Abstract
Esophageal peristalsis generally does not return to normal after surgical treatment of achalasia. Direct electrical stimulation of the vagus nerve is known to stimulate antegrade peristalsis in the normal esophagus; however, it is not known whether electrical stimulation will induce return of peristalsis once an achalasia-like disorder has been established. The objective of this study was to perform quantitive and qualitative measurements of motility during electrical stimulation of the vagal nerve in an animal model of achalasia. An already established and verified animal achalasia model using adult North American opossums (Didelphis virginiana) was used. Fifteen opossums were divided into three groups. Sham surgery was performed on three animals (group 1). In group 2 (n = 6) a loose Gore-Tex band (110% of the esophageal circumference) was placed around the gastroesophageal junction to prevent relaxation of the lower esophageal sphincter during swallowing. In group 3 (n = 6) a relatively tighter band (90% of the esophageal circumference) was used to further elevate the lower esophageal sphincter pressure. At 6 weeks, after manometric and radiolologic confirmation of achalasia, electrical stimulation of the esophagus was performed before and after removal of the band using a graduated square-wave electrical stimulus. Changes in esophageal neural plexi were assessed histologically. Pre- and postoperative manometric data were compared using standard statistical techniques. No difference was observed in esophageal characteristics and motility after sham surgery in group 1. Animals in group 2 demonstrated a vigorous variety of achalasia (high-amplitude, simultaneous, repetitive contractions), moderate esophageal dilatation, and degeneration of 40% to 60% of intramuscular nerve plexi. Animals in group 3 developed amotile achalasia with typical low-amplitude simultaneous (mirror image) contractions, severely dilated (“bird beak”) esophagus, and degeneration of 50% to 65% of nerve plexi. Vagal stimulation in group 2 demonstrated a significant increase in the amplitude of contractions (P < 0.001) and return of peristaltic activity in 49% of swallows before band removal. After band removal, all of the contractions were peristaltic. In group 3 vagal stimulation before and after removal of the band demonstrated a significant increase in amplitude of contractions (P < 0.0001) but no return of propagative peristalsis before band removal, however, 44% of contractions were progressive in the smooth portion of the esophagus after removal of the band. Electrical stimulation of the vagus nerve improved the force of esophageal contractions irrespective of the severity of the disease; however, peristaltic activity completely returned to normal only in the vigorous (early) variety of achalasia. Removal of the functional esophageal outlet obstruction, as with a surgical myotomy, may be necessary to obtain significant peristalsis with vagal pacing in severe achalasia.
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References
Little AG. Functional disorders of the esophagus. In Zuidema GB, ed. Shackelford’s surgery of the alimentary tract, 5th ed. vol 1. Philadelphia:W.B. Saunders, 2002, pp 271–285.
Patti MG, Pellegrini CA, Arcerito M, et al. Comparison of medical and minimally invasive surgical therapy for esopha-geal motility disorder. Arch Surg 1995;130:609–616.
Hunter JG, Richardson WS. Surgical management of acha-lasia. Surg Clin North Am 1997;77:993–1015.
Ellis FH Jr. Failure after esophagomyotomy for esophageal motor disorders. Causes, prevention, and management. Chest Surg Clin North Am 1997;7:477–487.
Sharp KW, Khaitan L, Scholz S, et al. 100 consecutive minimally invasive Heller myotomies: Lessons learned. Ann Surg 2002;235:631–638.
Parrilla P, Martinez de Haro LF, Ortiz A, Morales G, et al. Factors involved in the return of peristalsis in patients with achalasia of the cardia after Heller’s myotomy. Am J Gastroent-erol 1995;90:713–717.
Csendes A, Braghetto I, Mascaro J, Henriquez A. Late subjective and objective evaluation of the results of esophagomyotomy in 100 patients with achalasia of the esophagus. Surgery 1988;104:469–475.
Dodds WJ, Christensen J, Dent J, et al. Esophageal contractions induced by vagal stimulation in opossum. Am J Physiol 1978;235:392–401.
Gidda JS, Cobb BW, Goyal RK. Modulation of esophageal peristalsis by vagal efferent stimulation in the opossum. J Clin Invest 1981;68:1411–1419.
Herz HF. Case of achalasia of the cardia (so called cardios-pasm). Proc R Soc Med 1914;8:22–25.
Reynolds JC, Parkman HP. Achalasia. Gastroenterol Clin North Am 1989;18:223–255.
Spechler SJ, Castell DO. Classification of oesophageal motil-ity abnormalities. Gut 2001;49:145–151.
Ott DJ, Richter JE, Chen YM, et al. Radiographic and mano-metric correlation in achalasia with apparent relaxation of the lower esophageal sphincter. Gastrointest Radiol 1989;14:1–5.
Csendes A, Smok G, Braghetto I, et al. Histological studies of Auerbach’s plexuses of the oesophagus, stomach, jejunum, and colon in patients with achalasia of the oesophagus: Correlation with gastric acid secretion, presence of parietal cells and gastric emptying of solids. Gut 1992;33:150–154.
Csendes A, Smok G, Braghetto I, et al. Gastroesophageal sphincter pressure and histological changes in the distal esophagus in patients with achalasia of the esophagus. Dig Dis Sci 1985;30:941–945.
Misiewicz JJ, Waller SL, Anthony PP, Gummer JW. Achalasia of the cardia: Pharmacology and histopathology of isolated cardiac sphincteric muscle from patients with and without achalasia. QJMed 1969;38:17–30.
Patti MG, Pellegrini CA, Horgan S, et al. Minimally invasive surgery for achalasia: An 8-year experience with 168 patients. Ann Surg 1999;230:587–594.
Orringer MB, Stirling MC. Esophageal resection for achalasia: Indications and results. Ann Thorac Surg 1989;47:340–345.
Miller DL, AllenMS, Trasteck VF, et al. Esophageal resection for recurrent achalasia. Arch Surg 1995;62:322–323.
Karlstrom L, Kelly KA. Ectopic jejunal pacemakers and gastric emptying after Roux gastrectomy: Effect of intestinal pacing. Surgery 1989;106:867–871.
O’Connell PR, Kelly KA. Enteric transit and absorption after canine ileostomy. Effect of pacing. Arch Surg 1987;122:1011–1017.
Forster J, Sarosiek I, Delcore R, et al. Gastric pacing is a new surgical treatment for gastroparesis. Am J Surg 2001;182:676–681.
Schneider JH, Peters JH, Kirkman E, Bremner CG, DeMeester TR. Are the motility abnormalities of achalasia reversible? An experimental outflow obstruction in the feline model. Surgery 1999;125:498–503.
Cannon WB. Esophageal peristalsis after bilateral vagotomy. Am J Physiol 1907; 19:43 6.
Russel CO, Gannan R, Coastsworth J, et al. Relationship among esophageal dysfunction, diabetic gastroenteropathy, and peripheral neuropathy. Dig Dis Sci 1983;28:289–293.
Linde LM, Westover JL. Esophageal and gastric abnormalities in dysautonomia. Pediatrics 1962;29:303–306.
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Supported by research grants from the Curlan-Jobe Foundation and the Legacy Research Advisory Committee.
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Khajanchee, Y.S., VanAndel, R., Jobe, B.A. et al. Electrical stimulation of the vagus nerve restores motility in an animal model of achalasia. Journal of Gastrointestinal Surgery 7, 843–849 (2003). https://doi.org/10.1007/s11605-003-0028-6
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DOI: https://doi.org/10.1007/s11605-003-0028-6