[Cancer incidence and mortality in China, 2022].

Objective: The National Central Cancer Registry estimates the number of new cancer cases and deaths in China in 2022, using incidence and mortality data collected by the National Cancer Center. Methods: According to the data of 700 cancer registries in 2018 and the data of 106 cancer registries from 2010 to 2018, the age-period-cohort model was used to estimate the incidence rate and mortality rate of all cancers and 23 types of cancer in 2022, stratified by gender and urban and rural areas. We estimated the number of new cancer cases and deaths in China in 2022 based on the estimated rate and population data in 2022. Results: The estimated results showed that in 2022, there were approximately 4 824 700 new cancer cases in China (2 533 900 in males and 2 290 800 in females), with an age-standardized incidence rate of Chinese population (ASIR) of 208.58 per 100 000 (212.67 per 100 000 for males and 208.08 per 100 000 for females). Approximately 2 903 900 new cancer cases occurred in urban areas, with an ASIR of 212.95 per 100 000. It was estimated about 1 920 800 new cancer cases in rural areas, and the ASIR was 199.65 per 100 000. The top five cancers (lung cancer 1 060 600, colorectal cancer 517 100, thyroid cancer 466 100, liver cancer 367 700 and female breast cancer 357 200) accounted for 57.4% of all new cases. The estimated number of deaths from cancer in China in 2022 was 2 574 200 (1 629 300 in males and 944 900 in females), with an age-standardized mortality rate of Chinese population (ASMR) of 97.08 per 100 000 (127.70 per 100 000 in males and 68.67 per 100 000 in females). The number of deaths from cancer in urban and rural areas was about 1 400 600 and 1 173 400, with the ASMR of 92.37 and 103.97 per 100 000 in urban and rural areas, respectively. The top five leading cause of cancers death (lung cancer 733 300, liver cancer 316 500, gastric cancer 260 400, colorectal cancer 240 000 and esophageal cancer 187 500) accounted for 67.5% of all cancer deaths. Lung cancer ranked first in the incidence and mortality in men and women. The incidence rate in urban areas was higher than that in rural areas, while the mortality rate was lower than that in rural areas. Conclusions: The burden of cancer in China is still relatively heavy, with significant differences in cancer patterns in gender, urban-rural, and regional. The burden of cancer presents a coexistence of developed and developing countries, and the situation of cancer prevention and control is still serious in China.

[Cancer statistics in China, 2016].

Objective: Data for 2016 from cancer registries were used to estimate cancer incidence and mortality in China in 2016. Methods: According to the quality control process of the National Central Cancer Registry, the data from 683 cancer registries submitted by each province were evaluated, and the data of 487 cancer registries were qualified and included in the final analysis. Age-specific incidence and mortality rates were calculated by area (urban/rural), sex, age and cancer site, combined with national population data to estimate cancer incidence and mortality in China in 2016. Chinese population census in 2000 and Segi's population were used for age-standardized incidence and mortality rates. Results: Total population covered by 487 cancer registries was 381 565 422 (192 628 370 in urban and 188 937 052 in rural areas). The percentages of morphologically verified (MV%) and death certificate-only cases (DCO%) accounted for 68.31% and 1.40%, respectively, and the mortality to incidence ratio was 0.61. It was estimated about 4 064 000 new cases occurred in China in 2016, with the crude incidence rate being 293.91/100 000 (the rates of males and females were 315.52/100 000 and 271.23/100 000), age-standardized incidence rates by Chinese standard population (ASIRC) and by world standard population (ASIRW) were 190.76/100 000 and 186.46/100 000, with the cumulative incidence rate (0-74 years old) being 21.42%. The crude incidence and ASIRC were 314.74/100 000 and 196.38/100 000 in urban areas, whereas in rural areas, they were 265.90/100 000 and 182.21/100 000, respectively. It was estimated about 2 413 500 cancer deaths occurred in China in 2016, the crude mortality rate was 174.55/100 000 (216.16/100 000 in males and 130.88/100 000 in females), the age-standardized mortality rates by Chinese standard population (ASMRC) and by world standard population (ASMRW) were 106.00/100 000 and 105.19/100 000, and the cumulative mortality rate (0-74 years old) was 11.85%. The crude mortality and ASMRC were 180.31/100 000 and 104.44/100 000 in urban areas, whereas in rural areas, they were 166.81/100 000 and 108.01/100 000, respectively. The most common cancer cases include lung, colorectal, stomach, liver and female breast cancers. The top five cancers accounted for about 57.27% of all cancer cases. The most common cancer deaths included lung, liver, stomach, colorectal and esophageal cancers. The top five cancers accounted for about 69.25% of all cancer deaths. Conclusions: The burden of cancer shows a continuous increasing trend in China. Regional and gender differences in cancer burden are obvious. The cancer patterns still show the coexistence of cancer patterns in developed countries and developing countries. The situation of cancer prevention and control is still serious in China.

