The development and application of health decision support system (HDSS) in clinical service and health management is efficient in controlling health expenditure rising from overlapped examinations, and in reducing medical errors rising from insufficient decision-making support tools. Typical HDSS in America includes CPOE, MYCIN, QMR, NEDSS etc., which are mainly used in disease diagnosis and treatment, public health emergency management, hospital management, and health insurance management. The successful experiences accumulated in the development of the US health decision support system are worth referring to, such as, integration of management system, decision-makers and ICT, meeting the urgent needs of clinical service and health management, effective E-health construction, and rational development pathway from clinical decision support system to health management decision support system.
ObjectiveTo compare the current status of clinical studies regarding lung cancer between China and the United States in 2019, and to indicate the weakness, trend and future development direction of clinical studies drug treatment in China.MethodsThe data of lung cancer clinical studies from January 1st to November 30th, 2019 in China and the United States were retrieved and analyzed through Informa pharmaprojects database.ResultsThe United States was superior on the number of projects (128 vs. 156) and research institutions (743 vs. 2 250). Compared with the United State, there were more phase Ⅲ confirmatory researches (19.5% vs. 10.3%), bioequivalent drug researches (3.1% vs. 0%), and researches initiated by academic institutions (39.8% vs. 28.1%) in China. The United States exhibited advantages in phaseⅠ andⅠ/Ⅱstudies (25.8% vs. 60.3%), immunodrugs (49.2% vs. 60.3%), primary tested drug ratio (61.7% vs. 93.6%), targets abundance (32.9% vs. 69.6%), and chimeric antigen receptor-T (CAR-T, 0.7% vs. 7.1%).ConclusionCompared with the United States, China should pay more attention to innovative drug investigations in early phase of clinical studies, especially novel immune agents, vaccines, and CAR-T.
ObjectiveTo analyze the gender-specific distribution patterns of the disease burden of tracheal, bronchial, and lung cancer (hereinafter referred to as lung cancer) attributed to tobacco from 1990 to 2021 globally and in China and the United States (US), and to predict the trend of disease burden changes from 2022 to 2031, aiming to provide multi-dimensional evidence-based support for optimizing tobacco control strategies and precise lung cancer prevention and control systems. MethodsData on the disease burden of lung cancer attributed to tobacco from 1990 to 2021 globally and in China and the US were extracted and integrated from the Global Burden of Disease (GBD) 2021 database. The Joinpoint 4.9.1.0 software was used to analyze the corresponding trends in disease burden. The Bayesian age-period-cohort (BAPC) prediction model was employed to forecast the disease burden of lung cancer from 2022 to 2031. ResultsIn 2021, China had the highest number of deaths and disability-adjusted life years (DALY) due to lung cancer attributed to tobacco, with 544600 patients and 12.5721 million person-years respectively, followed by the US with 105200 patients and 2.3096 million person-years. The top three risk factors for lung cancer globally and in China and the US from 1990 to 2021 were tobacco, air pollution, and occupational risks. The disease burden of lung cancer patients attributed to tobacco has been decreasing year by year in the global and US populations [the average annual percentage change (AAPC) values of age-standardized mortality rate and DALY rate were: globally: −0.96%, −1.28%; US: −2.33%, −2.72%], while it has been increasing in China (the AAPC values of age-standardized mortality rate and DALY rate were 0.28% and −0.02%, respectively). From a gender perspective, the disease burden of male patients with lung cancer attributed to tobacco was much higher than that of female patients from 1990 to 2021. Compared to the global average, the disease burden of lung cancer attributed to tobacco in China and the US from 1990 to 2021 was still heavy, with China's burden being higher than that of the US. The elderly population aged ≥65 years in both the global context and in China and the US was the primary group affected by the disease burden of lung cancer attributed to tobacco. The BAPC prediction model indicated that from 2022 to 2031, the age-standardized rates of lung cancer attributed to tobacco in the global context and in China and the US would show a declining trend. ConclusionFrom 1990 to 2021, the disease burden of lung cancer attributed to tobacco in China and the US was still heavy compared to the global average, with China's burden being significantly higher than that of the US. The focus on prevention and control for both countries remains among the middle-aged and elderly population (especially males), which is a key challenge for tobacco-related lung cancer prevention and treatment work in the next 10 years.
ObjectiveTo analyze and compare the incidence, mortality, temporal trends, and cancer spectrum differences between China and the United States (US), providing theoretical support for cancer prevention and control in China. MethodsAge standardized incidence rate (ASIR), age standardized mortality rate (ASMR), and cancer site composition were extracted from GLOBOCAN, Cancer Statistics 2025, the China Cancer Registry Annual Report, and other epidemiological sources. Spatial (urban-rural, sex specific) and temporal distributions were described, and average annual growth rate (AAGR) were calculated. ResultsFrom 2005 onward, China exhibited a modest rise in ASIR, whereas the US showed a decline (AAGR: 0.58 vs –0.42); nevertheless, China’s overall incidence remained lower (2022 ASIR = 201.61/100 000) than that of the US (303.60/100 000). Both countries experienced decreasing ASMR (AAGR: –1.03 vs –1.72). In both nations, male ASIR and ASMR were higher than female. Since 2005, the top three US cancers had remained prostate (men) or breast (women), lung and colorectal cancer. In China, incidences of lung, colorectal, female breast and thyroid cancers had continued to rise, while stomach and liver cancer incidences had declined yet still rank high among men. Urban ASIR in China exceeded rural rates, whereas rural ASMR was higher than urban counterparts. ConclusionsAccelerating population ageing and lifestyle transitions have driven an upward incidence trend in China, accompanied by a shift towards a mixed pattern of traditional and emerging cancer risks. Drawing on US experience, China should intensify tobacco control measures, expand organized screening and early detection programs, implement comprehensive interventions for priority cancers, strengthen primary level capacity and improve treatment access in rural areas, thereby establishing a more effective national cancer prevention and control system.