Traditional Chinese medicine upholds the unity of nature and humanity as its fundamental principle,asserting that man is in harmony with heaven and earth and corresponds to the sun and moon.Human life processes align with the circadian rhythms of nature,exhibiting periodic temporal changes-concepts that Western medicine defines as biological rhythms.The"opening-closing-pivot"of the three yin and three yang meridians represents the primary mode of interaction between nature and humanity.This mechanism regulates the transformation of yin and yang to qi within the body,ensuring synchronization with the circadian rhythm.Building upon this foundation,the concept of"the harmony of rhythms and states"was proposed to explain human growth and aging."Rhythms"encompass not only circadian cycles but also the movement of qi and blood,as well as the contraction rhythm of muscle fascia,among other physiological processes."States"refer to the dynamic evolution and transformation of qi during the"opening-closing-pivot"stages in both time and space."Harmony"pertains not only to the individual physiological balance of"rhythms"or"states"but also to their coherent interaction.The fundamental cause of myopia is"the disharmony of rhythms and states",considering that rhythm disorders,qi and blood disorders,and fascia imbalances contribute to this disease.Based on this understanding,myopia prevention and treatment should center on"regulating rhythms and states",with adjusting the pivot to brighten the eyes as the core therapeutic principle throughout the entire cycle of myopia.Treatment should be tailored to different disease stages and supplemented with methods such as time-based regulation,qi and blood harmonization,tendon relaxation and collateral dredging,and essence and blood nourishment to prevent and manage myopia effectively.

Retinopathy caused by myopia is the first cause of irreversible blinding eye disease in China.The TCM methods to prevent and control myopia mainly include Chinese materia medica and TCM appropriate techniques,which have the advantages of good efficacy,simple operation,and few adverse reactions.This paper believed that internal and external pathogenic factors act on the brain and eyes,breaking their homeostasis,leading to rhythmic disorders,and imbalance of essence,qi and blood is the main pathogenesis of myopia.Based on the idea of"nature and human in the same rhythm"and"the same treatment for common diseases",targeting the above pathogenesis,the method of"brain-eye synchronization"was proposed to restore the homeostasis of the brain and eyes to prevent and control myopia in children and adolescents,and the treatment rules were to regulate the rhythms of the time,harmonize the qi and blood,nourish the blood to soften the tendons,and replenish the essence and blood,so as to achieve the effect of brain-eye synchronization and the treatment of the spirit and the body together.This article summarized the theoretical basis of"brain-eye synchronization"and its clinical application in traditional Chinese and Western medicine,with a view to providing new ideas for the prevention and control of myopia in children and adolescents.

With the rapid global population aging, multimorbidity is becoming a more serious public health problem, to which medical researchers have paid close attention. A standardized definition of multimorbidity is essential for relevant research. However, there is a lack of consensus on the definition of multimorbidity, which makes it difficult to compare results among studies and replicate important findings. Based on the conceptual comparison, this paper summarizes the key dimensions of the definition of multimorbidity, including the number and types of conditions, the granularity of classification, methods for obtaining outcomes, and settings and objectives of research. It also discusses the inherent relationships among the dimensions and their impact on research results, and introduces the characteristics of the commonly used condition lists in current multimorbidity definition research. By suggesting areas for improvement in the multimorbidity definition system, it aims to enhance the understanding of multimorbidity research and achieve consensus on the definition, thereby facilitating further multimorbidity research.

This paper explores the therapeutic approach for glaucoma based on the concept of "jueyin （厥阴） as the closing phase" from the perspectives of time and space. In traditional Chinese medicine， jueyin governs inward， converging aspect of qi， representing the crucial turning point between the end of yin and the emergence of yang， as well as the transformation between yin and yang. When the closing and descending function of jueyin operates smoothly， it promotes the inward convergence and smooth descent of qi， enabling the internal retention of blood， spirit， and emotions， which nourishes the internal organs and moistens the meridian-sinews. Conversely， dysfunction of this "closing" mechanism results in a disturbance of yin and yang， a mixture of cold and heat， and disharmony of qi and blood. It is proposed that "failure of jueyin to properly close and descend" is a core pathomechanism of glaucoma. From the perspective of spatiotemporal theory， clinical treatment should focus on "regulating the closing function of jueyin and harmonizing yin and yang". The modified Wumei Pill （乌梅丸） is recommended to adjust the ascending-descending and entering-exiting dynamics of jueyin qi transformation， thereby restoring its free flow， achieving yin and yang balance， and ensuring nourishment to the ocular system.