[The incidence and mortality of endometrial cancer in China, 2015].

Objective: To estimate endometrial cancer (EC) incidence and mortality in China in 2015. Methods: Qualified cancer registry data collected in 2011-2015 were pooled for analysis, from which EC cases and deaths were extracted. EC cases were classified into endometrioid, nonendometrioid and other & unspecified according to their histologic types. Incidence and mortality rates stratified by region and age group were calculated. Population data of 2015 was used to estimate cancer cases and deaths in China. Segi's population was used for the calculation of age-standardized rates by world standard population (ASW). Results: Data from 158, 176, 239, 235, 231 qualified cancer registries of 2011 to 2015 were pooled together. These registries covered about 488 million population, including about 255 million population in urban area and 233 million population in rural area. In 2015, a total of 53 600 EC cases were estimated, with a crude incidence rate of 7.74/100 000 and an ASW of 5.13/100 000. Incidence rates were higher in urban areas (9.15/100 000) than in rural areas (6.20/100 000). A total of 10 700 deaths were estimated, with a crude mortality rate of 1.60/100 000 and an ASW of 0.98/100 000. Mortality rate was higher in urban areas (1.78/100 000) than in rural areas (1.40/100 000). Among reported EC cases during 2011-2015, 70.92% (23 641 cases) were endometrioid, 5.13% (1 709 cases) were nonendometrioid and 23.95% (7 982 cases) were other & unspecified. The mean age at onset of all EC cases was 55.9±10.6. The mean age at onset of endometrioid cases (55.7±10.0) was younger than that of nonendometrioid cases (57.7±10.8) (P<0.001). The mean age at onset of all histologic types in urban areas was higher than that in rural areas (P<0.001). The mean age at death for EC deaths was 63.9±12.5. The mean age at death in urban areas (65.3±12.5) was higher than that in rural areas (61.4±12.2) (P<0.001). Conclusion: EC disease burden differs between urban and rural areas. Targeted cancer prevention and control strategies should be made for each region.

[Viral pathogenic spectrum analysis of severe acute respiratory infection cases in Luohe City, Henan province from 2017 to 2019].

Objective: The purpose of this study was to investigate the characteristics of viral pathogen spectrum and the epidemiological characteristics of each viral pathogen in hospitalized cases associated with severe acute respiratory infection (SARI) in Luohe City, Henan Province from 2017 to 2019. Methods: Based the SARI Case Surveillance Platform, SARI cases were collected in Central Hospital of Luohe City, Henan Province from November 2017 to February 2019. In the end, 783 SARI cases were included, whose throat swabs were taken within 24 h of admission, as well as their demographic characteristics, onset time, clinical characteristics and other information recorded. At the same time, viral identification was performed, and the age and time distribution of each virus were analyzed. Results: The age of 783 SARI cases shown as M (P25, P75) was 3 (1, 5) years old, ranging from 1 month to 95 years old. Children under 5 years old were the majority (71.01%). The males (61.81%) were more than females (38.18%). Among the 783 SARI cases, a total of 9 kind of viruses were identified with 64.88% (508/783) of the throat swabs tested positive for at least one virus. The positive rate of influenza virus and human respiratory syncytial virus were both 20.18% (158 cases), which was the highest among all the detected respiratory virus. The co-infection rate was 15.84% (124/783), among which double infection was the most common, accounting for 85.48% (106/124) of the co-infected cases. And human respiratory syncytial virus, human rhinovirus and influenza virus were the most common pathogen in co-infection cases. Moreover, the viral positive rate was 68.71% in children aged 5 years and 63.27% in people aged 60-95 years. Influenza and human respiratory syncytial virus dominated in winter and spring, while human parainfluenza virus was the main infection in summer. Conclusion: Influenza virus and human respiratory syncytial virus were the main viruses in throat swabs of SARI cases from 2017 to 2019 in Luohe City, Henan Province. There were differences in the age and seasonal epidemiological characteristics of each virus.

