Trapezoidocephaly Synostosis Syndrome

Other names
Types
Causes
Symptoms
Diagnostic tests
Non-pharmacological treatments
Drug treatments
Dietary molecular supplement
Immunity booster / regenerative / stem-cell drug
Surgeries
Preventions
When to see doctors urgently
What to eat and what to avoid
FAQs

Trapezoidocephaly-synostosis syndrome is a rare genetic condition that affects how a baby’s skull and bones grow before birth. In this condition, one or more skull seams (called sutures) close too early. When the sutures fuse early, the head cannot grow normally, and the skull becomes misshapen. In this specific syndrome, the skull can look trapezoid-shaped from above, and children often have other bone changes in the face and limbs. Doctors now group these children under Antley-Bixler syndrome (ABS). Many children with ABS have a combination of skull fusion (craniosynostosis), midface undergrowth, and joint or long-bone problems such as bowing or fused arm bones. In some families, ABS also includes hormone-related problems because of changes in a gene that helps the body make steroid hormones. Orpha.Net+3Translational Pediatrics+3BioMed Central+3

Trapezoidocephaly-synostosis syndrome (Antley–Bixler syndrome, ABS) is a very rare genetic condition in which some skull seams (sutures) close too early (craniosynostosis), giving the head an unusual shape that can look trapezoid from above, and also causing problems with face bones, arms, legs, joints, and sometimes the airway and genital organs. Two molecular routes are known: changes in FGFR2 (a growth-signal receptor) or changes in POR (the enzyme that powers many steroid-making enzymes). When POR is affected, the body’s steroid hormones may be low or unbalanced; when FGFR2 is affected, skull sutures and facial bones tend to fuse early. Care is lifelong and multidisciplinary (neurosurgery/craniofacial, ENT/airway, orthopedics, endocrinology, genetics, therapy services). Early recognition and planned surgery can reduce pressure on the brain, protect the eyes and airway, and improve development. Radiopaedia+3National Organization for Rare Disorders+3NCBI+3

“Trapezoidocephaly” describes the head shape that can appear like a trapezoid in some skull fusion patterns, especially when the lambdoid suture at the back of the head is involved. That shape is a useful descriptive clue during examination and imaging. PubMed+1

Other names

This condition appears in the medical literature under several names. Knowing the synonyms helps you find reliable information:

Antley-Bixler syndrome (ABS).
Trapezoidocephaly-synostosis syndrome (historic synonym).
ABS due to FGFR2 (sometimes called “Type 1”).
ABS with genital anomalies and disordered steroidogenesis due to POR gene changes (often called “Type 2,” or P450 oxidoreductase deficiency (PORD) with ABS phenotype). Radiopaedia+1

Types

Type 1 (FGFR2-related ABS).
Some children have changes in the FGFR2 gene. This gene guides bone growth and suture fusion. FGFR2-related cases usually focus on the bone and skull features (craniosynostosis, midface hypoplasia, limb fusions), without the hormone problems that appear in POR-related disease. Inheritance can be autosomal dominant (one altered copy is enough), and many cases are new mutations. PMC+1

Type 2 (POR-related ABS / PORD with ABS phenotype).
Other children have changes in the POR gene, which provides electrons to many steroid-making enzymes. These children often have the same bone features plus steroid hormone problems (such as ambiguous genitalia or disordered steroid labs). POR-related disease is usually autosomal recessive (both copies altered). NCBI+1

ABS-like fetal exposure pattern (rare).
Very rarely, in-utero exposure to azole antifungals (e.g., fluconazole) can produce a bone pattern that looks like ABS in a newborn, likely by interfering with cholesterol/steroid synthesis enzymes. This is not genetic ABS, but it can mimic its skeletal features. Karger

Causes

Below are “causes and contributors.” Because ABS is rare, the strongest, proven causes are specific gene variants. I include related mechanisms and recognized mimics so you can see the full picture doctors consider.

