Usefulness of endoscopic ultrasound with bronchoscope-guided fine-needle aspiration for next-generation sequencing in patients with non-small cell lung cancer: A comparison with other bronchoscopic techniques.

BACKGROUND: Next-generation sequencing (NGS) is essential in treating advanced lung cancer. However, the effectiveness of endoscopic ultrasound with bronchoscope-guided fine-needle aspiration (EUS-B-FNA) in NGS remains unclear. This study examined the usefulness of EUS-B-FNA in lung cancer NGS cases where EUS-B-FNA was performed for specimen submission in a nationwide genomic screening platform (LC-SCRUM-Asia) and compared specimens collected using other bronchoscopy methods (endobronchial ultrasound-guided transbronchial needle aspiration [EBUS-TBNA] and EBUS-guided transbronchial biopsy with a guide sheath [EBUS-GS-TBB]) during the same period. METHODS: We retrospectively compared the NGS success rates of NGS, DNA and RNA yields for EUS-B-FNA, EBUS-TBNA, and EBUS-GS-TBB from the records of the patients recruited for the Lung Cancer Genomic Screening Project for Individualized Medicine (LC-SCRUM)-Asia. RESULTS: Fifty-one patients were enrolled, and the NGS success rates were comparable for samples obtained by EUS-B-FNA, EBUS-TBNA, and EBUS-GS-TBB (100%, 90.9%, and 81.0%, respectively). Genetic alterations were detected in 73.7%, 90.9%, and 85.7% of patients, respectively, with druggable genetic alterations found in 31.6%, 72.7%, and 61.9% of patients, respectively. The DNA and RNA yields were significantly higher in EUS-B-FNA samples than in EBUS-GS-TBB samples (50.4 (interquartile range (IR): 15.45-72.35) ng/µl and 33.9 (IR: 9-76.8) ng/µl from EUS-B-FNA, and 3.3 (IR: 1.4-7.1) ng/µl and 15.1 (IR: 8.3-31.5) ng/µl from EBUS-GS-TBB, respectively, p < 0.05). CONCLUSION: EUS-B-FNA emerges as a promising bronchoscopic method for obtaining adequate samples for NGS in advanced lung cancer cases.

Expression of fibroblast activation protein-α in human deep vein thrombosis.

BACKGROUND: Fibroblast activation protein-α (FAP), a type-II transmembrane serine protease, is associated with wound healing, cancer-associated fibroblasts, and chronic fibrosing diseases. However, its expression in deep vein thrombosis (DVT) remains unclear. Therefore, this study investigated FAP expression and localization in DVT. METHODS: We performed pathological analyses of the aspirated thrombi of patients with DVT (n = 14), classifying thrombotic areas in terms of fresh, cellular lysis, and organizing reaction components. The organizing reaction included endothelialization and fibroblastic reaction. We immunohistochemically examined FAP-expressed areas and cells, and finally analyzed FAP expression in cultured dermal fibroblasts. RESULTS: All the aspirated thrombi showed a heterogeneous mixture of at least two of the three thrombotic areas. Specifically, 83 % of aspirated thrombi showed fresh and organizing reaction components. Immunohistochemical expression of FAP was restricted to the organizing area. Double immunofluorescence staining showed that FAP in the thrombi was mainly expressed in vimentin-positive or α-smooth muscle actin-positive fibroblasts. Some CD163-positive macrophages expressed FAP. FAP mRNA and protein levels were higher in fibroblasts with low-proliferative activity cultured under 0.1 % fetal bovine serum (FBS) than that under 10 % FBS. Fibroblasts cultured in 10 % FBS showed a significant decrease in FAP mRNA levels following supplementation with hemin, but not with thrombin. CONCLUSIONS: The heterogeneous composition of venous thrombi suggests a multistep thrombus formation process in human DVT. Further, fibroblasts or myofibroblasts may express FAP during the organizing process. FAP expression may be higher in fibroblasts with low proliferative activity.

Elevated plasma levels of factor VIII enhance arterial thrombus formation on erosive smooth muscle cell-rich neointima but not normal intima in rabbits.

BACKGROUND: Plaque erosion, a type of coronary atherothrombosis, involves superficial injury to smooth muscle cell (SMC)-rich plaques. Elevated levels of coagulation factor VIII (FVIII) correlate with an increased ischemic heart disease risk. FVIII may contribute to thrombus formation on eroded plaques. AIMS: We aimed to elucidate the role of elevated FVIII in arterial thrombus formation within SMC-rich neointima in rabbits. METHODS AND RESULTS: We assessed the effect of recombinant human FVIII (rFVIII) on blood coagulation in vitro and platelet aggregation ex vivo. An SMC-rich neointima was induced through balloon injury to the unilateral femoral artery. Three weeks after the first balloon injury, superficial erosive injury and thrombus formation were initiated with a second balloon injury of the bilateral femoral arteries 45 min after the administration of rFVIII (100 IU/kg) or saline. The thrombus area and contents were histologically measured 15 min after the second balloon injury. rFVIII administration reduced the activated partial thromboplastin time and augmented botrocetin-induced, but not collagen- or adenosine 5'-diphosphate-induced, platelet aggregation. While rFVIII did not influence platelet-thrombus formation in normal intima, it increased thrombus formation on SMC-rich neointima post-superficial erosive injury. Enhanced immunopositivity for glycoprotein IIb/IIIa and fibrin was observed in rFVIII-administered SMC-rich neointima. Neutrophil count in the arterial thrombus on the SMC-rich neointima correlated positively with thrombus size in the control group, unlike the rFVIII group. CONCLUSIONS: Increased FVIII contributes to thrombus propagation within erosive SMC-rich neointima, highlighting FVIII's potential role in plaque erosion-related atherothrombosis.