Objective To investigate the effects of Aurora kinase A(AURKA)on the tumor microenvironment of colorectal cancer(CRC)and to predict the active compounds in Chinese herbs that can target AURKA.Methods Based on the transcriptomic data and clinical information from 380 CRC tissues and 51 paracancerous tissues in The Cancer Genome Atlas(TCGA)database,the infiltration of different cells in the tumor tissues was analyzed using xCell and the binding of active compounds of Chinese herbs with AURKA was predicted through molecular docking.Results The expression of AURKA was significantly upregulated in CRC tissues compared with that in paracancerous tissues(P＜0.05),and CRC patients with high AURKA expression had shorter overall survival.Compared with the AURKA low-expression group,the abundance of macrophages,monocytes,and effector memory CD4+and CD8+T cells was significantly downregulated in the AURKA high-expression group(P＜0.05).In addition,the cytotoxicity of T cells was significantly reduced(P＜0.05).Further analysis revealed that AURKA expression was positively correlated with the abundance of myeloid-derived suppressor cells(MDSCs)and the expression levels of their chemokines CXCL2 and CXCL5(P＜0.05).Genes that were differentially expressed between the AURKA high-and low-expression groups were mainly enriched in monocyte migration,chemokine-induced cellular responses,and other related processes.Chinese herbal compounds,including hesperidin,aristololactam A Ⅱ a,anacardic acid,coumestrol,and 17β-estradiol,all showed binding energies to AURKA lower than-1.2 kcal/mol,indicating a certain level of binding stability.Among these Chinese herbal compounds,17β-estradiol exhibited the best binding stability to AURKA-3UOL.Conclusion The high expression of AURKA in CRC tissues suggests a poor clinical prognosis.AURKA can promote the development of a suppressive immune microenvironment in CRC,and 17β-estradiol,an active compound from Chinese herbs,is a potential therapeutic agent targeting AURKA.

With the rapid global population aging, multimorbidity is becoming a more serious public health problem, to which medical researchers have paid close attention. A standardized definition of multimorbidity is essential for relevant research. However, there is a lack of consensus on the definition of multimorbidity, which makes it difficult to compare results among studies and replicate important findings. Based on the conceptual comparison, this paper summarizes the key dimensions of the definition of multimorbidity, including the number and types of conditions, the granularity of classification, methods for obtaining outcomes, and settings and objectives of research. It also discusses the inherent relationships among the dimensions and their impact on research results, and introduces the characteristics of the commonly used condition lists in current multimorbidity definition research. By suggesting areas for improvement in the multimorbidity definition system, it aims to enhance the understanding of multimorbidity research and achieve consensus on the definition, thereby facilitating further multimorbidity research.

Retinopathy caused by myopia is the first cause of irreversible blinding eye disease in China.The TCM methods to prevent and control myopia mainly include Chinese materia medica and TCM appropriate techniques,which have the advantages of good efficacy,simple operation,and few adverse reactions.This paper believed that internal and external pathogenic factors act on the brain and eyes,breaking their homeostasis,leading to rhythmic disorders,and imbalance of essence,qi and blood is the main pathogenesis of myopia.Based on the idea of"nature and human in the same rhythm"and"the same treatment for common diseases",targeting the above pathogenesis,the method of"brain-eye synchronization"was proposed to restore the homeostasis of the brain and eyes to prevent and control myopia in children and adolescents,and the treatment rules were to regulate the rhythms of the time,harmonize the qi and blood,nourish the blood to soften the tendons,and replenish the essence and blood,so as to achieve the effect of brain-eye synchronization and the treatment of the spirit and the body together.This article summarized the theoretical basis of"brain-eye synchronization"and its clinical application in traditional Chinese and Western medicine,with a view to providing new ideas for the prevention and control of myopia in children and adolescents.

