UNASSIGNED: Authors report a rare case report about split hand and foot malformation (SHFM) also sometimes referred to as ectrodactyly.
UNASSIGNED: The patient with hand and foot malformations presented to casualty. A 60-year-old male was brought with alleged history of road traffic accident with tenderness and deformity in left thigh. On further physical examination, a malformation was present in bilateral feet and right hand. Plain radiographs were taken after emergency primary management which revealed a fracture of shaft of femur of the left side and absence of 2nd and 3rd phalanges in bilateral feet and lobster claw like malformation in the right hand. The patient was further investigated and operated with femur interlocking nail and later discharged under stable condition. Screening for other congenital defects was done.
UNASSIGNED: Patients with SHFM should undergo screening for other congenital anomalies. Electrocardiogram, 2D ECHO, chest radiograph, and ultrasonography abdomen should be done. Genetic analysis ideally should be done to identify mutations involved. Surgical intervention is only required when patient demands improved function of limb.

Introduction: FATCO (Fibular Aplasia, Tibial Campomelia and Oligosyndactyly) is a very infrequent skeletal dysplasia classified within the limb hypoplasia-reduction defects group whose genetic cause has not yet been identified. The advent of next-generation sequencing is enabling the diagnosis of diseases with no previously known genetic cause. Methods: We performed a thorough autopsy on a fetus whose pregnancy was legally terminated due to severe malformations detected by ultrasound. A trio exome was run to identify the genetic cause and risk of recurrence. Previous literature of similar cases was systematically searched. Results: Anatomopathological analyses revealed complete fibular aplasia, shortened and campomelic tibia, absent ankle joint, club right foot and a split foot malformation, leading to the diagnosis of FATCO. Exome sequencing showed that the female fetus carried a de novo nonsense variant in DLX5. The literature search permitted the collection of information on 43 patients with FATCO, the majority of whom were males diagnosed postnatally. In most cases, lower limbs were affected exclusively, but in 39.5% of cases the upper limbs were also affected. Conclusion: The pathologies associated with DLX5 variants encompass a wide spectrum of manifestations ranging from abnormalities exclusively in the hands and feet to long bones such as the tibia and fibula.

Split hand/foot malformation (SHFM) is a group of congenital skeletal disorders which may occur either as an isolated abnormality or in syndromic forms with extra-limb manifestations. Chromosomal micro-duplication or micro-triplication involving 17p13.3 region has been described as the most common cause of split hand/foot malformation with long bone deficiency (SHFLD) in several different Caucasian and Asian populations. Gene dosage effect of the extra copies of BHLHA9 gene at this locus has been implicated in the pathogenesis of SHFLD.
The proband was a female child born to non-consanguineous parents. She was referred for genetic evaluation of bilateral asymmetric ectrodactyly involving both hands and right foot along with right tibial hemimelia. The right foot had fixed clubfoot deformity with only 2 toes. The mother had bilateral ectrodactyly involving both hands, but the rest of the upper limbs and both lower limbs were normal. Neither of them had any other congenital malformations or neurodevelopmental abnormalities. Genetic testing for rearrangement of BHLHA9 gene by quantitative polymerase chain reaction confirmed the duplication of the BHLHA9 gene in both the proband and the mother.
We report the first Sri Lankan family with genetic diagnosis of BHLHA9 duplication causing SHFLD. This report along with the previously reported cases corroborate the possible etiopathogenic role of BHLHA9 gene dosage imbalances in SHFM and SHFLD across different populations.

Split hand/foot malformation (SHFM) is a genetically heterogeneous limb malformation with variable expressivity. SHFM with tibia or femur aplasia is called SHFM with long bone deficiency (SHFLD). 17p13.3 duplications containing BHLHA9 are associated with SHFLD. Cases with variable SHFLD phenotype and different 17p13.3 duplicated regions are reported. The severity of long bone defect could not be simply explained by BHLHA9 overdosage or 17p13.3 duplication.
A four-generation Chinese SHFM family was recruited. Three family members have long bone defects, one male was severely affected with hypoplasia or aplasia in three of four limbs. Linkage analysis and direct sequencing of candidate genes were used to exclude six responsible genes/loci for isolated SHFM. Array comparative genomic hybridization (CGH) was performed to detect copy number variations on a genome-wide scale, and quantitative real-time polymerase chain reaction (qPCR) assays were designed to validate the identified copy number variation in the index and other family members.
No mutations were found in genes or loci linked to isolated SHFM. A ~ 966 kb duplication was identified in 17p13.3 by array CGH, in which BHLHA9 surrounding region presented as triplication. The qPCR assays confirmed the indicated 17p13.3 duplication as well as BHLHA9 triplication in all available affected family members and other two asymptomatic carriers. Given the incomplete penetrance in SHFLD, those two carriers were regarded as non-penetrant, which suggested that the genomic rearrangement was co-segregated with malformation in this family.
The present study reports an additional SHFLD family case with 17p13.3 genomic rearrangement. To our knowledge, the 966 kb genomic rearrangement is larger in size than any previously reported SHFLD-associated 17p13.3 duplication, and the present family shows marked phenotypic variability with two asymptomatic carriers and one patient with an extremely severe phenotype. This rare case provides the opportunity to identify underlying genotype-phenotype correlations between SHFLD and 17p13.3 genomic rearrangement.

We describe a-2-year-old boy who presented with a neonatal history of thrombocytopenia associated with a constellation of limb malformations mimicking split hand/foot malformation with long bone deficiency (SHFLD) syndrome. Limb malformations consisted of unilateral monodactyly with radial aplasia, unilateral split foot and bilateral club foot. Tibial aplasia of one limb and tibial hypoplasia of the other limb were notable. Partial agenesis of the sacrum was additional skeletal malformation. Craniofacial features included dense thick scalp hair, narrow frontal area, thick eye-brows, deep-set eyes, depressed nasal bridge, and small overhanging nasal tip, full-cheeks, and large ears. Array-CGH showed duplication of the short arm of chromosome 17p13.3 in the boy and his father, respectively. The father was free from any skeletal abnormalities, though he shares similar craniofacial dysmorphic features like his son. In addition, a paternal sib (uncle of the proband) manifested a phenotype similar to that of the proband. To the best of our knowledge the overall phenotypic and genotypic characterizations were consistent but not completely compatible with the traditional type of TAR syndrome or with SHFLD syndrome. We report on what might be a novel variant of SHFLD associated with transient thrombocytopenia, dysmorphic facial features, and a constellation of bone malformations.