L1 Syndrome

Clinical Phenotypes

X-linked hydrocephalus with stenosis of aqueduct of Sylvius (HSAS). Signs present in affected males:

• Severe hydrocephalus, often of prenatal onset. Clinical criteria for hydrocephalus:
  • Increased intraventricular fluid volume evidenced by increased occipital-frontal circumference (OFC) and imaging findings including increased ventricular size, loss of cerebral sulci, and transependymal resorption of cerebrospinal fluid
  • Increased intraventricular pressure based on: specific clinical signs and symptoms depending on age including progressive increase of OFC, headache, nausea and vomiting, and irritability; and/or ultrasound and/or brain imaging
• Adducted (clasped) thumbs caused by a developmental defect of the extensor pollicus longis and/or brevis muscles (>50% of males) [Schrander-Stumpel & Fryns 1998]
• Spasticity evidenced by brisk tendon reflexes and extensor plantar responses
• Moderate-to-severe intellectual disability

MASA (mental retardation [intellectual disability], aphasia [delayed speech], spastic paraplegia [shuffling gait], adducted thumbs) syndrome including X-linked complicated hereditary spastic paraplegia type 1 (SPG1). Findings in affected males:

• Mild-to-moderate intellectual disability
• Delayed onset of speech
• Hypotonia progressing to spastic paraplegia
• Possible adducted (clasped) thumbs caused by a developmental defect of the extensor pollicis longis and/or brevis muscles
• Variable abnormalities on brain MRI

X-linked complicated corpus callosum agenesis [Yamasaki et al 1995]. Findings in affected males:

• Variable spastic paraplegia
• Mild-to-moderate intellectual disability
• Corpus callosum dysplasia, hypoplasia, or aplasia

Neuroimaging Findings

Hydrocephalus with or without stenosis of the aqueduct of Sylvius is found in combination with corpus callosum agenesis/hypogenesis and/or cerebellar hypoplasia, small brain stem, and agenesis of the pyramids (corticospinal tracts) [Yamasaki et al 1995].

Bilateral absence of the pyramids detected by MRI or autopsy is an almost pathognomonic finding [Chow et al 1985].

Aqueductal stenosis is not a constant feature of L1 syndrome [Yamasaki et al 1995].

Family History

Family history is consistent with X-linked inheritance (e.g., no male-to-male transmission). Absence of a known family history does not preclude the diagnosis.

Option 1

Single-gene testing. Sequence analysis of L1CAM is performed first to detect small intragenic deletions/insertions and missense, nonsense, and splice site variants. Note: Depending on the sequencing method used, single-exon, multiexon, or whole-gene deletions/duplications may not be detected. If no variant is detected by the sequencing method used, the next step is to perform gene-targeted deletion/duplication analysis to detect exon and whole-gene deletions or duplications.

Note: Lack of amplification by PCR prior to sequence analysis can suggest a putative (multi)exon or whole-gene deletion on the X chromosome in affected males; confirmation requires additional testing by gene-targeted deletion/duplication analysis.

A multigene panel that includes L1CAM and other genes of interest (see Differential Diagnosis) is most likely to identify the genetic cause of the condition at the most reasonable cost while limiting identification of variants of uncertain significance and pathogenic variants in genes that do not explain the underlying phenotype. Note: (1) The genes included in the panel and the diagnostic sensitivity of the testing used for each gene vary by laboratory and are likely to change over time. (2) Some multigene panels may include genes not associated with the condition discussed in this GeneReview. (3) In some laboratories, panel options may include a custom laboratory-designed panel and/or custom phenotype-focused exome analysis that includes genes specified by the clinician. (4) Methods used in a panel may include sequence analysis, and deletion/duplication analysis.

For an introduction to multigene panels click here. More detailed information for clinicians ordering genetic tests can be found here.

Option 2

Comprehensive genomic testing does not require the clinician to determine which gene is likely involved. Exome sequencing is most commonly used; genome sequencing is also possible.

For an introduction to comprehensive genomic testing click here. More detailed information for clinicians ordering genomic testing can be found here.

Affected Males

L1 syndrome comprises three clinical phenotypes ranging from severe to mild; its major features are hydrocephalus, intellectual disability, spasticity of the legs, and adducted thumbs.