Neutron radiation hardness of aluminum gallium nitride UV LEDs at various wavelengths.

Radiation hard diagnostics are critical to the success of nuclear fusion at National Ignition Facility, Z, ITER, and prolonged space explorations. We have first demonstrated the exceptional proton radiation hardness of initial GaN devices and qualified their space flight and deployment for missions such as the Laser Interferometer Space Antenna and International Space Station. We have further conducted neutron radiation hardness experiments at Los Alamos Neutron Science Center by opening a new high fluence beam station. During 2014-2016, we irradiated multiple Aluminum Gallium Nitride (AlGaN) LEDs with a maximum fluence of 2.4 × 1013 neutrons/cm2 in 3 years and generated 54 161 current-voltage (I-V) scan traces. Our data processing program analyzes each and all I-V traces. In addition, we retrieved local temperature records to analyze and remove temperature effects in the outdoor environment. The I-V curve families of AlGaN UV LEDs with emitting wavelengths of 265, 275, and 310 nm were compared. The I-V curves of 265 nm AlGaN UV LEDs have the smallest deviations from the average value, while the I-V curves for 310 nm AlGaN LEDs showed the largest deviations from the average value. We have reached another important recommendation for the optimal use of multiple AlGaN optoelectronic devices or imaging arrays for inertially confined fusion diagnostics: Shorter wavelength devices at 265 nm exhibit more consistent radiation hardness performance than the 310 nm devices. Higher aluminum content LEDs or AlxGa1-xN devices with higher mole fraction x for generating shorter wavelengths have better radiation hardness for fusion diagnostics.

[Surgical treatment of Stanford type A aortic dissection after thoracic endovascular aortic repair].

Objective: To examine the surgical treatment of Stanford type A aortic dissection (type A dissection) after thoracic endovascular aortic repair (TEVAR). Methods: The data of 58 patients with reoccurrence of type A dissection after TEVAR admitted into the Department of Cardiovascular Surgery, Henan Chest Hospital from February 2012 to January 2020 were analyzed retrospectively. There were 40 males and 18 females, aged (57.0±6.7) years (range: 31 to 71 years). The time between recurrence of type A dissection and TEVAR (M(QR)) was 37 days (72.8 months) (range: 1 h to 14 years). Forty-eight cases underwent emergency operation, 9 cases underwent sub-emergency operation, and 1 case died of dissection rupture on the way to the operating room. All 57 patients underwent radical treatment. Fifty-four cases underwent the frozen elephant trunk technique under deep hypothermia circulatory arrest and selective cerebral perfusion, and 3 cases (>65 years old) underwent arch debranch anastomosis+ascending aorta replacement+descending arch covered stent implantation under mild hypothermia. Results: The operation time was (445±32) minutes (range: 382 to 485 minutes), the aortic crossclamp time was (103±19) minutes (range: 89 to 133 minutes), the cardiopulmonary bypass time was (189±27) minutes (range: 162 to 221 minutes), and the intraoperative blood loss was (665±343) ml (range: 450 to 1 750 ml). Postoperative ICU stay time was 5 (6) days (range: 2 to 27 days), and postoperative hospital stay was 14.0 (4.5) days (range: 2 to 36 days). Three cases died, including 2 cases with severe brain complications and 1 case with systemic multiple organ failure caused by severe liver insufficiency and gastrointestinal hemorrhage. Postoperative follow-up was 0.5 to 7.0 years, which showed that 1 case had left coronary artery anastomotic stoma fistula 3 months after operation and underwent reoperation, 2 cases underwent thoracoabdominal aortic replacement again, and the rest of patients had no anastomotic stoma fistula and incomplete stent distortion and expansion on CT angiography. Four cases died during follow-up, and 1 case died of sudden cerebral infarction 2 years after operation. Conclusion: The recurrent type A dissection after TEVAR is mostly related to stent graft, and the patients can undergo operation actively with good prognosis.

[Statistical analysis of incidence and mortality of prostate cancer in China, 2015].

