Objective To study the effect of fosinopril on the expression of NADPH oxidase subunit p22phox mRNA and the extracellular matrix (ECM) accumulation in the kidneys of rats with diabetes mellitus . Methods Diabetic rats induced by streptozotocin were randomly divided into control group(DM group) and fosinopril group (fosinopril 10 mg'kg-1·d-1) (DM+Fosin group) and treated for 12 weeks . Expression of p22phox mRNA of NADPH oxidase in kidneys was measured by RT-PCR . The expression of fibroneetin was studied by immunohistochemistry and matrix metalloproteinases 9 activity was detected by Zymography . Meanwhile, the kidney hypertrophy index, serum creatinine level and 24-hour urinary protein excretion were evaluated . Results The expression level of p22phox mRNA in the kidneys of DM+Fosin group rats was decreased by 45% than that of DM group at week 4 (P＜0 .05) . At week 8 fosinopril significantly decreased the expression of glomerular and tubulointerstitial fibronectin by 52,5% and 42 .9% respectively (P＜0 .05), while increased MMP-9 activity by 29 .6% (P＜0 .05) compared with DM group . Fosinopril significantly decreased 24-hour urinary protein excretion of diabetic rats from week 8 . Serum creatinine level, 24-hour urinary protein excretion and kidney hypertrophy index were significantly decreased by 35 .9%, 50 .2% and 17 .2% in rats of DM+Fosin group than those of DM group at week 12 (P＜0 .05) . Fosinopril did not affect blood sugar significantly . Conclusion Fosinopril has beneficial effect on diabetic nephropathy partly through inhibiting the expression of NADPH oxidase p22 phox mRNA .

AIM: To observe the effect of partial liquid ventilation with perfluorocarbon on gas exchange, hemodynamics and lung histological change in the piglets with surfactant depletion-induced acute lung injury. METHODS: 12 piglets were treated by lung lavage to a partial pressure of oxygen in arterial blood (PaO 2) below 100 mmHg for one hour and randomly divided into gas ventilation group (control group) and partial liquid ventilation (PLV) group, in PLV group, piglets received PFC (FC3280) intratracheally at doses of 15 mL/kg. The parameters of gas exchange and hemodynamics were measured before lung lavage, after lung lavage when the acute lung injury (ALI) was established, and 1 hour, 2 hours after ALI. Animals underwent euthanasia at the end of the study, lung histologic analysis followed. RESULTS: Surfactant depletion by lung lavage induced a stable acute lung injury.Gas exchange increased markedly in the animals that underwent PLV, less hemodynamic damage was observed in PLV group compared with the animals in GV group. Lung histologic analysis demonstrated a less lung damage, including atelectasis, neutrophil excudation, intra-alveolar hemorrhage and interstitial edema in PLV group compared with control group. CONCLUSION: In piglets with surfactant depletion-induced acute lung injury, partial liquid ventilation with perfluorocarbon can improve the gas exchange with less adverse hemodynamic effect and less lung injury compared with conventional gas ventilation.

ObjectiveTo investigate the immune tolerance function and significance of allogene bone marrow injection to the small intestines transplantation of rats.MethodsInbreeding line rat F344/N and Wistar/A were selected to perform heterotopic graft of the whole small intestine. 7 days before allogene transplantation, donator bone marrow cells (BMC) were injected into thymus of acceptor (the testing group). According to the isogene and allogene rat transplant model, it was comprehended whether injecting allogene donator marrow into acceptor thymus could decrease the acute rejection after transplantation.Results3, 5 or 7 days after allogeneic rat dystopia whole small intestine transplantation, typical reject reaction appeared, but there was no reject reaction in isogenome and testing group. 3 days after allotransplantation, serum soluble interleukin-2 receptor (sIL-2R) and tumor necrotic factor-α (TNF-α) levels were significantly higher than the other groups (P<0.01). The level of serum sIL-2R and TNF-α in the allogene marrow injecting group were only slight higher on the 3rd or 5th day, and getting downtrend, and there was no significant difference compared with isogenic transplantation group.ConclusionAllogenic donator bone marrow intrathymic injecting into acceptor 7 days before small intestina transplantation, can reduce the reject reaction after the grafting. The levels of serum sIL-2R and TNF-α can be selected as a sensitive early diagnosis index of acute rejection after small intestine transplantation.

