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 |
| 5278074014 | A rare developmental defect during embryogenesis with characteristics of unilateral inflammatory and scaling skin lesions with ipsilateral visceral and limb anomalies. NSDHL (Xq28) encodes a protein responsible for cholesterol biosynthesis, mutations are typically lethal in males. X-inactivation creates a mosaic of cells lacking the enzyme in females, disrupting embryonic development and leading to a highly variable spectrum of anomalies. Transmission is X-linked dominant. | en | Definition | Active | Entire term case sensitive (core metadata concept) | SNOMED CT core |
| 5278070017 | Congenital hemidysplasia with ichthyosiform erythroderma and limb defects syndrome (disorder) | en | Fully specified name | Active | Entire term case insensitive (core metadata concept) | SNOMED CT core |
| 5278071018 | Congenital hemidysplasia with ichthyosiform erythroderma and limb defects syndrome | en | Synonym (core metadata concept) | Active | Entire term case insensitive (core metadata concept) | SNOMED CT core |
| 5278072013 | CHILD syndrome | en | Synonym (core metadata concept) | Active | Entire term case sensitive (core metadata concept) | SNOMED CT core |
| 5278073015 | CHILD (congenital hemidysplasia, ichthyosiform erythroderma, limb defects) syndrome | en | Synonym (core metadata concept) | Active | Entire term case sensitive (core metadata concept) | SNOMED CT core |
| 2027321000005113 | kongenit hemidysplasi med iktyosiform erytrodermi og ekstremitetsdefekter | 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 developmental defect during embryogenesis with characteristics of unilateral inflammatory and scaling skin lesions with ipsilateral visceral and limb anomalies. NSDHL (Xq28) encodes a protein responsible for cholesterol biosynthesis, mutations are typically lethal in males. X-inactivation creates a mosaic of cells lacking the enzyme in females, disrupting embryonic development and leading to a highly variable spectrum of anomalies. Transmission is X-linked dominant. | Is a | Multiple malformation syndrome with limb defect as major feature | true | Inferred relationship | Some | ||
| A rare developmental defect during embryogenesis with characteristics of unilateral inflammatory and scaling skin lesions with ipsilateral visceral and limb anomalies. NSDHL (Xq28) encodes a protein responsible for cholesterol biosynthesis, mutations are typically lethal in males. X-inactivation creates a mosaic of cells lacking the enzyme in females, disrupting embryonic development and leading to a highly variable spectrum of anomalies. Transmission is X-linked dominant. | Occurrence | Congenital | false | Inferred relationship | Some | ||
| A rare developmental defect during embryogenesis with characteristics of unilateral inflammatory and scaling skin lesions with ipsilateral visceral and limb anomalies. NSDHL (Xq28) encodes a protein responsible for cholesterol biosynthesis, mutations are typically lethal in males. X-inactivation creates a mosaic of cells lacking the enzyme in females, disrupting embryonic development and leading to a highly variable spectrum of anomalies. Transmission is X-linked dominant. | Associated morphology | Kongenit malformation | false | Inferred relationship | Some | ||
| A rare developmental defect during embryogenesis with characteristics of unilateral inflammatory and scaling skin lesions with ipsilateral visceral and limb anomalies. NSDHL (Xq28) encodes a protein responsible for cholesterol biosynthesis, mutations are typically lethal in males. X-inactivation creates a mosaic of cells lacking the enzyme in females, disrupting embryonic development and leading to a highly variable spectrum of anomalies. Transmission is X-linked dominant. | Occurrence | Congenital | true | Inferred relationship | Some | 1 | |
| A rare developmental defect during embryogenesis with characteristics of unilateral inflammatory and scaling skin lesions with ipsilateral visceral and limb anomalies. NSDHL (Xq28) encodes a protein responsible for cholesterol biosynthesis, mutations are typically lethal in males. X-inactivation creates a mosaic of cells lacking the enzyme in females, disrupting embryonic development and leading to a highly variable spectrum of anomalies. Transmission is X-linked dominant. | Associated morphology | dysgenese | false | Inferred relationship | Some | 1 | |