Objective: To estimate the incidence and mortality rates of prostate cancer in China in 2015. Methods: The data from 501 cancer registries in China collected by the National Cancer Center were reviewed and evaluated, and the qualified data were included in the final analysis. According to the national population data in 2015, the nationwide incidence and mortality of the prostate cancer were estimated. Chinese standard population in 2000 and world Segi's population were used to calculate the age-standardized (ASR) incidence and mortality rates (ASR China and world, respectively). Results: After data review, the data reported by 368 registries were included in the final analysis, covering a total population of 309 553 499, accounting for 22.52% of the national population at the end of 2015. There were 72 thousand new prostate cancer cases estimated in China in 2015, with a crude incidence rate of 10.23/100 000. The ASR China and ASR world are 6.59/100 000 and 6.47/100 000, respectively, which is the sixth incidence of male malignant tumor.The estimated number of prostate cancer death was 3.07 thousand in China in 2015, with a crude mortality rate of 4.36/100 000; The ASR China and ASR world mortality rates were 2.61/100 000 and 2.65/100 000, respectively, which is the tenth leading cause of death in male malignant tumor.The ASR China incidence and mortality of prostate cancer in males were higher in urban areas (8.40/100 000 and 3.11/100 000) than those in rural areas (4.16/100 000 and 1.90/100 000). The incidence and mortality rates in the eastern areas (8.54/100 000 and 2.99/100 000) were higher than those in the central (5.28/100 000 and 2.34/100 000) and western areas (5.32/100 000 and 2.37/100 000) of China. Conclusions: The incidence and mortality rates of prostate cancer in China are lower than the global average, but there is an increasing trend. The incidence and mortality of prostate cancer in China have obvious regional differences.

[Clinical value of serum isoform [-2] proprostate-specific antigen and its derivatives in predicting aggressive prostate cancer].

OBJECTIVE: To explore the clinical value of serum isoform [-2] proprostate-specific antigen (p2PSA) and its derivatives %p2PSA and prostate health index (PHI) in predicting aggressive prostate cancer (PCa). METHODS: The pre-operation serum and basic clinical data of 322 patients with PCa (including 143 patients diagnosed with PCa by transrectal ultrasound-guided prostate biopsy and 179 patients undergoing radical prostatectomy) in Peking University First Hospital were collected from August 2015 to May 2018. Serum total prostate-specific antigen (tPSA), free prostate antigen (fPSA) and fPSA/tPSA (f/t) and the p2PSA level of all these patients were measured on automatic immune analyzers DxI800, and then %p2PSA and PHI were calculated. The prostate pathologic result was considered as the gold standard to evaluate the Gleason score of the patients with PCa. Receiver operator curves (ROC) were used to assess the ability of p2PSA, %p2PSA and PHI to predict aggressive PCa (pathologic Gleason score≥7) compared with those traditional markers tPSA, fPSA and f/t. RESULTS: Among these patients, the p2PSA, %p2PSA and PHI median levels were significantly higher in patients with pathologic Gleason score≥7 than those with Gleason score<7 (p2PSA: 30.22 ng/L vs. 18.33 ng/L; %p2PSA: 2.50 vs. 1.27; PHI: 91.81 vs. 35.44; all P<0.01). The area under curve (AUC) of %p2PSA and PHI (0.770, 0.760) in predicting Gleason score≥7 were higher than those of the traditional indicators tPSA, fPSA and f/t (AUC were 0.648, 0.536 and 0.693, respectively). Among those patients diagnosed with PCa by transrectal ultrasound-guided prostate biopsy, the AUC of %p2PSA and PHI (AUC were 0.808 and 0.801, respectively) in predicting Gleason score≥7 were higher than those of the traditional indicators tPSA, fPSA and f/t (AUC were 0.729, 0.655 and 0.665 respectively). Among those patients undergoing radical prostatectomy, PHI and %p2PSA also had the trend of higher predictive value than those of the traditional indicators. The AUC of %p2PSA and PHI were 0.798 and 0.744, respectively while the AUC of tPSA, fPSA and f/t were 0.625, 0.507 and 0.697, respectively. CONCLUSION: Compared with traditional markers tPSA, fPSA and f/t, %p2PSA and PHI had much higher predictive value for aggressive PCa, which may help clinicians to evaluate the therapeutic regime and make more appropriate management plan for the patients.

[Analysis of incidence and mortality of esophageal cancer in China, 2015].

