Tendon and ligament (T/L) have been known to be obviously different from each other in tissue level. However, due to the overlapping gene markers, distinction in cellular level has not been clearly verified yet. Recently, the use of nuclear magnetic resonance (NMR) spectroscopy has shown the potential to detect biological markers in cellular level. Therefore, in this study we applied a non-invasive technique based on NMR spectroscopy to establish biomarkers to distinguish between T/L fibroblasts. In addition the cellular morphologies and gene expression patterns were also investigated for comparison through optical microscopy and real-time polymerase chain reaction (PCR). No difference was observed from morphology and real-time PCR results, either as expected. However, we found clear differences in their metabolomic spectra using ¹H NMR spectroscopy. The calculated integral values of fatty acids (with chemical shifts at ~0.9, 1.26, 1.59, 2.05, 2.25, and 2.81 ppm), lactate (~1.33 ppm), and leucine (~2.72 ppm) were significantly different between the two types of fibroblasts. To be specific tendon group exhibited higher level of the metabolite than ligament group. In conclusion, in-cell metabolomic evaluation by NMR technique used in this study is believed to provide a promising tool in distinguishing cell types, especially T/L cells, which cannot be classified by conventional biological assays.
Biological Assay ; Biomarkers ; Fatty Acids ; Fibroblasts* ; Gene Expression ; Genes, Overlapping ; Lactic Acid ; Leucine ; Ligaments* ; Magnetic Resonance Spectroscopy* ; Metabolomics ; Microscopy ; Real-Time Polymerase Chain Reaction ; Spectrum Analysis* ; Tendons*

This study aims to investigate the roles and effects of EGCG (epigallocatechin-3-gallate) during the osteogenic differentiation of human mesenchymal stem cells (hMSCs) in vitro. Recent studies have shown that proper mechanical stimuli can induce osteogenic differentiation of hMSCs apart from biochemical factors. In this study, the hMSC cultures were subjected to: (1) 25 uM EGCG alone or (2) 3% mechanical stretching (0.2 Hz for 4 h/day for 4 days) or (3) in combination with 3% mechanical stretching (0.2 Hz for 4 h/day for 4 days). The two factors were applied to the cell cultures separately and in combination to investigate the individual and synergistic effect of both mechanical stimulation and ECGC in the osteogenic differentiation of hMSCs. Utilizing real time PCR, we measured various osteogenic markers and even those related to intracellular signalings. Further investigation of mitochondria was performed that mitochondria biogenesis, antioxidant capacity, and morphological related markers were measured. hMSCs were to be osteogenic or myogenic differentiated when they were under 3% stretching only. However, when EGCG was applied along with stretching they were to be osteogenic differentiated rather than to be myogenic differentiated. This was supported by evaluating intracellular signalings: BMP-2 and VEGF. Therefore, the synergistical effects of simultaneous employment of stretching and EGCG on osteogenic differentiation were confirmed. Moreover, simultaneous employment was found positive in mitochondria biogenesis, antioxidant capacity, and morphological changes. Through this study, we came into the conclusion that the combination of proper mechanical stretching, 3% in this study, and EGCG promote osteogenic differentiation. Reflecting that EGCG can be obtained from plants not from the chemical syntheses, it is worth to be studied further either by animal tests or long-term experiments for clinical applications.
Animals ; Cell Culture Techniques ; Employment ; Humans* ; In Vitro Techniques ; Mesenchymal Stromal Cells* ; Mitochondria ; Osteogenesis ; Real-Time Polymerase Chain Reaction ; Vascular Endothelial Growth Factor A

Objective:To observe the effect of Chinese herbal compound Siwu decoction (SW) on radiation injury of zebra fish blood system, and to clarify whether zebra fish is a suitable model for this study. Methods:Totally 72 of 4-month-old adult male zebra fish ( Danio Rerio) with body weight ranging from 0.14 to 0.20 g were used in all the experiments, where 36 zebra fish were taken to observe the hemodynamic changes after radiation, and the other 36 zebra fish were used to study the intervention effect of Siwu decoction on the blood injury after radiation. Zebra fish was irradiated with 20 Gy of 60Co gamma-rays at a dose rate of 97.33 cGy/min. For the hemodynamic study, the peripheral blood and whole kidney marrow cells (WKMCs)of irradiated zebra fish and non irradiated control were collected on days 7, 14 and 30 after irradiation, respectively, and the cell number was detected by flow cytometry. For the Siwu decoction treatment, 36 zebra fish were randomly divided into non-irradiation group, irradiation group, SW2 000 group ( Siwu decoction was diluted by 2 000-fold) and SW5 000 group ( Siwu decoction was diluted by 5 000-fold). Siwu decoction was given on the second day after irradiation. Then the peripheral blood and WKM cells of zebra fish were collected at 7 d after irradiation for further analysis. Results:After irradiation, the dynamic of blood development of zebra fish were obviously changed with the most blood cell ablation at 7 d post-irradiation. The total number of peripheral blood cells and WKM cells decreased by 26% and 52%( t=4.535, 28.987, P<0.05), the number of myeloid monocytes, lymphocytes, and red blood cells in the WKM decreased by 46%, 79% and 33%( t=18.457, 66.900, 9.872, P<0.05), and the number of precursor cells decreased by 49% ( P>0.05). The numbers of these blood cells were partly recovered at 14 d after irradiation and returned to the normal level at 30 d after irradiation. In comparison with irradiation alone group, the numbers of WKM cells, myeloid monocytes, progenitor cells, lymphocytes and red blood cells increased by 57%, 125%, 81% and 35%, respectively ( t=12.128, 21.594, 15.473, 4.594, P<0.05), and peripheral red cells did not increase significantly in the SW5 000 group after irradiation. However, SW2 000 had no significant influence on radiation injury of zebra fish blood cells ( P>0.05). Conclusions:Radiation injury of the blood system of zebra fish could be recovered at a month after irradiation, and this radiation damage could be partly intervened by Siwu decoction at a suitable concentration, which provides a reference for the study of blood system regulation of traditional Chinese medicine.