| A rare developmental defect during embryogenesis with characteristics of unilateral inflammatory and scaling skin lesions with ipsilateral visceral and limb anomalies. NSDHL (Xq28) encodes a protein responsible for cholesterol biosynthesis, mutations are typically lethal in males. X-inactivation creates a mosaic of cells lacking the enzyme in females, disrupting embryonic development and leading to a highly variable spectrum of anomalies. Transmission is X-linked dominant. | Associated morphology | Morphologically abnormal structure | true | Inferred relationship | Some | 1 | |
| A rare developmental defect during embryogenesis with characteristics of unilateral inflammatory and scaling skin lesions with ipsilateral visceral and limb anomalies. NSDHL (Xq28) encodes a protein responsible for cholesterol biosynthesis, mutations are typically lethal in males. X-inactivation creates a mosaic of cells lacking the enzyme in females, disrupting embryonic development and leading to a highly variable spectrum of anomalies. Transmission is X-linked dominant. | Pathological process (attribute) | Pathological developmental process | true | Inferred relationship | Some | 1 | |
| A rare developmental defect during embryogenesis with characteristics of unilateral inflammatory and scaling skin lesions with ipsilateral visceral and limb anomalies. NSDHL (Xq28) encodes a protein responsible for cholesterol biosynthesis, mutations are typically lethal in males. X-inactivation creates a mosaic of cells lacking the enzyme in females, disrupting embryonic development and leading to a highly variable spectrum of anomalies. Transmission is X-linked dominant. | Is a | X-linked dominant hereditary disease (disorder) | true | Inferred relationship | Some | ||
| A rare developmental defect during embryogenesis with characteristics of unilateral inflammatory and scaling skin lesions with ipsilateral visceral and limb anomalies. NSDHL (Xq28) encodes a protein responsible for cholesterol biosynthesis, mutations are typically lethal in males. X-inactivation creates a mosaic of cells lacking the enzyme in females, disrupting embryonic development and leading to a highly variable spectrum of anomalies. Transmission is X-linked dominant. | Is a | Congenital anomaly of skin | true | Inferred relationship | Some | ||
| A rare developmental defect during embryogenesis with characteristics of unilateral inflammatory and scaling skin lesions with ipsilateral visceral and limb anomalies. NSDHL (Xq28) encodes a protein responsible for cholesterol biosynthesis, mutations are typically lethal in males. X-inactivation creates a mosaic of cells lacking the enzyme in females, disrupting embryonic development and leading to a highly variable spectrum of anomalies. Transmission is X-linked dominant. | Is a | Congenital ichthyosiform erythroderma (disorder) | true | Inferred relationship | Some | ||
| A rare developmental defect during embryogenesis with characteristics of unilateral inflammatory and scaling skin lesions with ipsilateral visceral and limb anomalies. NSDHL (Xq28) encodes a protein responsible for cholesterol biosynthesis, mutations are typically lethal in males. X-inactivation creates a mosaic of cells lacking the enzyme in females, disrupting embryonic development and leading to a highly variable spectrum of anomalies. Transmission is X-linked dominant. | Is a | Disorder of lipid metabolism | true | Inferred relationship | Some | ||
| A rare developmental defect during embryogenesis with characteristics of unilateral inflammatory and scaling skin lesions with ipsilateral visceral and limb anomalies. NSDHL (Xq28) encodes a protein responsible for cholesterol biosynthesis, mutations are typically lethal in males. X-inactivation creates a mosaic of cells lacking the enzyme in females, disrupting embryonic development and leading to a highly variable spectrum of anomalies. Transmission is X-linked dominant. | Is a | Developmental hereditary disorder | true | Inferred relationship | Some | ||
| A rare developmental defect during embryogenesis with characteristics of unilateral inflammatory and scaling skin lesions with ipsilateral visceral and limb anomalies. NSDHL (Xq28) encodes a protein responsible for cholesterol biosynthesis, mutations are typically lethal in males. X-inactivation creates a mosaic of cells lacking the enzyme in females, disrupting embryonic development and leading to a highly variable spectrum of anomalies. Transmission is X-linked dominant. | Is a | Congenital anomaly of limb | true | Inferred relationship | Some | ||