To date, more than 280 individuals have been identified with a pathogenic variant in L1CAM [Vos et al 2010, Vos & Hofstra 2010]. Table 2 compares the features among the various phenotypes associated with L1 syndrome. It is important to note that all phenotypes can be observed within the same family.

Hydrocephalus may be present prenatally and result in stillbirth or death in early infancy.

• Males with hydrocephalus with stenosis of the aqueduct of Sylvius (HSAS) are born with severe hydrocephalus and adducted thumbs.
  Seizures may occur.
• In less severely affected males, hydrocephalus may be subclinically present and documented only because of developmental delay.
  Mild-to-moderate ventricular enlargement is compatible with long survival.

Other brain malformations can include corpus callosum agenesis/hypogenesis and/or cerebellar hypoplasia, small brain stem, and agenesis of the pyramids.

Intellectual disability

• The degree of intellectual impairment does not necessarily correlate with head size or severity of hydrocephalus; males with severe intellectual disability and a normal head circumference have been reported.
• In HSAS, intellectual disability is usually severe and is independent of shunting procedures in individuals with severe hydrocephalus.
• In MASA (mental retardation [intellectual disability], aphasia [delayed speech], spastic paraplegia [shuffling gait], adducted thumbs) syndrome, intellectual disability ranges from mild (IQ: 50-70) to moderate (IQ: 30-50).

Behavioral concerns. In general, there are no specific behavior problems in males with the condition. However, childhood-onset psychosis has been reported in two unrelated boys [Sato et al 2020]. Familial factors and interaction with other rare genetic variants may have modulated the presentation.

Spasticity

• Boys initially exhibit hypotonia of the legs, which evolves into spasticity during the first years of life.
• In adult males, the spasticity tends to be somewhat progressive, although this finding has not been documented in a large group.
• Spasticity usually results in atrophy of the muscles of the legs and contractures that together cause the shuffling gait.

Adducted thumbs. Absence of the musculus abductor pollicis longus causes the typical adduction position of the thumb. Surgery with tendon replacement has been used and can be successful in some individuals. Splint therapy may improve the thumb position.

Other findings

• Hirschsprung disease (HSCR). At least 16 individuals with an L1CAM pathogenic variant and a combination of L1 syndrome and HSCR have been reported [Parisi et al 2002, Basel-Vanagaite et al 2006, Tegay et al 2007, Griseri et al 2009, Takenouchi et al 2012, Yang et al 2019]. HSCR is characterized by the absence of ganglion cells and the presence of hypertrophic nerve trunks in the distal bowel. It has been suggested that failure of migration of the neural crest cells underlies aganglionosis. Parisi et al [2002] and Griseri et al [2009] hypothesized that L1CAM may modify the effects of a HSCR-associated gene to cause aganglionosis. An L1CAM pathogenic variant alone does not result in HSCR [Griseri et al 2009].
• Congenital idiopathic intestinal pseudo-obstruction. An association between hydrocephalus and a specific form of congenital idiopathic intestinal pseudo-obstruction was reported in an infant [Bott et al 2004] in whom an L1CAM pathogenic variant had been detected.

Heterozygous Females

Females heterozygous for an L1CAM pathogenic variant may manifest minor features such as adducted thumbs and/or mild intellectual disability. Rarely do females manifest the complete L1 syndrome phenotype. Severe hydrocephalus has been reported in a heterozygous female [Kaepernick et al 1994, Vos et al 2010]. A pathogenic variant was detected in a girl with aqueduct stenosis, adducted thumbs, and mild intellectual disability, and without a positive family history [Author, personal observation]. Skewed X inactivation was demonstrated. Otter et al [2017] reported epilepsy in the daughter of a man with very mild L1 syndrome; although the daughter is presumed to be heterozygous for an L1CAM pathogenic variant, this has not been confirmed.

Developmental Delay / Intellectual Disability Management Issues

The following information represents typical management recommendations for individuals with developmental delay / intellectual disability in the United States; standard recommendations may vary from country to country.

Ages 0-3 years. Referral to an early intervention program is recommended for access to occupational, physical, speech, and feeding therapy as well as infant mental health services, special educators, and sensory impairment specialists. In the US, early intervention is a federally funded program available in all states that provides in-home services to target individual therapy needs.

