The endocrine system with the normal aging is characterized by a progressive loss of reserve capacity,resulting in a decreased ability to adapt to environmental demands.This loss of homeostatic regulation reflects important alterations in hormonal synthesis,metabolism,and action.However,these changes may have no significant clinical manifestations,especially under non-stress conditions.This review discusses the endocrine system in the elderly in general.

Objective To investigate the enhanced CT features of papillary renal cell carcinoma (PRCC)and its subtypes (PRCC-Ⅰ, PRCC-Ⅱ)and chromophobe renal cell carcinoma(CRCC).Methods The CT features of 30 tumors with pathologically proved PRCC and CRCC were analyzed retrospectively,including location,size,enhanced types,calcification and necrosis etc.The differences in the CT features among PRCC and its subtypes and CRCC were evaluated.Results 1 2 cases of PRCC with single lesion (7 in the right kidney and 5 in the left)were shown;1 case was multifocal PRCC with 1 lesion in the right kidney and 2 lesions in the left.1 5 cases of CRCC were single lesion(9 in the right kidney and 6 in the left).The medium tumor maximum size of CRCC was larger than that of PRCC,and the PRCC-Ⅰ tumors tended to be smaller than PRCC-Ⅱ ones.53% of the PRCC had heterogeneous enhancement,and all calcification and necrosis were found in PRCC-Ⅱ lesions.Of all the CRCC,27% had uniform enhancement,20% had calcification and 40% had necrosis or central scar.There was no significant difference between PRCC and its subtypes and CRCC in location, maximum size,heterogeneity,calcification,necrosis and central scar.The degree of enhancement of CRCC(89.53 HU)was significantly greater than that of PRCC(66.60 HU),PRCC-Ⅰ(71.75 HU)and PRCC-Ⅱ(64.73 HU)in the cortical phase(P<0.05).The enhancement peak in the nephrographic phase was CRCC,PRCC-Ⅰ,PRCC and PRCC-Ⅱ from high to low in turn,which were all higher than that in cortical phase.In the excretory phase,the enhancement of all lesions was declined.Conclusion Contrast-enhanced CT is of certain value in the differential diagnosis among PRCC and its subtypes and CRCC.The enhancement degree of CRCC in the cortical phase is significantly greater than that of PRCC and its subtypes.The enhancement peak of PRCC and its subtypes and CRCC appears in the nephrographic phase.

Objective To investigate and evaluate the nutrition status in serum 25-hydroxy vitamin D[25(OH)D]levels of 0～12 years old children in Xi'an.Methods A total of 2 670 patients aged 0～12 years old who underwent routine physical examinations in Children's Health Department of the Second Hospital of Air Force Medical University were selected from March 2020 to July 2023,and the 25(OH)D data of these patients were conducted in retrospective analysis.The nutritional status of vitamin D in these children of different genders,ages and seasons were also analyzed.Results ①This study included 2 670 children aged 0～12 years old in Xi'an,with the average level of serum 25(OH)D was 40.80±18.00 ng/ml.Among them,38 cases(1.42%)had serum 25(OH)D deficiency,333 cases(12.47%)had serum 25(OH)D insufficience,and 2 299 cases(86.11%)had sufficient serum 25(OH)D.②There was a statistically significant difference in serum 25(OH)D levels among different age groups(H=1 524.23,P=0.000).The group aged 1～<4 has the highest value of 52.51±13.57 ng/ml,while the group aged 8～12 has the lowest value of 21.65±6.75 ng/ml.③The levels of serum 25(OH)D in summer(39.44±17.46 ng/ml)were lower than those in spring(41.96±17.76 ng/ml)and autumn(42.71±18.15 ng/ml),with statistical significant differences(Z=101.57,-134.06,all P<0.01).However,the deficiency and inadequate rate of serum 25(OH)D in winter(18.95%)was higher than those in spring,summer and autumn(13.52%,12.75%,12.36%),with statistical significant differences(χ2=14.32,P=0.026).④There was no statistically significant difference in serum 25(OH)D levels between genders(H=0.933,P=0.351).However,the deficiency and inadequate rate of serum 25(OH)D in boys(12.51%)was lower than that in girls(15.46%),and the difference was statistically significant(χ2=9.257,P=0.010).Conclusion The nutritional status of serum 25(OH)D in children aged 0～12 years in Xi'an area is comparatively fine,and it is necessary to strengthen the intake and supplementation of vitamin D in over 3 years old children.

