Objective:To understand the current status of pubertal sexual characteristics development of girls aged 6-18 years in Tongzhou District of Beijing and to compare the differences in sexual characteristics development among girls characterized as thin, normal, overweight, and obese.Methods:A cross-sectional survey was conducted among 2 844 girls aged 6-18 years in Tongzhou District of Beijing from September 2022 to July 2023. The developmental stages of breast and pubic hair were assessed on site, and menarche status was inquired. Weight and height were measured. The girls were subsequently characterized into thin, normal, overweight and obese groups. Basic information (including family and personal history) was obtained through questionnaires. Probit probability unit regression was applied to calculate the age of each Tanner stage of sexual characteristics development and the age of menarche. The χ 2 test was applied to compare the counting data between two or multiple groups. Results:A total of 2 844 girls were surveyed and 2 704 girls met the inclusion criteria, resulting in a valid response rate of 95.1%. Among these girls, 1 105 (40.9%) were aged 6-9 years, 1 053 (38.9%) were aged 10-13 years, and 546 (20.2%) were aged 14-18 years. The of height-for-age Z-score (HAZ), weight-for-age Z-score (WAZ), and body mass index-for-age Z-score (BAZ) were 0.46(-0.23,1.16), 0.69(-0.16,1.67), and 0.67(-0.27,1.73) respectively. The prevalences of thin, overweight, and obesity were respectively 1.7% (45/2 704), 17.3% (467/2 704), and 19.9% (538/2 704), respectively. There were 45 girls in the thin group, 1 654 girls in the normal weight group, 1 005 girls in the overweight and obesity group. The age of Tanner stage breast 2 (B2), Tanner stage pubic hair 2 (P2), and menarche was 9.0 (95% CI 8.9-9.1), 10.5 (95% CI 10.4-10.6), and 11.4 (95% CI 11.3-1.5) years, respectively. The current status of breast and pubic hair maturity in girls with pubertal development shows that 64.6% (1 211/1 874) of these girls had breast development preceding pubic hair development, 32.4% (607/1 874) had concurrent breast and pubic hair development, and 3.0% (56/1 874) had pubic hairs development preceding breast development. The interval age between B2 and B5 was 4.7 (95% CI 4.6-4.8) years, between P2 and P5 was 4.5 (95% CI 4.4-4.6) years, and between B2 and menarche was 2.4 (95% CI 2.3-2.5) years. The ages of sexual characteristics development in overweight and obese groups were earlier than that in normal and thin groups. The ages of B2 in thin, normal, overweight, and obese groups were 10.0 (95% CI 9.5-10.6), 9.3 (95% CI 9.2-9.4), and 8.6 (95% CI 8.4-8.7) years, respectively. The age of menarche in thin, normal, overweight, and obese groups were 13.1 (95% CI 12.4-13.7), 11.6 (95% CI 11.4-11.7), and 11.1 (95% CI 11.0-11.2) years, respectively. The interval ages between B2 and B5 and between P2 and P5 was 4.5 and 4.1 years, respectively in the overweight and obese groups, and those in normal group and thin group was 4.7 and 4.5 years, 4.6 and 4.7 years, respectively. Conclusions:The ages of sexual characteristics development and menarche tend in Tongzhou District of Beijing to be earlier than that being reported of Beijing's survey 20 years ago. Girls characterized as overweight and obese not only start puberty at an earlier age than girls of normal weight, but also have a shorter developmental process.

177Lu-prostate specific membrane antigen(PSMA)radio-ligand therapy has been approved abroad for advanced prostate cancer and has been in several clinical trials in China.Based on domestic clinical practice and experimental data and referred to international experience and viewpoints,the expert group forms a consensus on the clinical application of 177Lu-PSMA radio-ligand therapy in prostate cancer to guide clinical practice.