Ages 3-5 years. In the US, developmental preschool through the local public school district is recommended. Before placement, an evaluation is made to determine needed services and therapies and an individualized education plan (IEP) is developed for those who qualify based on established motor, language, social, or cognitive delay. The early intervention program typically assists with this transition. Developmental preschool is center based; for children too medically unstable to attend, home-based services are provided.

All ages. Consultation with a developmental pediatrician is recommended to ensure the involvement of appropriate community, state, and educational agencies (US) and to support parents in maximizing quality of life. Some issues to consider:

• IEP services:
  • An IEP provides specially designed instruction and related services to children who qualify.
  • IEP services will be reviewed annually to determine whether any changes are needed.
  • As required by special education law, children should be in the least restrictive environment feasible at school and included in general education as much as possible and when appropriate.
  • PT, OT, and speech services will be provided in the IEP to the extent that the need affects the child's access to academic material. Beyond that, private supportive therapies based on the affected individual's needs may be considered. Specific recommendations regarding type of therapy can be made by a developmental pediatrician.
  • As a child enters the teen years, a transition plan should be discussed and incorporated in the IEP. For those receiving IEP services, the public school district is required to provide services until age 21.
• A 504 plan (Section 504: a US federal statute that prohibits discrimination based on disability) can be considered for those who require accommodations or modifications such as front-of-class seating, assistive technology devices, classroom scribes, extra time between classes, modified assignments, and enlarged text.
• Developmental Disabilities Administration (DDA) enrollment is recommended. DDA is a US public agency that provides services and support to qualified individuals. Eligibility differs by state but is typically determined by diagnosis and/or associated cognitive/adaptive disabilities.
• Families with limited income and resources may also qualify for supplemental security income (SSI) for their child with a disability.

Motor Dysfunction

Gross motor dysfunction

• Physical therapy is recommended to maximize mobility and to reduce the risk for later-onset orthopedic complications (e.g., contractures, scoliosis, hip dislocation).
• Consider use of durable medical equipment and positioning devices as needed (e.g., wheelchairs, walkers, bath chairs, orthotics, adaptive strollers).
• For muscle tone abnormalities including hypertonia or dystonia, consider involving appropriate specialists to aid in management of baclofen, tizanidine, Botox^®, anti-parkinsonian medications, or orthopedic procedures.

Fine motor dysfunction. Occupational therapy is recommended for difficulty with fine motor skills that affect adaptive function such as feeding, grooming, dressing, and writing.

Oral motor dysfunction should be assessed at each visit and clinical feeding evaluations and/or radiographic swallowing studies should be obtained for choking/gagging during feeds, poor weight gain, frequent respiratory illnesses, or feeding refusal that is not otherwise explained. Assuming that the child is safe to eat by mouth, feeding therapy (typically from an occupational or speech therapist) is recommended to help improve coordination or sensory-related feeding issues. Feeds can be thickened or chilled for safety. When feeding dysfunction is severe, an NG-tube or G-tube may be necessary.

Communication issues. Consider evaluation for alternative means of communication (e.g., Augmentative and Alternative Communication [AAC]) for individuals who have expressive language difficulties. An AAC evaluation can be completed by a speech-language pathologist who has expertise in the area. The evaluation will consider cognitive abilities and sensory impairments to determine the most appropriate form of communication. AAC devices can range from low-tech, such as picture exchange communication, to high-tech, such as voice-generating devices. Contrary to popular belief, AAC devices do not hinder verbal development of speech, and in many cases can improve it.

Social/Behavioral Concerns

Children may qualify for and benefit from interventions used in treatment of autism spectrum disorder, including applied behavior analysis (ABA). ABA therapy is targeted to the individual child's behavioral, social, and adaptive strengths and weaknesses and typically performed one on one with a board-certified behavior analyst.

Consultation with a developmental pediatrician may be helpful in guiding parents through appropriate behavior management strategies or providing prescription medications, such as medication used to treat attention-deficit/hyperactivity disorder, when necessary.

Concerns about serious aggressive or destructive behavior can be addressed by a pediatric psychiatrist.