[Regional disparities in trends of global gastric cancer incidence and mortality from 1990 to 2019].

Objective: To depict gastric cancer burden trends globally and analyze geographical and socioeconomic disparities among different countries and territories. Methods: We extracted the data from Global Burden of Disease 2019 Database. We conducted the Joinpoint regression and calculated the average annual percent change (AAPC) and corresponding 95% confidence interval (CI) for age-standardized gastric cancer incidence and mortality from 1990 to 2019. Linear regression was performed to measure the association of sociodemographic index (SDI) with each country's gastric cancer incidence and mortality AAPC. We applied the age-period-cohort analysis to assess the cohort effect on gastric cancer incidence and mortality. Results: The AAPCs for gastric cancer age-standardized incidence and mortality rates from 1990 to 2019 were -1.27% (95% CI: -1.43%, -1.11%) and -1.87% (95% CI: -2.01%, -1.72%), respectively. SDI levels were negatively associated with AAPCs, which means that countries with higher SDI had higher AAPC (P<0.001). The decrease of gastric cancer burden in countries with low or medium SDI levels was slower than that globally. The age-period-cohort analysis indicated that countries with higher SDI levels had more apparent decline in birth cohort effects from 1900 to 1999. Conclusions: Countries with different socioeconomic levels have various decreasing rates for gastric cancer incidence and deaths. Countries with higher SDI levels have higher declining rates for gastric cancer burden.

[Exploration on teaching reform of cancer epidemiology course].

This study aims to explore optimized teaching mode of cancer epidemiology for undergraduates, and provide scientific ideas and basis for improving teaching quality. Non-randomized concurrent control study was used. Undergraduates, enrolled in 2018, from the department of preventive medicine in A and B medical universities were selected as research objects. Traditional teaching mode was used for cancer epidemiology course in A medical university, and innovative teaching mode named "one core, four dimensions" was adopted in B medical university. After the course, questionnaire method was used to investigate self-cognition of students, teaching satisfaction and class preparation time of teachers in B Medical University. The post-class test method was used to compare the students' grades of cancer epidemiology in the two universities. The results indicated that among the 58 students of B medical university, 94.83% (55/58) students were familiar with common types of epidemiological studies and 86.21% (50/58) mastered the evaluation indicators of screening research. Among the nine teaching faculties from B medical university, seven reported that the new teaching plan helped students to learn frontier knowledge of cancer epidemiology, and eight reported the new teaching model was conducive to the interaction between teachers and students. The text score of students in B medical university was 50.34±4.90, significantly higher than that in A medical university (46.21±4.91, t=5.20, P<0.001). The optimized teaching mode of cancer epidemiology is highly praised by students and teachers, which has the potential to improve students' grasp of cancer epidemiology, the ability to combine theory with practice, and the teaching effect of cancer epidemiology.

[Causes and countermeasures of the rapidly rising burden on cervical cancer in Chinese women].

The world is entering a new era of accelerated elimination of cervical cancer, while the age-standardized incidence, and mortality of cervical cancer in China are rising rapidly. This article summarizes and describes the current situation and trends of the burden of cervical cancer in China, reviews and analyzes the comprehensive prevention practice of cervical cancer, focusing on critical reasons for the increasing burden of cervical cancer, from the perspectives of sociology, behavior, and epidemiology in the population. Countermeasures are proposed to provide guidance and theoretical reference for the precise prevention of cervical cancer to eliminate cervical cancer.

[Fractions and trends of cancer burden attributable to population ageing in China].

Objective: To analyse the fractions and trends of cancer burden attributable to population ageing, adult population size, age-specific incidence and case fatality rate in China between 1990 and 2019. Methods: We extracted data from the database of Global Disease Burden Study, including the number of cancer cases, deaths and corresponding population of 29 cancer types for Chinese adults aged 25 years and older from 1990 to 2019. Using the cancer deaths in 1990 as a reference, we employed a decomposition method to express cancer deaths as the product of four factors among men and women from 1991 to 2019. The fractions attributable to cancer deaths among total cancer deaths in that year were calculated and its time trends were assessed. Results: In 2019, we estimated that there were 2 690 000 cancer deaths among adults aged 25 and older in China. Of which, cancer deaths attributable to population ageing, adult population size, age-specific cancer incidence and case fatality rate were 740 000 (27.5% of total cancer deaths in 2019), 1 091 000 (40.6%), 198 000 (7.3%) and -728 000 (-27.1%), respectively. In 2019, lung cancer, stomach cancer, esophageal cancer, liver cancer and colorectal cancer ranked the top five cancers among population ageing attributable to cancer deaths. For 29 cancer types, the fractions of population ageing attributable to cancer deaths among total deaths of that cancer were ranged from 9.3% to 40.5%. The ageing attributable to cancer deaths and its fractions were increased rapidly since 1997, while those estimates were negative before 1997. Conclusions: The population ageing process in China was one of the major contributors to the increase in cancer burden in recent years, which has caused more cancer deaths than that by age-specific cancer incidence. Accordingly, activities toward healthy ageing would be the key to cancer prevention and control.