FGFR2 pathogenic variants—alter signals that tell skull sutures when to close, leading to early fusion and midface undergrowth. PMC
POR pathogenic variants—reduce steroid enzyme support, disturbing steroid and cholesterol pathways and indirectly affecting bone formation. NCBI
Autosomal dominant inheritance (FGFR2 form)—the altered gene can pass from one affected parent to a child, or arise new in the child. PMC
Autosomal recessive inheritance (POR form)—both parents carry one silent POR change; a child inheriting both changes is affected. MedlinePlus
De-novo mutations—new FGFR2 changes can appear in a child without a family history. PMC
Disordered steroidogenesis (mechanism)—POR problems disrupt steroid production, which also influences bone and skull growth. MedlinePlus
Cholesterol synthesis perturbation (mechanism)—cholesterol is a building block for steroid hormones and for signaling in bone; POR deficiency can impair this. MedlinePlus
Abnormal suture biology (mechanism)—FGFR2 signaling changes push sutures to fuse too early. PMC
Aberrant endochondral/craniofacial ossification pathways—downstream of FGFR2/POR, bone formation timing is altered. BioMed Central
Radiohumeral/radioulnar synostosis pathway effects—skeletal patterning genes and growth factor signals overlap in skull and limb bones. BioMed Central
Maternal azole exposure (ABS-like mimic)—high-dose or prolonged fluconazole in pregnancy has been linked to an ABS-like skeletal pattern in the baby. Karger
Compound heterozygosity in POR—two different POR changes (one from each parent) can cause the syndrome. Wiley Online Library
Homozygous POR variants—two copies of the same POR change can produce severe disease. MedlinePlus
Gene–environment interplay—in POR disease, altered steroid metabolism may amplify the effect of certain exposures on bone. (Inference grounded in POR biology.) NCBI
Pathway overlap with FGFR-related craniosynostosis syndromes—ABS shares features with FGFR-related conditions (e.g., Crouzon/Pfeiffer), reflecting shared signaling. Radiopaedia
Suture-specific growth restriction—premature fusion restricts growth perpendicular to the closed suture, forcing growth elsewhere and creating the trapezoid head shape. PubMed
Bone stress and fracture risk—abnormal modeling can make long bones bowed and fragile. BioMed Central
Midface hypoplasia cascade—underdevelopment of midface bones causes airway crowding and feeding issues. BioMed Central
Choanal atresia/stenosis development error—bony/cartilage formation at the back of the nose can be abnormal, closing or narrowing the airway. MalaCards
Multisystem involvement—because FGFR2 and POR affect many tissues, ABS may include heart, kidney, or genital differences. MalaCards+1

Symptoms

Unusual head shape—often a trapezoid look from above due to specific suture fusion patterns. PubMed
Craniosynostosis—early closure of sutures (commonly coronal; lambdoid may contribute to the trapezoid shape). This can raise pressure inside the skull. Access Anesthesiology
Midface hypoplasia—flat midface with small nasal bridge. This can affect breathing and looks. BioMed Central
Prominent eyes (proptosis)—the shallow eye sockets make the eyes look bulging. MalaCards
Choanal atresia/stenosis—the back of the nose is blocked or narrowed, causing noisy breathing and feeding difficulty. MalaCards
Fused arm bones (radio-humeral or radio-ulnar synostosis)—reduces elbow or forearm rotation. BioMed Central
Bowed long bones (e.g., femur)—legs or arms may look curved; fractures can occur. BioMed Central
Joint contractures or camptodactyly—stiff joints or bent fingers/toes limit movement. Wikipedia
Arachnodactyly—long, slender fingers. Wikipedia
Ear differences and hearing issues—low-set or dysplastic ears; hearing can be affected in some children. ScienceDirect
Genital differences / DSD (in POR form)—in POR-related ABS, hormone problems can lead to ambiguous genitalia. MedlinePlus
Feeding difficulties and poor weight gain—due to airway issues and facial structure. (Common in midface hypoplasia syndromes.) BioMed Central
Breathing problems—from small midface, choanal narrowing, or chest wall shape. BioMed Central
Kidney or heart anomalies (some cases)—ABS can include internal organ differences. BioMed Central
Developmental concerns—mostly secondary to airway issues, vision/hearing problems, or raised intracranial pressure if craniosynostosis is not relieved in time. (General craniosynostosis principle.) National Organization for Rare Disorders

Diagnostic tests

Below are the common ways doctors check for and confirm this syndrome. I group them as physical exam, manual/bedside measurements, lab/pathology, electrodiagnostic, and imaging. Not every child needs every test—doctors choose based on the child’s signs.

