Usefulness of blood supply visualization by indocyanine green fluorescence for reconstruction during esophagectomy

BackgroundAdequate blood supply for the reconstructed organ is important for safe esophagogastric anastomosis during esophagectomy. Recently, indocyanine green (ICG) has been used for visualization of the blood supply when anastomosis is performed in vascular surgery. To visualize the blood supply for reconstruction, we employed ICG fluorescence during esophagectomy.MethodsFrom August 2008, 40 patients received cervical or thoracic esophagectomy. They consisted of 33 patients having esophagectomy for thoracic esophageal cancer, 3 being treated for cervical esophageal cancer, and 4 with double cancer of the thoracic and cervical regions. Before and after pulling up the reconstructed organ, 2.5 mg of ICG was injected as a bolus. Then ICG fluorescence was detected by a camera and recorded.ResultsICG fluorescence was easily detected in all patients at 1 min after injection. The vascular network was well visualized in the gastric wall, colonic grafts, and free jejunal grafts. In five patients, we also performed anastomosis between the short gastric vein and the external cervical vein or superficial cervical vein. The intraoperative and postoperative course of all patients was uneventful apart from three anastomotic leakages.ConclusionsICG fluorescence can be employed to evaluate the blood supply to reconstructed organs and can be useful in selecting the patients who do not need additional vessel anastomosis. However, anastomotic leakage was not reduced, so the microcirculation detected by ICG fluorescence did not necessarily provide appropriate blood supply for a viable anastomosis.

[1]  Yosuke Seki,et al.  Feasibility of a Lateral Region Sentinel Node Biopsy of Lower Rectal Cancer Guided by Indocyanine Green Using a Near-Infrared Camera System , 2010, Annals of surgical oncology.

[2]  Tatsuya Miyazaki,et al.  Predictive value of blood flow in the gastric tube in anastomotic insufficiency after thoracic esophagectomy , 2002, World Journal of Surgery.

[3]  L. Papazian,et al.  Perioperative risk factors for anastomotic leakage after esophagectomy: influence of thoracic epidural analgesia. , 2005, Chest.

[4]  K. Okamoto,et al.  A novel diagnostic method for evaluation of vascular lesions in the digestive tract using infrared fluorescence endoscopy. , 2005, Endoscopy.

[5]  C. Mariette,et al.  Factors affecting postoperative course and survival after en bloc resection for esophageal carcinoma. , 2004, The Annals of thoracic surgery.

[6]  I. van der Tweel,et al.  Impaired healing of cervical oesophagogastrostomies can be predicted by estimation of gastric serosal blood perfusion by laser Doppler flowmetry. , 1994, The European journal of surgery = Acta chirurgica.

[7]  D. Taggart,et al.  A comparison of transit-time flowmetry and intraoperative fluorescence imaging for assessing coronary artery bypass graft patency. , 2005, The Journal of thoracic and cardiovascular surgery.

[8]  M. Imamura,et al.  Retrosternal Esophagogastrostomy with the EEA Stapler after Subtotal Resection of the Esophagus: Application and Results , 1987 .

[9]  P. D. De Leyn,et al.  Anastomotic Complications after Esophagectomy , 2002, Digestive Surgery.

[10]  Ashish S. Shah,et al.  Reducing hospital morbidity and mortality following esophagectomy. , 2004, The Annals of thoracic surgery.

[11]  M. Yano,et al.  Feasibility of a Lateral Region Sentinel Node Biopsy of Lower Rectal Cancer Guided by Indocyanine Green Using a Near-Infrared Camera System , 2009, Annals of Surgical Oncology.

[12]  H. Konno,et al.  Indocyanine green fluorescence angiography for intraoperative assessment of blood flow: a feasibility study. , 2008, European journal of vascular and endovascular surgery : the official journal of the European Society for Vascular Surgery.

[13]  Y Bandai,et al.  Indocyanine green‐fluorescent imaging of hepatocellular carcinoma during laparoscopic hepatectomy: An initial experience , 2010 .

