ABSTRACT
This study aims to characterize the burden of osteoarthritis in China and globally from 1990 to 2019 and predict the burden for the next decade. The Global Burden of Disease (GBD) database is designed to assess the burden of various diseases and injuries on a global scale. Age-standardized rate data for the incidence, prevalence, and Years Lived with Disability (YLDs) of osteoarthritis in both China and the global context were extracted. Furthermore, the Estimated Annual Percentage Change (EAPC) to illustrate the long-term trends in the burden of osteoarthritis disease was calculated. Autoregressive integrated moving average (ARIMA) models were applied to forecast the trends in age-standardized incidence rate (ASIR), age-standardized prevalence rate (ASPR), and age-standardized YLDs rate (ASYR) for osteoarthritis in China and globally for the next 11 years. Knee osteoarthritis showed a changing trend of ASIR, ASPR, and ASYR from 1990 to 2019 in China, initially decreasing and then increasing. In contrast, global osteoarthritis exhibited a relatively stable overall trend over three decades. Knee osteoarthritis exhibited the highest incidence, prevalence, and YLDs across various age groups and genders. The ARIMA forecast indicated a slight upward trend in osteoarthritis burden in China and globally over the next 11 years. Osteoarthritis poses a significant health issue, emphasizing the need to enhance awareness and management of osteoarthritis among the population and policymakers, particularly focusing on the elderly and female populations.
ABSTRACT
Phytoremediation plays an important role in the treatment of heavy metal pollution in soil. In order to elucidate the mechanism of salicylic acid (SA) on copper absorption, seedlings from Xuzhou (with strong Cu-tolerance) and Weifang Helianthus tuberosus cultivars (with weak Cu-tolerance) were selected for pot culture experiments. 1 mmol/L SA was sprayed upon 300 mg/kg soil copper stress, and the photosynthesis, leaf antioxidant system, several essential mineral nutrients and the changes of root upon copper stress were analyzed to explore the mechanism of copper resistance. The results showed that Pn, Tr, Gs and Ci upon copper stress decreased significantly compared to the control group. Meanwhile, chlorophyll a, chlorophyll b and carotenoid decreased with significant increase in initial fluorescence (F0), maximum photochemical quantum yield of PSâ ¡ (Fv/Fm), electron transfer rate (ETR) and photochemical quenching coefficient (qP) content all decreased. The ascorbic acid (AsA) content was decreased, the glutathione (GSH) value was increased, the superoxide dismutase (SOD), catalase (CAT) and ascorbate peroxidase (APX) activity in the leaves were decreased, and the peroxidase (POD) activity was significantly increased. SA increased the Cu content in the ground and root system, and weakened the nutrient uptake capacity of K, Ca, Mg, and Zn in the root stem and leaves. Spray of exogenous SA can maintain the opening of leaf stomata, improve the adverse effect of copper on photosynthetic pigment and PSâ ¡ reaction center. Mediating the SOD and APX activity started the AsA-GSH cycle process, effectively regulated the antioxidant enzyme system in chrysanthemum taro, significantly reduced the copper content of all parts of the plant, and improved the ion exchange capacity in the body. External SA increased the content of the negative electric group on the root by changing the proportion of components in the root, promoted the absorption of mineral nutrient elements and the accumulation of osmoregulatory substances, strengthened the fixation effect of the root on metal copper, and avoided its massive accumulation in the H. tuberosus body, so as to alleviate the inhibitory effect of copper on plant growth. The study revealed the physiological regulation of SA upon copper stress, and provided a theoretical basis for planting H. tuberosus to repair soil copper pollution.