Physical exam

Head-shape assessment
The doctor looks from the top and sides to see if the skull is trapezoid-shaped or has features of coronal synostosis. This simple view can strongly suggest which suture closed early. PubMed
Suture and fontanelle palpation
Feeling the skull seams and soft spots helps detect early fusion or ridging. This is a standard part of infant cranial exams in craniosynostosis clinics. Children’s Hospital of Philadelphia
Craniofacial feature exam
The clinician notes midface hypoplasia, eye prominence, ear position/shape, and nasal airway clues that fit ABS. MalaCards
Limb and joint exam
Doctors check for fused elbow/forearm bones, joint contractures, bowed limbs, and finger features such as arachnodactyly. BioMed Central
Airway and feeding assessment
Bedside checks (noisy breathing, cyanosis, poor suck) raise concern for choanal narrowing and the need for imaging or endoscopic evaluation. MalaCards

Manual / bedside measurements

Cranial anthropometrics
Measuring head length, width, and asymmetry helps track skull growth and document the trapezoid or other patterns of deformity over time. Children’s Hospital of Philadelphia
Exophthalmometry (clinical)
Simple gauges or standardized photos can document eye protrusion caused by shallow orbits. (Used broadly in craniofacial practice.) MalaCards
Airflow patency checks
Bedside tests (mirror fogging under nostrils, occlusion tests, pulse oximetry trends) can suggest choanal narrowing and guide formal studies. MalaCards

Laboratory & pathological tests

Steroid hormone panel (POR-suspected cases)
Blood and/or urine steroids (e.g., 17-hydroxyprogesterone, cortisol, androgens) may show the characteristic pattern of disordered steroidogenesis in POR-related ABS. MedlinePlus
ACTH stimulation testing
This dynamic test helps clarify adrenal reserve and enzyme pathway blocks in POR deficiency. MedlinePlus
Cholesterol and precursors (select cases)
Because POR affects cholesterol pathways, clinicians may review cholesterol-related markers as part of a broader metabolic work-up. MedlinePlus
Genetic testing—targeted sequencing
Testing FGFR2 and POR confirms the type, guides counseling, and helps family planning. Today, many centers use gene panels for craniosynostosis or whole-exome sequencing. PMC+1
Parental carrier testing (POR)
If a child has biallelic POR variants, testing the parents helps confirm autosomal recessive inheritance and defines recurrence risk. MedlinePlus
Prenatal genetic testing (CVS/amniocentesis)
If a familial variant is known, testing during pregnancy can identify an affected fetus early to coordinate delivery and care. PMC
Newborn screening review
While ABS is not a standard screened condition, some steroid abnormalities may be noticed indirectly; abnormal results prompt targeted endocrine evaluation. MedlinePlus

Electrodiagnostic tests

Hearing tests with auditory brainstem response (ABR)
If ear structure is atypical or hearing is uncertain, ABR helps measure hearing in infants and guides early intervention. (Common in craniofacial care pathways.) ScienceDirect
Visual evoked potentials (VEP)
Proptosis and shallow orbits can affect the eyes; VEP helps check the visual pathway when exam is difficult. (Used selectively.) MalaCards
EEG
If a child has suspected seizures or episodes related to raised intracranial pressure, EEG assesses brain electrical activity. (General practice for craniosynostosis with neurologic symptoms.) National Organization for Rare Disorders

Imaging tests

3-D CT scan of the skull
This is the gold-standard imaging to confirm which sutures are fused, plan surgery, and visualize the trapezoid or other head shapes. Radiation is kept as low as possible. AJR American Journal of Roentgenology
Plain skull X-rays or low-dose protocols
In some centers, initial imaging may start with X-rays; however, CT gives the full 3-D picture for surgical planning. AJR American Journal of Roentgenology
Prenatal ultrasound
Detailed fetal ultrasound can sometimes spot limb bowing, joint fusions, or craniofacial differences suggestive of ABS. PMC
MRI of brain and airway (selected cases)
MRI helps evaluate the brain, venous sinuses, and airway space without radiation, especially when symptoms suggest increased pressure or complex anatomy. National Organization for Rare Disorders
Skeletal survey (limb radiographs)
X-rays of the arms and legs may show radiohumeral/radioulnar fusion and bowed long bones, which support the diagnosis. BioMed Central
Echocardiogram and renal ultrasound
Some children have heart or kidney differences; these scans look for associated anomalies and guide care. BioMed Central

