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 |
| 3500050013 | A short-rib dysplasia with characteristics of narrow thorax, short limbs and radiological skeletal abnormalities including "trident" aspect of the acetabula and metaphyseal changes. In rare cases, postaxial polydactyly may also be present. The narrow thorax may cause neonatal respiratory failure, and may be associated with persistent respiratory manifestations. The growth rate is variable but may be almost normal. Intellectual development is normal. The molecular basis of the syndrome has been partially elucidated indicating involvement of the IFT80 (3q25.33), DYNC2H1 (11q22.3), WDR19 (4p14) and TTC21B (2q24.3) genes, each encoding an intraflagellar transport protein. The syndrome is transmitted as an autosomal recessive trait. | en | Definition | Active | Entire term case sensitive (core metadata concept) | SNOMED CT core |
| 124644017 | Jeune thoracic dystrophy | en | Synonym (core metadata concept) | Active | Entire term case sensitive (core metadata concept) | SNOMED CT core |
| 124645016 | Asphyxiating thoracic dystrophy | en | Synonym (core metadata concept) | Active | Entire term case insensitive (core metadata concept) | SNOMED CT core |
| 815615019 | Jeune thoracic dystrophy (disorder) | en | Fully specified name | Active | Entire term case sensitive (core metadata concept) | SNOMED CT core |
| 1233824018 | Jeune thoracic dysplasia | en | Synonym (core metadata concept) | Active | Entire term case sensitive (core metadata concept) | SNOMED CT core |
| 1233825017 | Jeune syndrome | en | Synonym (core metadata concept) | Active | Entire term case sensitive (core metadata concept) | SNOMED CT core |
| 1443121000005112 | Jeunes syndrom | da | Synonym (core metadata concept) | Active | Entire term case sensitive (core metadata concept) | Danish module (core metadata concept) |
| Outbound Relationships | Type | Target | Active | Characteristic | Refinability | Group | Values |
| A short-rib dysplasia with characteristics of narrow thorax, short limbs and radiological skeletal abnormalities including "trident" aspect of the acetabula and metaphyseal changes. In rare cases, postaxial polydactyly may also be present. The narrow thorax may cause neonatal respiratory failure, and may be associated with persistent respiratory manifestations. The growth rate is variable but may be almost normal. Intellectual development is normal. The molecular basis of the syndrome has been partially elucidated indicating involvement of the IFT80 (3q25.33), DYNC2H1 (11q22.3), WDR19 (4p14) and TTC21B (2q24.3) genes, each encoding an intraflagellar transport protein. The syndrome is transmitted as an autosomal recessive trait. | Is a | Achondrogenesis (disorder) | false | Inferred relationship | Some | ||
| A short-rib dysplasia with characteristics of narrow thorax, short limbs and radiological skeletal abnormalities including "trident" aspect of the acetabula and metaphyseal changes. In rare cases, postaxial polydactyly may also be present. The narrow thorax may cause neonatal respiratory failure, and may be associated with persistent respiratory manifestations. The growth rate is variable but may be almost normal. Intellectual development is normal. The molecular basis of the syndrome has been partially elucidated indicating involvement of the IFT80 (3q25.33), DYNC2H1 (11q22.3), WDR19 (4p14) and TTC21B (2q24.3) genes, each encoding an intraflagellar transport protein. The syndrome is transmitted as an autosomal recessive trait. | Is a | Congenital anomaly of trunk | false | Inferred relationship | Some | ||
| A short-rib dysplasia with characteristics of narrow thorax, short limbs and radiological skeletal abnormalities including "trident" aspect of the acetabula and metaphyseal changes. In rare cases, postaxial polydactyly may also be present. The narrow thorax may cause neonatal respiratory failure, and may be associated with persistent respiratory manifestations. The growth rate is variable but may be almost normal. Intellectual development is normal. The molecular basis of the syndrome has been partially elucidated indicating involvement of the IFT80 (3q25.33), DYNC2H1 (11q22.3), WDR19 (4p14) and TTC21B (2q24.3) genes, each encoding an intraflagellar transport protein. The syndrome is transmitted as an autosomal recessive trait. | Is a | Disorder of thorax (disorder) | false | Inferred relationship | Some | ||
| A short-rib dysplasia with characteristics of narrow thorax, short limbs and radiological skeletal abnormalities including "trident" aspect of the acetabula and metaphyseal changes. In rare cases, postaxial polydactyly may also be present. The narrow thorax may cause neonatal respiratory failure, and may be associated with persistent respiratory manifestations. The growth rate is variable but may be almost normal. Intellectual development is normal. The molecular basis of the syndrome has been partially elucidated indicating involvement of the IFT80 (3q25.33), DYNC2H1 (11q22.3), WDR19 (4p14) and TTC21B (2q24.3) genes, each encoding an intraflagellar transport protein. The syndrome is transmitted as an autosomal recessive trait. | Is a | kort costa-dysplasi-gruppen (med eller uden polydaktyli) | false | Inferred relationship | Some | ||
