Fabry disease
Fabry disease is a lysosomal genetic disease caused by X-linked variants in GLA, acting through haploinsufficiency. Within this volume's rankable burden cohort it sits at residual rank 7 of 23, where established therapy is partially disease-modifying. That order is a provisional [H]-grade prioritisation device, not a registry-locked ranking.
Fabry disease is inherited as X-linked and acts by haploinsufficiency ([L]). Its pre-treatment burden proxy is 0.6625 and, after the established therapy's efficacy offset e = 0.3000 is applied, its residual burden score is 0.4637 ([H]), placing it at residual rank 7 of 23.
Gene, inheritance, and molecular mechanism
Fabry disease is inherited as X-linked dominant inheritance; X-linked recessive inheritance [L] and is classified mechanistically as haploinsufficiency [L]. GLA encodes the lysosomal enzyme alpha-galactosidase A. Deficient activity causes progressive lysosomal deposition of globotriaosylceramide (Gb3) in vascular endothelium, kidney, and heart.
Inheritance source: medgen:esummary:ModeOfInheritance:2026-06-17. Mechanism source: clingen:HI_score_3:2026-06-17; genes=GLA; PMID:11322659,27560961,30988410. These are observed, cited inputs; the inheritance and mechanism classification is the reproducible analysis layer (C-D1).
In-scope clinical involvement
Manifestations include acroparaesthesia and angiokeratomas, proteinuria progressing to renal insufficiency, and left-ventricular hypertrophy. As an X-linked disorder it is fully expressed in males and variably in heterozygous females.
| Organ system (HPO rollup) | terms |
|---|---|
| cardiovascular system | 12 |
| metabolism/homeostasis | 7 |
| genitourinary system | 6 |
| nervous system | 6 |
| digestive system | 5 |
| integument | 3 |
Organ systems [L] from HPO phenotype.hpoa v2026-06-06 (OMIM 300644,301500); P-aspect terms rolled up to HP:0000118 organ-system categories via hp.obo.
Reproducible burden position
| Burden axis | value | grade |
|---|---|---|
| Onset earliness (O) | 0.7000 | [L] |
| Progression (P) | 0.5000 | [L] |
| Symptom severity (S) | 0.7500 | [L] |
| Mortality (M) | 0.7000 | [H] |
| Disability (D) | — | [O] |
Of the five axes, 4 are scored (the rankability cut is ≥ 3 of 5); the pre-treatment composite is the renormalised mean over the scored axes, raw_burden = 0.6625. The registry-grade [L] axes here are onset, progression, and severity (onset from the Orphanet AverageAgeOfOnset register / HPO). Mortality remains an [H] inference from the cited clinical definition.
Because those axes carry [H] inferences, this position is a provisional [H] prioritisation device, not a registry-locked ranking.
The natural-history registry passes have been run against Orphanet/Orphadata (CC BY 4.0, R6) and the openly published GBD 2013 disability-weights table (Salomon et al., CC BY, R7). R6 lifts onset to registry-grade [L] across most of the cohort (earliest AverageAgeOfOnset category, entity-anchored per ORPHAcode, Exact OMIM↔ORPHA only); R7 lifts disability to [L] where one dominant untreated sequela maps to a named GBD health state (published disability weight binned by declared cut-points), and independently corroborates a mortality axis from PMC survival literature where a quantitative disease-typical figure exists. Severity now lifts to registry [L] for the one disease whose dominant sequela carries a cited HPO Severity-modifier annotation (the HP:0012824 subtree, R8); for the rest the open HPO severity annotations are feature-level (using one feature as the disease tier would be a category error), so severity stays [H]/[O] with the obstacle named. Progression lifts to registry [L] where a cited PMC open-access source states a disease-level magnitude for the dominant untreated sequela and the frozen R3 tier function derives the tier from that verbatim sentence (R9, curated dominant-sequela join, non-spectrum); for the rest progression stays [H]/[O]. The OMIM clinical synopsis (the disease-level alternative) is API-key-gated and the key is unobtainable for an individual researcher — that path is removed, not guessed.
Established treatment and residual burden
The established disease-directed approach is enzyme replacement therapy (agalsidase) with optional pharmacologic chaperone (migalastat) for amenable variants. Mechanistically: ERT replaces alpha-galactosidase A; chaperone stabilizes amenable mutant enzyme [L].
Its effect on natural history is classified disease-modifying (partial), mapping to an efficacy offset e = 0.3000 and a residual factor R_treat = 0.7000. Applied to the pre-treatment proxy this gives the residual burden score 0.4637, moving the disease from raw rank 15 to residual rank 7 (shift 8).
Evidence tier: accession-dated to the GeneReviews NBK1292 Management section [L] (initial posting August 5, 2002; last revision April 11, 2024; retrieved 2026-06-18; corroborating term(s): “enzyme, replacement, agalsidase, chaperone, migalastat, variants”). The natural-history axis grades remain a mix of [L] (GeneReviews-corroborated) and [H] (definition-only), so the burden order is still provisional.