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Objective:To explore the clinical efficacy of DELTA endoscopic lumbar interbody fusion for the treatment of mild to moderate, single segment lumbar spondylolisthesis.Methods:A retrospective analysis was conducted on the clinical data of 48 surgical cases of grade Ⅰ to Ⅱ lumbar spondylolisthesis admitted to the First Affiliated Hospital of Hunan University of Traditional Chinese Medicine from February 2020 to March 2022. Among them, 24 cases treated with DELTA endoscopic lumbar interbody fusion surgery were classified as the DELTA group, and 24 cases treated with traditional minimally invasive transforaminal lumbar interbody fusion (MIS-TLIF) surgery were classified as the MIS-TLIF group. Two groups of patients were compared in terms of perioperative indicators (surgical time, postoperative drainage volume, incision length, hospital stay), clinical efficacy [Visual Analogue Scale (VAS) score for low back and leg pain, lumbar Japanese Orthopaedic Association Scores (JOA), improved MacNab standard excellence rate], and lumbar fusion rate (Bridwell intervertebral fusion grade).Results:The DELTA group had longer surgical time than the MIS-TLIF group, and the postoperative drainage volume, incision length, and hospital stay were all lower than the MIS-TLIF group, with statistically significant differences (all P<0.05). The VAS score of lower back and leg pain and lumbar JOA score of the two groups of patients at 1 week, 3 months, and the last follow-up were significantly improved compared to those before surgery (all P<0.01), and the DELTA group had better VAS score of lower back and leg pain and lumbar JOA score at all time points after surgery than the MIS-TLIF group, with statistically significant differences (all P<0.05). The improved MacNab standard was used to evaluate the efficacy of the two groups of patients at the last follow-up after surgery, and there was no statistically significant difference in the excellent and good rates ( P>0.05); There was no statistically significant difference ( P>0.05) in the fusion rate between the two groups. Conclusions:DELTA endoscopic lumbar interbody fusion has a significant therapeutic effect on lumbar spondylolisthesis, with the advantages of small surgical incision and fast recovery; After crossing the DELTA endoscopic learning curve and optimizing surgical procedures, this technology can become an alternative to MIS-TLIF technology.
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A large spontaneous mass on the dorsal abdomen near the hip joint was found in an aged female Tupaia belangeri subsp. yaoshanensis after 5 years of routine feeding. The tumor in the diseased tree shrew was huge, with an intact surface and no ulceration; however, it caused inconvenience in movement while maintaining a good mental state. After inhalation anesthesia with isoflurane (2%-4%), the tree shrew was euthanized after the tree shrew entered deep anesthesia. Anatomical dissection of the tumor, the tumor boundary was unclear and infiltrated into surrounding tissues. HE staining showed that small focal pleomorphism and large areas of adipocytes were seen in the tumor tissue. The pleomorphic sarcoma area was mainly composed of atypical epithelioid cells with easily visible nuclear divisions. The size of the adipocytes was significantly different, and more pleomorphic adipocytes were seen. The cell volume was large, the nucleus was deeply stained and deformed, the edge was impressed, and the cytoplasm was seen with multiple vesicular lipid droplets. Immunohistochemical results showed that the tumor cells were positive for Vimentin, the small focal polymorphic adipocyte nucleus was positive for S-100, and Ki-67 exhibited a higher proportion of positivity. Combined with HE staining and immunohistochemical results, the spontaneous tumor in this tree shrew was comprehensively diagnosed as pleomorphic liposarcoma.