[Meta-analysis of annual probability of outcome for different cervical disease states].

Objective: To explore the annual probabilities of outcomes for different cervical disease states. Methods: Cohort studies related to the natural history of cervical cancer were retrieved from PubMed, Embase and China Biomedical Literature Database, and the retrieval time was from the establishment of the database to May 2020. Newcastle-Ottawa scale was used to evaluate the quality of the included literatures. The annual outcome probabilities of different cervical disease states in high-risk human papillomavirus (hrHPV) positive, negative and cervical intraepithelial neoplasia grade 1 (CIN1) population were calculated (95%CI). Random-effects model was used for meta-analysis. Egger's test was used to evaluate publication bias; sensitivity analysis was used to evaluate the robustness of the combined parameters. Meta-regression was used to explore factors associated with the heterogeneity of annual outcome probability. Results: A total of 37 studies were included, including 12, 20 and 15 studies involving hrHPV negative, hrHPV positive and CIN1 population, respectively, with a Newcastle -Ottawa scale (NOS) score of 7.05±1.20. The annual probability (95%CI) of progression to CIN1, CIN2 and CIN3+ in hrHPV-positive population were 0.022 2 (0.014 3, 0.031 0), 0.017 0 (0.012 0, 0.022 0) and 0.016 2 (0.012 6, 0.019 8), respectively. The annual probability (95%CI) of progression to CIN1, CIN2 and CIN3+ in hrHPV-negative population was 0.002 7 (0.000 9, 0.004 6), 0.000 7 (0.000 3, 0.001 1) and 0.000 6 (0.000 3, 0.000 9), respectively. The annual probability (95%CI) of reversal to normal, maintenance of CIN1 status and progression to cervical intraepithelial neoplasia grade 2 or above (CIN2+) in CIN1 population were 0.578 1 (0.369 9, 0.786 3), 0.400 1 (0.167 4, 0.632 9), 0.056 9 (0.034 9, 0.078 9), respectively. Egger's test showed that there was publication bias in the annual outcome probability of hrHPV positive progression to CIN2 and CIN3+ and hrHPV negative progression to CIN2 and CIN1 progression to CIN2+, with t values of 5.50, 2.36, 2.80 and 4.12, respectively (all P values<0.05). Sensitivity analysis showed that when excluding any of the studies, the range of annual probability of progression to CIN1, CIN2 and CIN3+ were 0.016 6-0.024 7, 0.014 9-0.018 9 and 0.013 6-0.017 7 among hrHPV-positive population; 0.002 4-0.003 5, 0.000 6-0.000 9 and 0.000 5-0.000 7 among hrHPV-negative population and the range of annual probability of CIN1 reversal to normal, maintenance as CIN1 and progression to CIN2+ were 0.531 8-0.631 2, 0.321 9-0.443 3, and 0.052 0-0.061 0, respectively. Meta-regression analysis showed that region, population origin, population cytological diagnosis, follow-up time, and NOS score were not associated with the heterogeneity of annual outcome probability (all P values>0.05). Conclusion: The annual outcome probability of different cervical disease states in hrHPV positive population is high, and the CIN1 population only needs close follow-up.

MiR-296-3p promotes the development and progression of preeclampsia via targeting the CEMIP.