Non-pharmacological treatments

Craniofacial team coordination. A dedicated team (neurosurgery, plastics, ENT, ophthalmology, orthopedics, dentistry/orthodontics, genetics, endocrinology, therapies) tracks skull growth, eyes, airway, feeding, and development, and schedules staged procedures when needed. Early, organized care improves safety and function. PubMed+1
Early craniosynostosis surveillance. Regular head-shape checks, head circumference trends, and intracranial-pressure watch reduce risk of vision loss, headaches, or developmental delay from cephalocranial disproportion. NCBI
Airway management & sleep care. Evaluation for choanal atresia, midface hypoplasia, and obstructive sleep apnea; interventions range from positioning and nasal care to CPAP or surgery. Protecting airway and sleep helps growth and brain development. PubMed
Feeding and swallowing therapy. Midface/airway issues can impair suck-swallow-breathe coordination; speech-language pathologists teach safe strategies and positions; dietitians optimize calories for catch-up growth. National Organization for Rare Disorders
Physical therapy. Stretching for contractures, gentle strengthening, and developmental motor work maintain range, reduce stiffness, and support milestones. National Organization for Rare Disorders
Occupational therapy. Splinting for hand function (radio-humeral synostosis), fine-motor training, adaptive tools for dressing/feeding, and school skills. National Organization for Rare Disorders
Vision protection strategies. Lubrication for exposure risk from shallow orbits, sun protection, and timely ophthalmology review to prevent corneal damage. PubMed
Hearing monitoring. Recurrent middle-ear disease or craniofacial anatomy can reduce hearing; prompt audiology helps language development. NCBI
Dental/orthodontic care. Midface retrusion can crowd teeth; staged orthodontics prepares for later midface advancement and improves function. GOSH Hospital site
Speech-language therapy. Treats resonance/articulation issues and supports feeding and language; early therapy matters. National Organization for Rare Disorders
Developmental and educational supports. Early-intervention services and individualized education plans (IEPs) target learning needs linked to sleep/airway/vision/hearing issues. NCBI
Genetic counseling. Clarifies inheritance, recurrence risk, and options (e.g., prenatal testing or IVF with preimplantation testing for known familial variants). National Organization for Rare Disorders
Endocrine stress education (POR-type). Families learn stress-dose steroid plans if cortisol reserve is limited; emergency cards and sick-day rules prevent adrenal crises. NCBI
Skin/eye care routines. For proptosis and exposure, simple daily lubrication and lid hygiene prevent abrasions and infections. PubMed
Safe-sleep positioning. Neutral neck positioning and airway-friendly sleep setup reduce obstruction risk until definitive surgery. PubMed
Psychological support. Counseling for parents and later for the child supports coping with surgeries, appearance concerns, or fertility questions (POR-type). National Organization for Rare Disorders
Social work & peer support. Connecting with craniofacial/rare-disease networks reduces isolation and improves care navigation. National Organization for Rare Disorders
Safety planning for anesthesia. Multisystem anomalies demand experienced pediatric anesthesia teams; airway difficulty and endocrinology status are flagged pre-op. Access Anesthesiology
Fertility counseling (older adolescents/adults, POR-type). Discussion of pubertal induction, reproductive options, and, when appropriate, assisted reproduction. Frontiers
Medication safety in pregnancy. For people who may become pregnant, avoid chronic, high-dose oral fluconazole in the first trimester because of ABS-like embryopathy; topical azoles are usually preferred. U.S. Food and Drug Administration+1

Drug treatments

Note: There is no single “ABS drug.” Medicines treat complications (endocrine, airway/sleep, pain, reflux, infections, seizures when present) and peri-operative needs. Doses are individualized by specialists.