| A short-rib dysplasia with characteristics of narrow thorax, short limbs and radiological skeletal abnormalities including "trident" aspect of the acetabula and metaphyseal changes. In rare cases, postaxial polydactyly may also be present. The narrow thorax may cause neonatal respiratory failure, and may be associated with persistent respiratory manifestations. The growth rate is variable but may be almost normal. Intellectual development is normal. The molecular basis of the syndrome has been partially elucidated indicating involvement of the IFT80 (3q25.33), DYNC2H1 (11q22.3), WDR19 (4p14) and TTC21B (2q24.3) genes, each encoding an intraflagellar transport protein. The syndrome is transmitted as an autosomal recessive trait. | Associated morphology | Dystrophy | false | Inferred relationship | Some | ||
| A short-rib dysplasia with characteristics of narrow thorax, short limbs and radiological skeletal abnormalities including "trident" aspect of the acetabula and metaphyseal changes. In rare cases, postaxial polydactyly may also be present. The narrow thorax may cause neonatal respiratory failure, and may be associated with persistent respiratory manifestations. The growth rate is variable but may be almost normal. Intellectual development is normal. The molecular basis of the syndrome has been partially elucidated indicating involvement of the IFT80 (3q25.33), DYNC2H1 (11q22.3), WDR19 (4p14) and TTC21B (2q24.3) genes, each encoding an intraflagellar transport protein. The syndrome is transmitted as an autosomal recessive trait. | Finding site | Structure of musculoskeletal system of thorax (body structure) | false | Inferred relationship | Some | ||
| A short-rib dysplasia with characteristics of narrow thorax, short limbs and radiological skeletal abnormalities including "trident" aspect of the acetabula and metaphyseal changes. In rare cases, postaxial polydactyly may also be present. The narrow thorax may cause neonatal respiratory failure, and may be associated with persistent respiratory manifestations. The growth rate is variable but may be almost normal. Intellectual development is normal. The molecular basis of the syndrome has been partially elucidated indicating involvement of the IFT80 (3q25.33), DYNC2H1 (11q22.3), WDR19 (4p14) and TTC21B (2q24.3) genes, each encoding an intraflagellar transport protein. The syndrome is transmitted as an autosomal recessive trait. | Associated morphology | kongenit lille statur | false | Inferred relationship | Some | 2 | |
| A short-rib dysplasia with characteristics of narrow thorax, short limbs and radiological skeletal abnormalities including "trident" aspect of the acetabula and metaphyseal changes. In rare cases, postaxial polydactyly may also be present. The narrow thorax may cause neonatal respiratory failure, and may be associated with persistent respiratory manifestations. The growth rate is variable but may be almost normal. Intellectual development is normal. The molecular basis of the syndrome has been partially elucidated indicating involvement of the IFT80 (3q25.33), DYNC2H1 (11q22.3), WDR19 (4p14) and TTC21B (2q24.3) genes, each encoding an intraflagellar transport protein. The syndrome is transmitted as an autosomal recessive trait. | Finding site | Both upper extremities | false | Inferred relationship | Some | ||
| A short-rib dysplasia with characteristics of narrow thorax, short limbs and radiological skeletal abnormalities including "trident" aspect of the acetabula and metaphyseal changes. In rare cases, postaxial polydactyly may also be present. The narrow thorax may cause neonatal respiratory failure, and may be associated with persistent respiratory manifestations. The growth rate is variable but may be almost normal. Intellectual development is normal. The molecular basis of the syndrome has been partially elucidated indicating involvement of the IFT80 (3q25.33), DYNC2H1 (11q22.3), WDR19 (4p14) and TTC21B (2q24.3) genes, each encoding an intraflagellar transport protein. The syndrome is transmitted as an autosomal recessive trait. | Finding site | Both lower extremities | false | Inferred relationship | Some | ||
| A short-rib dysplasia with characteristics of narrow thorax, short limbs and radiological skeletal abnormalities including "trident" aspect of the acetabula and metaphyseal changes. In rare cases, postaxial polydactyly may also be present. The narrow thorax may cause neonatal respiratory failure, and may be associated with persistent respiratory manifestations. The growth rate is variable but may be almost normal. Intellectual development is normal. The molecular basis of the syndrome has been partially elucidated indicating involvement of the IFT80 (3q25.33), DYNC2H1 (11q22.3), WDR19 (4p14) and TTC21B (2q24.3) genes, each encoding an intraflagellar transport protein. The syndrome is transmitted as an autosomal recessive trait. | Finding site | Bone structure | false | Inferred relationship | Some | 1 | |
| A short-rib dysplasia with characteristics of narrow thorax, short limbs and radiological skeletal abnormalities including "trident" aspect of the acetabula and metaphyseal changes. In rare cases, postaxial polydactyly may also be present. The narrow thorax may cause neonatal respiratory failure, and may be associated with persistent respiratory manifestations. The growth rate is variable but may be almost normal. Intellectual development is normal. The molecular basis of the syndrome has been partially elucidated indicating involvement of the IFT80 (3q25.33), DYNC2H1 (11q22.3), WDR19 (4p14) and TTC21B (2q24.3) genes, each encoding an intraflagellar transport protein. The syndrome is transmitted as an autosomal recessive trait. | Occurrence | Congenital | false | Inferred relationship | Some | ||
