Abstract: Objective To investigate the change of tissue structure and epithelial barrier function of excluded esophagus after esophageal exclusion surgery for tracheoesophageal fistula (TEF). Methods Twentyeight hybrid dogs were divided into 3 groups with random number method. For group A (n=12), fistula was excluded; for group B (n=12), only the esophagus was excluded; and group C (n=4) was the control group. The normal and excluded esophagus of the three groups were observed through general sampling, HE staining, transmission electron microscope (TEM), scanning electron microscope (SEM) and Lanthanum trace labeling. The interstitial space dilation (ISD) of the cells on the esophageal mucosa was measured and the number of desmosome in the intercellular space was calculated. Results The changes of tissue structure and epithelial barrier function of the excluded esophagus were similar between group A and group B. Compared with group C, group A and B showed the following changes: esophageal structure changed, submucous glandular tissues reduced or disappeared; the interstitial space increased, the number of desmosome decreased, and the epithelial barrier function attenuated, but the basal lamina did not changed and lanthanum did not break through it. For the dogs in group C, esophageal mucosa could be observed, submucosa was complete and a large number of gland tissues and micrangiums could be seen in it. The number of desmosome for group A, B and C was 0.21±0.03 entries/μm2, 0.22±0.05 entries/μm2, and 0.32±0.03 entries/μm2 respectively, which showed a significant difference between group A, B and group C (Plt;0.05), while there was no significant difference between group A and group B (Plt;0.05). The average interstitial space for group A, B and C was 2.11±0.56 μm, 2.04±0.77 μm, and 1.84±0.49 μm respectively. There was no significant difference between group A and B, while there was significant difference between group A, B and group C. Conclusion The esophageal exclusion surgery for refractory TEF is safe, feasible, and effective with few complications, and deserved to be popularized.
ObjectiveTo understand the current progress of diagnosis and treatment of accidental gallbladder cancer.MethodThe relevant literatures about diagnosis and treatment of accidental gallbladder cancer and gallbladder cancer were analyzed and summarized.ResultsDue to the lack of specific symptoms and signs in most patients with accidental gallbladder cancer at the early stage, appropriate imaging examinations and tumor marker examinations could improve the preoperative diagnosis rate. The radical resection was the most effective method for accidental gallbladder cancer, but there were still some controversies about the scope of resection according to different tumor stages, the choice of laparoscopic cholecystectomy or open cholecystectomy, and the timing of reoperation. The postoperative adjuvant therapy could improve the prognosis of patients, but most patients didn’t receive adjuvant therapy after surgery.ConclusionsMost patients with accidental gallbladder cancer are in the early stage, and most of them could obtain radical resection. If the first operation fails to achieve radical resection or postoperative pathological examination to confirm the diagnosis, comprehensive evaluation of the tumor stage and the patient’s general condition should be performed, and remedial treatment should be taken as soon as possible.
ObjectiveTo investigate that the TGF- beta/Smad signaling pathway mediated epithelial mesenchymal transition (EMT) in trachea stenosis after transplantation. Methods180-220 g male rats (n=50) were randomly divided into a control group and an experimental group. no surgical operation rats were in the control group. tracheal transplantation rats (Wistar-SD rat) were in the experimental group. Graft specimens were obtained in rats on 3,7,10,14,35,90 days after operation. HE staining is used to explain the fibrosis degree of tracheal stenosis. The fibrosis degree of tracheal stenosis was detected by calculating the fibrosis rate. Immunohistochemical staining was used to detect transplanted tracheal, such as EMT related molecules E-cadherin, vimentin, alpha-SMA expression, p-Smad2/3 expression and transcription factor ZEB1, Snail1 expression in tracheal graft specimens. ResultsHE staining showed that the tracheal fibrosis rate of the control group was 0.171±0.020, fibrosis rate was 0.537±0.013 (P < 0.01) on the third day after transplantation. The result of immunohistochemical staining showed that vimentin positive epithelial cells increased significantly (P < 0.05). E-cadherin expression significantly reduced (P < 0.05). Compared with the control group, TGF- beta expression increased (P < 0.05) in the experiment group. Compared with the control group, the expression of p-Smad2/3, the transcription factor ZEB1 and Snail1 significantly increased (P < 0.05) in the experiment group. ConclusionMechanism of tracheal stenosis may be due to EMT. At the same time, TGF- beta/Smad signaling pathway and transcription factor ZEB1, Snail1 may regulate the EMT.