ObjectiveTo investigate the correlation between stroke volume variation (SVV) and blood volume during hypovolemia.MethodsTwenty ASA Ⅰ or Ⅱ patients,aged 20-64 yr,with body mass index 20-30 kg/m2,scheduled for elective orthopedic operation,were studied.Anesthesia was induced with dexamethasone,midazolam,propofol,fentanyl and cisatracurium and maintained with sevoflurane,fentanyl and cisatracurium.The patients were tracheal intubated and mechanically ventilated.HR,MAP,CVP,arterial pressure-based cardiac output (APCO),SVV,systemic vascular resistance (SVR) and cardiac index (CI) were recorded 5 min after tracheal intubation.Blood was taken from central vein at a rate of 30-50 ml/min,the volume was 5％ of the whole blood volume and the haemodynamic parameters mentioned above were recorded after the haemodynamics was kept stable for 5 min.Blood was taken again as the method mentioned above and the haemodynamic parameters were recorded.6％ HES 130/0.4 was then infused at 50-70 ml/min via right internal jugular vein,the volume was equal to 5 ％ of the whole blood volume and the haemodynamic parameters were recorded after the haemodynamics was kept stable for 5 min.Fluid replacement was performed again using the method mentioned above and the haemodynamic parameters were recorded.Linear correlation of the change in blood volume (difference between the blood volume at each time point and the baseline value) with dSVV (difference between the value monitored at each time point and the baseline value) was analyzed.ResultsThere was significant change in SVV,APCO and CI after each change in blood volume ( P ＜ 0.05 or 0.01),while there was not always significant change in HR,MAP,CVP and SVR after each change in blood volume.The change in blood volume was negatively correlated with dSVV ( r =- 0.875,P ＜ 0.01 ).ConclusionThere is high correlation between SVV and blood volume during hypovolemia and SVV can reflect the change in blood volume accurately and be used for volume therapy during hypovolemia.

Objective To investigate the correlation between stroke volume variation (SVV) and blood volume during hypovolemia.Methods Twenty ASA Ⅰ or Ⅱ patients,aged 20-64 years,with body mass index (BMI) of 20-30 kg/m2,scheduled for elective orthopedic operation were enrolled in this study.Anesthesia was induced with dexamethasone,midazolam,propofol,fentanyl and cisatracurium,and maintained with sevoflurane,fentanyl and cisatracurium.Then the patients received endotracheal intubation and mechanical ventilation.Heart rate (HR),mean arterial blood pressure (MAP),central venous pressure (CVP),arterial pressure-based cardiac output (APCO),SW,systemic vascular resistance (SVR) and cardiac index (Cl) were recorded 5 minutes after endotracheal intubation.Blood was taken from the central vein at a rate of 30-50 ml/min and the volume was 5％ of the whole blood volume,and then haemodynamic parameters mentioned above were recorded after the haemodynamics were kept stable for 5 minutes.Blood was taken again with the method mentioned above and the haemodynamic parameters were recorded.Then 6％ hydroxyethyl starch (HES) 130/0.4 was infused at 50-70 ml/min via the right internal jugular vein,and the volume was equal to 5％ of the whole blood volume,and then haemodynamic parameters were recorded after the haemodynamics was kept stable for 5 minutes.Fluid replacement was performed again using the method mentioned above and the haemodynamic parameters were recorded.Linear correlation of the changes in blood volume (difference between the blood volume at each time point and the baseline value) with dSVV (difference between the value monitored at each time point and the baseline value) was analyzed.Results Significant changes were found in SW,APCO and Cl after each change in blood volume (P ＜ 0.05 or 0.01),while no significant changes were found in HR,MAP,CVP and SVR after each change in blood volume.The change in blood volume was negatively correlated with dSVV (r =-0.875,P ＜ 0.01).Conclusion There is high correlation between SVV and blood volume during hypovolemia.And SVV can reflect the changes in blood volume accurately and can be used for volume therapy during hypovolemia.

