RESUMO
BACKGROUND@#Bone defect difficult to manage clinically and it is a big challenge to repair it. Secondary metabolites source from herb has shown potential for the treatment of bone defect. @*METHODS@#Mesenchymal stem cells (MSCs) were isolated from mice and incubated with urolithin A (UA) (10, 25, and 50 lg/mL). 3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyl tetrazolium bromide (MTT) assay was performed to estimate apoptosis and mineralisation was evaluated by alkaline phosphatase assay and alizarin red S staining. A middle femoral defect was induced in mice and bone tissue was prepared for endochondral ossification by treating with UA. The effect of UA was estimated by determining markers of osteoblast proliferation in serum and micro-computed tomography to analyse bone defects. @*RESULTS@#UA enhanced mineralisation of MSCs and osteogenic gene markers in MSCs in vitro. Also, the bone defect score and bone mineral density were improved by UA. Moreover, UA ameliorated the altered Wnt3a protein and histopathological changes in bone defect mice. @*CONCLUSION@#Presented report conclude that UA enhances osteoblast proliferation in bone-defect mice by activating the Wnt pathway.
RESUMO
Objective:To investigate the thyroid function changes and clinical significance after acute traumatic and infectious abdominal surgery.Methods:The clinical data of patients admitted to the intensive care unit (ICU) for acute traumatic and infectious abdominal surgery during the period from January 1, 2012 to December 31, 2021 in the First Medical Center of People′s Liberation Army General Hospital were retrospectively analyzed using retrospective case-control study. Eligible cases were obtained according to the inclusion and exclusion criteria, and an observation group was set ( n=65). According to the factors such as gender, age, body mass index, and surgical site (organ), a 1∶1 propensity score matching method was used to match the same number of non-traumatic non-infectious abdominal surgery patients admitted in the same time interval, and they were set as the control group ( n=65). The preoperative white blood cells, neutrophils, interleukin -6, c-reactive protein, and procalcitonin were collected, and the thyroid function index for the first time after operation was calculated. The incidence of postoperative thyroid dysfunction was calculated. The thyroid function changes of patients with thyroid dysfunction after exogenous thyroid hormone replacement therapy and the effects on complications and mortality within 30 days were observed. Measurement data of normal distribution were expressed as mean standard deviation( ± s), and t-test was used for comparison between groups. Enumeration data were compared between groups using chi-square test. Results:In the observation group, there were 50 patients with thyroid dysfunction (76.9%). After a 1∶1 match, the baseline of the observation group and the control group was level and comparable. The preoperative inflammatory indexes such as leukocyte, neutrophil ratio, interleukin -6, C-reactive protein and procalcitonin in the observation group were (23.7±5.7)×10 12/L, 0.86±0.13, (66.7±16.3) ng/L, (365.8±77.9) mg/L and (17.9±3.5) μg/L, respectively. Those in the control group were (12.3±2.7)×10 12/L, 0.71±0.04, (8.5±4.7) ng/L, (14.3±6.5) mg/L and (1.3±0.6) μg/L, respectively. The elevations in the observation group were different from those in the control group( P<0.05). In the first postoperative thyroid function test, T3 and FT3 in the observation group were (1.07±0.54) nmol/L and (2.23±1.02) pmol/L, respectively, and those in the control group were (1.61±0.34) nmol/L and (4.36±1.25) pmol/L, respectively. These values in the observation group were significantly lower than those in the control group( P<0.05). On the 10th day after surgery, T3 and FT3 levels in the exogenous thyroid supplementation group rapidly increased and gradually returned to the normal level. In addition, the total hospitalization time of patients in the observation group was significantly shortened, and the incidence and mortality of postoperative complications were reduced. The results in the observation group were (13.47±4.66) d, 17.6% and 11.8%, respectively. The corresponding results in the control group were (16.33±5.18) d, 36.4% and 21.2%, respectively. The difference between the two groups was statistically significant( P<0.05). Conclusion:The incidence of thyroid dysfunction after acute traumatic and infectious abdominal surgery is high, and exogenous thyroxine supplementation can improve the outcome of patients.
RESUMO
Severe trauma is almost caused by a high energy damage, with a high incidence rate of multiple injuries. Reasonable assessment and resuscitation in hospital at early stage is key to successful care. Trauma resuscitation bay(TRB)is the primary area for early assessment and resuscitation in hospital, which can ensure the rapid rescue to the greatest extent. At present, the early treatment for patients with severe trauma is mainly conducted in the emergency room, which presents many disadvantages that may lead to a decline in the quality of early treatment of trauma. For example, in the limited space, a resucue team is unable to carry out, and bedside radiographic examinations, life-saving operations and rescue for internal emergency patients are affected. With the development of trauma center construction, TRB specifically for early assessment, resuscitation and emergency management of severe trauma comes into being. According to the characters of China's trauma rescue system, the authors illustrate the characteristics, advantages, functions and operational requirements of TRB, the components of TRB at different levels of trauma centers, and the status of TRB construction in China, so as to provide a reference for the construction of TRB at various levels.
RESUMO
As China has not yet established a sound regional trauma treatment system and standardized trauma centers at all levels, the trauma treatment capability in China is poorer than that in the developed countries. At present, Shaanxi Province has not established a regional trauma treatment system and standardized trauma centers at all levels. Based on the analysis of the characteristics of geography, population and social environment in Shaanxi Province, the authors explore the concept of the trauma treatment system and the construction of trauma centers at all levels in Shaanxi Province on the platform of the trauma center of Shaanxi People's Hospital ( Grade I trauma center) . The authors clarify the respective hardware facilities, team structure, treatment process and quality control goals, training and management system of professional trauma teams in trauma centers at all levels, so as to provide reference for improving the overall level of trauma treatment in Shaanxi Province.