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ObjectiveTo observe the primary tumor of tree shrews and to provide a basis for studying the pathogenesis and prevention of trichoepithelioma. MethodsA tumor was discovered in the chest and abdomen of a tree shrew during natural cultivation. The tree shrew was anesthetized, and the tumor was surgically removed. Hematoxylin and eosin (HE) staining and immunohistochemical staining were performed on the tumor tissue after paraffin section, and the tumor cells were isolated and cultured by passage. The isolated tumor cells were subcutaneously injected into healthy tree shrews and nude mice. The tumorigenesis of tumor cells in vivo was observed once a day, with nude mice continuously observed for 2 months and tree shrews observed for more than 6 months. ResultsHE staining showed that the basal cells in the dermis were arranged as a whole, like a string of petals, forming nests and stripe-like structures with clear boundaries. The observation results after magnification revealed that the tumor cells were arranged in a pallisade-like and basal pattern, with deep nuclear staining and minimal cytoplasmic. Immunohistochemical staining showed the high expression of CK protein and low proportion expression of ki-67 protein in tumor cells, as well as the high expression of vimentin and low expressions of Bcl2 and CD10 in tumor cell mesenchyme. The isolated tumor cells grew well in DMEM medium containing 10% fetal bovine serum and could be cultured by passage, but no tumor formation was observed in healthy tree shrews and nude mice inoculated with tumor cells. ConclusionCombined with the location of the tumor, overall morphology, HE staining, and immunohistochemical results, the thoracoabdominal mass of the tree shrew was diagnosed as a trichoepithelioma.
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Objective To explore the clinical efficacy of Delta endoscopic lumbar decompression fusion for the treatment of giant lumbar disc herniation(GILDH).Method A retrospective analysis was performed on 36 cases of GILDH from April 2020 to May 2022,including 18 cases in the Delta group and 18 cases in the open group.There was no statistically significant difference in gender,age,and responsible section between the two groups of patients.Compare the surgical time,perioperative indicators,and clinical efficacy between the two groups.Results The intraoperative bleeding and drainage volume in the Delta group were lower than those in the open group,the incision length and hospital stay were shorter than those in the open group,the degree of paraspinal muscle injury was lighter than that in the open group,and the surgical time was longer than that in the open group,with statistical significance(P<0.05);The lumbago visual analogue scale(VAS)of the two groups of patients at each postoperative period was significantly reduced compared to preoperative,and the lumbar spine function score of the Japanese Orthopaedic Association(JOA)was significantly increased compared to preoperative,with statistical significance(P<0.05);The lumbago VAS of the Delta group was significantly lower than that of the open group at all postoperative stages,and the lumbar spine function JOA score was significantly higher than that of the open group,with statistical significance(P<0.05);There was no statistically significant difference in the modified MacNab score between the two groups of patients at the last follow-up after surgery(P>0.05).Conclusion Delta endoscopic lumbar decompression fusion for GILDH has significant therapeutic effects,with advantages such as less bleeding,small surgical incision,and fast postoperative recovery;After crossing the Delta endoscopic learning curve and optimizing the surgical process,this technology can become an alternative to conventional open surgery.
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Although bariatric surgery is the most effective and durable treatment for obesity and related metabolic diseases, weight regain (WR) after surgery is a common problem and cannot be neglected. The causes of WR are complex and require a comprehensive assessment and long-term follow-up conducted by a multidisciplinary team. The treatment for WR should be indivi-dualized according to the anatomical condition, lifestyle habits, psychological state, and compliance of patients. The authors review the current retrospective and prospective studies on the risk factors for WR, and summarize the clinical evidence on the behavioral, pharmacotherapeutic, and surgical interventions. Basing on the available research results, the authors consider that harmonized criteria for WR diagnosis is imperative. It is necessary to further clarify WR predictors, optimal combination of surgical and non-surgical therapies, and to explore the ideal time-point of medication usage by designing prospective studies, which have great importance for maintaining weight loss and preven-tion and treatment of WR after bariatric surgery.
