Objective To clarify the association between non-dipping circadian blood pressure (BP) rhythm and left ventrieular hypertrophy (LVH) in chronic kidney disease (CKD) patients. Methods A total of 257 CKD patients of stage 1 to 5 were enrolled in the study. The parameters of BP and circadian rhythm were measured by ambulatory BP monitoring (ABPM) and the cardiac structure was examined by echocardiography. The association between circadian BP rhythm and echocardiographic parameters was studied. Results The prevalence of abnormal circadian BP rhythm (non-dipping rhythm) was quite high (75.4%) in CKD patients and increased with the deterioration of renal function. Even if in the normal BP group, the prevalence of non-dipping rhythm was 71.3%. The change of cardiac structure such as LVH in non-dipping patients was more obvious than the dipping patients. The left ventrieular mass index (LVMI) was positively correlated with BP, non-dipping rhythm. Multiple regression analysis showed that 24 h-SBP (β=0.417, P<0.01), triglyceride (TG) (β=-0.132, P=O.007), Hb (β=-0.394, P=0.016) and gender(β=0.158, P=0.039) were independent risk factors of LVMI. Conclusions The prevalence of non-dipping rhythm is quite high in CKD patients and increases with the deterioration of renal function. The change of cardiac structure such as LVH is obvious in CKD patients, especially in non-dipping group. The non-dipping rhythm is related with LVMI.

ObjectiveTo establish a managing mode for illegal and irregular acts of occupational medical examination (OME) institutions to the requirements of the new situation. Methods The OME institutions from the “Guangdong Province Key Occupational Disease Monitoring and Management Platform” were selected as the study subjects using the judgment sampling method. The clues of suspected illegal and irregular acts of OME institutions were found and submitted to the local health commission for investigation and managed according to the case information monitoring and on-site quality assessment. The OME institutions found to have illegal and irregular acts were filed and investigated according to the national law after investigation and verification. A “follow-up inspection” was conducted on five OME institutions for closed loop management. Results A total of 12 OME institutions were found to have suspected illegal and irregular acts, including seven institutions that did not meet the filing requirements for effective personnel, five institutions that conducted projects beyond the scope without filing to the provincial health authorities within 15 work days from the start of the project, and two institutions that failed to fulfill the obligation of informing and reporting to the health authorities, employers, and workers as required. After submitting relevant clues and evidence to the local health commission for investigation and management, seven institutions were not given penalty, and five institutions were given administrative penalties including two institutions were fined and warned, and three institutions were warned. No illegal or irregular acts were found in the five institutions inspected during the “follow-up inspection”. Conclusion It is beneficial to explore the managing mode of “clue discovery, clue submission, investigation and disposal, follow-up inspection” for OME institutions suspected of illegal and irregular acts, which helps urge OME institutions to work in accordance with laws and regulations and effectively protect the legitimate rights and interests of workers' occupational health.

BACKGROUND:Increasing autologous stem cellmobilization is conceived to achieve effectively repair of cardiac ischemic injury. Therefore, it is important to seek a specific and effective mobilization agent. OBJECTIVE:To observe the effects of hypoxia-inducible factor-1α(HIF-1α) on bone marrow mesenchymal stem cellmobilization in myocardial infarction. METHODS:Left anterior descending artery was ligated to establish a rat model of acute myocardial infarction in 90 outbreeding Sprague-Dawley rats, and then the models were randomly divided into three groups. In HIF-1α-antisense oligonucleotide (ASODN) group, HIF-1α-ASODN was infused into the tail vein to restrain the expression of HIF-1αin infarcted ischemic tissue. In HIF-1α-missense oligonucleotide (MSODN) group or control group, an equal volume of HIF-1α-MSODN or saline was injected. RESULTS AND CONCLUSION:After 30 hours and 7 days of modeling, the number of bone marrow mesenchymal stem cells and expression of vascular endothelial growth factor in the peripheral blood of the control group were similar to the HIF-1α-MSODN group, but significantly higher than the HIF-1α-ASODN group. After 7 days of modeling, the expressions of HIF-1αprotein, vascular endothelial growth factor protein and mRNA in the ischemic myocardial tissues of the control group were similar to the HIF-1α-MSODN group, but significantly higher than the HIF-1α-ASODN group. After 7, 14 and 28 days of modeling, the capil ary density in the ischemic myocardial tissues of the control group was similar to the HIF-1α-MSODN group, but significantly higher than the HIF-1α-ASODN group. These findings indicate that after acute myocardial infarction, high expression of HIF-1αexhibits a causal relationship with mobilization of bone marrow mesenchymal stem cells, initiating a series of self-healing process of myocardial tissues.

Grape (Vitis vinifera L.) in production is frequently exposed to inadequate light, which significantly affects its agronomic traits via inhibiting their physiological, metabolic and developmental processes. To explore the mechanism how the grape plants respond to the weak light stress, we used 'Yinhong' grape and examined their physiology-biochemistry characteristics and transcriptional profile under different levels of weak light stress. The results showed that grape seedlings upon low intensity shading treatments were not significantly affected. As the shading stress intensity was strengthened, the epidermis cells, palisade tissue, and spongy tissue in the leaves were thinner, the intercellular space between the palisade tissue and spongy tissue was larger compared with that of the control, and the activities of superoxide dismutase, catalase and peroxidase were decreased gradually. Additionally, the soluble protein content increased and the free proline content decreased gradually. Compared with the control, significant changes in plant photosynthetic characteristics and physiology-biochemistry characteristics were observed under high intensity of shading (80%). RNA-seq data showed that the differentially expressed genes between CK and T2, CK and T4, T2 and T4 were 13 913, 13 293 and 14 943, respectively. Most of the enrichment pathways were closely related with the plant's response to stress. Several signaling pathways in response to stress-resistance, e.g. JA/MYC2 pathway and MAPK signal pathway, were activated under weak light stress. The expression level of a variety of genes related to antioxidation (such as polyphenol oxidase and thioredoxin), photosynthesis (such as phytochrome) was altered under weak light stress, indicating that 'Yinhong' grape may activate the antioxidation related pathways to cope with reactive oxygen species (ROS). In addition, it may activate the expression of photosynthetic pigment and light reaction structural protein to maintain the photosynthesis activity. This research may help better understand the relevant physiological response mechanism and facilitate cultivation of grape seedlings under weak light.
Vitis/metabolism* ; Gene Expression Regulation, Plant ; Photosynthesis/genetics* ; Plant Leaves ; Light ; Seedlings/metabolism*

Eye organoid refers to a structure that possesses resembling cell types and functions to intraocular tissues, which is induced by stem cells in vitro. Transplanting it into the body for eye repair and regeneration is one of the key research directions in regenerative medicine, which also provides a novel direction and strategy for the treatment of major blinding diseases. As a carrier of biological tissue or cell growth, tissue engineering scaffold could support in vivo transplantation of eye organoids and promote their maturation. Organic combination of eye organoids and tissue engineering is a critical approach to realize in vivo integration of eye organoids and reconstruct corresponding structures and functions. In this review, the latest research status of eye organoids and in vivo transplantation were summarized, and relevant studies of tissue engineering scaffold-assisted eye organoid transplantation were highlighted, aiming to provide ideas and reference for subsequent inter-disciplinary research of eye organoids and tissue engineering.