Background::Liver cancer remains the sixth most commonly diagnosed cancer and the third leading cause of cancer-related deaths worldwide, causing a heavy burden globally. An updated assessment of the global epidemiology of the liver cancer burden that addresses geographical disparities is necessary to better understand and promote healthcare delivery.Methods::Data were extracted from the GLOBOCAN 2022 database, including the number, crude, and age-standardized rates of incidence and mortality at the global, country, continent, and human development index (HDI) regional levels. Age-standardized rates (incidence and mortality) per 100,000 person-years were adjusted based on the Segi-Doll World standard population. The mortality-to-incidence ratios (MIR) for each region and country were calculated. The HDI and gross national income (GNI) for 2022 were obtained, and a Pearson correlation analysis was conducted with the incidence, mortality, and MIR.Results::In 2022, approximately 866,136 new liver cancer cases and 758,725 related deaths were recorded worldwide, with a global MIR of 0.86. Males had a disproportionately higher burden than females across all levels, and the highest burden was observed in the elderly population. Geographically, the regions with the highest incidence rates included Micronesia, Eastern Asia, and Northern Africa, and the regions with the highest mortality rates included Northern Africa, Southeastern Asia, Eastern Asia, and Micronesia. Notably, Mongolia had a strikingly high burden compared to other countries. The highest MIR was observed in North America and the lowest in Africa. Negative associations of HDI and GNI with liver cancer mortality and MIR were identified, irrespective of sex.Conclusions::The current liver cancer burden underscores the presence of remarkable geographic heterogeneity, which is particularly evident across countries with varying HDI levels, highlighting the urgent need to prioritize health accessibility and availability to achieve health inequities.

BACKGROUND: Large disparities exist in liver cancer burden trends across countries but are poorly understood. We aimed to investigate the global trajectories of liver cancer burden, explore the driving forces, and predict future trends. METHODS: Data on the liver cancer burden in 204 countries and territories from 1990 to 2019 were extracted from the Global Burden of Disease Study. The age-standardized incidence rate (ASIR) and age-standardized mortality rate (ASMR) trajectories were defined using growth mixture models. Five major risk factors contributing to changes in the ASIR or ASMR and socioeconomic determinants were explored using the identified trajectories. A Bayesian age-period-cohort model was used to predict future trends through 2035. RESULTS: Three trajectories of liver cancer burden were identified: increasing, stable, and decreasing groups. Almost half of the American countries were classified in the decreasing group (48.6% for ASIR and ASMR), and the increasing group was the most common in the European region (ASIR, 49.1%; ASMR, 37.7%). In the decreasing group, the decrease of liver cancer due to hepatitis B contributed 63.4% and 60.4% of the total decreases in ASIR and ASMR, respectively. The increase of liver cancer due to alcohol use, hepatitis C, and hepatitis B contributed the most to the increase in the increasing group (30.8%, 31.1%, and 24.2% for ASIR; 33.7%, 30.2%, and 22.2% for ASMR, respectively). The increasing group was associated with a higher sociodemographic index, gross domestic product per capita, health expenditure per capita, and universal health coverage (all P <0.05). Significant variations in disease burden are predicted to continue through 2035, with a disproportionate burden in the decreasing group. CONCLUSION Global disparities were observed in liver cancer burden trajectories. Hepatitis B, alcohol use, and hepatitis C were identified as driving forces in different regions.
Humans ; Bayes Theorem ; Liver Neoplasms ; Risk Factors ; Hepatitis C/complications* ; Hepatitis B ; Hepacivirus ; Incidence

Accurate and efficient methods for identifying and tracking each animal in a group are needed to study complex behaviors and social interactions. Traditional tracking methods (e.g., marking each animal with dye or surgically implanting microchips) can be invasive and may have an impact on the social behavior being measured. To overcome these shortcomings, video-based methods for tracking unmarked animals, such as fruit flies and zebrafish, have been developed. However, tracking individual mice in a group remains a challenging problem because of their flexible body and complicated interaction patterns. In this study, we report the development of a multi-object tracker for mice that uses the Faster region-based convolutional neural network (R-CNN) deep learning algorithm with geometric transformations in combination with multi-camera/multi-image fusion technology. The system successfully tracked every individual in groups of unmarked mice and was applied to investigate chasing behavior. The proposed system constitutes a step forward in the noninvasive tracking of individual mice engaged in social behavior.
