1.Changes of the cardiac morphology and size after transcatheter closure of atrial septal defect
Zhaofen ZHENG ; Xiaoqun PU ; Tianlun YANG ; Xiaobin CHEN ; Chuanchang LI ; Daodi PEN ; Long MO ; Lihui ZHANG ; Lamei JIAN ; Jinhua DEN ; Shuangyuan MEN
Journal of Chinese Physician 2000;0(11):-
Objective To evaluate the changes of the right atrium,right ventriculum,left atrium and left ventriculum after transcatheter closure of atrial septal defect(ASD) during a short to mid-term follow-up.Methods The right ventricular end-diastolic anterior-posterior diameter(RVEDD),right atrial long diameter(RADl),right atrial transverse diameter(RADt),left ventricular end-diastolic ante-posterior diameter(LVEDD),left ventricular end-diastolic volume(LVEDV) and left atrial anterior-posterior diameter(LAD) in 36 patients with secundum ASD were measured before ASD closure,after 3 days,3 months and 6 months of ASD closure with transthoracic echocardiography(TTE).Results RVEDD,RADl and RADt were significantly decreased,while LVEDD,LVEDV and LAD significantly increased 3 days after ASD closure.During 3 months follow-up,RVEDD,RADl and RADt continuously became smaller;LVEDD,LVEDV and LAD continuously became larger.At 6 months,RVEDD was significantly smaller and LVEDD,LVEDV were significantly larger than those at 3 months.No remarkable difference of RADl,RADt and LAD was found between 6 months and 3months follow-up.Conclusion Transcatheter closure of ASD not only decreases the preload of right heart and causes right atrium and right ventriculum become smaller,but also improves the geometry of left heart and causes the narrowed left atrium and left ventriculum gradually return to almost normal status.
2.Clinical value of JNET classification for non-real-time diagnosis of colorectal lesions
Jing ZHOU ; Qingwei ZHANG ; Jian HUANG ; Lamei TENG ; Zhe QIN ; Xintian ZHANG ; Jinnan CHEN ; Xiaobo LI
Chinese Journal of Digestive Endoscopy 2019;36(5):328-333
Objective To study the diagnostic value of Japan narrow band imaging expert team ( JNET) classification for differentiating pathological type of colorectal lesions. Methods A total of 418 colorectal lesions were retrospectively diagnosed by magnifying endoscopy with narrow band imaging ( ME-NBI) using JNET classification by two inexperienced doctors after a short time of training in JNET classification. Then lesions were diagnosed with Sano classification by the two doctors. Diagnostic results were compared with histologic findings as a golden standard. Results The sensitivity, specificity, and accuracy of JNET classification and Sano classification for neoplastic lesion differentiation were 98. 2% VS 98. 5%, 77. 8% VS 66. 7%, and 96. 9% VS 96. 4%, respectively ( all P>0. 05 ) . These indicators for diagnosing cancerous lesions, including high grade intraepithelial neoplasia, intramucosal carcinoma and submucosal carcinoma, were 66. 7% VS 80. 2% ( P=0. 023) , 87. 6% VS 79. 5% ( P=0. 006) , and 82. 1% VS 79. 7%( P=0. 379 ) , respectively, and those for predicting submucosal deep invasive cancers were 34. 8% VS 39. 1%, 100. 0% VS 99. 0%, and 96. 4% VS 96. 3%, respectively ( all P>0. 05) . The diagnostic accuracy of JNET classification for differentiating neoplastic lesions were 95. 2% in those with diameter <10 mm, 97. 0% in 10~<20 mm, and 97. 8% in ≥20 mm (P=0. 483), this finding were 95. 2%, 85. 1% and 72. 1% for cancer, respectively ( P<0. 0001 ) , and 100%, 96. 3%, and 94. 4% for submucosal deep invasive cancer, respectively (P=0. 026). Shape and location of colorectal lesions showed no significant effect on the diagnostic efficacy of JNET classification. Conclusion JNET classification is valuable for doctors without experience of ME-NBI in diagnosing colorectal lesions and the efficiency is slightly superior to Sano classification. However, the accuracy of diagnosis for cancer with diameter ≥20 mm need to be improved.