The Campomelic Dysplasia Test examines the SOX9 gene, which plays a crucial role in the development of the skeletal system and reproductive organs. Mutations in this gene can lead to campomelic dysplasia CD, causing abnormal development in various parts of the body. A genetic diagnosis can assist in medical care, predict disease progression, and enable timely treatment for newborns.
Targeted Exome/ Slice Exome (Next Generation Sequencing including Copy Number Variation)
120x
All sequencing technologies have limitations. A negative result from this analysis does not rule out a possible genetic diagnosis as some variants may not be detected by this test. This test is not designed to detect low level mosaicism, structural rearrangements, indels >40bp, deep intronic variants of unknown clinical significance, or large cytogenetic CNVs. Certain inherent qualities of the human genome, for example repetitive regions/homopolymers, GC rich, pseudogenes, and rare polymorphisms, pose significant technical challenges such as sequence misalignment that may potentially impact the accuracy of the results. False negative results may also occur in the setting of allogeneic bone marrow, stem cell transplantation, active or chronic hematologic conditions, recent blood transfusions, suboptimal DNA quality or PCR trace contamination. Other potential sources of error include sample mix-ups and clerical issues.