Animals ; Mice ; Deep Learning ; Zebrafish ; Algorithms ; Neural Networks, Computer ; Social Behavior

Objective:To investigate the prevalence of Mycoplasma pneumoniae ( Mp) in children undergoing physical examination. Methods:This study randomly enrolled 1 303 children at the age of 6-12 years who underwent physical examination in 2023. Their oral and pharyngeal swabs as well as venous blood samples were collected. The prevalence of Mp in these subjects was detected using isolation and culturing, nucleic acid detection and serological test. Chi-square test was used for statistical analysis. Results:Among the 1 303 children, the detection rate of Mp was 4.1% (53/1 303) by culturing, 7.3% (95/1 303) by nucleic acid detection and 13.6% (177/1 303) by serological test. Statistical analysis showed that there were significant differences in the the detection rates of Mp among children undergoing physical examination between the three methods ( P<0.05). Conclusions:The detection rate of Mp in children undergoing physical examination in 2023 was about 4.1%. Isolation and culturing was more accurate than nucleic acid detection and serological test in the detection of Mp in healthy population as the latter two methods would overestimate the rate.

Objective:To investigate the change trend of etiological burden of disease of liver cancer in the Chinese population from 1990 to 2019.Methods:The descriptive epidemiologic method was conducted. Based on the Global Burden of Disease data from the Institute for Health Metrics and Evaluation at the University of Washington, the data related to liver cancer burden caused by hepatitis B virus (HBV) infection, hepatitis C virus (HCV) infection, alcohol, nonalcoholic steatohepatitis (NASH) and other factors, including number of new cases, the crude incidence rate, age-specific incidence rate, number of deaths, crude mortality rate and age-specific mortality rate, in the Chinese population from 1990 to 2019 were collected. The age-standardized rate was calculated based on the world standardized population structure in 2019 from the Global Burden of Disease data. Observation indicators: (1) the incidence of liver cancer caused by different etiologies in the Chinese population from 1990 to 2019; (2) the mortality of liver cancer caused by different etiologies in the Chinese population from 1990 to 2019; (3) the change trend of age-specific incidence rate of liver cancer caused by different etiologies in the Chinese population from 1990 to 2019; (4) the age-specific mortality rate of liver cancer caused by different etiologies in the Chinese population from 1990 to 2019. Count data were expressed as absolute numbers, percentages and ratio. Based on the junction point regression model, the Joinpoint software (V.4.9.1.0) was used to calculate the annual percentage change, average annual percentage change (AAPC) and 95% confidence intervals ( CI) of age-specific incidence rate and age-specific mortality rate of liver cancer caused by different etiologies. Results:(1) The incidence of liver cancer caused by different etiologies in the Chinese population from 1990 to 2019. From 1990 to 2019, the number of new cases of liver cancer in Chinese population decreased from 236 825 to 210 462, and the crude incidence rate decreased from 20.01/100,000 to 14.80/100,000. The new cases of liver cancer caused by HBV infection, HCV infection and other factors showed a downward trend, and the absolute change rates were ?14.76%, ?3.98% and ?26.67%, respectively. The new cases of liver cancer caused by alcohol and NASH showed a increase trend, and the absolute change rates were 9.31% and 13.91%, respectively. (2) The mortality of liver cancer caused by different etiologies in the Chinese population from 1990 to 2019. From 1990 to 2019, the number of deaths of liver cancer in Chinese population decreased from 232 449 to 187 700, and the crude mortality rate decreased from 19.64/100,000 to 13.20/100,000. The number of deaths of liver cancer caused by HBV infection, HCV infection and other factors showed a down-ward trend, and the absolute change rates