nephropathy

Birk-Landau-Perez Syndrome

Clinical Characteristics
Ocular Features: 

Patients have oculomotor apraxia, saccadic pursuits, lack of fixation, and ptosis.  No pigmentary changes were seen in the fundi but the optic nerves have not been described.

Systemic Features: 

This is a progressive disorder in which psychomotor regression and loss of speech develop by 1 to 2 years of age, often appearing as the first sign of abnormalities.  Cognitive impairment can progress to profound intellectual disability.  Older patients have limb and truncal ataxia and experience frequent falls.  Muscle tone in the limbs is increased and children often exhibit dyskinesia, dystonia, and axial hypotonia.  General muscle weakness is often present.  No abnormalities have been seen on brain imaging.

Some patients develop a nephropathy with renal insufficiency, hypertension, and hyperechogenic kidneys though deterioration of the renal disease is slow.  Renal biopsy in one patient revealed tubulointerstitial nephritis but no individuals have reached end-stage renal failure.

Genetics

Homozygous mutations in the SLC30A9 gene (4p13) are responsible for this disorder.  A single multigenerational consanguineous Bedouin family of 6 affected individuals has been reported with a transmission pattern consistent with autosomal recessive inheritance.

Pedigree: 
Autosomal recessive
Treatment
Treatment Options: 

No treatment for the general disorder has been reported.  Electrolytes should be monitored and metabolic issues resulting from kidney malfunction may need to be addressed.

References
Article Title: 

Angiopathy, Hereditary, with Nephropathy, Aneurysms, and Muscle Cramps

Clinical Characteristics
Ocular Features: 

Tortuosity of second and third order arterioles is usually present bilaterally but does not involve first order branches.  Intraretinal hemorrhages may also be seen and are sometimes associated with minor stress and trauma.  No fluorescein leakage is present.  Vision usually remains good but transient vision loss may be reported if the retinal hemorrhages involve the fovea and parafoveal areas.

Systemic Features: 

Nail bed capillaries may appear tortuous.  Aneurysms of the internal carotid and middle cerebral arteries can be present and cerebrovascular accidents sometimes occur.  Brain imaging may show degrees of leukoencephalopathy.  Large renal cysts, mild hematuria both microscopic and gross, and mild renal failure are sometimes seen.  Some patients experience Raynaud phenomena.  Muscle cramps lasting seconds to hours are not uncommon.  Some patients have supraventricular cardiac arrhythmias.

Alterations in basement membrane morphology can be seen on electron microscopy in many areas of the body but that of the glomeruli is normal even though the filtration rate is decreased.

Genetics

This is an autosomal dominant condition as the result of heterozygous mutations in COL4A1 (13q34).  Mutations in the same gene have also been found in a simpler autosomal dominant disease known as Retinal Arteriolar Tortuosity (180000).  The latter may be an allelic condition or the same disorder.

Pedigree: 
Autosomal dominant
Treatment
Treatment Options: 

No treatment is available for the underlying disease although symptomatic relief for cramps, arrhythmias, and renal failure may be beneficial.

References
Article Title: 

Retinal Arteriolar Tortuosity

Clinical Characteristics
Ocular Features: 

The diameter of retinal arterioles and their degree of tortuosity are continuous metrics without specific endpoints. However, examination of the retinal vasculature can identify a set of patients in which the arterioles are strikingly tortuous. It is most evident in second and third order vessels.  In such individuals retinal hemorrhages may occur following mild trauma and exercise.  They are usually located in the posterior pole and may account for reported episodes of temporary vision loss if located in the foveal and parafoveal areas.  No vascular leakage is seen on fluorescein angiography.  The retinal hemorrhages usually resolve without permanent damage.  The vascular tortuosity seems to have its onset in the first two decades of life and has been described as progressive.

Systemic Features: 

Increased tortuosity of capillaries in the nail beds can be seen and some individuals have hematuria.

The phenotype in this condition is variable and seems to be specific to individual families.  There are families in which extraocular disease has been ruled out whereas in other families there may be small vessel disease in the brain, and yet other families in which nephropathy, muscle cramps, and aneurysms occur with the retinal arteriolar tortuosity.  Patients with systemic vascular disease frequently have evidence of leukoencephalopathy on brain scans.  There is a significant risk of major vascular accidents in the central nervous system.

