Objective To investigate the expression of Jumonji domain-containing protein 3 ( JMJD3) in lung cancer tissue. Methods The cancer tissue slides from 53 lung cancer patients with different TNMstages were immunostained with JMJD3 antibody. The relationship between the expression of JMJD3 and type of pathology, TNM stage, survival time was analyzed. Results 94. 3% lung cancer tissue expressed JMJD3 protein. The expression of JMJD3 was negatively correlated with TNMstage( r = - 0. 347,P =0. 002) . The patients with decreased JMJD3 expression had shorter survival time than the patients with high JMJD3 expression ( X2 = 17. 83, P = 0. 001) . Conclusion Decreased expression of JMJD3 may promote the lung cancer progression.
Objective To investigate the effect of surgical treatment of patients with esophageal foreign bodies (EFBs), in order to provide a reference for its prevention. Methods We retrospectively analyzed the clinical records of 18 patients with EFBs treated in West China Hospital from June 2005 to December 2010. There were 13 males and 5 females with an average age of 57.50±15.28 years (30 to 82 years). All the 18 patients had a history of ingesting EFBs which were mainly animal bones (10/18). The EFBs were mostly in the upper segments of the esophagus (12/18). Sixteen patients had complications like perforations and severe mucosal injuries, while complications were not detected in the other 2 patients. Fifteen patients received surgical treatment, while the other 3 patients didn’t. Results As for the 15 patients with surgical treatment, the operative time was 136.33±92.86 minutes (50 to 410 minutes), and the hospital stay was 16.35±15.8 days (4.00 to 69.92 days). Three patients (of which,one aged at 78 years and one 82 years) died, among whom two died of multiorgan failure, and 1 died of respiratory failure. All the other 12 patients were discharged from the hospital. For the 3 patients without surgical treatment, the hospital stay time was 5.06±1.47 days ranged from 3.71 to 6.63 days. They were cured and left the hospital. Conclusion EFBs should be treated as early as possible to reduce severe complications. Surgery is still one of the mostly used treatments for EFBs. Senility and complications are the major causes of death. It should be comprehensively assessed whether the EFBs patients should receive operations and which operative procedures should be performed.
Objective To investigate the relevance of primary pulmonary non-Hodgkin’s lymphoma ( PPNHL) imaging with pathology features, so as to improve the diagnostic accuracy. Methods Twenty-two patients of PPNHL were scanned by chest computed tomography, and the results of clinical and pathology features were analyzed. Results The resulting pathologic examination showed that all patients in 12 cases of low-grade lymphoma had MALT lymphoma( 54. 5% ) , histologically with slightly atypical small lymphocyte proliferated. The radiological findings indicated unilateral peripheral lesion which extended along mucous membrane in 11 patients ( 91. 7% ) and multilateral lesion in only 1 patients ( 8. 3% ) . CT features were illdefined nodule or mass with halo sign ( n =8, 66. 7%) , patchy infiltrate ( n = 4, 33. 3% ) , and ill-defined consolidations with air-bronchograms ( n =7, 58. 3% ) . The resulting pathologic examination showed that 10 patients were high and middle-grade lymphoma ( 45. 5% ) . The radiological findings indicated unilateral lesion in4 patients ( 40%) and multilateral lesion in 6 patients( 60% ) . CT features were ill-defined noduleor mass ( n =4, 40% ) , patchy infiltrate ( n = 1, 10% ) , mixed manifestation ( n =5, 50% ) , pleural effusion ( n =5, 50% ) , hilar and mediastinal lymph node enlargement ( n =2, 20% ) , atelectasis ( n =3, 30%) , and pulmonary interstitial with interlobular septal thickening ( n=2, 20% ) . Conclusions The imaging features of PPNHL rely on its’ basic pathology. Low-grade lymphoma is characterized by peripheral focal consolidation with air-bronchograms. High and middle-grade lymphoma is characterized by mixed manifestation of interstitial change and nodular focus. Analyzing CT features seriously may be helpful for diagnosis of PPNHL.
Objective To explore the best centrifuge condition for preparing rabbit leukocyte-poor platelet-rich plasma (LP-PRP) by using single centrifugation method. Methods Sixteen healthy New Zealand rabbits, aged 3-4 months, were utilized in the investigation. A total of 15 mL anticoagulated blood was extracted from the central ear artery of each rabbit, with a repeat of the blood collection procedure after 1 and 2 months. The obtained blood specimens were individually subjected to centrifugation at a radius of 16.7 cm and speeds of 1 200, 1 300, 1 400, and 1 500 r/min (equivalent to centrifugal forces of 269×g, 315×g, 365×g, and 420×g) for durations of 2, 3, 4, and 5 minutes, resulting in a total of 16 groups. Following centrifugation, collect plasma from each group to a distance of 1.5 mL from the separation plane. The volumes, platelet enrichment coefficient, and platelet recovery rates of LP-PRP in each group, under varying centrifugation conditions, were methodically computed and subsequently compared. Results The volume of LP-PRP obtained under all centrifugation conditions ranged from 1.8 to 7.6 mL. At a consistent centrifugal speed, an extension of centrifugation time leaded to a significant increase in the volume of LP-PRP, accompanied by a declining trend in the platelet enrichment coefficient of LP-PRP. When centrifuged for 2 minutes, the volume of LP-PRP at speeds of 1 200 and 1 300 r/min was less than 2.0 mL, while the volume of LP-PRP obtained under other conditions was more than 2.0 mL. When centrifuged for 4 and 5 minutes, the volume of LP-PRP obtained at each speed was more than 4 mL. LP-PRP with a platelet enrichment coefficient more than 2.0 could be prepared by centrifuging at 1 200 r/min for each time group and 1 300 r/min for 2 and 3 minutes, and the highest LP-PRP platelet enrichment coefficient could be obtained by centrifugation for 2 minutes at a speed of 1 200 r/min. The platelet recovery rates of LP-PRP obtained by centrifugation at 1 200 r/min for 4 and 5 minutes, as well as centrifugation at 1 400 r/min for 5 minutes, were both greater than 60%. There was no significant difference between the groups when centrifuged at 1 200 r/min for 4 and 5 minutes (P>0.05). Conclusion In the process of preparing rabbit LP-PRP using a single centrifugation method, collecting 15 mL of blood and centrifuging at a radius of 16.7 cm and speed of 1 200 r/min for 4 minutes can prepare LP-PRP with a volume exceeding 2.0 mL, platelet enrichment coefficient exceeding 2.0, and platelet recovery rate exceeding 60%. This centrifugal condition can achieve the optimal LP-PRP action parameters in the shortest possible time.