Randomized comparative long-term survival study of endoscopic and thoracoscopic esophageal wall repair after NOTES mediastinoscopy in healthy and compromised animals

A. Fritscher-Ravens; T. Cuming; C. F. Eisenberger; M. Ghadimi; A. Nilges; P. Meybohm; S. Schiffmann; B. Jacobsen; F. Seehusen; H. Niemann; W. T. Knoefel

doi:10.1055/s-0029-1244019

Endoscopy 2010; 42(6): 468-474
DOI: 10.1055/s-0029-1244019

Original article

Randomized comparative long-term survival study of endoscopic and thoracoscopic esophageal wall repair after NOTES mediastinoscopy in healthy and compromised animals

A. Fritscher-Ravens¹ , T. Cuming¹ , C. F. Eisenberger² , M. Ghadimi² , A. Nilges² , P. Meybohm³ , S. Schiffmann⁴ , B. Jacobsen⁵ , F. Seehusen⁵ , H. Niemann⁶ , W. T. Knoefel²

¹Homerton University Hospital, London, UK
²Department of Surgery, Heinrich-Heine-Universität, Düsseldorf, Germany
³Department of Anaesthesia, University Hospital Schleswig-Holstein-Campus Kiel, Germany
⁴Department of Pathology, Heinrich-Heine-Universität, Düsseldorf, Germany
⁵Department of Pathology, University of Veterinary Medicine Hannover, Germany
⁶Friedrich Loeffler Institute for Farm Animal Genetics, Mariensee, Germany

Abstract

Background and study aims: Natural orifice transluminal endoscopic surgery (NOTES) has not yet been widely adopted because of lack of suitable equipment and fear of possible serious complications, especially in the mediastinum. We compared endoscopic with thoracoscopic esophageal wall repair after full-thickness esophageal wall incision (FTEI) and NOTES mediastinoscopy in healthy versus compromised animals.

Methods: After FTEI for mediastinoscopy, 24 pigs (12 healthy, 12 compromised) were randomly allocated to endoscopic or thoracoscopic repair (each arm of each group, n = 6). They were kept alive for 3 months after endoscopic closure with prototype T-anchor suturing or thoracoscopic repair.

Results: FTEI and mediastinoscopy were uneventful in all as was the initial repair of the incision (mean repair times: thoracoscopic 65 ± 3.2 minutes, endoscopic 52 ± 5.1 minutes; P < 0.0005). Post procedure, all 12 healthy pigs thrived with no complications or deaths. Two compromised animals died during the preparation period, and had to be replaced. In the compromised group, during endoscopic repair, 2 / 6 pigs suffered from gastric reflux into esophagus and mediastinum; the repair was completed and the pigs kept alive; one subsequently died of mediastinitis, and in the other, autopsy showed a gastric abscess in the lower mediastinum. Regarding the compromised thoracoscopic subgroup, one animal died from mediastinitis and all had abscesses at or near the incision sites.

Conclusion: Transesophageal mediastinoscopy could be performed equally well as the transthoracic procedure, both in healthy and compromised animals. However, on follow-up, the compromised animals had worse outcomes, with more complications and two deaths (17 %), one in each arm.