Objective: To estimate the incidence and mortality rates of esophageal cancer in China in 2015. Methods: Based on the data quality review and assessment, the esophageal cancer data from 368 cancer registries in 31 provinces (autonomous regions and municipalities) in China were included in this study. According to the national population data in 2015, the nationwide incidence and mortality of the esophageal cancer were estimated. Chinese standard population in 2000 and world Segi's population were used to calculate the age-standardized (ASR) incidence and mortality rates (ASR China and world, respectively). Results: The 368 cancer registries covered a total of 309 553 499 populations in China, accounting for 22.52% of the national population. There were 245 651 new esophageal cancer cases estimated in China in 2015, with a crude incidence rate of 17.87/100 000. The ASR China and ASR world were 11.14/100 000 and 11.28/100 000, respectively. The estimated number of esophageal cancer death was 188 044 in China in 2015, with a crude mortality rate of 13.68/100 000; The ASR China and ASR world mortality rates were 8.33/100 000 and 8.36/100 000, respectively. The ASR China incidence and mortality of esophageal cancer in males were higher in males (16.50/100 000 and 12.66/100 000) than those in females (5.92/100 000 and 4.17/100 000), and they were higher in rural areas (15.95/1100 000 and 11.67/100 000) than those in urban areas (7.59/100 000 and 5.87/100 000). Conclusion: The incidence and mortality of esophageal cancer in China are higher than the global average. The disparity of the incidence and mortality rates of esophageal cancer significantly differed in genders and areas.

[Liver cancer epidemiology in China, 2015].

Objective: Using updated population-based cancer registration (PBCR) data, we estimated nation-wide liver cancer statistics overall, by sex and by areas in China. Methods: Qualified PBCR data of liver cancer in 2015 which met the data quality criteria were stratified by geographical locations, sex, and age groups. Age-specific incidence and mortality rates by sex and area were calculated. The burden of liver cancer was evaluated by multiplying these rates by the year of 2015 population. Chinese standard population in 2000 and World Segi's population were used for the calculation of age-standardized rates (ASR) of incidence and mortality. Results: Qualified 368 cancer registries covered a total of 309 553 499 populations in China, accounting for 22.52% of the national population. It is estimated that there were 370 000 new cases (274 000 males and 96 000 females) of liver cancer in China. The age-standardized incidence rates by Chinese standard population (ASR China) and World Segi's population (ASR World) were 17.64 per 100 000 and 17.35 per 100 000, respectively. Rural areas showed higher incidence (ASR China: 20.07 per 100 000, ASR World: 19.67 per 100 000) than urban areas (ASR China: 15.90 per 100 000, ASR world: 15.67 per 100 000). Subgroup analysis showed that western areas of China had highest incidence rate of liver cancer, with the ASR China of 20.65 per 100 000 and 20.22 per 100 000 for ASR world, respectively. For new cases of liver cancer deaths, there were 326 000 new deaths (242 000 males and 84 000 females) in China, with age-standardized mortality rate by Chinese standard population and World Segi's population of 15.33 per 100 000 and 15.09 per 100 000, respectively. Rural areas showed higher mortality (ASR China: 17.17 per 100 000, ASR world: 16.86 per 100 000) than urban areas (ASR China: 14.00 per 100 000, ASR World: 13.81 per 100 000). Conclusions: There is still a heavy burden of liver cancer in China. Rural residents have higher incidence and mortality of liver cancer compared with urban counterparts. It is likely that many factors such as hepatitis virus infection, and aflatoxin exposure play a dominating role. Prevention and control strategies should be enhanced in the future.

Mechanistic analysis and experimental verification of bicarbonate-controlled enteric coat dissolution: Potential in vivo implications.

Enteric coatings have shown in vivo dissolution rates that are poorly predicted by traditional in vitro tests, with the in vivo dissolution being considerably slower than in vitro. To provide a more mechanistic understanding of this, the dependence of the release properties of various enteric-coated (EC) products on bulk pH and bicarbonate molarity was investigated. It was found that, at presumably in vivo-relevant values, the bicarbonate molarity is a more significant determinant of the dissolution profile than the bulk pH. The findings also indicate that this steep relationship between the dissolution of enteric coatings and bicarbonate molarity limits those coatings' performance in vivo. This is attributed to the relatively low bicarbonate molarities in human intestinal fluids. Further, the hydration and dehydrations kinetics of carbonic acid and carbon dioxide are not sufficiently rapid to reach equilibrium in the diffusion layer surrounding a dissolving ionizable solid. This results in the effective pKa of bicarbonate in the diffusion layer being lower than that determined potentiometrically at equilibrium in the bulk surrounding fluid. These results demonstrate the importance of thoroughly investigating the intestinal bicarbonate concentrations and using bicarbonate buffers or properly designed surrogates (if possible) when evaluating enteric drug products during product development and quality control.

[Report of cancer epidemiology in China, 2015].