| A short-rib dysplasia with characteristics of narrow thorax, short limbs and radiological skeletal abnormalities including "trident" aspect of the acetabula and metaphyseal changes. In rare cases, postaxial polydactyly may also be present. The narrow thorax may cause neonatal respiratory failure, and may be associated with persistent respiratory manifestations. The growth rate is variable but may be almost normal. Intellectual development is normal. The molecular basis of the syndrome has been partially elucidated indicating involvement of the IFT80 (3q25.33), DYNC2H1 (11q22.3), WDR19 (4p14) and TTC21B (2q24.3) genes, each encoding an intraflagellar transport protein. The syndrome is transmitted as an autosomal recessive trait. | Is a | Disorder of trunk (disorder) | false | Inferred relationship | Some | ||
| A short-rib dysplasia with characteristics of narrow thorax, short limbs and radiological skeletal abnormalities including "trident" aspect of the acetabula and metaphyseal changes. In rare cases, postaxial polydactyly may also be present. The narrow thorax may cause neonatal respiratory failure, and may be associated with persistent respiratory manifestations. The growth rate is variable but may be almost normal. Intellectual development is normal. The molecular basis of the syndrome has been partially elucidated indicating involvement of the IFT80 (3q25.33), DYNC2H1 (11q22.3), WDR19 (4p14) and TTC21B (2q24.3) genes, each encoding an intraflagellar transport protein. The syndrome is transmitted as an autosomal recessive trait. | Associated morphology | kongenit dysplasi | false | Inferred relationship | Some | 1 | |
| A short-rib dysplasia with characteristics of narrow thorax, short limbs and radiological skeletal abnormalities including "trident" aspect of the acetabula and metaphyseal changes. In rare cases, postaxial polydactyly may also be present. The narrow thorax may cause neonatal respiratory failure, and may be associated with persistent respiratory manifestations. The growth rate is variable but may be almost normal. Intellectual development is normal. The molecular basis of the syndrome has been partially elucidated indicating involvement of the IFT80 (3q25.33), DYNC2H1 (11q22.3), WDR19 (4p14) and TTC21B (2q24.3) genes, each encoding an intraflagellar transport protein. The syndrome is transmitted as an autosomal recessive trait. | Finding site | Skeletal system structure | false | Inferred relationship | Some | 1 | |
| A short-rib dysplasia with characteristics of narrow thorax, short limbs and radiological skeletal abnormalities including "trident" aspect of the acetabula and metaphyseal changes. In rare cases, postaxial polydactyly may also be present. The narrow thorax may cause neonatal respiratory failure, and may be associated with persistent respiratory manifestations. The growth rate is variable but may be almost normal. Intellectual development is normal. The molecular basis of the syndrome has been partially elucidated indicating involvement of the IFT80 (3q25.33), DYNC2H1 (11q22.3), WDR19 (4p14) and TTC21B (2q24.3) genes, each encoding an intraflagellar transport protein. The syndrome is transmitted as an autosomal recessive trait. | Is a | Disorder of thorax (disorder) | false | Inferred relationship | Some | ||
| A short-rib dysplasia with characteristics of narrow thorax, short limbs and radiological skeletal abnormalities including "trident" aspect of the acetabula and metaphyseal changes. In rare cases, postaxial polydactyly may also be present. The narrow thorax may cause neonatal respiratory failure, and may be associated with persistent respiratory manifestations. The growth rate is variable but may be almost normal. Intellectual development is normal. The molecular basis of the syndrome has been partially elucidated indicating involvement of the IFT80 (3q25.33), DYNC2H1 (11q22.3), WDR19 (4p14) and TTC21B (2q24.3) genes, each encoding an intraflagellar transport protein. The syndrome is transmitted as an autosomal recessive trait. | Is a | Degenerative disorder | false | Inferred relationship | Some | ||
| A short-rib dysplasia with characteristics of narrow thorax, short limbs and radiological skeletal abnormalities including "trident" aspect of the acetabula and metaphyseal changes. In rare cases, postaxial polydactyly may also be present. The narrow thorax may cause neonatal respiratory failure, and may be associated with persistent respiratory manifestations. The growth rate is variable but may be almost normal. Intellectual development is normal. The molecular basis of the syndrome has been partially elucidated indicating involvement of the IFT80 (3q25.33), DYNC2H1 (11q22.3), WDR19 (4p14) and TTC21B (2q24.3) genes, each encoding an intraflagellar transport protein. The syndrome is transmitted as an autosomal recessive trait. | Is a | Congenital malformation | false | Inferred relationship | Some | ||