Glucocorticoid replacement (POR-type). Low physiologic hydrocortisone may be used if testing shows inadequate cortisol, with stress-dosing during illness/surgery to prevent adrenal crisis; aim is normal growth and protection from stress. Side effects: cushingoid features if over-treated. NCBI
Mineralocorticoid ± salt (if POR-type with salt-wasting). Fludrocortisone supports sodium balance and blood pressure; careful monitoring prevents hypo-/hyperkalemia. NCBI
Sex-steroid management (POR-type). Tailored estrogen/testosterone regimens for puberty induction or DSD care; goal is healthy puberty, bone health, and well-being under endocrine supervision. Risks follow standard sex-steroid profiles. NCBI
Peri-operative antibiotics. Used around craniofacial/orthopedic surgeries per institutional protocols to reduce surgical-site infection. PubMed
Analgesia (acetaminophen/ibuprofen; opioids short-term). Multimodal pain control after procedures supports recovery; avoid chronic opioids. PubMed
Ocular surface medicines (lubricating drops/ointments). Protect cornea in proptosis/exposure; sometimes temporary moisture chambers are used. PubMed
Anti-reflux therapy (e.g., PPIs/H2 blockers). Helpful for feeding tolerance and growth when reflux aggravates airway. National Organization for Rare Disorders
Nasal steriods/saline and decongestion plans (ENT-guided). Support nasal patency in mild choanal narrowing; severe cases are surgical. PubMed
Anticonvulsants (if seizures occur). Selected based on seizure type and interactions with steroid or peri-op meds. NCBI
Vitamin D and calcium (medication-grade supplementation). Support bone health, especially with limited mobility or steroid therapy. NCBI
Topical azoles (pregnancy-safe alternative for candidiasis). Preferred in pregnancy to avoid high-dose systemic fluconazole teratogenic risk. CMAJ
CPAP devices (technically equipment, prescribed like a therapy). For sleep-disordered breathing while awaiting skeletal correction. PubMed
Artificial tear gels with nighttime ointments. Reduce exposure keratopathy until orbital surgery. PubMed
Nebulized bronchodilators (if reactive airway). Symptomatic relief during respiratory illnesses; ENT/pulmonology directs care. PubMed
Iron (when documented deficiency). Supports neurodevelopment and reduces restless sleep symptoms in some children. NCBI
Antibiotic ear drops (for tympanostomy tube otorrhea). Protect hearing/language development pathway. NCBI
Peri-operative tranexamic acid (center-specific). Sometimes used to limit blood loss in craniofacial surgery under strict protocols. PubMed
Steroid stress-dose kits (home plan, POR-type). Emergency hydrocortisone (IM) for vomiting/fever per endocrinology plan. NCBI
Antibiotic prophylaxis for airway procedures (case-by-case). ENT determines need after choanal or midface operations. PubMed
Osmotic stool softeners. Prevent straining post-op and during opioid use. PubMed

Dietary molecular supplement

Always coordinate with your clinical team—especially if on hormone therapy or facing surgery.

Vitamin D3 for bone health per pediatric/endocrine targets. NCBI
Calcium at age-appropriate intakes for bone mineralization. NCBI
Omega-3 fatty acids to support general cardiometabolic health and possibly inflammation balance. NCBI
Iron only if deficiency is documented (improves energy, sleep, cognition). NCBI
Zinc for wound healing after surgeries if deficient. PubMed
Protein-rich nutrition (including supplemental shakes where needed) for peri-operative healing and growth. PubMed
Iodine-adequate diet (thyroid health) particularly relevant when endocrine monitoring is ongoing. NCBI
Folate & B-complex through balanced diet; supports growth and hematologic health. NCBI
Electrolyte solutions during illness for those with mineralocorticoid issues. NCBI
Fiber & hydration to offset constipation from pain medicines. PubMed

Immunity booster / regenerative / stem-cell drug

There are no disease-specific immune or stem-cell drugs for ABS. Focus remains on surgical reconstruction and supportive/endocrine care. Below are general concepts sometimes discussed in complex pediatric care; they are not ABS-specific therapies and should not replace standard care.