Genetics

Heterozygous mutations in the COL4A1 gene (13q34) have been identified in families with simple retinal arteriolar tortuosity.  The gene product is a component of type IV collagen which is found in basement membranes throughout the body, including blood vessels.

Mutations in COL4A1 have also been found in the multisystem disease known as HANAC (Hereditary Angiopathy with Nephropathy, Aneurysm and Cramps) (611773) in which tortuosity of the retinal arterioles is also seen. 

Vascular tortuosity is also a feature of Fabry disease (301500) and Williams syndrome (194050).

Pedigree: 
Autosomal dominant
Treatment
Treatment Options: 

No treatment is known but patients should avoid strenuous excercise.

References
Article Title: 

Cystinosis

Clinical Characteristics
Ocular Features: 

Cystinosis is a clinically heterogeneous disorder that has been divided into three allelic forms based on the age of onset and the amount of kidney disease.  Since the three types are caused by mutations in the same CTNS gene they are discussed here as a single entity with emphasis on the similarities and differences.  All three cause significant corneal disease secondary to crystalline cystine deposits.

The early onset and most common form of cystinosis (219800) causes severe photophobia and even corneal erosions from accumulation of refractile cystine crystals which can be seen in the first years of life.  Accumulation of cystine in the retina leads to peripheral pigmentary changes that progress centrally and is present to some degree in all patients by age 7 years.  Mottling of the retinal pigment epithelium is the most common finding but there are often alternating areas of hyperpigmentation and depigmentation as well.  Visual fields may be markedly constricted.  Photoreceptor damage eventually leads to decreased rod and cone responses as recorded by ERG.  Visual acuity ranges from near normal to NLP.

The late-onset juvenile nephropathic (219900) form has a similar corneal profile but the pigmentary retinopathy occurs later than in the infantile disease.

The adult nonnephropathic form (219750) likewise has visible cystine crystals in the cornea.  This disorder should be considered in all healthy adults with a crystalline dystrophy of the cornea.  The pigmentary retinopathy does not occur.

Systemic Features: 

In the more common infantile form of cystinosis, accumulation of cystine leads to dysfunction in many organs.  Nephropathy, hypothyroidism, and growth retardation in the infantile type are major complications.  The kidney disease leads to a Fanconi syndrome type pattern of kidney failure.  Pancreatic insufficiency, ovarian failure, myopathy, and central nervous system signs are often seen.  Patients require renal transplantation, often in the first decade of life.  Slow eating and dysphagia are common.  Heterozygotes may have elevated levels of free cystine in leukocytes.

The later onset juvenile form of cystinosis presents with kidney failure secondary to glomerular damage instead of tubular dysfunction.  The age of diagnosis varies widely, however, anywhere from 2-26 years of age, with end-stage kidney failure occurring generally in the third decade.  Aminoaciduria is usually not present and growth is normal.

The adult-onset or benign type is also uncommon.  Patients with this non-nephropathic type (219750), of course, do not develop kidney disease but have demonstrable cystine deposits in the cornea, buffy coat, and bone marrow.  No proteinuria or amino aciduria is detectable.

Genetics

Cystinosis is an autosomal recessive disease that is found in individuals homozygous for mutations in the CTNS gene (17p13) that encodes cystinosin.  The most common mutation among Caucasians of European descent is a 57-kb deletion which sometimes includes contiguous and regulatory genes.  Other sequence variants have also been found.  High cystine levels can be demonstrated in leucocytes of heterozygotes, at least in the infantile form.   A large number of mutations, both homozygous and compound heterozygous, have been found .  The accumulation of cystine seems to result from impaired cystine transport across the lysosomal membrane and it has been suggested that the severity of disease depends on the amount of functional cystinosin produced by various mutations in the CTNS gene.

Pedigree: 
Autosomal recessive
Treatment
Treatment Options: 

Topical cysteamine eye drops can dramatically reduce the number of cornea crystals and improve symptoms such as photophobia and visual acuity.  Oral administration of the same drug can be beneficial for systemic disease as well, especially if initiated before the age of two years.  It can also reduce the frequency and severity of posterior segment disease with the most benefit occurring in those who begin the drug early in life.  Improved kidney function and quality of life may be dramatic.

