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The corpus callosum is the largest white matter structure, containing 200 million axons, connecting the two hemispheres of the brain. Agenesis of the corpus callosum is one of the most common congenital cerebral malformations, which is morphologically the complete or partial absence of corpus callosum and is not defined by functional or behavioral abnormalities (as in autism). This activity reviews the etiology, presentation, evaluation, and management of corpus callosum agenesis and reviews the role of the interprofessional team in evaluating, diagnosing, and managing the condition. Objectives: Describe the various genetic etiologies of corpus callosum agenesis. Review a full diagnostic workup for agenesis of the corpus callosum, including any diagnostic imaging studies. Summarize the limited options for the management of patients with agenesis of the corpus callosum. Explain possible interprofessional team strategies for improving care coordination and communication to advance the evaluation and treatment of corpus callosum agenesis and improve outcomes. Access free multiple choice questions on this topic.

Agenesis of corpus callosum (ACC) [OMIM 217990] is one of the most common congenital cerebral malformations, which is morphologically the complete or partial absence of corpus callosum and is not defined by functional or behavioral abnormalities (as in autism). The corpus callosum is the largest white matter structure, containing 200 million axons [1] connecting the two hemispheres of the brain. Its formation starts by 74 days of gestation, with the first fibers crossing the midline at 11 to 12 weeks of gestation, development completed by 115 days, and the basic shape assumed by 18 to 20 weeks of gestational age.[2] The formation is primarily from anterior to posterior, starting with the genu and finishing with the rostrum.

Agenesis of the corpus callosum can present as an isolated condition or associated with other cerebral abnormalities. Several factors have correlations with the etiology of agenesis of the corpus callosum[3][4][1][5]: Maternal alcohol use during pregnancy Maternal phenylketonuria Chiari II malformation Genetic factors: Agenesis of the corpus callosum often correlates with several aneuploidy and non-aneuploidy syndromes. Chromosomal abnormalities are present in 20% of ACC, especially trisomies 18 and 13. Syndromes that include agenesis of the corpus callosum as an associated feature: Autosomal-dominant - e.g., Apert syndrome and basal cell nevus syndrome, Mowat-Wilson syndrome Autosomal-recessive - e.g., Joubert syndrome and Lyon syndrome X-linked - e.g., Aicardi syndrome and X-linked aqueductal stenosis or hydrocephalus Chromosomal rearrangements - e.g. trisomies, del(4)(p16), del(6)(q23), dup(8)(p21p23), dup(11)(q23qter) Mutations in the disrupted-in-schizophrenia 1 (DISC1) gene located at 1q42.1 have been recently described to be associated with agenesis of the corpus callosum.

Agenesis of the corpus callosum is one of the most common human brain malformations. It has an incidence of 0.5 to 70 in 10000, and its prevalence in children with developmental disabilities is about 230 in 10000 (2.3%).[6] It presents in 1 in 19000 autopsies.[7][8] Agenesis of the corpus callosum is more prevalent among males than females.[9]

Research has not yet determined the precise mechanism underlying the isolated occurrence of agenesis of the corpus callosum. It is an abnormality of prosencephalic midline development, and there are more than 200 congenital syndromes associated with ACC.

Depending on the part of the corpus callosum affected, agenesis of the corpus callosum may be classified into one of two varieties: Complete agenesis Partial agenesis (hypogenesis or dysgenesis), in which usually the splenium (the posterior part) is absent. As a rule of thumb, primary agenesis of the corpus callosum (total agenesis) can be excluded by the presence of the rostrum. One exception is holoprosencephaly. In this condition, there may be atypical callosal dysgenesis, in which anterior parts of the corpus callosum are absent. The other developmental abnormalities of the corpus callosum include: Dysgenesis - Abnormal shape Hypoplasia - Decreased thickness Morphologically, agenesis of the corpus callosum is classified into two types: Type 1 - Axons form, but these are unable to cross the midline. Hence, they form large aberrant Probst bundle fibers along the medial hemispheric walls. Type 2 - Commissural axons fail to form, so Probst fiber bundles are not found. Probst fiber bundles run parallel to the medial walls of the lateral ventricles and enlarge and deform their medial borders, especially at the level of the frontal horns. Recently, a reduction in the number of von Economo neurons, which are large spindle-shaped neurons localized to the anterior cingulate cortex and frontoinsular cortex, has been described in agenesis of the corpus callosum. Partial agenesis of the corpus callosum has correlations with 'sigmoid bundles,' which asymmetrically connect the frontal lobe with the contralateral occipitoparietal cortex.[10]