Objective: Data from local cancer registries were pooled to estimate cancer incidence and mortality in China, 2015. Methods: Data submitted from 501 cancer registries were checked & evaluated according to the criteria of data quality control, and 368 registries' data were qualified for the final analysis. Data were stratified by area (urban/rural), sex, age group and cancer sites, and combined with national population data to estimate cancer incidence and mortality in China, 2015. Chinese population census in 2000 and Segi's population were used for age-standardized. Results: Total population covered by 368 cancer registries were 309 553 499 (148 804 626 in urban and 160 748 873 in rural areas). The percentage of morphologically verified cases (MV) and the percentage of death certificate-only cases (DCO) accounted for 69.34% and 2.09%, respectively, and the mortality to incidence ratio was 0.61. About 3 929 000 new cancer cases were reported in 2015 and the crude incidence rate was 285.83 per 100 000 population (males and females were 305.47 and 265.21 per 100 000 population). Age-standardized incidence rates by Chinese standard population (ASIRC) and by world standard population (ASIRW) were 190.64 and 186.39 per 100 000 population, respectively, with the cumulative incidence rate (0-74 age years old) of 21.44%. The cancer incidence and ASIRC were 304.96/100 000 and 196.09/100 000 in urban areas and 261.40/100 000 and 182.70/100 000 in rural areas, respectively. About 2 338 000 cancer deaths were reported in 2015 and the cancer mortality was 170.05/100 000 (210.10/100 000 in males and 128.00/100 000 in females). Age-standardized mortality rates by Chinese standard population (ASMRC) and by world standard population (ASMRW) were 106.72/100 000 and 105.84/100 000, respectively, with the cumulative incidence rate (0-74 age years old) of 11.94%. The cancer mortality and ASMRC were 172.61/100 000 and 103.65/100 000 in urban areas and 166.79/100 000 and 110.76/100 000 in rural areas, respectively. The most common cancer cases including lung, gastric, colorectal, liver and female breast, the top 10 cancer incidence accounted for about 76.70% of all cancer new cases. The most common cancer deaths including lung, liver, gastric, esophageal and colorectal, the top 10 cancer deaths accounted for about 83.00% of all cancer deaths. Conclusions: The burden of cancer showed a continuous upward trend in China. Cancer prevention and control faces the problem of the disparity in different areas and different cancer burden between men and women. The cancer pattern in China presents the coexistence of the cancer patterns in developed and developing countries. The situation of cancer prevention and control is still serious in China.

[Epidemiological characteristics of gastric cancer in China, 2015].

Objective: To estimate the morbidity and mortality of gastric cancer and its distribution in China in 2015 and provide information for future cancer prevention and control study and policy decision. Methods: In 2018, a total of 501 cancer registry systems reported data to the office of National Central Cancer Registry, and the data from 368 cancer registry systems met the criteria. The overall, gender specific, age specific and area specific morbidity and mortality rates of gastric cancer in China were estimated based on national population data in 2015. Chinese standard population in 2000 and World Segi's population data were used to calculate the age-standardized rates (ASR) of morbidity and mortality, including ASR of China and the world. Results: In 2015, the qualified 368 cancer registry system covered a total of 309 553 499 population in China, including 156 934 140 males and 152 619 359 females. We estimated that there were 403 000 new gastric cancer cases, with the crude morbidity rate of 29.31 per 100 000, ASR China of 18.68 per 100 000, ASR world of 18.57 per 100 000, and a cumulative rate of 2.29% for 0-74 years. There were 290 900 new gastric cancer deaths, with the crude mortality rate of 21.16 per 100 000, ASR China of 13.08 per 100 000, ASR world of 12.92 per 100 000, and a cumulative rate of 1.5% for 0-74 years. Gastric cancer ranked second as the most common cancers and third as the most common cancer causes of death in China. In general, both the morbidity rate (ASR China, male: 26.54 per 100 000; female: 11.09 per 100 000; rural area: 21.82 per 100 000; urban area: 16.37 per 100 000) and mortality rate (ASR China, male: 18.75 per 100 000; female: 7.72 per 100 000; rural area: 15.84 per 100 000; urban area: 11.05 per 100 000) were higher in males than those in females, and higher in rural area than those in urban area. The morbidity and mortality rates of gastric cancer increased from the age of 40 years and peaked in age group of 80-years. The case number of gastric cancer significantly increased from the age group of 50-years, peaked at 60-70 years, and the majority of cases occured in age group of 55-80 years. There was an overall consistent trend of the age-specific morbidity and mortality rates across different subgroups by sex and geographic areas, with the rates were higher in males than those in females, and higher in rural area than that in urban area. Conclusions: The incidence of gastric cancer varied with sex, age and areas (urban area and rural area). The present analysis provides the latest data on the prevalence of gastric cancer in China, which can help optimize the current screening guidelines and the prevention and control strategies of gastric cancer to reduce the disease burden caused by gastric cancer in China.