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References

1 Kalloo A N, Singh V K, Jagannath S B. et al . Flexible transgastric peritoneoscopy: a novel approach to diagnostic and therapeutic interventions in the peritoneal cavity. Gastrointest Endosc. 2004; 60 114-117
2 Ikeda K, Fritscher-Ravens A, Mosse C A. et al . Endoscopic full-thickness resection with sutured closure in a porcine model. Gastrointest Endosc. 2005; 62 122-129
3 Marescaux J, Dallemagne B, Perretta S. et al . Surgery without scars: report of transluminal cholecystectomy in a human being. Arch Surg. 2007; 142 823-826
4 Palanivelu C, Rajan P S, Rangarajan M. et al . NOTES: Transvaginal endoscopic cholecystectomy in humans – preliminary report of a case series. Am J Gastroenterol. 2009; Mar 10 [Epub ahead of print]
5 Swain P. Nephrectomy and natural orifice translumenal endoscopy (NOTES): transvaginal, transgastric, transrectal, and transvesical approaches. J Endourol. 2008; 22 811-818
6 Raju G S, Fritscher-Ravens A, Rothstein R I. et al . Endoscopic closure of colon perforation compared to surgery in a porcine model – a randomized controlled trial. Gastrointest Endosc. 2008; 68 324-332
7 Kantsevoy S V. Endoscopic full-thickness resection: new minimally invasive therapeutic alternative for GI-tract lesions. Gastrointest Endosc. 2006; 64 90-91
8 Fritscher-Ravens A, Cuming T, Jacobsen B. et al . Feasibility and safety of endoscopic full-thickness esophageal wall resection and defect closure: a prospective long-term survival animal study. Gastrointest Endosc. 2009; 69 1314-1320
9 Lima E, Henriques-Coelho T, Rolanda C. et al . Transvesical thoracoscopy: a natural orifice translumenal endoscopic approach for thoracic surgery. Surg Endosc. 2007; 21 854-858
10 Gee D W, Willingham F F, Lauwers G Y. et al . Natural orifice transesophageal mediastinoscopy and thoracoscopy: a survival series in swine. Surg Endosc. 2008; 22 2117-2122
11 Fritscher Ravens A, Patel K, Ghanbari A. et al . Natural orifice transluminal endoscopic surgery (NOTES) in the mediastinum: long-term survival animal experiments in transesophageal access, including minor surgical procedures. Endoscopy. 2007; 39 870-875
12 Sumiyama K, Gostout C J, Rajan E. et al . Transesophageal mediastinoscopy by submucosal endoscopy with mucosal flap safety valve technique. Gastrointest Endosc. 2007; 65 679-683
13 Willingham F F, Gee D W, Lauwers G Y. et al . Natural orifice transesophageal mediastinoscopy and thoracoscopy. Surg Endosc. 2008; 22 1042-1047
14 Krasna M J, Deshmukh S, McLaughlin J S. Complications of thoracoscopy. Ann Thorac Surg. 1996; 61 1066-1069
15 Vallböhmer D, Hölscher A H, Brabender J. et al . Thoracoscopic enucleation of esophageal leiomyomas: a feasible and safe procedure. Endoscopy. 2007; 39 1097-1099
16 Von Rahden B HA, Stein H J, Feussner H, Siewert J R. Enucleation of submucosal tumors of the esophagus: minimally-invasive versus open approach. Surg Endosc. 2004; 18 924-930
17 Kent M, d’Amato T, Nordman C. et al . Minimally invasive resection of benign esophageal tumors. J Thorac Cardiovasc Surg. 2007; 134 176-181
18 Yan T D, Black D, Bannon P G, McCaughan B C. Systematic review and meta-analysis of randomized and nonrandomized trials on safety and efficacy of video-assisted thoracic surgery lobectomy for early-stage non-small-cell lung cancer. J Clin Oncol. 2009; 16 2152-2165
19 Perretta S, Allemann P, Dallemagne B, Marescaux J. Natural orifice transluminal endoscopic surgery (NOTES) for neoplasia of the chest and mediastinum. Surg Oncol. 2009; 18 177-180
20 Fritscher-Ravens A, Mosse C A, Mills T N. et al . A through the scope device for suturing and tissue approximation under endoscopic ultrasound control. Gastrointest Endosc. 2002; 56 737-742
21 Ikeda K, Mosse C A, Park P O. et al . Endoscopic full-thickness resection (EFTR): circumferential cutting method. Gastrointest Endosc. 2006; 64 82-89
22 Fritscher-Ravens A, Ganbari A, Mosse C A. et al . Transesophageal endoscopic ultrasound-guided access to the heart. Endoscopy. 2007; 39 385-389
23 Wu J T, Mattox K L, Wall M J. Esophageal perforations: new perspectives and treatment paradigms. J Trauma Injury Infect Crit Care. 2007; 63 1173-1184
24 Vogel S B, Rout W R, Martin T D, Abbitt P L. Esophageal perforation in adults – aggressive, conservative treatment lowers morbidity and mortality. Ann Surg. 2005; 241 1016-1023
25 Rosochacki S J, Piekarzewska A B, Połoszynowicz J, Sakowski T. The influence of restraint immobilization stress on the concentration of bioamines and cortisol in plasma of Pietrain and Duroc pigs. J Vet Med A Physiol Pathol Clin Med. 2000; 47 231-242
26 Huang H S, Wu M C, Li P H. Expression of steroidogenic enzyme messenger ribonucleic acid and cortisol production in adrenocortical cells isolated from halothane-sensitive and halothane-resistant pigs. J Cell Biochem. 2000; 79 58-70
27 Wedel D J, Gammel S A, Milde J H, Iaizzo P A. Delayed onset of malignant hyperthermia induced by isoflurane and desflurane compared with halothane in susceptible swine. Anesthesiology. 1993; 78 1138-1144
28 Fritscher-Ravens A, Ghanbari A, Cuming T. et al . Comparative study of NOTES alone vs. EUS-guided NOTES procedures. Endoscopy. 2008; 40 925-930
29 Fritscher-Ravens A, Ghanbari A, Thompson S. et al . Which parameters might predict complications after natural orifice endoluminal surgery (NOTES)? Results from a randomized comparison with open surgical access in pigs. Endoscopy. 2007; 39 888-892
30 Liou Y M, Jiang M J, Wu M C. Changes in thiol reactivity and extractability of myofibril bound cardiac troponin C in porcine malignant hyperthermia. J Biochem. 2002; 132 317-325
31 Liou Y M, Jiang M J, Wu M C. Altered expression of cardiac isozymes associated with malignant hyperthermia genotype in swine. Anesthesiology. 2000; 93 1312-1319
32 Davis J P, Tikunova S B. Ca(2+) exchange with troponin C and cardiac muscle dynamics. Cardiovasc Res. 2008; 77 [Epub 2007 Dec 12] 619-626
33 Petrasi Z. Non-invasive examination of the cardiovascular system of different pig genotypes. Doctorate dissertation thesis, University of Kaposvar. 2002
34 Holyoake P K, Stevenson J, Moran C. et al . The occurrence of congenital heart defects in an inbred herd of pigs in Australia. Aust Vet J. 2006; 84 129-133

A. Fritscher-RavensMD

Homerton University Hospital

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UK

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