Lobar torsion is a rare complication following lung transplantation. Early detection and immediate therapeutic intervention can lead to a favorable outcome. We report an unusual case of left lingular torsion following single lung transplantation performed for idiopathic pulmonary fibrosis. The patient experienced severe ventilatory compromise immediately after leaving the operating room, and a chest X-ray revealed a well-demarcated area of consolidation involving the left mid- and lower lung zones. Lingular torsion was promptly diagnosed and corrected surgically. The possibility of acute lobar torsion should be considered in lung transplant recipients who experience acute respiratory compromise in the early postoperative period. Early diagnosis and correction can avoid pulmonary infarction and the need for lobar resection.
Length variants within a CA-repeat-rich region of intron 4 of the human SP-B (pulmonary surfactant protein-B) gene are associated with several lung diseases. The hypothesis that SP-B intron 4 affects mRNA splicing was studied. SP-B minigenes containing exons 1-6 with a normal-sized intron 4 (pBi4normal) or intron 4 containing deletions (pBi4del) of 193, 211, 264 or 340 bp were expressed in CHO (Chinese hamster ovary) cells by transient transfection. Two forms of SP-B transcripts, normal and incompletely spliced, were detected. With pBi4normal, normal-sized SP-B mRNA was the predominant form and a very low amount of incompletely spliced mRNA was present, whereas with the pBi4del variants the amount of normal SP-B mRNAs was lower and the amount of incompletely spliced mRNA was relatively high. Reverse transcription-PCR results and sequencing data indicated that the incompletely spliced SP-B RNA contained intron 4 sequence, and this incompletely spliced RNA was also observed in normal lung. Lung cancer tissues with intron 4 deletions exhibited a larger amount of abnormally spliced RNAs compared with normal lung tissue or cancerous tissue with normal-sized intron 4. The results indicate that intron 4 length variants affect SP-B mRNA splicing, and that this may contribute to lung disease.
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