Objective To formulate the treatment of Barrett esophagus and provide evidence-based solutions for doctors and patients. Methods We attempted to obtain evidence for treating Barrett esophagus by searching MEDLINE (1978 to 2005), CBMdisc (1978 to 2005) and The Cochrane Library (Issue 4, 2005). The quality of the retrieved evidence was evaluated. Results The therapies for Barrett esophagus include dietary intervention, change of life style, drug therapy, endoscopic therapy and surgery. We should choose different therapies according to the specific conditions of patients. Conclusions Endoscopic therapy has been developed a lot in recent years. The combination of two or more therapies may produce better effects.
Objective We aimed to evaluate the prevalence of H.pylori infection and the prevalence of cagA+ strains in patients with and without Barrett’s esophagus. Methods A full literature search to February 2008 was conducted in PubMed, MEDLINE and EMbase databases to identify case-control studies or cohort studies evaluating the prevalence of H.pylori in patients with or without Barrett’s esophagus. Summary odds ratios (OR) and 95% confidence interval (CI) were calculated by RevMan 4.2.8. Results Nineteen studies were identified (16 case-controlled studies and 3 cohort studies). In case controlled studies, the prevalence of H.pylori infection significantly decreased in patients with Barrett’s esophagus as compared subjects with normal endoscopic appearance, with a overall OR of 0.56 (95%CI 0.40 to 0.79). The prevalence of H.pylori infection was no statistically significant difference in patients with Barrett’s esophagus as compared to those with gastroesophageal reflux disease, with a overall OR of 0.86 (95% CI 0.74 to 1.00). In cohort studies, the prevalence of H. pylori was no statistically significant difference in patients with Barrett’s esophagus as compared to patients with normal endoscopic appearance or patients with gastroesophageal reflux disease, with a overall OR of 1.12 (95%CI 0.77 to 1.61) and 1.10 (95%CI 0.32 to 3.83). When the analysis was stratified by the status of cagA, the prevalence of cagA positive strains significantly decreased in patients with Barrett’s esophagus as compared both to subjects with normal endoscopic appearance with OR 0.30 and 95% CI 0.12 to 0.74, and to those with gastroesophageal reflux disease (OR 0.55; 95%CI 0.33 to 0.94). Irrespective of the presence of intestinal metaplasia, similar magnitude for the reduction of H.pylori infection was observed for patients with Barrett’s esophagus and those with normal endoscopic appearance. While accompared with the presence of intestinal metaplasia, Barrett’s esophagus was associated with a significantly reduction as compared to the patients with gastroesophageal reflux disease (OR 0.81, 95%CI 0.68 to 0.98). When stratified analyses were performed, a significant reduction of H.pylori infection was observed only in patients with long-segment Barrett’s esophagus (OR 0.54; 95%CI 0.35 to 0.82), but not in those with short-segment Barrett’s esophagus (OR 0.72; 95%CI 0.43 to 1.20). Conclusion This meta-analysis indicated that the prevalence of H.pylori infection, especially the prevalence of cagA positive strains was significantly lower in patients with Barrett’s esophagus than in subjects with normal endoscopic appearance. However, the prevalence of H. pylori infection was no statistical difference in patients with Barrett’s esophagus as compared to those with gastroesophageal reflux disease. Colonization with cagA positive strains may be protective against the formation of Barrett’s esophagus.
Barrett’s esophagus is considered an important risk factor for the pathogenesis of esophageal adenocarcinoma. Treatment strategies for diseases from high-grade dysplasia (HGD) to adenocarcinoma are different. The recurrence rates of endoscopic treatment and anti-reflux surgery are comparatively higher. Abnormal lesions of the esophagus can be completely resected by esophagectomy for the treatment of HGD to adenocarcinoma, and treatment outcomes are confirmed.But appropriate surgical strategies and lymph node dissection scopes should be chosen according to different cancer staging.Lymph node metastasis is a major factor in determining prognosis.
