Multimodal treatment for lymph node recurrence of esophageal carcinoma after curative resection.

BACKGROUND: Although esophagectomy with extended lymph node dissection can improve survival of patients with esophageal carcinoma, lymph node metastasis has remained one of the main recurrence patterns. The aim of this study was to evaluate the outcome of intensive treatment for recurrent lymph node metastasis. METHODS: Recurrent lymph node metastasis was detected in 68 patients with thoracic esophageal carcinoma after curative esophagectomy (R0, International Union Against Cancer criteria). Multimodal treatment was performed in 41 patients: 19 patients underwent lymphadenectomy with adjuvant therapy, and 22 received definitive chemoradiotherapy and repeated chemotherapy. The remaining 27 patients (40%) received chemotherapy or best supportive care. RESULTS: Survival of the lymphadenectomy and the chemoradiotherapy groups was significantly better than that of the patients who received chemotherapy or best supportive care (P < .0001). Fifteen patients (79%) underwent curative lymph node dissection (R0) in the lymphadenectomy group. Complete response, partial response, and stable disease were obtained in 8 (37%), 10 (45%), and 4 (18%) patients who received chemoradiotherapy, respectively. There was no statistically significant difference in survival between the lymphadenectomy and the chemoradiotherapy groups. Although the location of lymph node metastasis did not influence survival significantly, seven patients with nodes around the abdominal aorta did not survive longer than 3 years. The most common repeat recurrence pattern was organ metastasis after the treatment. Multivariate analysis showed that the number of metastatic nodes and tumor marker were independent prognostic factors. CONCLUSION: Multimodal treatment including lymphadenectomy and chemoradiotherapy could improve survival of the patients with lymph node recurrence of esophageal carcinoma after curative resection.

Cell delivery in regenerative medicine: the cell sheet engineering approach.

Recently, cell-based therapies have developed as a foundation for regenerative medicine. General approaches for cell delivery have thus far involved the use of direct injection of single cell suspensions into the target tissues. Additionally, tissue engineering with the general paradigm of seeding cells into biodegradable scaffolds has also evolved as a method for the reconstruction of various tissues and organs. With success in clinical trials, regenerative therapies using these approaches have therefore garnered significant interest and attention. As a novel alternative, we have developed cell sheet engineering using temperature-responsive culture dishes, which allows for the non-invasive harvest of cultured cells as intact sheets along with their deposited extracellular matrix. Using this approach, cell sheets can be directly transplanted to host tissues without the use of scaffolding or carrier materials, or used to create in vitro tissue constructs via the layering of individual cell sheets. In addition to simple transplantation, cell sheet engineered constructs have also been applied for alternative therapies such as endoscopic transplantation, combinatorial tissue reconstruction, and polysurgery to overcome limitations of regenerative therapies and cell delivery using conventional approaches.