OBJECTIVE: Preeclampsia (PE) is one of common pregnancy diseases, which has seriously threatened the health of the gravidas. Although upregulated miR-269-3p has been found in the placentas of the patients with PE, the regulation mechanisms of miR-296-3p remain unclear. PATIENTS AND METHODS: In this study, the placentas of the patients and normal gravidas were used to observe the difference in miR-296-3p expression level, and HTR-8/Svneo and JAR cells were used to investigate the role of miR296-3p in trophoblast cells. Besides, qRT-PCR, Western blot, CCK-8 assay, Dual-Luciferase reporter gene assay and transwell assay were used to explore the functions and regulation mechanisms of miR-296-3p on PE. RESULTS: The results showed that miR-296-3p was upregulated in the PE-placentas, and increased miR-296-3p could inhibit the proliferation, invasion and migration of HTR-8/Svneo and JAR cells. Besides, miR-296-3p could directly target the 3'-UTR of CEMIP, and the phenomena induced by increased miR-296-3p, including decreased ß-catenin and p-AKT and weakened proliferation, invasion and migration abilities, could be reversed by upregulating the expression level of CEMIP. CONCLUSIONS: To summarize, this study suggests that miR-296-3p inactivates the Wnt/ß-catenin and PI3K/AKT pathways to promote the progression of PE via targeting the CEMIP.

[The incidence and mortality of lung cancer in China, 2014].

Objective: To estimate lung cancer incidence and mortality in China using population-based cancer registry data in 2014 collected by National Central Cancer Registry of China (NCCRC). Methods: 449 cancer registries submitted cancer registry data in 2014. All datasets were evaluated and 339 registries' data which met the quality control criteria of NCCRC were analyzed. Numbers of new lung cancer cases and deaths were estimated using calculated incidence and mortality rates and corresponding national population stratified by areas, sexes and age groups. The standard population of Chinese census in 2000 and world Segi' s population were applied to calculate age-standardized incidence and mortality rates in China and worldwide, respectively. Results: A total of 781, 500 new lung cancer cases were diagnosed in 2014. The crude incidence rate was 57.13 per 100 000 and the age-standardized incidence rates by Chinese standard population (ASIRC) and by world standard population (ASIRW) were 36.71 per 100 000 and 36.63 per 100 000, respectively. The cumulative incidence rate (0-74 years old) was 4.50%. Lung cancer was the most common cancer in male (ASIRW: 50.04 per 100 000) and the second most common cancer in female (ASIRW: 23.63 per 100 000). The incidence rates were slightly similar in urban areas and in rural areas (ASIRW: 36.64 per 100 000 vs 36.56 per 100 000). A total of 626 400 lung cancer deaths were reported. The crude mortality rate was 45.80 per 100 000 and the age-standardized mortality rates by Chinese standard population (ASMRC) and by world standard population (ASMRW) were 28.49 per 100 000 and 28.31 per 100 000, respectively. The cumulative mortality rate (0-74 years old) was 3.32%. Lung cancer was the most common cause of cancer deaths both in male (ASMRW: 40.21 per 100 000) and female (ASMRW: 16.88 per 100 000). The mortality rate was slightly higher in rural areas than in urban areas (ASMRW: 28.63 per 100 000 vs 28.04 per 100 000). Both lung cancer incidence and mortality rates increased with age, and the peak age was 80-84 years group. Conclusions: The disease burden of lung cancer is heavy in China. Efficient national health policies and prevention and control strategies against lung cancer should be promoted.

[Incidence trend and change in the age distribution of female breast cancer in cancer registration areas of China from 2000 to 2014].

Objective: To estimate the incidence trend and change in the age distribution of female breast cancer in cancer registry areas in China from 2000 to 2014. Methods: 22 cancer registries in China with continuous monitoring data from 2000 to 2014 were selected. All datasets were checked and evaluated based on data quality control criteria and were included in the analysis. The cancer registries covered 675 954 193 person-years, including 342 010 930 person-years of male and 333 943 263 person-years of female. Female breast cancer cases (International Classification of Diseases-10(th) Revision: C50) were extracted. Crude incidence rate (CR), age-standardized incidence rate by Chinese standard population(ASIRC), annual percent change (APC), crude and adjusted mean age at onset were calculated. Incidence rates stratified by regions and age groups were calculated. Results: Female breast cancer incidence rate significantly increased from 31.90/100 000 in 2000 to 63.30/100 000 in 2014. Incidence rate increased rapidly from 2000 to 2008 (CR: APC=6.5%, 95%CI: 5.3%-7.8%; ASIRC: APC=4.6%, 95%CI: 3.6%-5.7%). Its increment slowed down from 2008-2014 (CR: APC=3.2%, 95%CI: 1.4%-5.1%; ASIRC: APC=1.4%, 95%CI:-0.1%-2.9%). The crude mean age at onset increased from 54.4 in 2000 to 57.0 in 2014. Adjusted mean age at onset remained around 54.3 in 2014. Crude mean age at onset increased significantly over time in all registry areas (ß=0.192, P<0.001), urban (ß=0.205, P<0.001) and rural (ß=0.092, P=0.014) areas, while adjusted mean age at onset remained stable in all registry areas (ß=0.009, P=0.289), urban (ß=0.017, P=0.139) and rural (ß=-0.054, P=0.109) areas. Conclusion: Female breast cancer incidence rate in China increased from 2000 to 2014. Aging of the population resulted in a significant increase in crude mean age at onset. After age adjustment, no significant changes in age distribution were found.