| A short-rib dysplasia with characteristics of narrow thorax, short limbs and radiological skeletal abnormalities including "trident" aspect of the acetabula and metaphyseal changes. In rare cases, postaxial polydactyly may also be present. The narrow thorax may cause neonatal respiratory failure, and may be associated with persistent respiratory manifestations. The growth rate is variable but may be almost normal. Intellectual development is normal. The molecular basis of the syndrome has been partially elucidated indicating involvement of the IFT80 (3q25.33), DYNC2H1 (11q22.3), WDR19 (4p14) and TTC21B (2q24.3) genes, each encoding an intraflagellar transport protein. The syndrome is transmitted as an autosomal recessive trait. | Is a | Congenital anomaly of limb | false | Inferred relationship | Some | ||
| A short-rib dysplasia with characteristics of narrow thorax, short limbs and radiological skeletal abnormalities including "trident" aspect of the acetabula and metaphyseal changes. In rare cases, postaxial polydactyly may also be present. The narrow thorax may cause neonatal respiratory failure, and may be associated with persistent respiratory manifestations. The growth rate is variable but may be almost normal. Intellectual development is normal. The molecular basis of the syndrome has been partially elucidated indicating involvement of the IFT80 (3q25.33), DYNC2H1 (11q22.3), WDR19 (4p14) and TTC21B (2q24.3) genes, each encoding an intraflagellar transport protein. The syndrome is transmitted as an autosomal recessive trait. | Is a | Short stature disorder | false | Inferred relationship | Some | ||
| A short-rib dysplasia with characteristics of narrow thorax, short limbs and radiological skeletal abnormalities including "trident" aspect of the acetabula and metaphyseal changes. In rare cases, postaxial polydactyly may also be present. The narrow thorax may cause neonatal respiratory failure, and may be associated with persistent respiratory manifestations. The growth rate is variable but may be almost normal. Intellectual development is normal. The molecular basis of the syndrome has been partially elucidated indicating involvement of the IFT80 (3q25.33), DYNC2H1 (11q22.3), WDR19 (4p14) and TTC21B (2q24.3) genes, each encoding an intraflagellar transport protein. The syndrome is transmitted as an autosomal recessive trait. | Is a | Congenital anomaly of thorax | false | Inferred relationship | Some | ||
| A short-rib dysplasia with characteristics of narrow thorax, short limbs and radiological skeletal abnormalities including "trident" aspect of the acetabula and metaphyseal changes. In rare cases, postaxial polydactyly may also be present. The narrow thorax may cause neonatal respiratory failure, and may be associated with persistent respiratory manifestations. The growth rate is variable but may be almost normal. Intellectual development is normal. The molecular basis of the syndrome has been partially elucidated indicating involvement of the IFT80 (3q25.33), DYNC2H1 (11q22.3), WDR19 (4p14) and TTC21B (2q24.3) genes, each encoding an intraflagellar transport protein. The syndrome is transmitted as an autosomal recessive trait. | Associated morphology | kongenit hypoplasi | false | Inferred relationship | Some | 1 | |
| A short-rib dysplasia with characteristics of narrow thorax, short limbs and radiological skeletal abnormalities including "trident" aspect of the acetabula and metaphyseal changes. In rare cases, postaxial polydactyly may also be present. The narrow thorax may cause neonatal respiratory failure, and may be associated with persistent respiratory manifestations. The growth rate is variable but may be almost normal. Intellectual development is normal. The molecular basis of the syndrome has been partially elucidated indicating involvement of the IFT80 (3q25.33), DYNC2H1 (11q22.3), WDR19 (4p14) and TTC21B (2q24.3) genes, each encoding an intraflagellar transport protein. The syndrome is transmitted as an autosomal recessive trait. | Finding site | Thoracic structure | false | Inferred relationship | Some | 1 | |
| A short-rib dysplasia with characteristics of narrow thorax, short limbs and radiological skeletal abnormalities including "trident" aspect of the acetabula and metaphyseal changes. In rare cases, postaxial polydactyly may also be present. The narrow thorax may cause neonatal respiratory failure, and may be associated with persistent respiratory manifestations. The growth rate is variable but may be almost normal. Intellectual development is normal. The molecular basis of the syndrome has been partially elucidated indicating involvement of the IFT80 (3q25.33), DYNC2H1 (11q22.3), WDR19 (4p14) and TTC21B (2q24.3) genes, each encoding an intraflagellar transport protein. The syndrome is transmitted as an autosomal recessive trait. | Associated morphology | kongenit lille statur | false | Inferred relationship | Some | 2 | |
| A short-rib dysplasia with characteristics of narrow thorax, short limbs and radiological skeletal abnormalities including "trident" aspect of the acetabula and metaphyseal changes. In rare cases, postaxial polydactyly may also be present. The narrow thorax may cause neonatal respiratory failure, and may be associated with persistent respiratory manifestations. The growth rate is variable but may be almost normal. Intellectual development is normal. The molecular basis of the syndrome has been partially elucidated indicating involvement of the IFT80 (3q25.33), DYNC2H1 (11q22.3), WDR19 (4p14) and TTC21B (2q24.3) genes, each encoding an intraflagellar transport protein. The syndrome is transmitted as an autosomal recessive trait. | Finding site | Limb structure | false | Inferred relationship | Some | 2 | |
