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Target Concepts:
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Query: UMLS:C0026827 (
hypotonia
)
5,860
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
We report on the natural history of diaphanospondylodysostosis (DSD) in the longest known survivor. DSD is a rare form of autosomal recessive vertebral dysotosis recently identified to be caused by a mutation in the BMPER gene. This condition is characterized by absent or severely delayed ossification of vertebral bodies, short broad thorax, short neck, protuberant abdomen, marked respiratory insufficiency, and normal appendicular skeleton. It is one of a number of spinal dysostoses, which are a heterogeneous group of axial skeletal malformations occurring during blastogenesis with continued evolution after birth. Significant medical intervention and at-home support contributed to the long-term survival of our patient. The patient had tracheomalacia, which resulted in respiratory insufficiency with thoracic insufficiency syndrome (
TIS)
. Tracheostomy and vertical expandable prosthetic titanium rib (VEPTR) insertion operations ameliorated his symptoms. In addition, comprehensive physical and occupational therapy was performed due to chronic
hypotonia
. A consistent feature of all described DSD cases thus far are renal findings of dysplasia, nephrogenic rests or nephroblastomatosis, and/or cysts. The patient's renal cysts were monitored with serial ultrasounds at approximately 6-month intervals. The patient was diagnosed with bilateral renal cysts by ultrasound as a neonate, with eventual diagnosis at approximately 20 months of age with nephroblastoma suggesting this maybe an intrinsic part of DSD. The lack of other cases with nephroblastoma is likely related to the previously reported short period of survival.
...
PMID:Long-term survival with diaphanospondylodysostosis (DSD): survival to 5 years and further phenotypic characteristics. 2258 10
Development of the spine and thoracic cage consists of a complex series of events involving multiple metabolic processes, genes and signaling pathways. During growth, complex phenomena occur in rapid succession. This succession of events, this establishment of elements, is programmed according to a hierarchy. These events are well synchronized to maintain harmonious limb, spine and thoracic cage relationships, as growth in the various body segments does not occur simultaneously at the same magnitude or rate. In most severe cases of untreated progressive early-onset spinal deformities, respiratory insufficiency and pulmonary and cardiac hypertension (cor pulmonale), which characterize thoracic insufficiency syndrome (
TIS)
, can develop, sometimes leading to death. TIS is the inability of the thorax to ensure normal breathing. This clinical condition can be linked to costo-vertebral malformations (e.g., fused ribs, hemivertebrae, congenital bars), neuromuscular diseases (e.g., expiratory congenital
hypotonia
), Jeune or Jarcho-Levin syndromes or to 50% to 75% fusion of the thoracic spine before seven years of age. Complex spinal deformities alter normal growth plate development, and vertebral bodies become progressively distorted, perpetuating the disorder. Therefore, many scoliotic deformities can become growth plate disorders over time. This review aims to provide a comprehensive review of how spinal deformities can affect normal spine and thoracic cage growth. Previous conceptualizations are integrated with more recent scientific data to provide a better understanding of both normal and abnormal spine and thoracic cage growth.
...
PMID:Normal and abnormal spine and thoracic cage development. 2414 51
