Short rib‑polydactyly syndrome type III (SRPS3) is a lethal perinatal skeletal disorder consisting of polydactyly and multi‑system organ abnormalities. To further assess the pathogenicity of two pairs of compound heterozygotes and to search for novel molecular etiology, X‑rays and hematoxylin and eosin staining were conducted in three cases: Two retrospective samples and a newly identified patient with SRPS3. In addition, next‑generation sequencing was used to evaluate a fetus with SRPS3. Typical radiological features of the three cases included a long, narrow thorax with short ribs, shortened long bones, spurs at the metaphysis of the long bones and congenital bowing of the femurs. The present study also observed atypical histopathological changes, together with the absence of proliferation and abundance of retaining cartilage in the primary spongiosum. In addition, two novel compound heterozygous variants were identified in the dynein cytoplasmic 2 heavy chain 1 (DYNC2H1) gene of the fetus: NM_001080463.1, c.6591_6593delTGG (chr11:103055738‑103055740); NM_001080463.1, c.7883T>C (chr11:103070000). The findings of the present study provided further confirmation of the pathogenicity of two compound heterozygous variants in two retrospective samples and identified novel compound heterozygous variants. These findings may improve our knowledge of the histopathological and radiological changes in patients with SRPS3 and the relative effects of DYNC2H1 variants. The findings of the present study may facilitate the clinical and molecular diagnosis of SRPS3.
Keywords: dynein cytoplasmic 2 heavy chain 1 gene; short rib‑polydactyly syndrome type III; next‑generation sequencing; novel variant; histopathology.