Obiective:To evaluate the effects of various surgical procedures on liver carcinoma accompanied by portal hypertension.Methods:Combined surgical procedures which were performed in 26 patients with liver carcinoma accompanied by portal hypertension in our department between Aug,2002 and Aug,2008 were analysed retrospectively.Results:There was no operative mortality.The postoperative complications developed in 50%(13/26) patients.The postoperative survival rates of 1,2 and 3 years were 84.6%(22/26),57.7%(15/26),34.6%(9/26),respectively.Postoperative upper digestive tract hemorrhage developed in 10 cases.Fifteen patients died during follow-up period,of whom 7 cases died of recurrence of liver carcinoma,2 cases died of liver failure,6 cases died of upper digestive tract hemorrhage.Conclusion:The survival time can be prolonged and the postoperative complications can be reduced through perioperative cares and prudent selection of surgical procedures in patients suffering from concurrent liver cancer and portal hypertension.Combined operation is safe and feasible.

Objective To compare the preoperative and postoperative dosimetric results of radioactive seed implantation assisted by 3D printing template in the treatment of chest malignant tumor, and to examine the effect this technique on the precision of radioactive seed implantation.Methods A total of 21 patients who received 3D printing template-assisted CT-guided 125I seed implantation for chest tumors in 2016 were included in the study.The prescribed dose of the treatment was 110-180 Gy.Preoperative planning, individual template production, and puncture and seed implantation were performed in all patients, and the postoperative dosimetric results were then compared with the preoperative plan by assessing various dosimetric parameters including D90, MPD, V100, V150, CI, EI, and HI of gross tumor volume (GTV), D2cc of the spinal cord and aorta, and Dmean and V20 of the affected side of the lung.Statistical analysis was performed using the Wilcoxon non-parametric test.Results A total of 21 3D printing templates were designed and produced.The mean GTV volume (preoperative) of all patients was 77.1 cm3, and the mean number of implanted seeds was 68.In addition, the mean D90 of the postoperative GTV was 147.3 Gy.There were slight changes in the dosimetric parameters after treatment (P>0.05).Conclusions 3D printing template allows for accurate positioning and implantation of radioactive seeds during the treatment of chest tumor.Postoperative dosimetric parameters were consistent with those in the preoperative planning, indicating that the 3D printing template provides high precision for the treatment of chest tumor.

Objective: To compare the dosimetric data between the preoperative plans and postoperative verification in personalized 3D printed template-assisted and computed tomography (CT) image-guided 125-iodine seed implantation for supraclavicular metastatic tumor, and to evaluate the accuracy and feasibility at the dosimetry level.Methods: A total of 14 patients with supraclavicular metastatic tumor (including 15 lesions) who received 3D printed template assisted and CT image-guided 125-iodine seed implantation in Department of Radiation Oncology of Peking University Third Hospital from January to September 2016 were enrolled.There were 8 males and 6 females, aged from 46 to 79 years (mean age: 59.9 years).The Karnofsky performance score (KPS) was from 60 to 90 (median of 80).There were one patient who had not received radiotherapy before, and one patient had received radiotherapy, but the dose was unknown.The remaining 12 patients had received radiotherapy, with the median of 60 Gy (20-70 Gy), and one of them with the dose unknown.All the patients underwent preoperative enhanced CT scan, preoperative planning design, 3D printing template, puncture and particle implantation, the prescription dose from 110 Gy to 150 Gy.Comparisons of the dosimetric parameters between the postoperative verification and preoperative plans were made by paired t-test.The dose parameters inclu-ded D90, V100, V150, V200, matched peripheral dose (mPD), conformal index (CI), and external index (EI).The agreement was evaluated between the preoperative planning and postoperative actual dose parameters using Bland-Altman analysis.Bland-Altman plot showed the difference against the average of preoperative planning and postoperative actual dose parameters with limits of agreement (LoA) (broken lines).Results: The difference of all the data between pre-and postoperation, included D90, V100, V150, V200, mPD, and CI, which was not statistically significant (P>0.05).EI was statistically significant (P<0.05).There was poor consistency of D90, V100, V150, V200, and mPD, but better consistency of CI and EI.Conclusion: Personalized 3D printed template-assisted and CT image-guided 125-iodine seed implantation for supraclavicular metastatic tumor is accurate and feasible.

