vascular occlusions

Hyperoxaluria, Primary, Type I

Clinical Characteristics
Ocular Features: 

About 30% of patients with type I develop retinopathy and about half of those have a diffuse optic atrophy.  Oxalate crystal deposition can cause a 'fleck retina' picture sometimes described as a crystalline retinopathy.  There is wide variation in the retinal phenotype.  Retinal toxicity leads to early and progressive vision loss.  The RPE may respond with hyperpigmentation in the form of 'ringlets' in the posterior pole.  Retinal fibrosis has been described.  Some patients develop choroidal neovascularization.

Evaluation using EDI-OCT shows progressive deposition of oxalate crystals throughout the retina, pigment epiithelium, and choroid.

Systemic Features: 

The onset of this disease can occur any time from infancy to 25 years of age.  Failure to thrive can be a presenting sign in infants.  Most patients have glycolic aciduria and hyperoxaluria as the result of failure to transaminate glyoxylate to form glycine.  The result is deposition of insoluble oxalate crystals in various body tissues with nephrolithiasis and nephrocalcinosis often early signs.  Neurologic, cardiac, vascular, and kidney disease is often the result although oxalate crystals can be found throughout the body.  Arteriole occlusive disease may lead to gangrene, Raynaud phenomena, acrocyanosis and intermittent claudication.  Renal failure is common. 

Genetics

Hyperoxaluria type I is an autosomal recessive disorder resulting from a mutation in the alanine-glyoxylate aminotransferase gene (AGXT) located at 2q36-q37.  Failure of this liver peroxisomal enzyme to transaminate glyoxylate results in oxidation of this molecule to form oxalate.

Hyperoxaluria type II (260000) is caused by mutations in the GRHPR gene (9cen) and type III (613616) by mutations in DHDPSL (HOGA1) (10q24.2).  Urolithiasis is the only clinical feature in these types. 

Pedigree: 
Autosomal recessive
Treatment
Treatment Options: 

Some patients benefit from oral pyridoxine (B6) treatment in type I hyperoxaluria.  Renal transplantation by itself is only temporarily helpful since the enzymatic defect remains and the donor tissue becomes damaged as well.  Combined renal-liver transplantation should be considered instead because it corrects the primary metabolic error and can even reverse the accumulation of oxalate crystals. 

References
Article Title: 

Primary hyperoxaluria in infants

Jellouli M, Ferjani M, Abidi K, Zarrouk C, Naija O, Abdelmoula J, Gargah T. Primary hyperoxaluria in infants. Saudi J Kidney Dis Transpl. 2016 May-Jun;27(3):526-32.

PubMed ID: 
27215245

Primary hyperoxaluria

Cochat P, Rumsby G. Primary hyperoxaluria. N Engl J Med. 2013 Aug 15;369(7):649-58. Review.

PubMed ID: 
23944302

Pseudoxanthoma Elasticum

Clinical Characteristics
Ocular Features: 

Breaks in Bruch membrane lead to the classic non-diagnostic ocular sign in this disease known as angioid streaks.  These are typically bilateral, reddish-brown curvilinear bands that vaguely resemble a vascular pattern seen most commonly in the posterior pole radiating from the peripapillary area.  They typically have their onset after the skin lesions appear.  The fundus may also have areas of yellow mottling temporal to the fovea suggestive of an orange peel surface.  These are sometimes labeled 'peau d'orange' and their appearance frequently precedes the appearance of angioid streaks.  Optic disc drusen are said to occur 20-50 times more frequently than in the general population and may be apparent before the appearance of angioid streaks.  A significant proportion of patients have atrophy of the RPE and outer retina, especially those with early onset and rapid progression of the disease.

The major threat to vision comes from the formation of subretinal neovascular nets which often bleed resulting in secondary scarring and fibrosis.  These frequently involve the central macula which is why central vision is primarily impacted and peripheral vision usually remains normal.  Macular involvement is evident at a mean age of 44 years and the majority of patients are visually handicapped by the age of 52 years.

Systemic Features: 

The skin has characteristic changes of several types due to defective elastin.  It is often lax and redundant with localized plaques of hyperkeratotic papules giving the typical 'plucked chicken' appearance.  The latter are typically seen in the skin of the neck, in inguinal folds and in the popliteal and antecubital spaces.  These may have their onset in childhood but sometimes later.  They are generally asymptomatic and primarily of cosmetic importance.  The oral, rectal, and vaginal mucosa may also be involved.  Focal deposits of calcium are often seen.

Vascular disease secondary to calcification of elastic media and intima are responsible for the major health problems in this disease but they usually are not evident until later in life.  Hemorrhage or occlusion often results.  At least 10% of individuals with this disease experience a gastrointestinal hemorrhage at some point in their lives and this can be life-threatening.  Intermittent claudication can be incapacitating.  Coronary artery disease is frequently a symptom.  Occlusive disease of the renal arteries can result in hypertension.  Malfunction of heart valves, especially the mitral valve, is common.

Genetics

This is an autosomal recessive disorder caused by mutations in the ABCC6 gene (16p13.1).  Females are affected nearly twice as often as males.  Some heterozygotes have minor manifestations of the disease but the full clinical picture is only seen in homozygotes.

Rare variant mutations in the ABCC6 gene may cause typical ocular changes without systemic manifestations.

Pedigree: 
Autosomal recessive
Treatment
Treatment Options: 

Choroidal neovascularization should be treated.  Intravitreal injections of ranibizumab may be beneficial as a prophylactic measure for the preservation of central vision.  GI bleeds require prompt and vigorous treatment and cardiac valves sometimes require repair.  Redundant skin can be surgically removed.  Patients should avoid contact sports and activities requiring heavy lifting or straining.  Antibiotic prophylaxis should be considered for patients with heart valve disease before undergoing procedures.

References
Article Title: 
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