The chronic nature and multisystem involvement require lifelong monitoring of ocular and systemic disease.

References
Article Title: 

Alport Syndrome (Collagen IV-Related Nephropathies)

Clinical Characteristics
Ocular Features: 

X-linked Alport syndrome is a basement membrane disease with important ocular manifestations.  The lens is usually normal at birth but lens opacities eventually occur in a significant number of individuals with the most characteristic type being anterior polar in location.  Involvement of the anterior lens capsule often results in bilateral anterior lenticonus (25%) and may be progressive.  It is claimed that the severity of the lenticonus is a valuable marker in judging the overall disease severity.  In early stages it may be difficult to detect but its presence is suggested by an 'oil droplet' reflex during retinoscopy or slit lamp examination.  All males with anterior lenticonus should be evaluated for Alport syndrome. 

Posterior polymorphous corneal dystrophy and posterior subcapsular opacities have also been noted.  The defect in basement membranes may lead to recurrent corneal erosions, even in children, which can be incapacitating and difficult to treat.  Involvement of Bruch's membrane has been considered the source of retinal pigment epithelial changes described as a flecked retina, or 'fundus albipunctatus', found in 85% of patients.  More recent evidence using OCT suggests that the dot-and-fleck retinopathy results primarily from abnormalities in the internal limiting membrane and the nerve fiber layer.  The yellowish and/or whitish flecks are most commonly located in the posterior pole and particularly in the macula.  There is no night blindness or visual impairment from the retinal involvement.  Fluorescein angiography shows patchy areas of hyperfluorescence.  The amount of visual impairment depends primarily on the extent of lens involvement.

Termporal macular thinning occurs to some extent in all types of Alport syndrome based on OCT findings.   In one series all patients with X-linked disease had temporal thinning suggesting that this might be a useful diagnostic sign.  However, similar thinning is also seen in Leber hereditary optic neuropathy (535000), and dominant optic atrophy (165500).

Systemic Features: 

Nephritis with hematuria secondary to basement membrane disease of the glomeruli is the most life threatening aspect of this disorder.  It occurs in both sexes but more commonly in males in which it has an earlier onset.  Progressive sensorineural hearing loss beginning with high frequencies occurs in many patients, often with subtle onset in childhood, but many adults retain some hearing capacity.  In males, the onset of hearing loss often occurs before kidney disease is evident.  Hearing loss is less frequent and less severe in females.  However, there is considerable clinical and genetic heterogeneity and not all patients have the complete syndrome of nephritis, deafness and ocular disease.  In fact, it has been suggested that Alport syndrome can be subtyped into at least six categories based on the extent of organ involvement.

Genetics

Alport syndrome is a member of a group of disorders known as collagen IV-related nephropathies.  It is a genetically heterogeneous disease with 85% inherited in an X-linked pattern and most of the remainder occurring in an autosomal recessive pattern and only a few seemingly autosomal dominant.  All result from a defect in type IV collagen found in basement membranes.  About 80% of cases have a mutation in the COL4A5 gene which is located at Xq22.3.  Males seem to be more severely affected than females in the X-linked form of the disease but clearly this disorder affects both sexes reflecting the genetic heterogeneity, much of which remains to be delineated.  The autosomal disease generally results from mutations in the COL4A3 or COL4A4 genes and has been seen in both recessive and dominant patterns of transmission.

Pedigree: 
Autosomal dominant
Autosomal recessive
X-linked recessive, carrier mother
X-linked recessive, father affected
Treatment
Treatment Options: 

Renal transplantation can be lifesaving but a minority of individuals develop a specific antiglomerular basement membrane antibody (anti-GBM) that may lead to graft rejection.  Allograft survival rates are generally excellent though.  Lens extraction is beneficial where the media is compromised.

References
Article Title: 

Alport syndrome: a genetic study of 31 families

M'Rad R, Sanak M, Deschenes G, Zhou J, Bonaiti-Pellie C, Holvoet-Vermaut L,
Heuertz S, Gubler MC, Broyer M, Grunfeld JP, et al. Alport syndrome: a genetic
study of 31 families.
Hum Genet. 1992 Dec;90(4):420-6.

PubMed ID: 
1483700
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