Gallium nitride (GaN) devices as a platform technology for radiation hard inertial confinement fusion diagnostics.

Inertial Confinement Fusion (ICF) is undergoing more detailed research to increase neutron yield and will require high resolution imaging near the target. Neutron damage to diagnostics remains a serious issue in understanding and achieving ICF. We have demonstrated that Gallium Nitride (GaN) optoelectronic devices have exceptional neutron radiation hardness, by systematic testing of neutron radiation effects in GaN devices and materials with elevated neutron fluence levels and a broad neutron energy spectrum. During the 2013-2017 run cycles at Los Alamos Neutron Science Center (LANSCE), we irradiated various GaN materials and devices with fast and thermal plus resonance neutrons at several beamlines. This paper presents a radiation hardness study for Aluminum Gallium Nitride and Gallium Nitride (AlGaN/GaN) deep UV LEDs irradiated at the LANSCE 4FP60R beamline. The fluence level was up to 2.4 × 1013 neutrons/cm2 for neutrons with energies greater than 0.1 MeV. The device performance was monitored in real time. After three years of irradiation studies, we found that the GaN devices maintained operation in the forward active region. The current and voltage relation (I-V curves) varied insignificantly in the linear region. Our results demonstrate the radiation hardness needed for laser fusion diagnostics at least up to 1017 neutron yield per shot, if the diagnostics is placed 1 m away from the target, where the neutron fluence per shot is approximately 8 × 1011 n/cm2. The GaN devices can operate for multiple shots.

[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 and mortality of laryngeal cancer in China, 2014].

Objective: To estimate the incidence and mortality of laryngeal 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 the control and prevention of laryngeal cancer. Methods: The incident and death data of laryngeal cancer in 2014 from 339 cancer registries met the quality criteria of NCCR, and then adopted for analysis. The incident and death number, crude rate, age standardized rate, truncated rate and proportion which stratified by areas (urban/rural) and age were calculated. The nationwide incidence and mortality of laryngeal cancer in 2014 were estimated by combining with those data on national population in 2014. Chinese population census in 2000 and Segi's population were used for age-standardized incidence/mortality rates. Results: It was estimates that 23.4 thousand new cases of laryngeal cancer occurred in China in 2014. There were 20.8 thousand males and 2.6 thousand females. And 14.5 thousand occurred in urban areas, while 8.9 thousand in rural areas. The age standardized rates of incidence by world standard population (ASRs world) in male, female and both genders were 2.05/100, 000, 0.24/100, 000 and 1.14/100, 000, respectively, whereas those were 1.22/100, 000 and 1.03/100, 000 for urban and rural areas. The incidence was much higher in males than females, and slightly higher in urban areas than those in rural areas. Moreover, it was estimates that 13.2 thousand death cases of laryngeal cancer occurred in China in 2014. There were 11.5 thousand males and 1.7 thousand females. And 7.8 thousand occurred in urban areas, while 5.4 thousand in rural areas. The age standardized rates of mortality by ASRs world in male, female and both genders were 1.08/100, 000, 0.14/100, 000 and 0.60/100, 000, respectively, whereas those were 0.60/100, 000 and 0.59/100, 000 for urban and rural areas. The mortality was much higher in males than females, and slightly higher in urban areas than those in rural areas. In males, the age specific incidence and mortality of laryngeal cancer increased greatly from 40-44 and 45-44 years old, respectively, and peaked at age group of 75-79 and >85 years old. In females, the age specific incidence and mortality increased slowly from 50-54 and 60-64 years old, respectively, and peaked at age group of 80-84 and >85 years old. The trends remained similar in urban and rural areas, except for the different peak ages. Conclusions: The incidence and mortality of laryngeal cancer in China are at middle-low levels worldwide, and there are obvious differences between urban and rural areas with distinct gender disparity. Comprehensive prevention and control strategies should be carried out according to local status and age groups.

[Incidence and mortality of nasopharyngeal carcinoma in China, 2014].

