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Ophthalmic Findings During 10-year Enzyme Substitution of Danish Fabry Patients.

Phase 4
Completed
Conditions
Fabry Disease
Interventions
Drug: Enzyme replacement
Registration Number
NCT01997489
Lead Sponsor
Rigshospitalet, Denmark
Brief Summary

Fabry disease is a recessively inherited disorder due to systemic storage of abnormal metabolites (ceramide trihexocide, in particular) caused by lack of the lysosomal enzyme α-galactosidase. Though X-linked, in patient series there are often equal numbers of males (hemizygotes ) and females (heterozygotes, probably caused by a mutation in one allele and an inactivation on the other allele in the X chromosomes), and many clinical features are shared.

Abnormal storage in endothelial and smooth muscle cells explains morbidity, including a shortened life expectancy. This is due to age dependent ischaemic manifestations that affect heart, kidney and brain. Angiofibroma is an early cutaneous manifestation, and painful acro-paresthesias express juvenile neuropathy.

Cornea verticillata is an almost obligate ophthalmic finding. The brown-yellow Bowman membrane related corneal deposits and teleangiectatic conjunctival vessels are early ophthalmic slit-lamp markers of the disorder; further there can be subtle lens opacities. Fundus vessel tortuosity is observed in many patients, in particular of the retinal venules, but best corrected visual acuity (BCVA) is usually normal.

After the introduction of enzyme substitution therapy in 2001, ophthalmic examinations were scheduled as regular part of the general evaluation of the Fabry patients at Rigshospitalet, Denmark. A 10-year ophthalmic state of arts was part of oral presentations at a Copenhagen conference in December 2011. In contrast to the common occurrence of systemic vascular sequels, only one patient in the series had suffered severe visual loss; this was unilateral and occurred years before institution of the enzyme therapy. In 2013, however, another young male presented a similar retinal event. Sporadic cases of visual loss are reported in the literature, but in larger Fabry series ocular vascular catastrophes appear the exception to the rule.

Following the introduction of enzyme substitution, we found it of interest to present our nationwide Danish experience. We focused on retinal vessel morphology and the relation to systemic morbidity.

Detailed Description

Fabry disease is a recessively inherited disorder due to systemic storage of abnormal metabolites (ceramide trihexocide, in particular) caused by lack of the lysosomal enzyme α-galactosidase. Though X-linked, in patient series there are often equal numbers of males (hemizygotes ) and females (heterozygotes, probably caused by a mutation in one allele and an inactivation on the other allele in the X chromosomes), and many clinical features are shared (Cox 2005).

Abnormal storage in endothelial and smooth muscle cells explains morbidity, including a shortened life expectancy (Frost \& Tanaka 1966; Desnick et al. 1976; deVeber et al.1992; Hughes \& Mehta 2005; Nguyen et al. 2005; Sodi et al. 2007). This is due to age dependent ischaemic manifestations that affect heart, kidney and brain. Angiofibroma is an early cutaneous manifestation, and painful acro-paresthesias express juvenile neuropathy (Cox 2005; Cleary et al. 2005).

Cornea verticillata is an almost obligate ophthalmic finding. The brown-yellow Bowman membrane related corneal deposits and teleangiectatic conjunctival vessels are early ophthalmic slit-lamp markers of the disorder; further there can be subtle lens opacities. Fundus vessel tortuosity is observed in many patients, in particular of the retinal venules, but best corrected visual acuity (BCVA) is usually normal (Ballantyne \& Michaelson 1970; Lou et al. 1970; Sher et al. 1979; Utsumi et al. 2009).

After the introduction of enzyme substitution therapy in 2001, ophthalmic examinations were scheduled as regular part of the general evaluation of the Fabry patients at Rigshospitalet, Denmark. A 10-year ophthalmic state of arts was part of oral presentations at a Copenhagen conference in December 2011. In contrast to the common occurrence of systemic vascular sequels, only one patient in the series had suffered severe visual loss; this was unilateral and occurred years before institution of the enzyme therapy (Andersen et al. 1994). In 2013, however, another young male presented a similar retinal event. Sporadic cases of visual loss are reported in the literature (Sher et al. 1978,1979; Tuupurainen et al. 1981; Sakkuraba et al. 1986; Utsumi et al. 2009), but in larger Fabry series ocular vascular catastrophes appear the exception to the rule (Orssaud et al. 2003; Hughes \& Mehta 2005; Nguyen et al. 2005; Sodi et al. 2007; Utsumi et al. 2009)).

Following the introduction of enzyme substitution, we found it of interest to present our nationwide Danish experience. We focused on retinal vessel morphology and the relation to systemic morbidity.

Recruitment & Eligibility

Status
COMPLETED
Sex
All
Target Recruitment
39
Inclusion Criteria
  • All Danish patients with Fabry disease before starting therapy
Exclusion Criteria
  • Missing values for eye examination at baseline or follow-up

Study & Design

Study Type
INTERVENTIONAL
Study Design
SINGLE_GROUP
Arm && Interventions
GroupInterventionDescription
Fabry patients during treatmentEnzyme replacement39 patients with Fabry disease having had baseline examinations of the eyes were assessed also at follow-up 10 years after enzyme replacement therapy
Primary Outcome Measures
NameTimeMethod
cornea vercillitatachange from baseline to 10 years

Eye examination of 39 Fabry patients before starting therapy with enzyme replacement and after 10 years

Secondary Outcome Measures
NameTimeMethod

Related Research Topics

Explore scientific publications, clinical data analysis, treatment approaches, and expert-compiled information related to the mechanisms and outcomes of this trial. Click any topic for comprehensive research insights.

How does enzyme replacement therapy affect corneal endothelial ceramide trihexoside accumulation in Fabry disease?
What are the comparative outcomes of agalsidase alfa vs. beta in Danish Fabry patients' retinal vessel morphology?
Which biomarkers correlate with preserved visual acuity during long-term ERT in Fabry disease (NCT01997489)?
What ocular vascular complications are reported in Fabry trials using α-galactosidase enzyme substitution?
How do Danish ERT protocols for Fabry disease compare to global standards in managing systemic and ocular manifestations?

Trial Locations

Locations (2)

Ulla Feldt-Rasmussen

🇩🇰

Copenhagen, Capital region, Denmark

National University Hospital, Department of Medical Endocrinology

🇩🇰

Copenhagen, Denmark

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