| A short-rib dysplasia with characteristics of narrow thorax, short limbs and radiological skeletal abnormalities including "trident" aspect of the acetabula and metaphyseal changes. In rare cases, postaxial polydactyly may also be present. The narrow thorax may cause neonatal respiratory failure, and may be associated with persistent respiratory manifestations. The growth rate is variable but may be almost normal. Intellectual development is normal. The molecular basis of the syndrome has been partially elucidated indicating involvement of the IFT80 (3q25.33), DYNC2H1 (11q22.3), WDR19 (4p14) and TTC21B (2q24.3) genes, each encoding an intraflagellar transport protein. The syndrome is transmitted as an autosomal recessive trait. | Finding site | Thoracic structure | false | Inferred relationship | Some | 1 | |
| A short-rib dysplasia with characteristics of narrow thorax, short limbs and radiological skeletal abnormalities including "trident" aspect of the acetabula and metaphyseal changes. In rare cases, postaxial polydactyly may also be present. The narrow thorax may cause neonatal respiratory failure, and may be associated with persistent respiratory manifestations. The growth rate is variable but may be almost normal. Intellectual development is normal. The molecular basis of the syndrome has been partially elucidated indicating involvement of the IFT80 (3q25.33), DYNC2H1 (11q22.3), WDR19 (4p14) and TTC21B (2q24.3) genes, each encoding an intraflagellar transport protein. The syndrome is transmitted as an autosomal recessive trait. | Finding site | Limb structure | false | Inferred relationship | Some | 2 | |
| A short-rib dysplasia with characteristics of narrow thorax, short limbs and radiological skeletal abnormalities including "trident" aspect of the acetabula and metaphyseal changes. In rare cases, postaxial polydactyly may also be present. The narrow thorax may cause neonatal respiratory failure, and may be associated with persistent respiratory manifestations. The growth rate is variable but may be almost normal. Intellectual development is normal. The molecular basis of the syndrome has been partially elucidated indicating involvement of the IFT80 (3q25.33), DYNC2H1 (11q22.3), WDR19 (4p14) and TTC21B (2q24.3) genes, each encoding an intraflagellar transport protein. The syndrome is transmitted as an autosomal recessive trait. | Associated morphology | kongenit hypoplasi | false | Inferred relationship | Some | 1 | |
| A short-rib dysplasia with characteristics of narrow thorax, short limbs and radiological skeletal abnormalities including "trident" aspect of the acetabula and metaphyseal changes. In rare cases, postaxial polydactyly may also be present. The narrow thorax may cause neonatal respiratory failure, and may be associated with persistent respiratory manifestations. The growth rate is variable but may be almost normal. Intellectual development is normal. The molecular basis of the syndrome has been partially elucidated indicating involvement of the IFT80 (3q25.33), DYNC2H1 (11q22.3), WDR19 (4p14) and TTC21B (2q24.3) genes, each encoding an intraflagellar transport protein. The syndrome is transmitted as an autosomal recessive trait. | Occurrence | Congenital | false | Inferred relationship | Some | 3 | |
| A short-rib dysplasia with characteristics of narrow thorax, short limbs and radiological skeletal abnormalities including "trident" aspect of the acetabula and metaphyseal changes. In rare cases, postaxial polydactyly may also be present. The narrow thorax may cause neonatal respiratory failure, and may be associated with persistent respiratory manifestations. The growth rate is variable but may be almost normal. Intellectual development is normal. The molecular basis of the syndrome has been partially elucidated indicating involvement of the IFT80 (3q25.33), DYNC2H1 (11q22.3), WDR19 (4p14) and TTC21B (2q24.3) genes, each encoding an intraflagellar transport protein. The syndrome is transmitted as an autosomal recessive trait. | Occurrence | Congenital | false | Inferred relationship | Some | 4 | |
| A short-rib dysplasia with characteristics of narrow thorax, short limbs and radiological skeletal abnormalities including "trident" aspect of the acetabula and metaphyseal changes. In rare cases, postaxial polydactyly may also be present. The narrow thorax may cause neonatal respiratory failure, and may be associated with persistent respiratory manifestations. The growth rate is variable but may be almost normal. Intellectual development is normal. The molecular basis of the syndrome has been partially elucidated indicating involvement of the IFT80 (3q25.33), DYNC2H1 (11q22.3), WDR19 (4p14) and TTC21B (2q24.3) genes, each encoding an intraflagellar transport protein. The syndrome is transmitted as an autosomal recessive trait. | Associated morphology | kongenit lille statur | false | Inferred relationship | Some | 3 | |
