A 29-yr-old white woman presented with chronic pneumonia in the left lower lobe and with left pleural effusion. She was known to have inflammatory bowel disease, but she was asymptomatic under maintenance treatment with 5-ASA. She received numerous antibiotic regimens according to susceptibility testing of microorganisms cultured from sputum and bronchial lavage and on an empiric basis was also given antituberculosis treatment, but there was no clinical improvement or change in the chest radiographic findings. Sputum was repeatedly examined and yielded, among other organisms, Clostridium inocuum, Enterobacter, Klebsiella pneumoniae, Proteus mirabilis, and Staphylococcus aureus. On one microscopic examination of sputum, the presence of feculent material was suspected. A subsequent gastrografin enema revealed a cologastric and colobronchial fistula between the splenic flexture of the colon and the greater curve of the stomach and the bronchial system. Segmental resection of the colon and resection of the lower lobe of the left lung were performed. Histologic findings of the resected colon were consistent with Crohn's disease. After a long period of postoperative recovery, the patient returned to good general health and well-being. To our knowledge, a colobronchial fistula caused by Crohn's colitis has not been previously reported.
Background: Xeroderma pigmentosum (XP) is a rare genetic disorder, which is characterized by hyper-sensitivity to solar ultraviolet (UV) radiation. Clinical consequences of sun exposure are skin lesions and an increased risk of developing skin cancer. Genetic studies have identified eight genes associated with xeroderma pigmentosum. The proteins encoded by these genes are mainly involved in DNA repair mechanisms. Methods: Molecular genetic characterization of patients with xeroderma pigmentosum involved positional cloning methods such as homozygosity mapping and subsequent candidate gene analysis. Mutation screening was performed through Sanger DNA sequencing. Results and Discussion: In this case study, we report a novel protein truncating mutation in XPC associated with autosomal recessive xeroderma pigmentosum in a consanguineous Pakistani family. Genetic mapping revealed a novel single base insertion of a thymine nucleotide NM_004628.4: c.291dupT (c.291_292insT) in the second exon of XPC. The identified mutation leads to a premature stop codon (TGA) at amino acid position 98 (p.Asp98*) and thus presumably results in a truncated protein. The Xeroderma pigmentosum, complementation group C (XPC) is located on 3p25.1 and encodes a protein involved in nucleotide excision repair. The identified mutation presumably truncates all functional domains of the XPC protein, which likely results in the loss of protein function. Conclusion: The study expands the knowledge of the mutational spectrum of XPC and is valuable for genetic counseling of affected individuals and their families. K E Y W O R D S frameshift mutation, homozygosity mapping, Pakistani family, xeroderma pigmentosum, XPC 2 of 6 | ALI et AL.
ZusammenfassungNext-Generation-Sequencing ist ein modernes diagnostisches Hochdurchsatz-Verfahren (Multi-Gen-Analysen), durch dessen Einsatz sowohl hereditäre Krebserkrankungen (Tumordispositionssyndrome, Keimbahndiagnostik) als auch somatische Alterationen in Tumoren besser abgeklärt werden können. Der breitere Einsatz dieser Technologie im medizinischen Alltag zeigt das tatsächliche Ausmaß der interindividuellen genetischen Variabilität. Wichtige Bedeutung hat dieses Verfahren für die Untersuchung von heterogenen genetischen Erkrankungen (z. B. Tumorerkrankungen, neurodegenerativen und -muskulären Erkrankungen) erlangt. Weitere Indikationsgebiete stellen die Pharmakogenetik sowie die nicht invasive Pränataldiagnostik dar. Es ist zu erwarten, dass dieses diagnostische Mittel eine breite klinische Anwendung finden wird. Mit der rasanten Zunahme und Komplexität genetischer Dateninformationen nimmt die richtige Interpretation und Übermittlung der Befunde in der humangenetischen Beratung (Keimbahndiagnostik) einen hohen Stellenwert ein. Die genetische Beratung muss entsprechend neu ausgerichtet und adaptiert werden.
ZusammenfassungDieser Übersichtsartikel bietet einen Überblick über klinisch sinnvolle Anwendungsgebiete einer Next-Generation-Sequencing-basierten (NGS) Multi-Genpanel-Teststrategie in den Bereichen Onkologie, hereditärer Tumorsyndrome und Hämatologie. Bei soliden Tumoren (z.B. Lungenkarzinom, Kolonrektalkarzinom) trägt die Detektion somatischer Mutationen nicht nur zu einer besseren diagnostischen, sondern auch therapeutischen Stratifizierung der Betroffenen bei. Die zunehmende genetische Komplexität hereditärer Tumorsyndrome (z.B. Brust- und Ovarialkarzinom, Lynchsyndrom/Polypose) erfordert in betroffenen Familien eine Multi-Genpanel-Analyse von Keimbahnmutationen. Ein weiteres sinnvolles Indikationsgebiet einer Multi-Genpanel-Diagnostik und Prognoseabschätzung sind akute und chronische myeloische Erkrankungen. Die Kriterien der WHO-Klassifikation und des „European LeukemiaNet“-Prognosesystems der akuten myeloischen Leukämie können nur durch eine Multi-Genpanel-Teststrategie erfüllt werden.
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