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Objective:To explore the effects of bariatric metabolic surgery on body composition.Methods:The retrospective cohort study was conducted. The clinicopathological data of 66 patients with metabolic diseases who were admitted to the Third Xiangya Hospital of Central South University from January 2013 to December 2014 were collected. There were 42 males and 24 females, aged (40±11)years, with a range from 17 to 63 years. Of the 66 patients, 27 undergoing laparoscopic sleeve gastrectomy (LSG) and 39 undergoing laparoscopic Roux-en-Y gastric bypass (LRYGB) were allocated into LSG group and LRYGB group, respectively. The body composition of all patients was determined by dual-energy X-ray absorptiometry at preoperation and postoperative 6 months. Observation indicators: (1) the changes of anthropometric parameters, glucolipid metabolism, body fat mass percentage (BF%) and the ratio of Android BF% and Gynoid BF% (A/G ratio) from preoperation to postoperative 6 months; (2) the changes of whole and local body composition from preoperation to postoperative 6 months; (3) analysis of the correlation between BF% and anthropometric parameters, glucolipid metabolism. (4) Follow-up. Follow-up was conducted using outpatient or hospitalization examination to detect the changes of body composition at the time of postoperative 6 month. The follow-up time was up to July 2015. Measurement data with normal distribution were represented as Mean± SD, paired-samples t test was used for intra-group comparison, and independent-samples t test when baseline data were consistency or covariance analysis when baseline data were not consistency was used for inter-group comparison. Measurement data with skewed distribution were represented as M ( P25, P75), and comparison between groups was analyzed using Wilcoxon signed rank test. The correlation test was undertaken with the Pearson bivariate analysis. Results:(1) The changes of anthropometric parameters, glucolipid metabolism, BF% and A/G ratio from preoperation to postoperative 6 months: for patients in the LSG group, the body mass, body mass index (BMI), waist circumference (WC), waist-to-hip ratio (WHR), diastolic blood pressure (DBP), systolic blood pressure (SBP), fasting plasma glucose (FPG), HbA1c, high density lipoprotein cholesterol (HDL-C), triglyceride (TG), whole BF%, arms BF%, legs BF%, trunk BF%, Android BF%, Gynoid BF% and A/G ratio at preoperation and postoperative 6 months were (102±17)kg, (37±5)kg/m 2, (118±14)cm, 1.01±0.06, (94±14)mmHg(1 mmHg=0.133 kPa), (137±15)mmHg, (8.1±4.2)mmol/L, 7.3%±2.4%, (1.11±0.26)mmol/L, 2.14 mmol/L(1.73 mmol/L, 2.59 mmol/L), 40%±6%, 46%±10%, 36%±8%, 42%±6%, 45%±6%, 37%±7%, 1.23±0.18 and (82±15)kg, (29±4)kg/m 2, (101±13)cm, 0.95±0.08, (76±10)mmHg, (118±16)mmHg, (7.2±1.2)mmol/L, 5.4%±0.8%, (1.26±0.32)mmol/L, 1.21 mmol/L(0.88 mmol/L, 1.55 mmol/L), 36%±8%, 41%±9%, 34%±10%, 38%±8%, 41%±8%, 35%±10%, 1.20±0.17, respectively. There was no significant difference in the intra-group comparison of the Gynoid BF% and A/G ratio ( t=1.903, 1.730, P>0.05) and there were significant differences in the intra-group comparison of the rest of above indicators ( t=12.748, 13.283, 9.013, 3.804, 6.031, 6.226, 2.393, 4.287, -2.900, 3.193, 2.932, 5.198, 2.167, 3.357, 3.116, P<0.05). For patients