Objective To compare the pre-and post-operative tumor target volume and to examine the consistency in physical dosimetric parameters of organs at risk (OAR) following 3D-printed coplanar template (3D-PCT)-assisted and CT-guided radioactive seed implantation.Methods The 3D-printed coplanar template was designed using a computer software, and the coordinate system was established where the center was used as the basis for setting the x axis and y axis.Crosses defining the center of treatment were drawn on the patient''s body and matched with the corresponding central point, x axis, and y axis of the coplanar template.3D-PCT-assisted and CT-guided radioactive seed implantation was performed based on the pre-operative plan, and the pre-operative, operative, and post-operative plans were designed to evaluate the target tumor volume and the normal dose received by the tissues.In addition, dosimetric parameters, including D90(minimum dose received by 90% of the gross target volume), V100, V150, V200(percentage of GTV that received 100%, 150%, and 200% of the prescribed dose, respectively), minimum peripheral dose (MPD), conformal index (CI), external index (EI), and homogeneity index (HI) in the pre-operative and post-operative plans were also assessed and compared using the Wilcoxon test. Results Fourteen patients treated in our institution from August to October, 2016 were included in this study. The median age of the patients was 61.5 years, and the median Karnofsky Performance Scale score was 80. A total of 14 lesions from the 14 patients were treated by seed implantation in the neck (n=4), chest (n=3), abdomen (n=5), and pelvis (n=2). Of the 14 patients that underwent implantation, 8 had previously received radiation therapy, and 6 had not received radiation therapy. Dosage optimization was performed for all patients during the operation. The median activity of the implanted seeds was 0.625 mCi (0.55-0.75 mCi,1 Ci=3.7×1010 Bq), and the preoperatively planned median number of needling and implanted seeds were 9(4-34) and 45.5(10-162), respectively. However, the actual median number of needling and implanted seeds were 9.5(4-34) and 45.5(10-162), respectively. Dosimetric analysis showed that there were no significant changes in tumor volume (P=0.135), D90(P=0.208), MPD (P=0.104), V100(P=0.542), V150(P=0.754), V200(P=0.583), CI (P=0.426), EI (P=0.326), and HI (P=0.952) after implantation. Conclusions 3D-PCT guidance and dosage optimization can result in good consistency between pre-and post-operative plans for radioactive seed implantation. 3D-PCT is a convenient and cheap technique suitable for large-scale clinical application.

Objective To establish a model for the calculation of biologically effective dose (BED) and EQD2 (Equivalent dose in 2 Gy fractions) in radioactive seed implantation brachytherapy.Methods The BED formula for EBRT(external beam radiotherapy) and for continuous low dose-rate irradiation established under the L-Q model were introduced.The EDQ2 formula for the continuous low dose-rate irradiation (radioactive seed implantation) was established according to the definition of EQD2 and the formula of BED.The α/β values of common tissues and the Tr 1/2 values reported in the literature were summarized.The EDQ2 formula were further simplified by using the actual values.The empirical formula of EDQ2 for early reaction tissues and late reaction tissues were proposed,named as Wang-Peng empirical formula.EDQ2≈ (10/12) D (Wang-Peng Formula 1) was fit for early response tissue,and EDQ2≈ D/2 (Wang-Peng Formula 2) for late reaction tissues.Further examples on the clinical applications of the proposed formula were given,including primary lung cancer,supraclavicular lymph node metastasis of esophageal cancer and celic lymph node metastasis of cervical carcinoma.Results According to the Wang-Peng empirical formula,the EDQ2 of the late reaction tissue adjacent to the tumor was only about half that of the tumor tissue,so the radioactive seed implantation brachytherapy naturally protected the late reaction tissue by the biological equivalent dose.The actual calculation,showed that the empirical formula of early reaction tissue was more accurate,but the empirical formula of late reaction orgtissue was less inaccurate and could only be roughly estimated.Conclusions The BED calculation formula introduced here and the set of EQD2 calculation formula and Wang-Peng empirical formula established here were theoretically feasible and could be used for the conversion and superposition between the physical dose of radioactive seed implantation brachytherapy and the external irradiation dose.But it should be careful to apply the formula,pay attention to the default conditions,and carefully interpret the calculated results.