| A short-rib dysplasia with characteristics of narrow thorax, short limbs and radiological skeletal abnormalities including "trident" aspect of the acetabula and metaphyseal changes. In rare cases, postaxial polydactyly may also be present. The narrow thorax may cause neonatal respiratory failure, and may be associated with persistent respiratory manifestations. The growth rate is variable but may be almost normal. Intellectual development is normal. The molecular basis of the syndrome has been partially elucidated indicating involvement of the IFT80 (3q25.33), DYNC2H1 (11q22.3), WDR19 (4p14) and TTC21B (2q24.3) genes, each encoding an intraflagellar transport protein. The syndrome is transmitted as an autosomal recessive trait. | Finding site | Limb structure | false | Inferred relationship | Some | 3 | |
| A short-rib dysplasia with characteristics of narrow thorax, short limbs and radiological skeletal abnormalities including "trident" aspect of the acetabula and metaphyseal changes. In rare cases, postaxial polydactyly may also be present. The narrow thorax may cause neonatal respiratory failure, and may be associated with persistent respiratory manifestations. The growth rate is variable but may be almost normal. Intellectual development is normal. The molecular basis of the syndrome has been partially elucidated indicating involvement of the IFT80 (3q25.33), DYNC2H1 (11q22.3), WDR19 (4p14) and TTC21B (2q24.3) genes, each encoding an intraflagellar transport protein. The syndrome is transmitted as an autosomal recessive trait. | Associated morphology | kongenit hypoplasi | false | Inferred relationship | Some | 4 | |
| A short-rib dysplasia with characteristics of narrow thorax, short limbs and radiological skeletal abnormalities including "trident" aspect of the acetabula and metaphyseal changes. In rare cases, postaxial polydactyly may also be present. The narrow thorax may cause neonatal respiratory failure, and may be associated with persistent respiratory manifestations. The growth rate is variable but may be almost normal. Intellectual development is normal. The molecular basis of the syndrome has been partially elucidated indicating involvement of the IFT80 (3q25.33), DYNC2H1 (11q22.3), WDR19 (4p14) and TTC21B (2q24.3) genes, each encoding an intraflagellar transport protein. The syndrome is transmitted as an autosomal recessive trait. | Finding site | Thoracic structure | false | Inferred relationship | Some | 4 | |
| A short-rib dysplasia with characteristics of narrow thorax, short limbs and radiological skeletal abnormalities including "trident" aspect of the acetabula and metaphyseal changes. In rare cases, postaxial polydactyly may also be present. The narrow thorax may cause neonatal respiratory failure, and may be associated with persistent respiratory manifestations. The growth rate is variable but may be almost normal. Intellectual development is normal. The molecular basis of the syndrome has been partially elucidated indicating involvement of the IFT80 (3q25.33), DYNC2H1 (11q22.3), WDR19 (4p14) and TTC21B (2q24.3) genes, each encoding an intraflagellar transport protein. The syndrome is transmitted as an autosomal recessive trait. | Occurrence | Congenital | true | Inferred relationship | Some | 2 | |
| A short-rib dysplasia with characteristics of narrow thorax, short limbs and radiological skeletal abnormalities including "trident" aspect of the acetabula and metaphyseal changes. In rare cases, postaxial polydactyly may also be present. The narrow thorax may cause neonatal respiratory failure, and may be associated with persistent respiratory manifestations. The growth rate is variable but may be almost normal. Intellectual development is normal. The molecular basis of the syndrome has been partially elucidated indicating involvement of the IFT80 (3q25.33), DYNC2H1 (11q22.3), WDR19 (4p14) and TTC21B (2q24.3) genes, each encoding an intraflagellar transport protein. The syndrome is transmitted as an autosomal recessive trait. | Is a | Longitudinal deficiency of limb | true | Inferred relationship | Some | ||
| A short-rib dysplasia with characteristics of narrow thorax, short limbs and radiological skeletal abnormalities including "trident" aspect of the acetabula and metaphyseal changes. In rare cases, postaxial polydactyly may also be present. The narrow thorax may cause neonatal respiratory failure, and may be associated with persistent respiratory manifestations. The growth rate is variable but may be almost normal. Intellectual development is normal. The molecular basis of the syndrome has been partially elucidated indicating involvement of the IFT80 (3q25.33), DYNC2H1 (11q22.3), WDR19 (4p14) and TTC21B (2q24.3) genes, each encoding an intraflagellar transport protein. The syndrome is transmitted as an autosomal recessive trait. | Is a | Autosomal recessive hereditary disorder | true | Inferred relationship | Some | ||
| A short-rib dysplasia with characteristics of narrow thorax, short limbs and radiological skeletal abnormalities including "trident" aspect of the acetabula and metaphyseal changes. In rare cases, postaxial polydactyly may also be present. The narrow thorax may cause neonatal respiratory failure, and may be associated with persistent respiratory manifestations. The growth rate is variable but may be almost normal. Intellectual development is normal. The molecular basis of the syndrome has been partially elucidated indicating involvement of the IFT80 (3q25.33), DYNC2H1 (11q22.3), WDR19 (4p14) and TTC21B (2q24.3) genes, each encoding an intraflagellar transport protein. The syndrome is transmitted as an autosomal recessive trait. | Is a | Short rib dysplasia | true | Inferred relationship | Some | ||