[Analysis on the trend of prostate cancer incidence and age change in cancer registration areas of China, 2000 to 2014].

Objective: To analyze the trend of cancer incidence and age changes among men in cancer registration areas of China from 2000 and 2014. Methods: We select the information of national cancer registry with continuous data from 2000 to 2014, review and organize the monitoring data at the above registries. A total of 22 monitoring registries were included in this study. The covering population of male were about 314 330 648 person years. The information on the incidence of all male prostate cancer patients with C61 was extracted from the International Classification of Diseases-10(th) Revision (ICD-10). To understand the incidence of male prostate cancer in each year, the age-standardized rate by Chinese population (ASR), average annual percent change (AAPC), adjusted mean age at onset were calculated. Incidence rates stratified by regions and age groups were also calculated. The linear regression model was employed to analyze the relationship between mean age at onset and year. Results: The prostate cancer incidence in China increased by 11.5% (95%CI: 10.3%-12.7%) from 2000(4.62/100 000) to 2014(21.62/100 000), the age-standardized incidence rate increased by 7.1% (95%CI: 6.0%-8.1%) and the growth of rural was greater than that of urban. The age-specific incidence showed that the incidence rate increased significantly among the age group of 50 years; the incidence rates in men who have the same age but with different birth years showed a significant increase as birth years increased. The adjusted mean age at diagnosis of prostate cancer in cancer registry areas was 74.09 years old in the year of 2000, reduced by 0.13 year old to 72.35 years old in 2014 (ß=-0.13, P<0.001). The adjusted mean age at onset declined significantly over time in urban areas (ß=-0.13, P<0.001). Conclusion: The trend of prostate cancer incidence among men in cancer registry regions generally increased, and the average age at diagnosis declined slightly from 2000 to 2014.

[Analysis on the trend of cancer incidence and age change in cancer registry areas of China, 2000 to 2014].

Objective: To analyze the trends of cancer incidence and age changes in China with using cancer registration data, and to provide evidence for the development of cancer prevention and control. Methods: Twenty-two cancer registries with continuous (2000-2014) data were selected. The incidence of different sex and regional population, the standardized incidence rate by Chinese population, the average annual change percentage (AAPC) and annual change percentage(APC) were calculated. Age-period-cohort model were used to analyze the changes of cancer incidence, age-adjusted mean ages. The age-standardized proportion of 2000 and 2014 with were compared. Results: The cancer incidence in China increased by 3.9% (95%CI: 3.7%-4.1%) from 2000 to 2014 in APC, and the age-standardized incidence rate increased by 1.2% (95%CI: 1.0%-1.4%) in AAPC. The age-specific incidence showed that each age groups increased significantly in female, ranged between 0.9% to 6.0%. The APC in male aged from 60 years old showed decline trend, the APC in 60-69, 70-79, ≥80 years old were -0.2, -0.3, -0.3, while in the population aged 0-29, 30-39 years old increased dramatically, APC were 3.5, 2.0. Female under 60 also increased, and APC in 0-29, 30-39, 40-49, 0-59 years old were 5.7, 6.0, 3.4, 2.9, respectively. The mean age of patients diagnosed with cancer were increased during the past 15 years, with about 0.11 years per year increased. However, the mean age of the patients diagnosed with cancer showed decreased trend by 0.13 years after age structure adjusted. Conclusion: The trend of mean age for cancer incidence in China were getting younger than before, and the trend in women is more obviously than in man.

[Progress of research on the association between air pollution and prevalence of major cancers].

