Fabrication of human oral mucosal epithelial cell sheets for treatment of esophageal ulceration by endoscopic submucosal dissection
Esophageal stenosis is one of the major complications of aggressive endoscopic resection. Tissue-engineered epithelial cell grafts have demonstrated effectiveness in promoting re-epithelialization and suppressing inflammation causing esophageal scarring and stenosis after endoscopic submucosal disse...
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| Published in | Gastrointestinal endoscopy Vol. 72; no. 6; pp. 1253 - 1259 |
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| Main Authors | , , , , , , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
Maryland heights, MO
Mosby, Inc
01.12.2010
Elsevier |
| Subjects | |
| Online Access | Get full text |
| ISSN | 0016-5107 1097-6779 1097-6779 |
| DOI | 10.1016/j.gie.2010.08.007 |
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| Abstract | Esophageal stenosis is one of the major complications of aggressive endoscopic resection. Tissue-engineered epithelial cell grafts have demonstrated effectiveness in promoting re-epithelialization and suppressing inflammation causing esophageal scarring and stenosis after endoscopic submucosal dissection (ESD) in an animal model.
To confirm the reproducibility and efficacy of a human oral mucosal epithelial cell (hOMEC) sheet cultured on temperature-responsive surface in conformity with Good Manufacturing Practice guidelines.
A preclinical study.
Good Manufacturing Practice grade cell-processing center, animal laboratory.
Canine esophageal ulcer models, which were made by ESD.
Oral mucosal specimens were obtained from 7 healthy volunteers.
Fabricated and transplanted hOMEC sheets were subjected to histological analysis.
The reproducibility of the fabrication of hOMEC sheets was confirmed. In this method, animal-derived materials such as 3T3 feeder layer and fetal bovine serum were successfully excluded from the culture condition. Furthermore, the environment of the culture room and safety cabinet in the cell-processing center was maintained for obtaining sterility assurances during the fabrication. Transplanted hOMEC sheets after ESD were observed to graft onto canine esophageal ulcer surfaces.
Small number of subjects, animal model.
Cultured hOMEC sheets were fabricated without animal-derived materials and demonstrated efficacy as a medical device that promotes re-epithelialization of an esophageal ulcer after ESD. |
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| AbstractList | Background Esophageal stenosis is one of the major complications of aggressive endoscopic resection. Tissue-engineered epithelial cell grafts have demonstrated effectiveness in promoting re-epithelialization and suppressing inflammation causing esophageal scarring and stenosis after endoscopic submucosal dissection (ESD) in an animal model. Objective To confirm the reproducibility and efficacy of a human oral mucosal epithelial cell (hOMEC) sheet cultured on temperature-responsive surface in conformity with Good Manufacturing Practice guidelines. Design A preclinical study. Setting Good Manufacturing Practice grade cell-processing center, animal laboratory. Subjects Canine esophageal ulcer models, which were made by ESD. Interventions Oral mucosal specimens were obtained from 7 healthy volunteers. Main Outcome Measurement Fabricated and transplanted hOMEC sheets were subjected to histological analysis. Results The reproducibility of the fabrication of hOMEC sheets was confirmed. In this method, animal-derived materials such as 3T3 feeder layer and fetal bovine serum were successfully excluded from the culture condition. Furthermore, the environment of the culture room and safety cabinet in the cell-processing center was maintained for obtaining sterility assurances during the fabrication. Transplanted hOMEC sheets after ESD were observed to graft onto canine esophageal ulcer surfaces. Limitations Small number of subjects, animal model. Conclusions Cultured hOMEC sheets were fabricated without animal-derived materials and demonstrated efficacy as a medical device that promotes re-epithelialization of an esophageal ulcer after ESD. Esophageal stenosis is one of the major complications of aggressive endoscopic resection. Tissue-engineered epithelial cell grafts have demonstrated effectiveness in promoting re-epithelialization and suppressing inflammation causing esophageal scarring and stenosis after endoscopic submucosal dissection (ESD) in an animal model. To confirm the reproducibility and efficacy of a human oral mucosal epithelial cell (hOMEC) sheet cultured on temperature-responsive surface in conformity with Good Manufacturing Practice guidelines. A preclinical study. Good Manufacturing Practice grade cell-processing center, animal laboratory. Canine esophageal ulcer models, which were made by ESD. Oral mucosal specimens were obtained from 7 healthy volunteers. Fabricated and transplanted hOMEC sheets were subjected to histological analysis. The reproducibility of the fabrication of hOMEC sheets was confirmed. In this method, animal-derived materials such as 3T3 feeder layer and fetal bovine serum were successfully excluded from the culture condition. Furthermore, the environment of the