Shprintzen-Goldberg syndrome associated with first cervical vertebra defects

Exploring the Cognitive and Behavioral Aspects of Shprintzen-Goldberg Syndrome; a Novel Cohort and Literature Review

Shprintzen-Goldberg-syndrome (SGS) is caused by pathogenic exon 1 variants of SKI. Symptoms include dysmorphic features, skeletal and cardiovascular comorbidities, and cognitive and developmental impairments. We delineated the neurodevelopmental and behavioral features of SGS, as they are not well-documented. We collected physician-reported data of people with molecularly confirmed SGS through an international collaboration. We identified and deep-phenotyped the neurodevelopmental and behavioral features in four patients. Within our cohort, all exhibited developmental delays in motor skills and/or speech, with the average age of first words at 2 years and 6 months and independent walking at 3 years and 5 months. All four had learning disabilities and difficulties regulating emotions and behavior. Intellectual disability, ranging from borderline to moderate, was present in all four participants. Moreover, we reviewed the literature and identified 52 additional people with SGS, and summarized the features across both datasets. Mean age was 23 years (9-48 years). When combining our cohort and reported cases, we found that 80% (45/56) had developmental and/or cognitive impairment, with the remainder having normal intelligence. Our study elucidates the developmental, cognitive, and behavioral features in participants with SGS and contributes to a better understanding of this rare condition.

Shprintzen - Goldberg syndrome without intellectual disability: A clinical report and review of literature

Shprintzen-Goldberg syndrome is a rare systemic connective tissue disorder caused by heterozygous mutations in the Sloan-Kettering Institute (SKI) gene. The clinical presentation is reminiscent of Marfan and Loeys-Dietz syndromes, making differential diagnosis challenging. Shprintzen-Goldberg syndrome's distinctive features are craniosynostosis and learning disabilities. The pathophysiology of these three conditions is similar as they all result in the deregulation of the transforming growth factor beta (TGF-β) signaling pathway and thus an altered expression of TGF-β responsive genes. We report a family of two patients: one with initial suspicion of hypermobile Ehlers-Danlos syndrome and the second with suspicion of Marfan syndrome, as the Marfan systemic score was positive and no craniosynostosis or learning disabilities were described. They were diagnosed with Shprintzen-Goldberg syndrome after a heterozygous probably pathogenic variant in the second mutational hotspot of SKI Dachshund homology domain was identified. We reviewed the genotype-phenotype correlation among the three mutational hotspots in SKI: the amino acids 20 to 35 of the receptor-regulated small mothers against decapentaplegic domain (group 1, n = 32), amino acids 94 to 117 of Dachshund homology domain (group 2, n = 12), and threonine 180 of Dachshund homology domain (group 3, n = 11 including our patients). As the main differential diagnoses of Shprintzen-Goldberg syndrome are Marfan and Loeys-Dietz syndromes, we completed the comparison already made by Loeys and Dietz. (2008) of Shprintzen-Goldberg syndrome clinical features among the different mutational hotspots with Marfan syndrome and the different types of Loeys-Dietz syndrome. In addition to the already described absence of learning disabilities in Shprintzen-Goldberg patients with a pathogenic variant in the threonine 180 of Dachshund homology domain, facial features also appeared to be less severe. The clinical overlap with Marfan and Loeys-Dietz patients requires genetic testing in order to establish an accurate molecular diagnosis at the variant level, and to adapt genetic counseling and clinical management.

Eye Manifestations of Shprintzen–Goldberg Craniosynostosis Syndrome: A Case Report and Systematic Review

Shprintzen–Goldberg craniosynostosis syndrome (SGS) is a rare autosomal dominant condition that was first documented in literature in 1982. The disorder is caused by pathogenic variants in the proto-oncogene SKI gene, a known suppressor of TGF-β activity, located on chromosome 1p36. There is considerable phenotypic overlap with Marfan and Loeys–Dietz syndromes. Common clinical features of SGS include craniosynostosis, marfanoid habitus, hypotonia, dysmorphic facies, cardiovascular anomalies, and other skeletal and connective tissue abnormalities. Ocular manifestations may include hypertelorism, downslanting palpebral fissures, proptosis, myopia, and ectopia lentis. We describe a 25-year-old male with the syndrome. Genetic analysis revealed a novel c.350G>A (p.Arg117His) de novo variant, which was predicted to be pathogenic by the CTGT laboratory. The patient presented with dysmorphic features, marfanoid habitus, severe joint contractures, mitral valve insufficiency, aortic root dilatation, and a history of seizures. His ocular manifestations included hypertelorism, downslanting palpebral fissures, bilateral ptosis, and high myopia. Ophthalmic manifestations are an integral component of the syndrome; however, they have not been well characterized in the literature. From a systematic review of previously published cases to date, we summarize the eye and ocular adnexa manifestations reported.

A new mutational hotspot in the SKI gene in the context of MFS/TAA molecular diagnosis

SKI pathogenic variations are associated with Shprintzen-Goldberg Syndrome (SGS), a rare systemic connective tissue disorder characterized by craniofacial, skeletal and cardiovascular features. So far, the clinical description, including intellectual disability, has been relatively homogeneous, and the known pathogenic variations were located in two different hotspots of the SKI gene. In the course of diagnosing Marfan syndrome and related disorders, we identified nine sporadic probands (aged 2-47 years) carrying three different likely pathogenic or pathogenic variants in the SKI gene affecting the same amino acid (Thr180). Seven of these molecular events were confirmed de novo. All probands displayed a milder morphological phenotype with a marfanoid habitus that did not initially lead to a clinical diagnosis of SGS. Only three of them had learning disorders, and none had intellectual disability. Six out of nine presented thoracic aortic aneurysm, which led to preventive surgery in the oldest case. This report extends the phenotypic spectrum of variants identified in the SKI gene. We describe a new mutational hotspot associated with a marfanoid syndrome with no intellectual disability. Cardiovascular involvement was confirmed in a significant number of cases, highlighting the importance of accurately diagnosing SGS and ensuring appropriate medical treatment and follow-up.

Complications of Insufficient Dura and Blood Loss During Surgical Intervention in Shprintzen-Goldberg Syndrome: A Case Report

BACKGROUND Shprintzen-Goldberg syndrome (SGS) is an extremely rare collagenopathy, most often caused by autosomal-dominant mutations in the SKI proto-oncogene, which is a component of the transforming growth factor beta (TGF-ß) signaling pathway. Approximately 50-60 cases of SGS have been recorded in the literature worldwide since its discovery in 1982. This collagen disorder affects bone and vascular development throughout the body, resulting in craniosynostosis, scoliosis, chest deformities, and aortic root dilation. Patients may have problems in the central nervous system, including Chiari 1 malformation, hydrocephalus, and dilation of the lateral ventricles. Unfortunately, the symptoms of SGS closely parallel those of related collagenopathies involving mutations in the TGF-ß signaling pathway, which makes accurate diagnosis difficult without genetic testing, especially in cases with complex presentation. CASE REPORT In this report we present the unique and complex disease manifestations in a 9-year-old girl with SGS. The patient had severe cervical spinal instability that resolved after surgical occipital-C4 fusion with an autograft from the rib. Midface distraction surgery was used to treat the patient's craniosynostosis and related facial deformities. This surgery was complicated by loss of 750 mL of blood due to insufficient dura and prominent vasculature. CONCLUSIONS Connective tissue symptoms associated with SGS can involve dural and vascular problems, as seen in this case report. Thus, the risk of extreme blood loss should be anticipated any time midface distraction surgery is performed on an SGS patient. Continued research is needed to define how this case relates to the SGS patient population.