Objective To investigate the effect on motility function of remnant esophagus and intrathoracic stomach after esophagectomy for esophageal and cardiac carcinoma. Methods Thirty nine patients with esophageal and cardiac carcinoma were divided into two groups according to surgical procedure. Group of anastomosis above aortic arch (n = 21): esophagogastrostomy was performed above the aortic arch in patients with esophageal carcinoma of the middle third; group of anastomosis below aortic arch(n= 18): esophagogastrostomy was performed below the aortic arch in patients with esophageal carcinoma of the low third and cardiac carcinoma. Six health volunteers without gastroesophageal reflux were recruited as control group. Esophageal manometry and upper alimentary tract roentgenography were performed in all patients. Results There was a high pressure zone at the anastomotic orifice in parts of patients of both anastomosis groups. The resting pressure of remnant esophagus was higher than that in control group (P〈0. 05), and similar to the resting pressure of intrathoracic stomach (P〉0. 05). There was no significant difference in resting pressure of remnant esophagus and intrathoracic stomach between two anastomosis groups (P〉0.05). The amplitude and number of primary peristalsis in remnant esophagus of group of anastomosis above aortic arch were significantly reduced in comparison with control group. The number of primary peristalsis in remnant esophagus of group of anastomosis above aortic arch was significantly lower than that of group of anastomosis below aortic arch (P〈0. 05). The motility in the body of intrathoracic stomach was not observed. Weak motor activity of the gastric antrum was observed with upper alimentary tract roentgenography after surgery and evidently recovered 1 year after surgery. Conclusions The resting pressure of remnant esophagus and intrathoracic stomach is not influenced by the site of anastomosis. Esophagogastric anastomosis at the upper thorax is likely to result in poor motility of remnant esophagus. The motor activity of intrathoracic stomach becomes weak after esophagectomy and then recovers gradually over time, hut still fail to return to normal level.
In the past fifty more years, many research results have been achieved in the field of artificial esophagus which has been a major subject of surgical study on esophagus. Unfortunately,a very satisfactory artificial esophagus has not been found due to lack of proper artificial materials and problems of postoperative complications which results in great hindrance to applying them to clinical purpose. The current research focuses on artificial esophaguses constructed with acellular matrix as well as constructed through tissue engineering,furthermore,how to prevent and cure postoperative complications is still the main difficulty. This paper gives an overview of the recent study results,points in dispute, present status of research and the recent advances, and an overview to the future of artificial esophagus.
Objective To study the construction feasibility of a biodegradable artificial esophagus by the squamous epithelial cells and the myoblast cells seeded on the small intestinal submucosa(SIS) and to investigate the growth patternand angiogenesis of the co-cultured human embryonic squamous epithelial cells and the skeletal myoblasts in vivo. Methods The squamous epithelial cells and the myoblast cells were obtained from the 20-week aborted fetus. Both of their cellswere marked by 5-BrdU in vitro.The isolated cells were then seeded on the SIS and co-cultured in vitro for 24 hours, and then the compound of the cells and the SIS was transplanted into the subcutaneous tissue of the athymismus mice. The observation on the morphology and the cytokeratin AE3 and α-actin specified immunohistochemistry of the squamous epithelial cells and the myoblastcells was performed at each of the following time points: 3 days, 1 week, 2 weeks, and 3 weeks after transplantation. Results The morphological observation indicated that the cultured cells could penetrate into the small intestinal submucosa and form several-layered cell structures, and that the compound of the cells and the SIS could have angiogenesis within 2-3 weeks. The 5-BrdU specified immunohistochemical observation suggested that the cells growing in the small intestinal submucosa scaffold might be the cells transplanted.The cytokeratin AE3 specified and α-actin specified immunohistochemical studies demonstrated that the transplanted cells could differentiate in vivo. Conclusion It is possible to fabricate the framework of a biodegradable artificial esophagus with the epithelial cells and the myoblast cells seeded on the small intestinal submucosa.