| A short-rib dysplasia with characteristics of narrow thorax, short limbs and radiological skeletal abnormalities including "trident" aspect of the acetabula and metaphyseal changes. In rare cases, postaxial polydactyly may also be present. The narrow thorax may cause neonatal respiratory failure, and may be associated with persistent respiratory manifestations. The growth rate is variable but may be almost normal. Intellectual development is normal. The molecular basis of the syndrome has been partially elucidated indicating involvement of the IFT80 (3q25.33), DYNC2H1 (11q22.3), WDR19 (4p14) and TTC21B (2q24.3) genes, each encoding an intraflagellar transport protein. The syndrome is transmitted as an autosomal recessive trait. | Is a | Connective tissue hereditary disorder | false | Inferred relationship | Some | ||
| A short-rib dysplasia with characteristics of narrow thorax, short limbs and radiological skeletal abnormalities including "trident" aspect of the acetabula and metaphyseal changes. In rare cases, postaxial polydactyly may also be present. The narrow thorax may cause neonatal respiratory failure, and may be associated with persistent respiratory manifestations. The growth rate is variable but may be almost normal. Intellectual development is normal. The molecular basis of the syndrome has been partially elucidated indicating involvement of the IFT80 (3q25.33), DYNC2H1 (11q22.3), WDR19 (4p14) and TTC21B (2q24.3) genes, each encoding an intraflagellar transport protein. The syndrome is transmitted as an autosomal recessive trait. | Is a | Hereditary disorder of musculoskeletal system | true | Inferred relationship | Some | ||
| A short-rib dysplasia with characteristics of narrow thorax, short limbs and radiological skeletal abnormalities including "trident" aspect of the acetabula and metaphyseal changes. In rare cases, postaxial polydactyly may also be present. The narrow thorax may cause neonatal respiratory failure, and may be associated with persistent respiratory manifestations. The growth rate is variable but may be almost normal. Intellectual development is normal. The molecular basis of the syndrome has been partially elucidated indicating involvement of the IFT80 (3q25.33), DYNC2H1 (11q22.3), WDR19 (4p14) and TTC21B (2q24.3) genes, each encoding an intraflagellar transport protein. The syndrome is transmitted as an autosomal recessive trait. | Occurrence | Congenital | true | Inferred relationship | Some | 1 | |
| A short-rib dysplasia with characteristics of narrow thorax, short limbs and radiological skeletal abnormalities including "trident" aspect of the acetabula and metaphyseal changes. In rare cases, postaxial polydactyly may also be present. The narrow thorax may cause neonatal respiratory failure, and may be associated with persistent respiratory manifestations. The growth rate is variable but may be almost normal. Intellectual development is normal. The molecular basis of the syndrome has been partially elucidated indicating involvement of the IFT80 (3q25.33), DYNC2H1 (11q22.3), WDR19 (4p14) and TTC21B (2q24.3) genes, each encoding an intraflagellar transport protein. The syndrome is transmitted as an autosomal recessive trait. | Finding site | Bone structure of rib | true | Inferred relationship | Some | 1 | |
| A short-rib dysplasia with characteristics of narrow thorax, short limbs and radiological skeletal abnormalities including "trident" aspect of the acetabula and metaphyseal changes. In rare cases, postaxial polydactyly may also be present. The narrow thorax may cause neonatal respiratory failure, and may be associated with persistent respiratory manifestations. The growth rate is variable but may be almost normal. Intellectual development is normal. The molecular basis of the syndrome has been partially elucidated indicating involvement of the IFT80 (3q25.33), DYNC2H1 (11q22.3), WDR19 (4p14) and TTC21B (2q24.3) genes, each encoding an intraflagellar transport protein. The syndrome is transmitted as an autosomal recessive trait. | Associated morphology | Abnormally short growth | true | Inferred relationship | Some | 2 | |
| A short-rib dysplasia with characteristics of narrow thorax, short limbs and radiological skeletal abnormalities including "trident" aspect of the acetabula and metaphyseal changes. In rare cases, postaxial polydactyly may also be present. The narrow thorax may cause neonatal respiratory failure, and may be associated with persistent respiratory manifestations. The growth rate is variable but may be almost normal. Intellectual development is normal. The molecular basis of the syndrome has been partially elucidated indicating involvement of the IFT80 (3q25.33), DYNC2H1 (11q22.3), WDR19 (4p14) and TTC21B (2q24.3) genes, each encoding an intraflagellar transport protein. The syndrome is transmitted as an autosomal recessive trait. | Finding site | Entire limb | true | Inferred relationship | Some | 2 | |
