Objective To investigate the patterns of changes in biochemical factors(IL-1β and TGF-β1)and biophysical factors within the periodontal ligament microenvironment at different stages of periodontitis development.Methods Periodontitis models at different stages of development(early and late stages)were constructed in rats.The changes in the periodontal ligament microenvironment were determined by detecting biochemical factors((IL-1β and TGF-β1)and changes in periodontal ligament stiffness.Results Regarding biochemical factors,the growth factor TGF-β1 was at a high level in the early stage of periodontitis,while the inflammatory factor(IL-1β was slightly increased compared to the normal state,but expressed at a low level.As the inflammation progressed,the expression of TGF-β1 was suppressed and significantly decreased in the late stage of periodontitis(late stage:11.34±2.91 vs.early stage:20.41±2.64,P＜0.01).In contrast,the expression of(IL-1βsignificantly increased(late stage:18.77±3.36 vs.early stage:8.24±1.47,P＜0.01).Regarding biophysical factors,the stiffness of the periodontal ligament and the expression of the key protein integrin αv β3 in the mechanical signaling pathway gradually decreased with the development of periodontitis.Additionally,the osteogenic differentiation capacity of stem cells significantly decreased in the late stage of periodontitis(late stage:12.47±2.83 vs.early stage:21.15±4.38,P＜0.05).Conclusion TGF-β1 may play a role in promoting periodontal tissue repair and maintaining physiological stability in normal and early stages of periodontitis,while the increased expression of(IL-1β in the late stage of periodontitis may inhibit the osteogenic differentiation of stem cells,leading to bone loss.Biophysical factors,including matrix stiffness and integrin αvβ3 expression,gradually decrease with the progression of periodontitis,potentially affecting bone tissue repair.

Objective To investigate the patterns of changes in biochemical factors(IL-1β and TGF-β1)and biophysical factors within the periodontal ligament microenvironment at different stages of periodontitis development.Methods Periodontitis models at different stages of development(early and late stages)were constructed in rats.The changes in the periodontal ligament microenvironment were determined by detecting biochemical factors((IL-1β and TGF-β1)and changes in periodontal ligament stiffness.Results Regarding biochemical factors,the growth factor TGF-β1 was at a high level in the early stage of periodontitis,while the inflammatory factor(IL-1β was slightly increased compared to the normal state,but expressed at a low level.As the inflammation progressed,the expression of TGF-β1 was suppressed and significantly decreased in the late stage of periodontitis(late stage:11.34±2.91 vs.early stage:20.41±2.64,P＜0.01).In contrast,the expression of(IL-1βsignificantly increased(late stage:18.77±3.36 vs.early stage:8.24±1.47,P＜0.01).Regarding biophysical factors,the stiffness of the periodontal ligament and the expression of the key protein integrin αv β3 in the mechanical signaling pathway gradually decreased with the development of periodontitis.Additionally,the osteogenic differentiation capacity of stem cells significantly decreased in the late stage of periodontitis(late stage:12.47±2.83 vs.early stage:21.15±4.38,P＜0.05).Conclusion TGF-β1 may play a role in promoting periodontal tissue repair and maintaining physiological stability in normal and early stages of periodontitis,while the increased expression of(IL-1β in the late stage of periodontitis may inhibit the osteogenic differentiation of stem cells,leading to bone loss.Biophysical factors,including matrix stiffness and integrin αvβ3 expression,gradually decrease with the progression of periodontitis,potentially affecting bone tissue repair.

Objective To explore the effect of Bushencupailuan decoction , a Chinese medicine formula , on polycystic ovary syndrome ( PCOS ) and its mechanism through observing the sex hormones , anti-Müllerian hormone ( AMH) and the morphology of ovaries of PCOS rat models .Methods Bushencupailuan decoction was administered in DHEA-induced PCOS model rats .The pathology of ovaries was examined , and the serum sex hormones and AMH were detected.Results Compared with the normal group , the ovaries of model group rats had severe diffuse cystic dilatation and cystic cavities of different sizes .The granular layer cells were compressed into flat or cubical shapes .Corpora lutea and follicles in various stages of development were rare .Bushencupailuan decoction obviously improved the numbers of mature follicles and corpora lutea , levels of sex hormones and AMH of PCOS model rats compared with those of model rats ( P<0.05).Conclusions Bushencupailuan decoction can treat PCOS by improving the serum sex hormone levels in PCOS model rats, reduce serum AMH and help to restore ovulation .