culture room and safety cabinet in the cell-processing center was maintained for obtaining sterility assurances during the fabrication. Transplanted hOMEC sheets after ESD were observed to graft onto canine esophageal ulcer surfaces. Small number of subjects, animal model. Cultured hOMEC sheets were fabricated without animal-derived materials and demonstrated efficacy as a medical device that promotes re-epithelialization of an esophageal ulcer after ESD. Esophageal stenosis is one of the major complications of aggressive endoscopic resection. Tissue-engineered epithelial cell grafts have demonstrated effectiveness in promoting re-epithelialization and suppressing inflammation causing esophageal scarring and stenosis after endoscopic submucosal dissection (ESD) in an animal model.BACKGROUNDEsophageal stenosis is one of the major complications of aggressive endoscopic resection. Tissue-engineered epithelial cell grafts have demonstrated effectiveness in promoting re-epithelialization and suppressing inflammation causing esophageal scarring and stenosis after endoscopic submucosal dissection (ESD) in an animal model.To confirm the reproducibility and efficacy of a human oral mucosal epithelial cell (hOMEC) sheet cultured on temperature-responsive surface in conformity with Good Manufacturing Practice guidelines.OBJECTIVETo confirm the reproducibility and efficacy of a human oral mucosal epithelial cell (hOMEC) sheet cultured on temperature-responsive surface in conformity with Good Manufacturing Practice guidelines.A preclinical study.DESIGNA preclinical study.Good Manufacturing Practice grade cell-processing center, animal laboratory.SETTINGGood Manufacturing Practice grade cell-processing center, animal laboratory.Canine esophageal ulcer models, which were made by ESD.SUBJECTSCanine esophageal ulcer models, which were made by ESD.Oral mucosal specimens were obtained from 7 healthy volunteers.INTERVENTIONSOral mucosal specimens were obtained from 7 healthy volunteers.Fabricated and transplanted hOMEC sheets were subjected to histological analysis.MAIN OUTCOME MEASUREMENTFabricated and transplanted hOMEC sheets were subjected to histological analysis.The reproducibility of the fabrication of hOMEC sheets was confirmed. In this method, animal-derived materials such as 3T3 feeder layer and fetal bovine serum were successfully excluded from the culture condition. Furthermore, the environment of the culture room and safety cabinet in the cell-processing center was maintained for obtaining sterility assurances during the fabrication. Transplanted hOMEC sheets after ESD were observed to graft onto canine esophageal ulcer surfaces.RESULTSThe reproducibility of the fabrication of hOMEC sheets was confirmed. In this method, animal-derived materials such as 3T3 feeder layer and fetal bovine serum were successfully excluded from the culture condition. Furthermore, the environment of the culture room and safety cabinet in the cell-processing center was maintained for obtaining sterility assurances during the fabrication. Transplanted hOMEC sheets after ESD were observed to graft onto canine esophageal ulcer surfaces.Small number of subjects, animal model.LIMITATIONSSmall number of subjects, animal model.Cultured hOMEC sheets were fabricated without animal-derived materials and demonstrated efficacy as a medical device that promotes re-epithelialization of an esophageal ulcer after ESD.CONCLUSIONSCultured hOMEC sheets were fabricated without animal-derived materials and demonstrated efficacy as a medical device that promotes re-epithelialization of an esophageal ulcer after ESD. |
| Author | Yamato, Masayuki Okano, Teruo Yamamoto, Masakazu Sasaki, Ryo Kondo, Makoto Takagi, Ryo Namiki, Hideo Murakami, Daisuke Nishida, Kohji Mizutani, Manabu Ohki, Takeshi |
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| Keywords | KCM FBS CPC ESD hOMEC GMP AHS autologous human serum Good Manufacturing Practice cell-processing center endoscopic submucosal dissection fetal bovine serum human oral mucosal epithelial cell keratinocyte culture medium Human Treatment Mucosa Gastroenterology Oral administration Epithelial cell Submucosal resection Endoscopy Ulceration Esophagus |
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| Snippet | Esophageal stenosis is one of the major complications of aggressive endoscopic resection. Tissue-engineered epithelial cell grafts have demonstrated... Background Esophageal stenosis is one of the major complications of aggressive endoscopic resection. Tissue-engineered epithelial cell grafts have demonstrated... |
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| SubjectTerms | Animals Biological and medical sciences Disease Models, Animal Dissection - methods Dogs Epithelial Cells - pathology Epithelial Cells - transplantation Esophageal Diseases - pathology Esophageal Diseases - surgery Esophagoscopy - methods Gastroenterology and Hepatology Gastroenterology. Liver. Pancreas. Abdomen Humans Medical sciences Mouth Mucosa - transplantation Tissue Engineering - methods Ulcer - pathology Ulcer - surgery |
| Title | Fabrication of human oral mucosal epithelial cell sheets for treatment of esophageal ulceration by endoscopic submucosal dissection |
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