Being an undisputed risk factor of cancer, air pollution is posing a huge threat to the health on human beings. In this article, we introduced the composition of air pollution, and the standards on air quality which was set by both World Health Organization and the Chinese government. We also summarized the most recent research findings on the association between air pollution and the risk of lung, breast, bladder and other major cancers.

[Incidence and mortality of female breast cancer in China, 2014].

Objective: To estimate the incidence and mortality of female breast cancer in China based on the cancer registration data in 2014, collected by the National Central Cancer Registry (NCCR), and to provide support data for breast cancer prevention and control in China. Methods: There were 449 cancer registries submitting female breast cancer incidence and deaths data occurred in 2014 to NCCR. After evaluating the data quality, 339 registries' data were accepted for analysis and stratified by areas (urban/rural) and age group. Combined with data on national population in 2014, the nationwide incidence and mortality of female breast cancer were estimated. Chinese population census in 2000 and Segi's population were used for age-standardized incidence/mortality rates. Results: Qualified 339 cancer registries covered a total of 288 243 347 populations (144 061 915 in urban and 144 181 432 in rural areas) in 2014. The morphology verified cases (MV%) accounted for 87.42% and 0.59% of incident cases were identified through death certifications only (DCO%), with mortality to incidence ratio of 0.24. The estimates of new breast cancer cases were about 278 900 in China in 2014, accounting for 16.51% of all new cases in female. The crude incidence rate, age-standardized rate of incidence by Chinese standard population (ASRIC), and age-standardized rate of incidence by world standard population (ASRIW) of breast cancer were 41.82/100 000, 30.69/100 000, and 28.77/100 000, respectively, with a cumulative incidence rate (0-74 age years old) of 3.12%. The crude incidence rates and ASRIC in urban areas were 49.94 per 100 000 and 34.85 per 100 000, respectively, whereas those were 31.72 per 100 000 and 24.89 per 100 000 in rural areas. The estimates of breast cancer deaths were about 66 000 in China in 2014, accounting for 7.82% of all the cancer-related deaths in female. The crude mortality rate, age-standardized rate of mortality by Chinese standard population(ASRMC) and age-standardized rate of mortality by world standard population (ASRMW) of breast cancer were 9.90/100 000, 6.53/100 000, and 6.35/100 000, respectively, with a cumulative mortality rate of 0.69%. The crude mortality rates and ASRMC in urban areas were 11.48 per 100 000 and 7.04 per 100 000, respectively, whereas those were 7.93 per 100 000 and 5.79 per 100 000 in rural areas. The incidence and mortality rates of breast cancer were higher in areas than those in rural areas. The age-specific incidence rates of breast cancer increased greatly after 20 years old and peaked at the age group of 55-60. The age-specific mortality rates increased rapidly with age, particularly after 25 years old. They remained at a relative stable level from 55 to 65 years of age, and then increased dramatically and peaked in the age group of 85 and above. Conclusions: Breast cancer is still one of the most common malignant tumor threatening to famale health in China. The disease is more prevalent in urban areas at the age group of 55-60. Comprehensive prevention and control strategies referring to local status and age groups should be carried out to reduce the burden of breast cancer.

[Analysis of the effect of menopausal status and molecular subtype on survivals among breast cancer patients].

Objective: To analyze the associations between molecular subtypes and overall breast cancer survival among premenopausal and postmenopausal breast cancer in Beijing, and to provide basic information for breast cancer clinical researches and control. Methods: All the resident patients diagnosed with breast cancer in four well-established hospitals were retrieved from Beijing cancer registry, related information, such as TNM stages, receptor status, histological grade, height, weight, were collected by case extraction. Cancer registration information and population-based follow-up information were used to acquire survival outcome. All the patients were followed up until 31 December 2015, 4 531 cases with invasive, primary breast were included in the final analysis. All the cases were classified into Luminal and non-Luminal according to receptor status. Five-year survival rates of the two subtypes were estimated by the life-table method. Multivariable Cox proportional hazards models were employed to evaluate the associations between molecular subtypes and breast cancer survival. Results: Of all the 4 531 patients, premenopausal patients accounted for 44.5% (2 017 cases) and postmenopausal patients accounted for 55.5% (2 514 cases). 643 cases died during the study period. Overall five-year survival was 89.5% (95%CI: 88.6%-90.4%), for premenopausal and postmenopausal patients, they were 92.1% (95%CI: 90.9%-93.3%), and 87.5% (95%CI: 86.2%-88.8%), respectively. Among all the patients, 3 730 patients had molecular subtype, 76.7% (2 861 cases) were Luminal breast cancer, and 23.3% (869 cases) were non-Luminal breast cancer. Five-year survival rates for Luminal and non-Luminal were 91.8% (95%CI: 90.8%-92.8%), and 83.2% (95%CI: 80.7%-85.7%), respectively. No matter in premenopausal or postmenopausal patients, non-Luminal breast cancer had significantly higher risk of death compared to Luminal breast cancer (premenopausal: HR=1.85, 95%CI: 1.26-2.73; premenopausal: HR=1.42, 95%CI: 1.07-1.88). Conclusion: For both premenopausal and postmenopausal breast cancer patients, non-Luminal breast cancer had lower five-year survival rates than Luminal breast cancer, which was a risk factor on breast cancer survival.