were ?23.34%, ?10.99% and ?33.75%, respectively. The number of deaths of liver cancer caused by alcohol showed a slow downward trend, and the absolute change rate was ?0.51%. The number of deaths of liver cancer caused by NASH showed a increase trend, and the absolute change rate was 6.03%. (3) The change trend of age-specific incidence rate of liver cancer caused by different etiologies in the Chinese population from 1990 to 2019. From 1990 to 2019, the AAPC of age-specific incidence rate of liver cancer caused by HBV infection, HCV infection, alcohol, NASH and other factors was ?3.61%(95% CI as ?4.10% to ?3.11%), ?3.57%(95% CI as ?3.99% to ?3.14%), ?2.79%(95% CI as ?3.24% to ?2.33%), ?2.65%(95% CI as ?3.09% to ?2.21%) and ?3.62%(95% CI as ?4.05% to ?3.19%), respectively. (4) The age-specific mortality rate of liver cancer caused by different etiologies in the Chinese population from 1990 to 2019. From 1990 to 2019, the AAPC of age-specific mortality rate of liver cancer caused by HBV infection, HCV infection, alcohol, NASH and other factors was ?3.92%(95% CI as ?4.42% to ?3.41%), ?3.90%(95% CI as ?4.45% to ?3.35%), ?3.15%(95% CI as ?3.71% to ?2.58%), ?2.86%(95% CI as ?3.34% to ?2.38%) and ?4.09%(95% CI as ?4.64% to ?3.55%), respectively. Conclusions:From 1990 to 2019, the liver cancer burden of the Chinese population shows an overall downward trend, in which the liver cancer burden caused by HBV and HCV infection decreases the most, but HBV and HCV infection is still the main reason for the heavy burden of liver cancer. The age-specific incidence rate and age-specific mortality rate of liver cancer caused by alcohol and NASH show a downward trend, but the number of new cases of liver cancer caused by alcohol and NASH shows significant growth. The liver cancer burden caused by other factors shows a downward trend.

Objective:To analyze the changing trend of the incidence and mortality rates of liver cancer in the Chinese population from 1990 to 2019, and predict the future development trend of liver cancer.Methods:The descriptive epidemiologic method was conducted. Based on the Global Burden of Disease data from the Institute for Health Metrics and Evaluation at the University of Washington, the crude incidence rate and total number, crude mortality rate and total number, age- and sex-specific incidence rate and number, age- and sex-specific mortality rate and number of liver cancer in the Chinese population from 1990 to 2019 were collected. The age-standardized rate was calculated using the year 2000 China's standard population. Observation indicators: (1) the incidence and mortality of liver cancer in the Chinese population from 1990 to 2019; (2) changing trend of the age-standardized incidence and mortality rates of liver cancer in the Chinese population from 1990 to 2019; (3) prediction of the incidence and mortality of liver cancer in the Chinese population during 2020-2044. Count data were described as absolute numbers, percentages and ratios. The Joinpoint V.4.9.0.0 software was used to calculate the annual percent change (APC), average annual percent change (AAPC) and its 95% confidence interval ( CI) of age-standardized incidence and mortality rates of liver cancer in different time periods. The age-period-cohort model in the Nordpred package of R software (V.4.1.1) was used to predict the incidence and mortality of liver cancer in the Chinese population during 2020-2044. Results:(1) The incidence and mortality of liver cancer in the Chinese population from 1990 to 2019: the crude incidence rate and the age-standardized incidence rate of liver cancer in the Chinese population decreased from 20.01/100,000 and 24.31/100,000 in 1990 to 14.80/100,000 and 9.71/100,000 in 2019, respectively. The crude incidence rate and the age-standardized incidence rate of liver cancer in the Chinese male popula-tion decreased from 27.88/100,000 and 34.76/100,000 in 1990 to 22.05/100,000 and 15.22/100,000 in 2019, respectively. The crude incidence rate and the age-standardized incidence rate of liver cancer in the Chinese female population decreased from 11.63/100,000 