in the LRYGB group, the body mass, BMI, WC, WHR, DBP, SBP, FPG, HbA1c, HDL-C, TG, whole BF%, arms BF%, legs BF%, trunk BF%, Android BF%, Gynoid BF% and A/G ratio at preoperation and postoperative 6 months were (80±12)kg, (28±4)kg/m 2, (98±9)cm, 0.96±0.05, (85±10)mmHg, (134±17)mmHg, (8.6±2.8)mmol/L, 8.3%±1.7%, (1.13±0.26)mmol/L, 2.06 mmol/L(1.15 mmol/L, 3.30 mmol/L), 30%±8%, 29%±11%, 23%±9%, 37%±7%, 40%±7%, 29%±8%, 1.42±0.26 and (69±9)kg, (24±3)kg/m 2, (91±8)cm, 0.93±0.05, (80±9)mmHg, (129±18)mmHg, (7.4±1.8)mmol/L, 7.0%±1.5%, (1.18±0.29)mmol/L, 1.29 mmol/L(0.85 mmol/L, 2.02 mmol/L), 25%±8%, 23%±12%, 20%±9%, 29%±9%, 32%±10%, 25%±9%, 1.29±0.25, respectively. There was no significant difference in the intra-group comparison of the SBP and HDL-C ( t=1.733, -1.073, P>0.05) and there were significant differences in the intra-group comparison of the rest of above indicators ( t=10.525, 10.200, 7.129, 2.887, 2.805, 2.517, 3.699, 2.608, 7.997, 8.018, 6.029, 8.342, 8.069, 5.813, 6.391, P<0.05). There were significant differences in DBP, SBP, HbA1c, trunk BF%, Android BF% and A/G ratio at postoperative 6 months between LSG group and LRYGB group ( F=6.408, t=2.641, F=20.673, 5.140, 5.735, 4.714, P<0.05). (2) The changes of whole and local body composition from preoperation to postoperative 6 months: for patients in the LSG group, the whole fat mass, muscle mass, fat-free mass at preoperation and postoperative 6 months were (38.74±9.68)kg, (57.71±11.62)kg, (60.14±11.95)kg and (26.64±8.29)kg, (48.65±13.80)kg, (51.00±14.27)kg, respectively, showing significant differences in the intra-group comparison of the above indicators ( t=5.256, 5.413, 5.315, P<0.05); the arms fat mass, muscle mass, fat-free mass were (5.19±1.67)kg, (5.78±1.58)kg, (6.10±1.64)kg and (3.73±1.19)kg, (5.10±1.53)kg, (5.43±1.57)kg, respectively, showing significant differences in the intra-group comparison of the above indicators ( t=7.564, 5.405, 5.363, P<0.05); the legs muscle mass and fat-free mass were (19.05±4.19)kg, (19.93±4.35)kg and (15.93±4.71)kg, (16.81±4.87)kg, respectively, showing significant differences in the intra-group comparison of the above indicators ( t=5.623, 5.568, P<0.05); the trunk fat mass and fat-free mass were (21.93±4.90)kg, (29.7±5.94)kg and (14.69±4.79)kg, (24.78±7.02)kg respectively, showing significant differences in the intra-group comparison of the above indicators ( t=8.903, 5.421, P<0.05); the Android fat mass and fat-free mass were (4.16±1.19)kg, (5.01±1.12)kg and (2.57±0.90)kg, (3.83±1.20)kg respectively, showing significant differences in the intra-group comparison of the above indicators ( t=8.288, 7.637, P<0.05); the Gynoid fat mass and fat-free mass were (5.51±1.42)kg, (9.27±1.86)kg and (3.85±1.16)kg, (7.65±2.31)kg, respectively, showing significant differences in the intra-group comparison of the above indicators ( t=7.461, 5.672, P<0.05); the skeletal muscle index were (8.86±1.38)kg/m 2 and (7.49±1.71)kg/m 2, respectively, showing a significant differences in the intra-group comparison ( t=5.724, P<0.05). For patients in the LRYGB group, the whole fat mass, muscle mass, bone mineral content, fat-free mass at preoperation and postoperative 6 months were (23.58±7.80)kg, (51.76±8.35)kg, (2.55±0.48)kg, (54.31±8.63)kg and (16.88±6.86)kg, (49.41±7.70)kg, (2.47±0.50)kg, (51.88±8.05)kg, respectively, showing