[Influence of interleukin-10 on nitric oxide /nitric oxide synthase system of the aorta].

To study the influence of the inflammatory factor---interleukin-10 on nitric oxide (NO) and nitric oxide synthase system of rat aorta, Griess assay, production of (3)H-citrulline and Western blot were used to determine the release of NO, and the activity and expression of nitric oxide synthase, respectively. The results showed that lipopolysaccharide (LPS) stimulated the activity of inducible nitric oxide synthase (iNOS) and the release of NO. 10(-10) 10(-8) g/ml of IL-10 induced the activity and expression of endothelial nitric oxide synthase (eNOS), but not of iNOS. 10(-9) 10(-8) g/ml of IL-10 also downloaded the release of NO, and the activity and expression of iNOS induced by LPS, while 10(-7) g/ml of IL-10 significantly stimulated the activity and expression of iNOS but not eNOS. In summary, IL-10 presents a duple role in NO/NOS system. On the one hand, IL-10 inhibits the activity and expression of iNOS induced by inflammatory factor; on the other hand, IL-10 stimulates the release of endothelial NO.

[Influence of myocardial ischemia/reperfusion in vitro on nuclear envelope NTPase activity and mRNA export in the cardiomyocyte of rabbits].

AIM: To study the alteration of nuclear envelope associated NTPase activity and mRNA nucleocytoplasmic transport in rabbit cardiomyocyte following in vitro ischemia and reperfusion. METHODS: The model of myocardial perfusion in rabbit was used to produce myocardial I/R injury and cardiomyocyte nuclear envelope vesicles were prepared by density gradient centrifugation for the assay of mRNA transport rate and NTPase activity. RESULTS: NTPase activity was reduced and mRNA transport rate was significantly decreased in I/R (P < 0.01) but not in ischemia group( P > 0.05). CONCLUSION: The nuclear envelope vesicles had been injured following ischemia and reperfusion and resulted in NTPase activity reduced and egress of mRNA interrupted, and therefore may lead to decreasing of protein synthesis.

Effect of batroxobin against dog heart ischemia/reperfusion injury.

AIM: To study the effect of batroxobin(Bat) on dog heart ischemia/reperfusion (I/R) injury. METHODS: Dog heart I/R injury was induced by occluding the left anterior descending coronary artery for 30 min and restoring blood perfusion for 90 min. Bat was intravenously injected before heart ischemia and 15 min before reperfusion. Plasma creatine kinase (CK), lactate dehydrogenase (LDH), and myocardial malondiaedehyde (MDA) concentrations were measured. The pathologic changes of I/R myocardium were observed. RESULTS: Bat reduced the mortality rate of I/R dog (I/R group 65.0% vs Bat-I group 30.0% and Bat-II group 28.6%, P < 0.05). Myocytes of I/R heart showed intracellular edema, damaged mitochondria, and concentrated nucleus. Bat decreased these changes. In Bat-I and Bat-II group, plasma CK and LDH level were reduced, the +dp/dtmax and -dp/dtmax at 30 min after ischemia and 90 min after reperfusion were elevated, and left ventricular end dilation pressure (LVEDP) was lowered. The myocardial MDA contents were decreased by 42.3% and 38.1% (P < 0.01) in Bat-I and Bat-II group, respectively. CONCLUSION: Bat may exert an apparent role against dog heart ischemia/reperfusion injury and improve myocardial function.