| A rare developmental defect during embryogenesis with characteristics of unilateral inflammatory and scaling skin lesions with ipsilateral visceral and limb anomalies. NSDHL (Xq28) encodes a protein responsible for cholesterol biosynthesis, mutations are typically lethal in males. X-inactivation creates a mosaic of cells lacking the enzyme in females, disrupting embryonic development and leading to a highly variable spectrum of anomalies. Transmission is X-linked dominant. | Is a | Inborn error of metabolism | true | Inferred relationship | Some | ||
| A rare developmental defect during embryogenesis with characteristics of unilateral inflammatory and scaling skin lesions with ipsilateral visceral and limb anomalies. NSDHL (Xq28) encodes a protein responsible for cholesterol biosynthesis, mutations are typically lethal in males. X-inactivation creates a mosaic of cells lacking the enzyme in females, disrupting embryonic development and leading to a highly variable spectrum of anomalies. Transmission is X-linked dominant. | Interprets | Keratinization | true | Inferred relationship | Some | 3 | |
| A rare developmental defect during embryogenesis with characteristics of unilateral inflammatory and scaling skin lesions with ipsilateral visceral and limb anomalies. NSDHL (Xq28) encodes a protein responsible for cholesterol biosynthesis, mutations are typically lethal in males. X-inactivation creates a mosaic of cells lacking the enzyme in females, disrupting embryonic development and leading to a highly variable spectrum of anomalies. Transmission is X-linked dominant. | Has interpretation | Abnormal | true | Inferred relationship | Some | 3 | |
| A rare developmental defect during embryogenesis with characteristics of unilateral inflammatory and scaling skin lesions with ipsilateral visceral and limb anomalies. NSDHL (Xq28) encodes a protein responsible for cholesterol biosynthesis, mutations are typically lethal in males. X-inactivation creates a mosaic of cells lacking the enzyme in females, disrupting embryonic development and leading to a highly variable spectrum of anomalies. Transmission is X-linked dominant. | Finding site | Skin structure | true | Inferred relationship | Some | 1 | |
| A rare developmental defect during embryogenesis with characteristics of unilateral inflammatory and scaling skin lesions with ipsilateral visceral and limb anomalies. NSDHL (Xq28) encodes a protein responsible for cholesterol biosynthesis, mutations are typically lethal in males. X-inactivation creates a mosaic of cells lacking the enzyme in females, disrupting embryonic development and leading to a highly variable spectrum of anomalies. Transmission is X-linked dominant. | Occurrence | Congenital | true | Inferred relationship | Some | 2 | |
| A rare developmental defect during embryogenesis with characteristics of unilateral inflammatory and scaling skin lesions with ipsilateral visceral and limb anomalies. NSDHL (Xq28) encodes a protein responsible for cholesterol biosynthesis, mutations are typically lethal in males. X-inactivation creates a mosaic of cells lacking the enzyme in females, disrupting embryonic development and leading to a highly variable spectrum of anomalies. Transmission is X-linked dominant. | Finding site | Limb structure | true | Inferred relationship | Some | 2 | |
| A rare developmental defect during embryogenesis with characteristics of unilateral inflammatory and scaling skin lesions with ipsilateral visceral and limb anomalies. NSDHL (Xq28) encodes a protein responsible for cholesterol biosynthesis, mutations are typically lethal in males. X-inactivation creates a mosaic of cells lacking the enzyme in females, disrupting embryonic development and leading to a highly variable spectrum of anomalies. Transmission is X-linked dominant. | Associated morphology | Morphologically abnormal structure | true | Inferred relationship | Some | 2 | |
| A rare developmental defect during embryogenesis with characteristics of unilateral inflammatory and scaling skin lesions with ipsilateral visceral and limb anomalies. NSDHL (Xq28) encodes a protein responsible for cholesterol biosynthesis, mutations are typically lethal in males. X-inactivation creates a mosaic of cells lacking the enzyme in females, disrupting embryonic development and leading to a highly variable spectrum of anomalies. Transmission is X-linked dominant. | Pathological process (attribute) | Pathological developmental process | true | Inferred relationship | Some | 2 |
| Inbound Relationships | Type | Active | Source | Characteristic | Refinability | Group |
This concept is not in any reference sets
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