Objective To verify adhesion and growth ability of canine esophageal epithelial cells (EECs) on the poly (lactic-co-glycolic acid) (PLGA), a three-dimensional biodegradable polymer scaffold, and to reconstruct the canine esophagus by the tissue engineering. Methods Free canine EECs isolated from adult dogs by esophagoscopy were seeded onto the PLGA scaffolds precoated with collagen type Ⅳ after the first passage by the in vitro culture. Then, the composites of the cell-scaffold were respectively cultured invitro and in the abdominal cavity of the dog in vivo. After different periods, the cell-seeded scaffolds were assessed by histological HE staining, scanning electron microscopy, and immunohistochemical analysis. Results The cells displayed a cobblestone-shaped morphology that was characteristic of the epithelial cells and were stained to be positive for cytokeratin, which indicated that the cells were EECs. The canine EECs were well distributed and adhered to the PLGA scaffolds, and maintained their characteristics throughout the culture period. After the culture in vivo for 4 weeks, the cell-seeded scaffolds looked like tissues. Conclusion PLGA scaffolds precoated with collagen type Ⅳ can be suitable for adhesion and proliferation of EECs, and can be used as a suitable tissue engineering carrier of an artificial esophagus.
Objective To discuss the applycation possibility of themicroscopic stripping technique used in the primary culture of human embryonicesophagus squamous epithelial cells, and of the methodds for the isolation, depuration and subculture of the esophagus epithelial cells in vitro. Methods The squamous epithelial cells wereobtained from the esophagus mucous membrane of the 20-week abortion fetus through the microscopic stripping technique, and were digested with trypsin. Then, the morphological, immunohistochemical observation and the growth curve of the isolated cells were studied. Results The isolated cells were spherical in the cell suspension and spherical-like or polygon-like after attachment to the culture flask.The squamous epithelial specialized cytokeratin staining was bly positive. And the morphological studies by the transmission electron microscopy indicated that the cultured cells were squamous epithelial cells. The squamous epithelial cells reached the peak level 3-4 days after the transfer of the culture. The absorbanceat 3 and 4 days was significantly higher than that at 1,2,5 and 6 days (P<0.05). Conclusion A large mumber of squamous epithelial cells can be available with the microscopic stripping technique and the digestion method. Thecultured squamous epithelial cells can be proliferated quickly, and fit for the tissue engineering study.
OBJECTIVE: To repair esophageal defects with an artificial prosthesis composed of biodegradable materials and nonbiodegradable materials, which is gradually replaced by host tissue. METHODS: The artificial esophagus was a two-layer tube consisting of a chitosan-collagen sponge and an inner polyurethane stent with a diameter of 20 mm and a length of 50 mm. We used the artificial esophagus to replace 5 cm esophageal defects in group I (five dogs) and in group II (ten dogs), and nutritional support was given after operation. The inner polyurethane stent was removed after 2 weeks in group I and after 4 weeks in group II endoscopically and epithelization of the regenerated esophagus was observed by histologic examination and transmission electron microscope. RESULTS: In group I, the polyurethane stent was removed after 2 weeks, and partial regeneration of esophageal epithelial was observed; and constriction of the regenerated esophagus progressed and the dogs became unable to swallow after 4 weeks. In group II, the polyurethane stent was removed after 4 weeks, highly regenerated esophageal tissue successfully replaced the defect and complete epithelization of the regenerated esophagus was observed. After 12 weeks, complete regeneration of esophageal mucosa structures, including mucosal smooth muscle and mucosal glands and partial regeneration of esophageal muscle tissue were observed. CONCLUSION: Esophageal high-order structures can be regenerated and provided a temporary stent and support by polyurethane stent and an adequate three-dimensional structure for 4 weeks by collagen-chitosan sponge.
OBJECTIVE To evaluate the effect of various covering tissues for improving the cure rate of spontaneous rupture of esophagus. METHODS From 1970 to 1994, 13 cases with spontaneous rupture of esophagus were performed primary repair, among them, 10 cases were covered by pedicled greater omentum after impair, and the other 3 cases were covered by pedicled pleural flap. RESULTS: Satisfactory result and complete recovery were obtained in all 10 cases by using pedicled greater omentum. Two cases among 3 cases using pedicled pleural flap suffered re-rupture of esophagus at 5 days and 8 days after operation, and died because of whole body exhaustion. CONCLUSION Pedicled greater omentum is a good covering tissue for repair of spontaneous rupture of esophagus.