Objective:To analyze drug-related problems (DRPs) of hospitalized elderly patients with limited life expectancy.Methods:A total of 261 patients aged ≥ 70 years with limited life expectancy according to the 1-year mortality prediction index, who were admitted in the geriatric ward of Peking Union Medical College Hospital from January 2015 to December 2021 were included. According to Strand system, the categories, medications and interventions of DRPs were analyzed.Results:Among 261 patients, 187 (71.6%) had 672 DRPs. The most common DRPs were related to drug safety, including 271 (40.3%) adverse drug reactions and 149 over dosages (22.2%). A total of 207 drugs were involved in DRPs, and the top 5 classes with higher frequency of DRPs were antiinfectives for systemic use(20.7%,139/672), nervous system drugs(19.4%,130/672), alimentary tract and metabolism drugs(16.5%,111/672), cardiovascular system drugs(16.1%,108/672), and blood and hemopoietic organs drugs(13.7%,92/672). The recommendations were given by pharmacists for all 672 DRPs, and 643 were accepted by physicians (95.7%). The therapy need to be adjusted in 564 recommendations and the medications need to be monitored in 108 recommendations. In recommendations of therapy adjustment, 49.6%(280/564) were related to deprescribing. The deprescribing with higher frequency included antiinfectives for systemic use(29.6%, 83/280), lipid modifying agents(7.9%,22/280) and antithrombotic agents(7.9%,22/280). Patients with severe disability had significantly higher average DRPs(2 vs. 1) and average deprescribing(1 vs. 0) than patients without severe disability( Z=-4.83, Z=-3.61, all P<0.001). Conclusion:Drug safety is the most common DRP in limited life expectancy elderly inpatients, particularly for those with severe disability.

Mediastinal lymph node metastasis is a common metastasis pathway of non-small cell lung cancer (NSCLC), and its occurrence is closely related to lymphatic drainage pattern. NSCLC in different pulmonary lobes requires different lymphatic drainage patterns, which poses a challenge for the formulation of individualized treatment strategies. Accurate staging is the prerequisite for precision treatment of NSCLC. Computed tomography (CT) examination is an important tool for evaluating mediastinal lymph node metastasis, which is crucial for making treatment plan and evaluating patient prognosis. However, it is difficult to diagnose metastatic lymph nodes with insignificant imaging features, especially metastatic lymph nodes in zone 4 and zone 7, which are hot spots for mediastinal lymph node metastasis. However, clinical guidelines do not make clear provisions on lymph node dissection in zone 4, which makes preoperative clinical staging and prognosis evaluation of patients with NSCLC particularly important. By integrating and analyzing a large amount of data in CT images, the emerging CT radiomics technology captures subtle features that may be overlooked in conventional CT scans, showing great application prospects in improving the accuracy of non-invasive diagnosis of lymph node metastasis. This review aims to explore the mediastinal drainage pattern and the role of CT in evaluating mediastinal lymph node metastasis, in order to provide valuable imaging evidence for accurately judging mediastinal lymph node metastasis of NSCLC, formulating appropriate lymph node dissection scope, optimizing treatment strategy, and improving patient prognosis.

Data analysis models may assist the transmission of traditional Chinese medicine （TCM） experience and clinical diagnosis and treatment， and the possibility of constructing a “data-knowledge” dual-drive model was explored by taking gastric precancerous state as an example. Data-driven is to make clinical decisions around data analysis， and its syndrome-differentiation decision-making research relies on hidden structural models and partially observable Markov decision-making processes to identify the etiology of diseases， syndrome elements， evolution of pathogenesis， and syndrome differentiation protocols； knowledge-driven is to make use of data and information to promote decision-making and action processes， and its syndrome-differentiation decision-making research relies on convolutional neural networks to improve the accuracy of local disease identification and syndrome differentiation. The “data-knowledge” dual-driven model can make up for the shortcomings of single-drive numerical simulation accuracy， and achieve a balance between local disease identification and macroscopic syndrome differentiation. On the basis of previous research， we explored the construction method of diagnostic assisted decision-making platform for gastric precancerous state， and believed that the diagnostic and decision-making ability of doctors can be extended through the assistance of machines and algorithms. Meanwhile， the related research methods were integrated and the core features of gastric precancerous state based on TCM syndrome differentiation and endoscopic pathology diagnosis and prediction were obtained， and the elements of endoscopic pathology recognition based on TCM syndrome differentiation were explored， so as to provide ideas for the in-depth research and innovative application of cutting-edge data analysis technology in the field of intelligent TCM syndrome differentiation.