Objective: To estimate the incidence and mortality of nasopharyngeal carcinoma in China based on cancer registration data in 2014, collected by the National Central Cancer Registry (NCCR). Methods: 449 cancer registries submitted nasopharyngeal carcinoma incidence and deaths occurred in 2014 to NCCR. After evaluating the data quality, 339 registries' data were accepted for analysis and stratified by area (urban/rural) and age group. Combined with data on national population in 2014, the nationwide incidence and mortality of nasopharyngeal carcinoma were estimated. Chinese population census in 2000 and Segi's population were used for age-standardized incidence and mortality rates. Results: The estimates of new nasopharyngeal carcinoma incident cases and deaths were 44.6 thousands and 24.2 thousands, respectively. The crude incidence rate was 3.26/100 000 (Male 4.51/100 000, Female 1.94/100 000). Age-standardized incidence rates by Chinese standard population (ASIRC, 2000) and by world standard population (ASIRW) were 2.48/100 000 and 2.33/100 000, respectively. Male to female ratio was 2.32∶1. The ASIRC in urban and rural areas were all 2.48/100 000. The crude mortality rate of nasopharyngeal carcinoma was 1.77/100 000 (Male 2.55/100 000, Female 0.95/100 000). Age-standardized mortality rates by Chinese standard population (ASMRC, 2000) and by world standard population(ASMRW) were 1.23/100 000 and 1.20/100 000, respectively. The ASMRC in urban and rural areas were all 1.23/100 000. The cumulative incidence and mortality rates(0-74 years old)were 0.25% and 0.14%, respectively. Conclusions: Incidence and mortality of nasopharyngeal carcinoma in China in 2014 were at high levels in the world. Corresponding prevention and control measures should be established according to the epidemic characteristics and risk factors of nasopharyngeal carcinoma.

[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.

[Trend analysis on incidence and age at diagnosis for lung cancer in cancer registration areas of China, 2000-2014].

Objective: To analyze the incidence trend and mean age at diagnosis for lung cancer in cancer registration areas of China from 2000 to 2014. Methods: The data of lung cancer incidence used in this study were from 22 registries submitted to National Central Cancer Registry with continuous data during 2000 and 2014, covering about 621 593 469 person-years. All cancer cases were coded as C33-C34 according to the International Classification of Diseases-10(th) Revision (ICD-10) were extracted for this analysis with about 343 663 patients. The incidence of different sex and regional population, the standardized incidence rate by Chinese population, the average annual change percentage (AAPC), the mean age and adjusted mean age of cancer incidence were calculated. The incidence of each year was described by regional and age groups, and the linear regression model was employed to analyze the relationship between mean age at onset and year. Results: The crude incidence rate and age-standardized incidence rate (ASR) of lung cancer for men in cancer registry areas in 2000 were 56.98 per 100 000 and 48.43 per 100 000, respectively. The rates were 89.51 per 100 000 and 46.85 per 100 000 in 2014, respectively. For women in the same areas, the rates were 27.77 per 100 000 and 20.17 per 100 000 in 2000; while 51.31 per 100 000 and 25.44 per 100 000 in 2014, respectively. The crude incidence rate increased along with the age. In 2000-2014, the trend of crude rate and ASR of lung cancer were significantly increased (CR: AAPC=3.8%, 95%CI: 3.5%-4.1%; ASR: AAPC=0.4%, 95%CI: 0.2%-0.7%). The rise of crude rate in females was higher than that in males (Male: AAPC=3.5%, 95%CI: 3.2%-3.7%; Female: AAPC=4.5%, 95%CI: 4.1%-5.0%). However, the rise of the ASR declined for both male and female (Male: AAPC=-0.2%, 95%CI:-0.4%-0.0%; Female: AAPC=1.4%, 95%CI: 1.0%-1.9%). The average age at diagnosis of lung cancer in rural areas was 64.35 years old in 2000, and increased to 65.97 years old in 2014 (ß=0.11, P<0.001), while adjusted mean age at onset remained stable in all areas and urban areas (P>0.05). And the average age at onset increased significantly over time in male (ß=-0.02, P=0.014), which was not seen in female (ß=-0.01, P=0.522). Conclusion: The crude incidence rate of lung cancer in cancer registry areas in China increased slowly during 2000-2014; and the standardized average age of male at diagnosis decreased slightly, while the age in rural areas increased during 2000-2014. Lung cancer will still be the focus of cancer prevention and control in the near future.

[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.