significant differences in the intra-group comparison of the above indicators ( t=9.001, 3.974, 4.354, 4.075, P<0.05); the arms fat mass were (2.72±2.37)kg and (1.73±1.02)kg, respectively, showing significant differences in the intra-group comparison of the above indicators ( t=3.470, P<0.05); the legs fat mass, muscle mass, fat-free mass were (5.21±2.46)kg, (16.68±3.50)kg, (17.60±3.66)kg and (4.01±2.12)kg, (15.63±2.90)kg, (16.54±3.05)kg, respectively, showing significant differences in the intra-group comparison of the above indicators ( t=6.592, 3.372, 3.319, P<0.05); the trunk fat mass were (14.87±4.11)kg and (10.38±4.00)kg, respectively, showing a significant difference in the intra-group comparison of the above indicators ( t=8.431, P<0.05); the Android fat mass and fat-free mass were (2.61±0.86)kg, (3.96±0.87)kg and (1.81±0.79)kg, (3.78±0.67)kg respectively, showing significant differences in the intra-group comparison of the above indicators ( t=8.032, 2.153, P<0.05); the Gynoid fat mass and fat-free mass were (3.14±1.17)kg, (7.89±1.58)kg and (2.44±0.96)kg, (7.43±1.26)kg, respectively, showing significant differences in the intra-group comparison of the above indicators ( t=6.112, 3.207, P<0.05); the skeletal muscle index were (8.04±1.22)kg/m 2 and (7.43±1.13)kg/m 2, respectively, showing significant differences in the intra-group comparison ( t=4.953, P<0.05). There were significant differences in whole muscle mass, whole fat-free mass, arms fat mass, legs muscle mass, legs fat-free mass, trunk fat-free mass, Android fat-free mass, Gynoid fat-free mass and skeletal muscle index at postoperative 6 months between LSG group and LRYGB group ( F=13.846, 13.614, 23.696, 7.100, 7.127, 15.243, 16.921, 8.625, 5.497, P<0.05). (3) Analysis of the correlation between BF% and anthropometric parameters, glucolipid metabolism: the whole BF% of 66 patients was positively correlated with body mass, BMI, WC and WHR ( r=0.405, 0.663, 0.625, 0.331, P<0.05); the arms BF% was positively correlated with body mass, BMI, WC and WHR ( r=0.432, 0.682, 0.639, 0.309, P<0.05); the legs BF% was positively correlated with body mass, BMI and WC ( r=0.366, 0.646, 0.564, P<0.05); the trunk BF% was positively correlated with body mass, BMI, WC and WHR ( r=0.332, 0.560, 0.554, 0.335, P<0.05); the Android BF% was positively correlated with body mass, BMI, WC and WHR ( r=0.327, 0.537, 0.543, 0.336, P<0.05); the Gynoid BF% was positively correlated with BMI and WC ( r=0.561, 0.488, P<0.05), and negatively correlated with FPG ( r=-0.491, P<0.05); the A/G ratio was negatively correlated with BMI ( r=-0.334, P<0.05), and positively correlated with FPG ( r=0.506, P<0.05); the skeletal muscle index was positively correlated with body mass, BMI, WC and WHR ( r=0.757, 0.641, 0.609, 0.519, P<0.05), and negatively correlated with HDL-C ( r=-0.369, P<0.05). (4) Follow-up: 66 patients were followed up at the time of postoperative 6 month. Conclusions:Both LSG and LRYGB significantly change body composition. LRYGB is superior to LSG in reducing trunk BF% and Android BF%. The effects of the two surgical methods on fat mass and bone mineral content are similar. LSG lead to a more significant decrease in whole muscle mass, and LRYGB lead to a more significant decrease in legs muscle mass and skeletal muscle index.