[14]  S. Kawasaki,et al.  Additional microvascular anastomosis in reconstruction after total esophagectomy for cervical esophageal carcinoma. , 1999, American journal of surgery.

[15]  D. Taggart,et al.  Preliminary experience with a novel intraoperative fluorescence imaging technique to evaluate the patency of bypass grafts in total arterial revascularization. , 2003, The Annals of thoracic surgery.

[16]  S. Kawasaki,et al.  Revascularization using the short gastric vessels of the gastric tube after subtotal esophagectomy for intrathoracic esophageal carcinoma. , 2000, Journal of the American College of Surgeons.

[17]  H. Fujita,et al.  Factors affecting leakage following esophageal anastomosis , 2005, Surgery Today.

[18]  Marc Ruel,et al.  A new and simplified method for coronary and graft imaging during CABG. , 2002, The heart surgery forum.

[19]  E. Oki,et al.  The triangulating stapling technique for cervical esophagogastric anastomosis after esophagectomy , 2009, Surgery Today.

[20]  H. Udagawa,et al.  Surgical treatment of esophageal cancer: Tokyo experience of the three-field technique. , 2001, Diseases of the esophagus : official journal of the International Society for Diseases of the Esophagus.

[21]  I Nakajima,et al.  An intraoperative fluorescent imaging system in organ transplantation. , 2004, Transplantation proceedings.

[22]  Y. Kajimoto,et al.  Development and Clinical Application of Near-Infrared Surgical Microscope: Preliminary Report , 2001, Minimally invasive neurosurgery : MIN.

[23]  M. Kusano,et al.  Sentinel Node Mapping Guided by Indocyanine Green Fluorescence Imaging: A New Method for Sentinel Node Navigation Surgery in Gastrointestinal Cancer , 2008, Digestive Surgery.

[24]  M. Niimi,et al.  Clinical significance of tissue blood flow during esophagectomy by laser Doppler flowmetry. , 2001, The Journal of thoracic and cardiovascular surgery.

[25]  Mitsuharu Miwa,et al.  Fluorescence navigation with indocyanine green for detecting sentinel lymph nodes in breast cancer , 2005, Breast cancer.

[26]  S. Dexter,et al.  Anastomotic leakage after esophagectomy for cancer: a mortality-free experience. , 2008, Journal of the American College of Surgeons.

[27]  Y. Tachimori,et al.  Salvage esophagectomy after high-dose chemoradiotherapy for esophageal squamous cell carcinoma. , 2009, The Journal of thoracic and cardiovascular surgery.

[28]  Ken Hayashi,et al.  Image-Guided Liver Mapping Using Fluorescence Navigation System with Indocyanine Green for Anatomical Hepatic Resection , 2008, World Journal of Surgery.

[29]  Y. Kitagawa,et al.  Improvement in the Results of Surgical Treatment of Advanced Squamous Esophageal Carcinoma During 15 Consecutive Years , 2000, Annals of surgery.

[30]  N. Altorki,et al.  Intrathoracic manifestations of cervical anastomotic leaks after transthoracic esophagectomy for carcinoma. , 2005, The Annals of thoracic surgery.

[31]  Mitsuharu Miwa,et al.  Sentinel Node Mapping Guided by Indocyanine Green Fluorescence Imaging in Gastric Cancer , 2009, Annals of surgery.

[32]  J. Urschel,et al.  Mortality secondary to esophageal anastomotic leak. , 2004, Annals of thoracic and cardiovascular surgery : official journal of the Association of Thoracic and Cardiovascular Surgeons of Asia.

[33]  J. Pierie,et al.  The vascularization of a gastric tube as a substitute for the esophagus is affected by its diameter. , 1998, Diseases of the esophagus : official journal of the International Society for Diseases of the Esophagus.

[34]  Detlef Russ,et al.  Near-infrared fluorescence coronary angiography: a new noninvasive technology for intraoperative graft patency control. , 2002, The heart surgery forum.