Axenfeld-Rieger syndrome commonly correlates with ocular, dental, facial, and abdominal abnormalities.[3][12] Ocular findings include anterior iris stromal hypoplasia, anterior chamber synechiae, corneal opacity, microcornea, and glaucoma. Non-ocular systemic features in patients with the syndromic form of the disease may include hypodontia, maxillary hypoplasia, and periumbilical abnormalities.[3]

Posterior embryotoxon describes the presence of a prominent and anteriorly displaced Schwalbe line, which is the anatomic line that demarcates the outer corneal endothelium. Approximately half of these patients will develop glaucoma.[13]

Extraocular abnormalities are more common in patients with mutations in PITX2, and some patients present various systemic malformations.[12][14]

Evaluation for patients with 6p25 microdeletion syndrome should be comprehensive and include a referral to an ophthalmologist, particularly for patients with posterior embryotoxon. Other studies should include neurodevelopmental evaluation, screening echocardiogram, brain imaging, and hearing and vision tests, including auditory brainstem response evaluation.[15]

Childhood glaucoma is a fairly common complication in ARS. Patients should undergo prompt evaluation and treatment to preserve vision. While primary care providers may detect the clinical symptoms and initially diagnose, these patients will require further evaluation by different specialists as they may eventually require surgical interventions or specialized care to prevent permanent disabilities or blindness.[16][17]

Treatment is individualized as the clinical presentation of patients with Axenfeld-Rieger syndrome is highly variable. Approximately half of the patients will develop glaucoma which may eventually require procedures such as trabeculectomy and trabeculotomy, these therapies have been effective in controlling intraocular pressure, as described in a retrospective analysis of 24 children diagnosed with ARS and early-onset glaucoma.[16][17]

Anterior eye segment dysgenesis may present as an isolated finding in some patients or as part of various syndromes. As previously discussed, Axenfeld-Rieger syndrome encompasses a broad spectrum of phenotypes with substantial clinical overlap. Suspicion of Axenfeld-Rieger syndrome is warranted in patients who present with posterior embryotoxon with attached iris strands, or patients with various iris changes including various degrees of stroma hypoplasia, corectopia, and polycoria. Other key clinical features for ARS are extraocular anomalies such as facial dysmorphism, dental dysplasia, maxillary hypoplasia, hearing loss, redundant periumbilical skin, and cardiac anomalies.[9]

Prognosis varies on an individual basis as patients with ARS have varied clinical presentations and different degrees of comorbidities. While some patients may only present anterior ocular chamber abnormalities, others may also have cardiac defects of varying severity which may worsen their prognosis.[8]

The spectrum of diseases associated with Axenfeld-Rieger syndrome may has associations with various complications, commonly ocular abnormalities such as posterior embryotoxon. At least 50% of these patients develop glaucoma.[8]

Patients presenting with congenital glaucoma (CG) have links to FOXC2 and PITX2 mutations. CG may lead to severe complications including blindness or partial vision loss in children.[13] Amblyopia is a relatively common complication of childhood glaucoma.[16]

Patients with mutations in FOXC1 may present hearing loss in addition to ocular and heart complications.[5]

One study described a family of three generations with three cases of ARS and heart disease; these patients presented FOXC1 mutations suggesting that this gene may be involved in cardiac development.[14]

Patients and their families may benefit from knowing the type and risk of complications associated with this spectrum of disease, including a higher risk for glaucoma.[8] In addition to ocular abnormalities, ARS carries associations with dental malformations and maxillary hypoplasia. Patients suffering these complications may benefit from referral to an orofacial specialist such as a maxillofacial surgeon.[5]

Genetic counseling and possibly testing could be offered to patients as some variants of ARS are inherited in an autosomal dominant fashion.[5]

Some authors describe different variants or subtypes of ARS, and various terms are used to describe different pathological presentations, including Axenfeld-Rieger syndrome, Axenfeld anomaly, and Rieger anomaly in addition to others. All these presentations share an overlapping phenotype, and better communication between specialists including the optometrist, ophthalmologist, and ophthalmic nurse may be achievable by encompassing all these conditions under the same terminology.[8]