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To find out whether the integration of PERV in HEK293 cells influence the expression profile of HERV-W,based on the gene sequences of H ERV-W in GenBank,the primers of H ERV-W gag,pol,env,env from locus 7q21.2 genes as well as humanβ-actin were synthesized respectively and were used to develop the means of SYBR Green I real-time reverse transcription-quantitative polymerase chain reaction (RT-qPCR) to detect the mRNA expression of these genes in HEK293 cells and PERV-infected HEK293 cells.Experiments showed that these RT-qPCR methods were of good specificity,sensitivity and stability:the standard curves could ensure the correlation coefficients to be all above 0.99 and the amplification efficiency were between 95% and 110%,which verified that these methods could be used to detect the mRNA of HERV-W and humanβ-actin in culture cells.Through the detection and analysis of relative gene expression data using the 2-△△ct method,we found that the mRNA level of HERV-W gag,pol,env,env from locus 7q21.2 genes as well as humanβ-actin in PERV-infected HEK293 cells increased,after integration,by 37.08,42.56,2.49 and 13.17 times than in non-infected HEK293 cells,respectively.Results provide a reference to further evaluate the safety of PERV pathogen in xenotransplantation.
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Objective To study the changes of gonadotropin releasing hormone agonist (GnRH-a) in pinopodes during luteal phase and to explore the possible mechanism of GnRH-a in luteal phase support of assisted reproductive technology (ART).Methods Totally 40 primary infertility women who were treated with ART due to male factors were enrolled,according to the order of the group they were randomly divided into experimental group and control group.On the 7th day after ovulation,the experimental group received a subcutaneous injection of 0.1 mg of GnRH-a,while the control group received a subcutaneous injection of placebo only (0.9% salinc 2 ml),3 days later they came to the clinic again.Serum estradiol and progesterone levels were measured before and after treatment in each group.Pinopodes were collected for electron microscopic examination.Levels of ER and PR were detected by western blot.Results (1) There was no significant difference between the experimental group and the control group in the estrogen level before and after the treatment (all P>0.05).The level of progesterone in the experimental group after treatment [(66.8± 14.9) nmol/L] was significantly higher than that before treatment(P<0.05);also significantly higher than the same period of the control group (P<0.05).(2) There was no significant difference in the expression of ER protein in the experimental group before and after treatment (P>0.05).The expression of PR in the experimental group after treatment was significantly lower than that before treatment (P<0.05);also lower than the same period of the control group (P<0.05).(3) Expression amount of pinopodes in the experimental group after treatment was significantly higher than that before treatment [65% (13/20) versus 25% (5/20),P< 0.05],and the development trend was more mature [the percentage of maturation:75% (15/20) versus 35% (7/ 20),P<0.05].Expression amount of pinopodes after treatment and the percentage of maturation in the experimental group were significantly higher than those in the same period of control group (P<0.05).Conclusion GnRH-a in luteal phase support may play a role through the corpus luteum,which may promote the secretion of progesterone,downregulation of PR expression,promote the growth of pinopodes,and improve the endometrial receptivity.
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Objective To investigate the effect and mechanism of quercetin in LPS-induced acute lung injury. Methods The PaO2, PaCO2, RR and pH, the expression of IL-6、 IL-1β、 TNF-α、 JAK2、 STAT3、 p-JAK2、 p-STAT3, the pathological change and Dry/Wet of Lung tissues were evaluated in rats. Results Quercetin can significantly decrease the pathological change of Lung tissues, the PaCO2, RR and the expression of IL-6、IL-1β、 TNF-α、 p-JAK2 and p-STAT3 with increasing the PaO2, pH and D/W. Therefore, with on influence on the expression of JAK2. Conclusion Quercetin pretreatment decreased LPS-induced acute lung injury by suppressing JAK2/STATA3 signallingto improve exchange ability though reducing inflammation.
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Firstly, the concept of the construction of standardized psychological consulting room and the current situation of Mental Health Education in foreign countries is proposed. Secondly, the present state and the existing problems in the construction of psychological consulting room in our country university are analyzed. Thirdly, the necessity and significance of the construction of standardized psychological consulting room is discussed, And finally, some suggestions are put forward to promote the construction of standardized psychological consulting room in our country university.