| A short-rib dysplasia with characteristics of narrow thorax, short limbs and radiological skeletal abnormalities including "trident" aspect of the acetabula and metaphyseal changes. In rare cases, postaxial polydactyly may also be present. The narrow thorax may cause neonatal respiratory failure, and may be associated with persistent respiratory manifestations. The growth rate is variable but may be almost normal. Intellectual development is normal. The molecular basis of the syndrome has been partially elucidated indicating involvement of the IFT80 (3q25.33), DYNC2H1 (11q22.3), WDR19 (4p14) and TTC21B (2q24.3) genes, each encoding an intraflagellar transport protein. The syndrome is transmitted as an autosomal recessive trait. | Pathological process (attribute) | Pathological developmental process | true | Inferred relationship | Some | 1 | |
| A short-rib dysplasia with characteristics of narrow thorax, short limbs and radiological skeletal abnormalities including "trident" aspect of the acetabula and metaphyseal changes. In rare cases, postaxial polydactyly may also be present. The narrow thorax may cause neonatal respiratory failure, and may be associated with persistent respiratory manifestations. The growth rate is variable but may be almost normal. Intellectual development is normal. The molecular basis of the syndrome has been partially elucidated indicating involvement of the IFT80 (3q25.33), DYNC2H1 (11q22.3), WDR19 (4p14) and TTC21B (2q24.3) genes, each encoding an intraflagellar transport protein. The syndrome is transmitted as an autosomal recessive trait. | Pathological process (attribute) | Pathological developmental process | true | Inferred relationship | Some | 2 | |
| A short-rib dysplasia with characteristics of narrow thorax, short limbs and radiological skeletal abnormalities including "trident" aspect of the acetabula and metaphyseal changes. In rare cases, postaxial polydactyly may also be present. The narrow thorax may cause neonatal respiratory failure, and may be associated with persistent respiratory manifestations. The growth rate is variable but may be almost normal. Intellectual development is normal. The molecular basis of the syndrome has been partially elucidated indicating involvement of the IFT80 (3q25.33), DYNC2H1 (11q22.3), WDR19 (4p14) and TTC21B (2q24.3) genes, each encoding an intraflagellar transport protein. The syndrome is transmitted as an autosomal recessive trait. | Is a | Congenital deformity | false | Inferred relationship | Some | ||
| A short-rib dysplasia with characteristics of narrow thorax, short limbs and radiological skeletal abnormalities including "trident" aspect of the acetabula and metaphyseal changes. In rare cases, postaxial polydactyly may also be present. The narrow thorax may cause neonatal respiratory failure, and may be associated with persistent respiratory manifestations. The growth rate is variable but may be almost normal. Intellectual development is normal. The molecular basis of the syndrome has been partially elucidated indicating involvement of the IFT80 (3q25.33), DYNC2H1 (11q22.3), WDR19 (4p14) and TTC21B (2q24.3) genes, each encoding an intraflagellar transport protein. The syndrome is transmitted as an autosomal recessive trait. | Associated morphology | Dysplasia | true | Inferred relationship | Some | 1 | |
| A short-rib dysplasia with characteristics of narrow thorax, short limbs and radiological skeletal abnormalities including "trident" aspect of the acetabula and metaphyseal changes. In rare cases, postaxial polydactyly may also be present. The narrow thorax may cause neonatal respiratory failure, and may be associated with persistent respiratory manifestations. The growth rate is variable but may be almost normal. Intellectual development is normal. The molecular basis of the syndrome has been partially elucidated indicating involvement of the IFT80 (3q25.33), DYNC2H1 (11q22.3), WDR19 (4p14) and TTC21B (2q24.3) genes, each encoding an intraflagellar transport protein. The syndrome is transmitted as an autosomal recessive trait. | Is a | Developmental hereditary disorder | true | Inferred relationship | Some |
| Inbound Relationships | Type | Active | Source | Characteristic | Refinability | Group |
| A rare genetic developmental defect during embryogenesis characterized by the association of the classic features of Joubert syndrome (congenital midbrain-hindbrain malformations causing hypotonia, abnormal breathing and eye movements, ataxia and cognitive impairment) together with the skeletal anomalies of Jeune asphyxiating thoracic dystrophy (short ribs, long and narrow thorax causing respiratory failure, short-limbs, short stature, and polydactyly). Additional variable manifestations include cystic kidneys, liver fibrosis, and retinal dystrophy. | Is a | True | A short-rib dysplasia with characteristics of narrow thorax, short limbs and radiological skeletal abnormalities including "trident" aspect of the acetabula and metaphyseal changes. In rare cases, postaxial polydactyly may also be present. The narrow thorax may cause neonatal respiratory failure, and may be associated with persistent respiratory manifestations. The growth rate is variable but may be almost normal. Intellectual development is normal. The molecular basis of the syndrome has been partially elucidated indicating involvement of the IFT80 (3q25.33), DYNC2H1 (11q22.3), WDR19 (4p14) and TTC21B (2q24.3) genes, each encoding an intraflagellar transport protein. The syndrome is transmitted as an autosomal recessive trait. | Inferred relationship | Some |
This concept is not in any reference sets
FHIR