Traditional Chinese medicine upholds the unity of nature and humanity as its fundamental principle,asserting that man is in harmony with heaven and earth and corresponds to the sun and moon.Human life processes align with the circadian rhythms of nature,exhibiting periodic temporal changes-concepts that Western medicine defines as biological rhythms.The"opening-closing-pivot"of the three yin and three yang meridians represents the primary mode of interaction between nature and humanity.This mechanism regulates the transformation of yin and yang to qi within the body,ensuring synchronization with the circadian rhythm.Building upon this foundation,the concept of"the harmony of rhythms and states"was proposed to explain human growth and aging."Rhythms"encompass not only circadian cycles but also the movement of qi and blood,as well as the contraction rhythm of muscle fascia,among other physiological processes."States"refer to the dynamic evolution and transformation of qi during the"opening-closing-pivot"stages in both time and space."Harmony"pertains not only to the individual physiological balance of"rhythms"or"states"but also to their coherent interaction.The fundamental cause of myopia is"the disharmony of rhythms and states",considering that rhythm disorders,qi and blood disorders,and fascia imbalances contribute to this disease.Based on this understanding,myopia prevention and treatment should center on"regulating rhythms and states",with adjusting the pivot to brighten the eyes as the core therapeutic principle throughout the entire cycle of myopia.Treatment should be tailored to different disease stages and supplemented with methods such as time-based regulation,qi and blood harmonization,tendon relaxation and collateral dredging,and essence and blood nourishment to prevent and manage myopia effectively.

BACKGROUND:Combining seed cells with 3D bioprinting technology enables the specific construction of various tissues and organs to meet the demands of tissue repair.However,further research is needed on the promotion of angiogenesis in damaged tissues. OBJECTIVE:By cultivating a 3D scaffold structure of methacrylated gelatin loaded with fibroblasts,obtaining the supernatant,and mixing it in different proportions with a complete culture medium to simulate the cellular microenvironment during tissue repair,this study aimed to explore the role of various cellular microenvironments in promoting angiogenesis in endothelial cells. METHODS:A methacrylated gelatin scaffold structure loaded with fibroblasts was prepared using an extrusion-based 3D bioprinting process.Hydrogel scaffold extract was prepared and mixed with a complete culture medium in ratios of 1:1,1:2,and 1:4 to obtain conditioned medium.Mouse embryonic fibroblasts BALB3T3 and human umbilical vein endothelial cells were co-cultured with complete medium(control group)and hydrogel scaffold extract,respectively.Cell proliferation was assessed using the CCK-8 assay and cell viability was analyzed using live/dead staining.Three kinds of conditioned medium and complete medium(control group)were used to co-culture with human umbilical vein endothelial cells for tube formulation assay,vascular genetic testing,and immunofluorescence staining of CD31. RESULTS AND CONCLUSION:(1)Scanning electron microscopy revealed that the methacrylated gelatin scaffold exhibited a porous structure,and rheological results demonstrated excellent mechanical properties of the hydrogel.CCK-8 assay and live/dead cell staining showed that the hydrogel scaffold extract had no obvious cytotoxicity.(2)Tube formulation assay indicated that the hydrogel showed the total length of cell tubules in 1:1 conditioned medium group was smaller than that in the control group(P<0.05).There were no statistical differences among the four groups in the number of vascular branches formed by endothelial cells(P>0.05).(3)qRT-PCR results showed that for vascular endothelial growth factor mRNA expression,the 1:2 conditioned medium group was lower than the 1:1 conditioned medium group on day 1(P<0.01).On day 3,the expression level of vascular endothelial growth factor in the 1:2 conditioned medium group was higher than that in the control group(P<0.01).On day 5,the cytokine expression level in the 1:2 conditioned medium group was significantly higher than that in the other three groups(P<0.01 or P<0.000 1).The expression in the 1:1 conditioned medium group was significantly lower than that in the other three groups(P<0.05 or P<0.01).On day 1,the expression level of basic fibroblast growth factor in the 1:1 conditioned medium group was significantly higher than that in the control group and 1:4 conditioned medium group(P<0.01,P<0.05).The expression was higher in the 1:2 conditioned medium group than that in the control group(P<0.05).On day 3,the expression levels of cytokines in the 1:4 conditioned medium group was higher than that in the control group(P<0.05).(4)On day 3,the expression of CD31 in the 1:2 conditioned medium group was higher than that in the control group and the 1:4 conditioned medium group(P<0.05).(5)The results indicate that the resulting conditioned media can simulate the microenvironment of vascular regeneration after tissue damage,promoting the vascularization process of endothelial cells.The best promotion of vascularization in endothelial cells was observed when the ratio of supernatant to complete culture medium was 1:2.