Vaccination optimization. Keeping routine vaccines up to date reduces respiratory infections that complicate airway issues. NCBI
Nutrition-driven immunity (protein, micronutrients) to support wound healing post-op. PubMed
Vitamin D adequacy (immune modulation and bone). NCBI
No approved gene/stem-cell therapy for FGFR2 or POR in ABS as of 2025; such approaches remain investigational in craniofacial genetics. NCBI
Prompt treatment of sleep-disordered breathing to reduce systemic stress on growth and immunity. PubMed
Peri-operative infection prevention bundles (chlorhexidine, antibiotics per protocol). PubMed

Surgeries

Fronto-orbital advancement (FOA). Reshapes the forehead and upper eye socket to relieve intracranial pressure, protect the eyes, and create space for brain growth; often performed in infancy depending on severity. PubMed
Midface advancement (e.g., Le Fort III, monobloc; sometimes with RED frame). Brings the midface forward to enlarge the airway, improve eye protection and dental occlusion; timing varies from early childhood to later childhood/adolescence. GOSH Hospital site+1
Choanal atresia repair / nasal airway surgery. Opens the back of the nose to improve breathing and feeding. PubMed
Orthopedic procedures. Address joint fusions (e.g., radio-humeral) or severe bowing to improve function and reduce pain. PMC
Shunt or posterior fossa/Chiari procedures (if present). Manages hydrocephalus or crowding at skull base to prevent neurologic harm. ThinkGenetic Foundation

Preventions

Early referral to a craniofacial center for any atypical head shape. Children’s Wisconsin
Avoid chronic, high-dose oral fluconazole during early pregnancy. Prefer topical options. U.S. Food and Drug Administration+1
Endocrine stress plans (POR-type). Carry emergency steroid guidance. NCBI
Protect eyes (lubricants, sunglasses, timely surgery). PubMed
Sleep safety (OSA screening, CPAP when indicated). PubMed
Hearing checks to avoid language delay. NCBI
Dental hygiene & orthodontic follow-up. GOSH Hospital site
Infection prevention around surgeries (follow pre-op instructions exactly). PubMed
Vaccinations on schedule. NCBI
Genetic counseling pre-conception if a familial variant is known. National Organization for Rare Disorders

When to see doctors urgently

Seek urgent care for: breathing difficulty, blue spells, feeding with choking, bulging fontanelle or vomiting/headache (possible pressure issues), red/painful eyes or vision change, fever with vomiting in a child on steroid replacement, or rapid head-shape change. For non-urgent issues, see your craniofacial and endocrine teams as scheduled. PubMed+1

What to eat and what to avoid

Eat: balanced calories with adequate protein for healing; calcium & vitamin D sources; iron-rich foods if deficient; fruits/vegetables for fiber to prevent post-op constipation. Avoid/limit: hard-to-chew foods right after facial surgery; excess sugary drinks; and during pregnancy, avoid chronic high-dose oral fluconazole—use clinician-recommended topical alternatives. PubMed+2NCBI+2

FAQs

Is there a cure? No; care focuses on staged surgeries and supportive therapies tailored to the child. ThinkGenetic Foundation
Is ABS always genetic? Most cases are due to POR or FGFR2 variants; very rare medication exposures can mimic some features. National Organization for Rare Disorders+1
Why does the head look trapezoid? Certain sutures fuse early, deforming skull growth vectors. PubMed
Does timing of surgery matter? Yes—timely FOA/midface surgery protects brain, eyes, and airway. PubMed
Will my child need multiple surgeries? Often yes, planned over years as the child grows. GOSH Hospital site
Can vision be harmed? Yes, from exposure and raised pressure; regular ophthalmology reduces risk. PubMed
What about hearing and speech? Monitoring and early therapies improve outcomes. NCBI
What specialists are essential? Craniofacial surgery, ENT, ophthalmology, orthopedics, endocrinology (POR-type), genetics, and therapies. National Organization for Rare Disorders
Is intellectual disability inevitable? No; aggressive management of pressure and sleep apnea may lessen risk. NCBI
Can POR-type affect puberty/fertility? Yes; endocrinology can guide pubertal induction and adult fertility care. NCBI+1
Is ABS life-threatening? Severe forms can be, especially because of airway issues in infancy; expert care improves survival. Orpha.Net
Are there approved gene or stem-cell cures? Not at present. NCBI
How common is it? Extremely rare; exact prevalence unknown. National Organization for Rare Disorders
Can head shape alone diagnose ABS? No; ABS includes limb/joint patterns and often endocrine issues—genetic testing clarifies. NCBI+1
Where can families learn more? NORD/GARD pages and craniofacial centers provide accessible information and support. National Organization for Rare Disorders

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