The affected patients are mostly asymptomatic. Most of the patients present within the first two years of life. The core syndrome of primary agenesis of corpus callosum consists of the following symptoms[11]: Reduction in the interhemispheric transfer of sensory-motor information Delay in cognitive processing and Decrease in the complex information analysis and unacquainted task performance: increased vulnerability to elevation in cognitive demands. Patients with agenesis of corpus callosum usually present with: Mental retardation (60%) Vision problems (33%) Delay in the development of speech (29%) Seizures (25%) Feeding problems (20%) Impaired hand-eye coordination and Socio-behavioral disorders like attention-deficit-hyperactivity disorder (ADHD) and psychosis Isolated agenesis of corpus callosum patients may have normal intelligence quotient but may have some cognitive deficits, which group under the "core syndrome," which includes[11]: Reduced interhemispheric transfer of sensory-motor information Reduced cognitive processing speed Deficits in complex reasoning and novel problem-solving

Fetal ultrasound can detect agenesis of the corpus callosum as early as the 16th week of gestation.[2] However, it is associated with a false-positive rate of 0 to 20%.[12] An antenatal ultrasound scan may show some findings suggestive of agenesis of the corpus callosum: Dilated and elevated third ventricle Lateral ventricles may appear as widely spaced parallel bodies with small frontal horns Colpocephaly gives rise to a "teardrop" configuration on axial scans. Absent septum pellucidum with widened interhemispheric fissure Color Doppler may show that the normal semicircular arterial loop, formed by the pericallosal artery, along with the superior surface of the corpus callosum, is missing or distorted. Magnetic resonance imaging of the brain is the investigation of choice for agenesis of the corpus callosum. The following signs are suggestive of the diagnosis[13][14]: Racing car sign: Axial imaging of the lateral ventricles will show the similarity to a Formula One car viewed from above "Moose head appearance" or "Viking helmet sign" or "Longhorn appearance": Coronal views at the level of the frontal horns have this characteristic appearance due to CCA and eversion of bilateral cingulate gyri into the frontal horns Sunray appearance: Sagittal imaging shows gyri radiating outward in a radial pattern from the ventricle Lateral ventricles appear to be parallel to each other and non-converging ACC is also typically accompanied by colpocephaly (dilatation of the trigones and occipital horns) High-riding third ventricle Along the superomedial surface of lateral ventricles, inverted Probst bundles may be present. Neuropsychological evaluation of all patients with agenesis of the corpus callosum is mandatory.

Treatment is mainly symptomatic and supportive. The main line of treatment includes: Antiepileptic medications Special education Physiotherapy Ventriculoperitoneal shunt if hydrocephalus is present Genetic counseling to family members Surgeries for associated syndromic morphological abnormalities Speech and visual rehabilitation Psychological and psychiatric therapies as appropriate

The primary imaging differential diagnoses are holoprosencephaly and septo-optic dysplasia. The main feature that helps to differentiate between the absence of septum pellucidum and agenesis of the corpus callosum is the presence of fused or communicating frontal horns and of the corpus callosum.(which may sometimes appear thinned). The presence of fused frontal horns, an abnormal anterior cerebral artery (azygos anterior cerebral artery), and the absence of a normally developed interhemispheric fissure anteriorly in holoprosencephaly assist in differentiating it from isolated and complete agenesis of the corpus callosum. Midline interhemispheric cysts may also be associated with agenesis of the corpus callosum. The differential diagnosis of such cysts are: Cavum septum pellucidum Cavum vergae Cavum velum interpositum and Interhemispheric arachnoid cyst Sometimes, these conditions can cause difficulty in diagnosis as a dilated third ventricle with a dorsal cyst can also appear the same. However, the presence of a choroid plexus in the roof of the third ventricle helps in differentiating the latter.

The prognosis is determined primarily by the associated malformations. Agenesis of the corpus callosum is associated with the following intracranial anomalies (in decreasing order of frequency)[15]: Interhemispheric cyst with hydrocephalus Dandy-Walker malformation Neuronal migration disorder Agenesis of the inferior vermis Encephalocele Lipoma of the interhemispheric fissure Children with isolated agenesis of the corpus callosum without any significant neurologic sequelae have the best prognosis. Children with agenesis of corpus callosum associated with the neuronal migration disorder with or without Dandy-Walker malformation have the worst prognosis.

An interprofessional approach involves the obstetrician for the antenatal care of the mother, neonatologist, pediatric neurologist, pediatric neurosurgeon, geneticist, maxillofacial surgeon, ophthalmologist, otorhinolaryngologist, plastic surgeon, pediatric psychiatrist and psychologist, dietician, and pediatric neuro nurse, working collaboratively in an interprofessional team approach can help to provide a good outcome for the patient with agenesis of the corpus callosum.