and narrow external auditory canal and microdontia with widely spaced teeth. Linkage analysis followed by sequencing of candidate genes led to identification of three different homozygous mutations in the FGF3 gene (11q13). Transmission is autosomal recessive. | Associated morphology | dysgenese | false | Inferred relationship | Some | 6 | |
| A genetic transmission deafness syndrome. The profound congenital deafness is associated with a complete absence of inner ear structures (Michel aplasia) microtia type I with small auricle and narrow external auditory canal and microdontia with widely spaced teeth. Linkage analysis followed by sequencing of candidate genes led to identification of three different homozygous mutations in the FGF3 gene (11q13). Transmission is autosomal recessive. | Finding site | Tooth structure | false | Inferred relationship | Some | 6 | |
| A genetic transmission deafness syndrome. The profound congenital deafness is associated with a complete absence of inner ear structures (Michel aplasia) microtia type I with small auricle and narrow external auditory canal and microdontia with widely spaced teeth. Linkage analysis followed by sequencing of candidate genes led to identification of three different homozygous mutations in the FGF3 gene (11q13). Transmission is autosomal recessive. | Pathological process (attribute) | Pathological developmental process | false | Inferred relationship | Some | 6 | |
| A genetic transmission deafness syndrome. The profound congenital deafness is associated with a complete absence of inner ear structures (Michel aplasia) microtia type I with small auricle and narrow external auditory canal and microdontia with widely spaced teeth. Linkage analysis followed by sequencing of candidate genes led to identification of three different homozygous mutations in the FGF3 gene (11q13). Transmission is autosomal recessive. | Is a | Developmental hereditary disorder | true | Inferred relationship | Some | ||
| A genetic transmission deafness syndrome. The profound congenital deafness is associated with a complete absence of inner ear structures (Michel aplasia) microtia type I with small auricle and narrow external auditory canal and microdontia with widely spaced teeth. Linkage analysis followed by sequencing of candidate genes led to identification of three different homozygous mutations in the FGF3 gene (11q13). Transmission is autosomal recessive. | Is a | Hereditary disorder of tooth | true | Inferred relationship | Some | ||
| A genetic transmission deafness syndrome. The profound congenital deafness is associated with a complete absence of inner ear structures (Michel aplasia) microtia type I with small auricle and narrow external auditory canal and microdontia with widely spaced teeth. Linkage analysis followed by sequencing of candidate genes led to identification of three different homozygous mutations in the FGF3 gene (11q13). Transmission is autosomal recessive. | Associated morphology | Abnormal smallness (morphologic abnormality) | true | Inferred relationship | Some | 2 | |
| A genetic transmission deafness syndrome. The profound congenital deafness is associated with a complete absence of inner ear structures (Michel aplasia) microtia type I with small auricle and narrow external auditory canal and microdontia with widely spaced teeth. Linkage analysis followed by sequencing of candidate genes led to identification of three different homozygous mutations in the FGF3 gene (11q13). Transmission is autosomal recessive. | Is a | Decreased hearing | true | Inferred relationship | Some | ||
| A genetic transmission deafness syndrome. The profound congenital deafness is associated with a complete absence of inner ear structures (Michel aplasia) microtia type I with small auricle and narrow external auditory canal and microdontia with widely spaced teeth. Linkage analysis followed by sequencing of candidate genes led to identification of three different homozygous mutations in the FGF3 gene (11q13). Transmission is autosomal recessive. | Has interpretation | Decreased | true | Inferred relationship | Some | 4 | |
| A genetic transmission deafness syndrome. The profound congenital deafness is associated with a complete absence of inner ear structures (Michel aplasia) microtia type I with small auricle and narrow external auditory canal and microdontia with widely spaced teeth. Linkage analysis followed by sequencing of candidate genes led to identification of three different homozygous mutations in the FGF3 gene (11q13). Transmission is autosomal recessive. | Associated morphology | Growth alteration | true | Inferred relationship | Some | 3 |
| Inbound Relationships | Type | Active | Source | Characteristic | Refinability | Group |
This concept is not in any reference sets
FHIR