and 13.51/100,000 in 1990 to 7.26/100,000 and 4.29/100,000 in 2019, respectively. The crude mortality rate and the age-standardized mortality rate of liver cancer in the Chinese population decreased from 19.64/100,000 and 23.97/100,000 in 1990 to 13.20/100,000 and 8.44/100,000 in 2019, respectively. The crude mortality rate and the age-standardized mortality rate of liver cancer in the Chinese male population decreased from 27.03/100,000 and 34.10/100,000 in 1990 to 19.18/100,000 and 13.03/100,000 in 2019, respectively. The crude mortality rate and the age-standardized mortality rate of liver cancer in the Chinese female population decreased from 11.78/100,000 and 13.64/100,000 in 1990 to 6.98/100,000 and 3.97/100,000 in 2019, respectively. (2) Changing trend of the age-standardized incidence and mortality rates of liver cancer in the Chinese population from 1990 to 2019: the trend of age-standardized incidence rate of liver cancer in the Chinese population could be divided into 5 periods, namely year 1990 to 1996, year 1996 to 2001, year 2001 to 2005, year 2005 to 2010 and year 2010 to 2019. In these 5 periods, the APC of age-standardized incidence rate changed from 1.27%(95% CI as 0.81% to 1.73%, P<0.001) to 1.12%(95% CI as 0.91% to 1.33%, P<0.001) of the total Chinese population, from 1.68%(95% CI as 1.19% to 2.17%, P<0.001) to 1.65%(95% CI as 1.42% to 1.87%, P<0.001) of the Chinese male population and from 0.21%(95% CI as -0.32 % to 0.75%, P=0.406) to -0.14%(95% CI as -0.40% to 0.11%, P=0.241) of the Chinese female population, respectively. The trend of age-standardized mortality rate of liver cancer in the Chinese population could be divided into 5 periods, namely year 1990 to 1996, year 1996 to 2000, year 2000 to 2005, year 2005 to 2012 and year 2012 to 2019. In these 5 periods, the APC of age-standardized mortality rate changed from 1.47%(95% CI as 0.74% to 2.20%, P=0.001) to 1.34%(95% CI as 0.78% to 1.90%, P<0.001) of the total Chinese population, from 1.96%(95% CI as 1.18% to 2.75%, P<0.001) to 1.79%(95% CI as 1.18% to 2.41%, P<0.001) of the Chinese male population and from 0.14%(95% CI as -0.54% to 0.82%, P=0.670 ) to 0.48%(95% CI as 0.02% to 0.93%, P=0.041) of the Chinese female population, respectively. From 1990 to 2019, the AAPC of age-standardized incidence and age-standardized mortality rates of liver cancer were -3.22%(95% CI as -3.41% to -3.03%) and -3.51%(95% CI as -3.82% to -3.19%) in the Chinese population, -2.90%(95% CI as -3.10% to -2.71%) and -3.22%(95% CI as -3.57% to -2.88%) in the Chinese male population, -3.96%(95% CI as -4.17% to -3.76%) and -4.13%(95% CI as -4.43% to -3.82%) in the Chinese female population, respectively. (3) Prediction of the incidence and mortality of liver cancer in the Chinese population during 2020-2044: the age-standardized incidence rate of liver cancer would decrease from 9.51/100,000 in 2015-2019 to 5.78/100,000 in 2040-2044 in the Chinese population, from 14.84/100,000 in 2015-2019 to 9.75/100,000 in 2040-2044 in the Chinese male population and from 4.28/100,000 in 2015-2019 to 1.88/100,000 in 2040-2044 in the Chinese female population, respectively. The age-standardized mortality rate of liver cancer would decrease from 8.40/100,000 in 2015-2019 to 4.62/100,000 in 2040-2044 in the Chinese population, from 12.91/100,000 in 2015-2019 to 7.59/100,000 in 2040-2044 in the Chinese male population and from 4.01/100,000 in 2015-2019 to 1.70/100,000 in 2040-2044 in the Chinese female population, respectively. The incidence number and mortality number of liver cancer from 2020 to 2044 would remain stable at around 160,000 per year and 140,000 per year in the Chinese population, 128,500 per year and 109,000 per year in the Chinese male population, 36,000 per year and 34,900 per year in the Chinese female population, respectively. Conclusion:The incidence and mortality rates of liver cancer in the Chinese popula-tion show a significant downward trend from 1990 to 2019, and the incidence number and mortality number of liver cancer in the Chinese population will remain stable above 100,000 during 2020-2044.