BACKGROUND:Increasing studies have shown that autophagy plays an important role in the treatment of osteoarthritis,and moderate autophagy can preserve the normal physiological function of osteoarticular chondrocytes.Traditional Chinese medicine(TCM)monomers can target and modulate autophagy to treat osteoarthritis,and their characteristics such as single components,clear efficacy,low price,and easy availability have obvious benefits in the treatment of osteoarthritis.OBJECTIVE:To review the effects of TCM monomers on the targeted regulation of autophagy in the treatment of osteoarthritis and the research progress,with a view to laying a foundation for the treatment of osteoarthritis and even other bone metabolic diseases.METHODS:Relevant literature published from January 2012 to October 2022 was retrieved in PubMed,Web of Science,CNKI,and WanFang using the keywords of"traditional Chinese medicine,Chinese herbal monomer,autophagy,osteoarthritis"in English and Chinese.Inclusion and exclusion criteria were developed,and 63 relevant articles were finally included by screening through reading the title,abstract,and full-text content.RESULTS AND CONCLUSION:TCM monomers can treat osteoarthritis by targeting autophagy to inhibit chondrocyte apoptosis,protect cartilage extracellular matrix,reduce inflammation and antagonize oxidative stress injury.Different TCM monomers can regulate autophagy in the same way,and the same TCM monomers can affect autophagy in different ways.The combination of multiple monomers and the multi-target and multi-pathway regulation of autophagy by TCM monomers remain to be explored.The regulation of autophagy by TCM monomers can provide new ideas and strategies for the prevention and treatment of osteoarthritis.Moderate regulation of autophagy by TCM monomers to keep the autophagic flux unimpeded may be the key to treating osteoarthritis.

BACKGROUND:More and more studies have shown that oxidative stress should play an important role in the treatment of osteoporosis.Oxidative stress should cause the accumulation of oxidation activity,which will damage bone-related cells.Finally,it causes the imbalance of bone resorption and bone formation,resulting in a decrease in bone volume and the destruction of the slight structure.Research in recent years has found that some natural products can regulate oxidative stress to treat osteoporosis.The characteristics of extensive sources and small side effects have obvious advantages in the treatment of osteoporosis,and the efficacy is objective. OBJECTIVE:To discuss the mechanism of natural product regulation of oxidation stress in treatment of osteoporosis,conduct a review based on the latest related research progress,provide reference and ideas for more natural products to treat osteoporosis in the future,and provide data support for the clinical application of natural compounds in the treatment of osteoporosis. METHODS:"oxidative stress,free radical,antioxidant,phytotherapy,plant extracts,medicinal plants,herbal medicine,osteoporosis,bone density,bone loss"were used as the keywords in PubMed,Web of Science,Embase,Cochrane,VIP,CBM,WanFang,and CNKI databases to search relevant articles published from January 2010 to February 2023.Inclusion and exclusion criteria were developed,and 64 relevant articles were selected by reading titles,abstracts,and full texts. RESULTS AND CONCLUSION:(1)Some natural products have antioxidant effects and can regulate osteogenic differentiation,osteoblast bone matrix mineralization,osteoclast-mediated bone resorption,proliferation,differentiation,activity,and apoptosis of bone-related cells by improving oxidative stress,thus affecting bone metabolism.(2)These natural products with antioxidant effects play a role in treating osteoporosis by improving bone remodeling balance.(3)The research on the combination of a variety of natural products to improve osteoporosis remains to be explored.(4)The use of natural products to regulate oxidative stress may become a powerful weapon for the clinical treatment of osteoporosis in the future.

Osteoporosis， a common metabolic bone disease， is caused by the imbalance of bone homeostasis. Bone homeostasis depends on the dynamic balance between bone resorption by osteoclasts and bone matrix formation by mesenchymal lineage osteoblasts and involves a series of complex and highly regulated steps. When bone resorption is faster than bone formation， bone homeostasis will be destroyed， which will lead to osteoporosis. Autophagy is a protein and organelle degradation pathway important for the maintenance of cytoplasmic homeostasis. The basal level of autophagy is present in all the three types of bone cells. Autophagy is a process whereby damaged organelles are recycled and bone remodeling continues， and thus it plays an important role in bone maintenance. Therefore， it is possible to regulate bone metabolism by targeting specific autophagy-related molecules. At the same time， as the research on the treatment of osteoporosis by Chinese medicine advances， it is found that the monomers isolated from traditional Chinese medicinals have the potential of regulating autophagy in the treatment of osteoporosis. Thus， this paper discusses the relationship between autophagy and osteoporosis and summarizes six different mechanisms of 22 Chinese medicine monomers in the treatment of osteoporosis through targeting autophagy： increasing osteogenic differentiation of mesenchymal stem cells， promoting osteoblast mineralization， inhibiting osteoclasts differentiation， reducing apoptosis of bone cells， antagonizing oxidative stress injury， and coordinating inflammation and autophagy levels. The review is expected to provide a reference and ideas for future research on the treatment of osteoporosis by Chinese medicine monomers.