Objective To explore the effectiveness of the transforming growth factor-β1(TGF-β1) and tumor necrosis factor-α(TNF-α) inducing human bronchial epithelial(HBE) cells to optimize epithelia-mesenchymal transformation(EMT) model. Methods Blank control, TGF-β1 10 ng/ml, TNF-α 10 ng/ml, TGF-β1 10 ng/ml+TNF-α 10 ng/ml induced human epithelial cells for 24 hours. Then the change of morphological alteration were observed by applying CCK8, cells migration assay and Western blot technique. Results When TGF-β1 plus TNF-α induced human epithelial cells for 24 hours, most of HBE cells traits changed including morphological alteration from cobblestone to fusiform, connection between cells vanishing, intercellular space broadening. In the experiments of checking cell migration capacity by the vitro scratch test, the group spacing was 420.06±10.38 μm in the blank control group, 499.86±34.00 μm in the TGF-β1 10 ng/ml group, 514.93±10.56 μm in the TNF-α 10 ng/ml group, 569.68±33.58 μm in the TGF-β1 10 ng/ml+TNF-α10 ng/ml group. TGF-β1 cooperated with TNF-α led to scratch spacing narrowing significantly. Western blot analysis showed that expression of E-cadherin and Vimentin varied significantly in the TGF-β1+TNF-α group. Conclusion Inducing human bronchial epithelial cell by TGF-β1 cooperated with TNF-α optimizes EMT model.
ObjectiveTo analyze the surgical outcome of patients with lung cancer using double micro-portal video-assisted thoracic surgery (VATS) technique.MethodsWe retrospectively analyzed the perioperative data of 200 patients with primary lung cancer who underwent successful two micro-portal VATS lobectomy between September 2016 and June 2018 at our unit. There were 125 males and 75 females, aged 61.01±8.71 years. The length of the main operating hole was about 2.0–2.5 cm, the size of the secondary operating hole and the observation hole was 0.5 cm individually. Thus, the total length of the three incisions was 3.0–3.5 cm.ResultsThe mean operating time was 99.18±21.77 min, blood loss was 170.35±105.12 ml, and the mean number of dissected lymph node was 15.82±3.33. The mean volume and duration of chest tube were 446.90±195.32 ml and 3.67±1.85 days. The postoperative hospital stay was 5.54±2.41 days. Only one patient died of pulmonary embolism after surgery. There were 7 patients who were converted to thoracotomy. Postoperative pulmonary infection after lobectomy was found in 8 patients. Postoperative air leak over 5 days was developed in 7 patients.ConclusionThe double micro-portal VATS procedure is a safe and effective strategy for patients with lung cancer, which is associated with decreased surgical trauma and less postoperative pain. This emerging technology may benefit patients by enhancing comfort during their postoperative hospitalization.
ObjectiveTo establish a model of tracheomalacia in beagle dogs.MethodsSix healthy male beagles were selected with a weight of 12-15 kg and age of 12-18 months. The dog was placed in supine position after being anesthetized. Then midline incision was performed on dogs' cervical skin and main trachea was dissected. Six continuous cartilage rings separated from the tracheal wall were removed. Finally, the endotracheal mucosal was examined and the wound was sutured layer by layer. Different degrees of cartilage were removed to simulate different degrees of tracheomalacia. The beagle dogs were classified into two groups (n=3 in each group): a mild tracheomalacia (MTM) group (part of the cartilage near the trachea membrane was retained) and a severe tracheomalacia (STM) group (cartilage was removed as much as possible).ResultsThe dogs in the MTM group survived for a long time after the operation, showing symptoms of airway stenosis such as wheezing and coughing. The dogs were killed at postoperative week 2, and the pathological examination was performed. In the STM group, severe asphyxia occurred in the experimental animals after tracheal intubation removed, and all dogs died within 1 hour after surgery. Postoperative bronchoscopy revealed that the trachea of the MTM group dogs collapsed in the phase of inhalation, but it could maintain a certain patency. The trachea of the STM group dogs collapsed completely in the phase of inhalation. Postoperative X-ray showed that the diameter of the airway in the MTM group was reduced and trachea did not completely collapse. In the STM group, the trachea collapsed completely at the cartilage removed segment. Pathological examination showed that the cartilage in the MTM group was partially removed and tracheomalacia was obvious in the cartilage removed segment. In the STM group, most of the cartilage was removed with only few cartilages left.ConclusionThe clinical symptoms of tracheomalacia in different degrees can be simulated and repeatable. Animal models can be established by controlling the degree of removal of tracheal cartilage ring in dogs. This method provides a simple, repeatable and standardized large animal model for the treatment and transformation of tracheomalacia.