ObjectiveTo observe the mechanism of Jiawei Guizhi Fuling decoction （JGFD） in alleviating sciatic nerve injury in painful diabetic peripheral neuropathy （PDPN） rats by regulating mitophagy through the PTEN-induced putative kinase 1 （PINK1）/Parkin signaling pathway. MethodThe PDPN model was established by intraperitoneal injection of streptozotocin （STZ）. After modeling， the rats were randomly divided into JGFD high， medium， and low dose groups （JGFD-H， JGFD-M， JGFD-L； 39.6， 19.8， 9.9 g·kg^-1·d^-1， respectively）， a positive drug group （lipoic acid capsules， LA； 50 mg·kg^-1·d^-1）， and a model group （PDPN）. A blank control group （CON） was established. Drug intervention was administered continuously for 8 weeks after modeling. Measurements included body weight and fasting blood glucose of PDPN rats at weeks 0， 2， 4， and 8， mechanical pain threshold and thermal pain threshold at weeks 0 and 8， and motor nerve conduction velocity at week 8. Hematoxylin-eosin （HE） staining was used to observe the morphology of sciatic nerve tissue. The ultrastructure of mitochondria and autophagosomes was observed by transmission electron microscopy. Western blot was performed to detect the protein expression levels of PINK1， Parkin， p62， Beclin-1， and LC3 in sciatic nerve tissue. Additionally， real-time quantitative PCR （Real-time PCR） was performed to detect the mRNA expression levels of PINK1， Parkin， p62， Beclin-1， and LC3 in sciatic nerve tissue. ResultCompared with the CON group， the PDPN group showed a significant decrease in body weight at all time points， a significant increase in fasting blood glucose， significantly shortened mechanical pain and thermal pain thresholds， and significantly reduced motor nerve conduction velocity. The protein and mRNA expression of PINK1， Parkin， Beclin-1， and microtubule-associated protein light chain 3（LC3） in sciatic nerve tissue was significantly reduced， while p62 protein and mRNA expression was significantly increased （P<0.01）. Pathological changes included edema of sciatic nerve fibers， segmental demyelination， loose and disordered arrangement of the myelin sheath layers， significant swelling of mitochondria， reduced electron density， disappearance of cristae， and absence of typical autophagosome and autolysosome structures. Compared with the PDPN group， each JGFD dose group showed a significant increase in body weight and a significant reduction in fasting blood glucose （P<0.05， P<0.01）. The mechanical pain threshold and thermal pain threshold were significantly prolonged， and motor nerve conduction velocity was significantly increased across all JGFD and LA groups. The expression levels of PINK1， Parkin， Beclin-1， and LC3 proteins and mRNA in sciatic nerve tissue were significantly increased， while p62 protein and mRNA expression levels were significantly decreased （P<0.05， P<0.01）. Pathological damage to the sciatic nerve was alleviated to varying degrees， with a relatively intact myelin sheath morphology and intact or slightly edematous outer mitochondrial membrane. Autophagolysosome structures were observed in the JGFD-M and JGFD-H groups. Compared with the LA group， the JGFD-H group showed a significant increase in body weight， a significant reduction in fasting blood glucose， a significant increase in motor nerve conduction velocity， a significant increase in PINK1 protein expression and PINK1， Parkin， and Beclin-1 mRNA expression in sciatic nerve tissue， and a significant decrease in p62 mRNA expression （P<0.05， P<0.01）. ConclusionJGFD may alleviate sciatic nerve injury in PDPN rats by activating mitophagy through the regulation of the PINK1/Parkin signaling pathway.