BACKGROUND: The cancer burden in the United States of America (USA) has decreased gradually. However, China is experiencing a transition in its cancer profiles, with greater incidence of cancers that were previously more common in the USA. This study compared the latest cancer profiles, trends, and determinants between China and USA. METHODS: This was a comparative study using open-source data. Cancer cases and deaths in 2022 were calculated using cancer estimates from GLOBOCAN 2020 and population estimates from the United Nations. Trends in cancer incidence and mortality rates in the USA used data from the Surveillance, Epidemiology, and End Results program and National Center for Health Statistics. Chinese data were obtained from cancer registry reports. Data from the Global Burden of Disease 2019 and a decomposition method were used to express cancer deaths as the product of four determinant factors. RESULTS: In 2022, there will be approximately 4,820,000 and 2,370,000 new cancer cases, and 3,210,000 and 640,000 cancer deaths in China and the USA, respectively. The most common cancers are lung cancer in China and breast cancer in the USA, and lung cancer is the leading cause of cancer death in both. Age-standardized incidence and mortality rates for lung cancer and colorectal cancer in the USA have decreased significantly recently, but rates of liver cancer have increased slightly. Rates of stomach, liver, and esophageal cancer decreased gradually in China, but rates have increased for colorectal cancer in the whole population, prostate cancer in men, and other seven cancer types in women. Increases in adult population size and population aging were major determinants for incremental cancer deaths, and case-fatality rates contributed to reduced cancer deaths in both countries. CONCLUSIONS The decreasing cancer burden in liver, stomach, and esophagus, and increasing burden in lung, colorectum, breast, and prostate, mean that cancer profiles in China and the USA are converging. Population aging is a growing determinant of incremental cancer burden. Progress in cancer prevention and care in the USA, and measures to actively respond to population aging, may help China to reduce the cancer burden.
Adult ; Breast Neoplasms ; China/epidemiology* ; Female ; Humans ; Incidence ; Liver Neoplasms ; Male ; Neoplasms/epidemiology* ; Registries ; United States/epidemiology*

Objective:To evaluate the effect of orexin A on morphine-induced gastrointestinal dysfunction in mice.Methods:Forty SPF C57B/6 mice, aged 6-8 weeks, half male and half female, weighing 18-22 g, were divided into 5 groups ( n=8 each) using a random number table method: control group (group C), morphine group (group M) and morphine + different doses of orexin A groups (MOH, MOM and MOL groups). Normal saline 8 ml/kg was subcutaneously injected daily in group C, morphine 6 mg/kg was subcutaneously injected daily in the other four groups, and orexin A 75, 50 and 25 μg/kg were subcutaneously injected daily for 10 days at the same time in MOH, MOM and MOL groups.The fetal water content was calculated and averaged daily.After the last administration, the mice were gavaged with black nutrient paste, and the gastric emptying rate and small intestinal propulsion rate were detected 30 min later.Blood samples were collected from the orbit, and the concentration of serum gastrin (GAS) was detected by enzyme-linked immunosorbent assay.The mice were then sacrificed, and colon tissues were removed for determination of c-kit positive cell area (by immunohistochemistry) and expression of c-kit, substance P (SP) and neural nitric oxide synthase (nNOS) in colon tissues (by Western blot). Results:Compared with group C, the rate of fecal water content, gastric emptying rate, small intestinal propulsion rate and serum GAS concentration were significantly decreased, the area of c-kit positive cells was decreased, and the expression of c-kit and SP was down-regulated, and the expression of nNOS was up-regulated in group M ( P<0.05). Compared with group M, the small intestinal propulsive rate and serum GAS concentration were significantly increased, and the area of c-kit positive cells was increased, and the expression of c-kit was up-regulated in group MOH, the rate of fecal water content, gastric emptying rate, small intestinal propulsion rate and serum GAS concentration were significantly increased, the area of c-kit positive cells was increased, and the expression of c-kit and SP was up-regulated, and the expression of nNOS was down-regulated in group MOM, and the serum GAS concentration and c-kit positive cell area were significantly increased in group MOL ( P<0.05). Conclusions:Orexin A 50 μg/kg can effectively alleviate the gastrointestinal dysfunction induced by morphine in mice, and the mechanism may be related to promotion of GAS secretion, interstitial cells of Cajal growth and SP release and inhibition of NO release.