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Case Reports  |   April 2001
The Use of Intravenous Nitroglycerin in a Case of Spasm of the Sphincter of Oddi during Laparoscopic Cholecystectomy
Author Affiliations & Notes
  • Hirokatsu Toyoyama, M.D.
    *
  • Nobutaka Kariya, M.D.
  • Ichiro Hase, M.D.
  • Yoshiro Toyoda, M.D.
    §
  • * Staff Anesthesiologist, § Chief Anesthesiologist, Department of Anesthesia, Osaka Kosei-Nenkin Hospital. † Research Associate, ‡ Postgraduate, Department of Anesthesiology and Intensive Care Medicine, Osaka City University Medical School.
  • Received from the Department of Anesthesia, Osaka Kosei-Nenkin Hospital, Osaka, Japan, and the Department of Anesthesiology and Intensive Care Medicine, Osaka City University Medical School, Osaka, Japan.
Article Information
Case Reports
Case Reports   |   April 2001
The Use of Intravenous Nitroglycerin in a Case of Spasm of the Sphincter of Oddi during Laparoscopic Cholecystectomy
Anesthesiology 4 2001, Vol.94, 708-709. doi:
Anesthesiology 4 2001, Vol.94, 708-709. doi:
SPASM of the sphincter of Oddi still occurs during cholecystectomy. Some reports indicate that the spasm, induced by morphine, can be reversed by injection of naloxone, 1 nalbuphine, 2 and glucagon. 3 Others maintain that nitroglycerin 4 or nifedipine 5 can relax the sphincter of Oddi muscle. We recently encountered spasm of the sphincter of Oddi during a laparoscopic cholecystectomy and treated it successfully with intravenous nitroglycerin.
Case Report
A 52-yr-old woman weighing 55 kg was scheduled to undergo elective laparoscopic cholecystectomy. Her blood pressure was 140/100 mmHg, and her heart rate was 80 beats per minute and regular at the time of admission. She had no history of medication for hypertension. Laboratory data, including liver function test results, were within normal limits. Drip infusion cholecystography provided clear visualization of the gallbladder and biliary ducts.
The preanesthetic medication consisted of meperidine (35 mg intramuscularly), atropine (0.5 mg intramuscularly) and famotidine (20 mg intramuscularly). In the operating room, the usual monitors were put in place. After a single epidural injection of morphine (2 mg/4 ml normal saline), general anesthesia was induced with thiopental (100 mg intravenously) followed by vecuronium (5 mg intravenously) and maintained with isoflurane (0.3–1.0%) and nitrous oxide–oxygen (fractional inspired oxygen tension, 0.33). Nicardipine was administered to control blood pressure because the patient remained hypertensive (170/100 mmHg) after induction. The first cholangiogram via  the cystic duct tube showed obstruction to the flow of radiographic contrast at the terminal end of the common bile duct (fig. 1). This was confirmed with a second cholangiogram. Because we speculated that the obstruction might be the result of spasm of the sphincter of Oddi induced by epidural morphine, we injected naloxone (0.2 mg intravenously). However, a third cholangiogram, performed 5 min late, showed continued obstruction. We then administered nitroglycerin (0.1 mg) at 0.01 mg/min for 20 min intravenously in place of the nicardipine, and we finally achieved satisfactory passage of contrast material to the duodenum (fig. 2). The postoperative course of the patient was uneventful. The next day, the C tube was removed after excellent flow of contrast material to the duodenum had been confirmed.
Fig. 1. The first cystic duct cholangiogram. The intrahepatic biliary tract and common bile duct are visualized dilated by dye injection. The narrowing appearance of the distal common duct, with its tapering bird-beak shape, and the absence of radiographic dye flow into the duodenum are shown.
Fig. 1. The first cystic duct cholangiogram. The intrahepatic biliary tract and common bile duct are visualized dilated by dye injection. The narrowing appearance of the distal common duct, with its tapering bird-beak shape, and the absence of radiographic dye flow into the duodenum are shown.
Fig. 1. The first cystic duct cholangiogram. The intrahepatic biliary tract and common bile duct are visualized dilated by dye injection. The narrowing appearance of the distal common duct, with its tapering bird-beak shape, and the absence of radiographic dye flow into the duodenum are shown.
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Fig. 2. The final cystic duct cholangiogram after injection of nitroglycerin. Free flow of contrast medium into the duodenum can be seen, and the whole biliary tract is of normal size.
Fig. 2. The final cystic duct cholangiogram after injection of nitroglycerin. Free flow of contrast medium into the duodenum can be seen, and the whole biliary tract is of normal size.
Fig. 2. The final cystic duct cholangiogram after injection of nitroglycerin. Free flow of contrast medium into the duodenum can be seen, and the whole biliary tract is of normal size.
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Discussion
Several factors that may cause intraoperative spasm of the sphincter of Oddi have been reported. These include perioperative usage of opioids, operative manipulation of the common bile duct, and injection of cold or irritating contrast medium. 6 We used meperidine, which has been shown to be less likely to induce spasm, 7,8 as part of the preanesthetic medication. Although we cannot rule out completely the effect of epidural morphine on the sphincter, ineffectiveness of naloxone indicates that another cause is more likely. The chief cause of the spasm in our case might be operative manipulation or irritation caused by the contrast medium.
Nitroglycerin can relax vascular smooth muscles, including that of the gastrointestinal tract. Moreover, it is reported to have a dilating effect on the sphincter of Oddi. 4 Nitroglycerin has been used to facilitate endoscopic removal of common bile duct stones 9 and to reverse the spasm induced by narcotic usage. 10 On the other hand, it has been suggested that nifedipine can reduce the pressure of the sphincter and may have therapeutic potential for the treatment of sphincter of Oddi dyskinesia. 5 Our case seems to indicate that nicardipine may have a less dilating effect on the sphincter than does nitroglycerin. In summary, this report shows that, when the spasm of the sphincter of Oddi occurs during laparoscopic cholecystectomy, anesthesiologists can take an active part in treating it effectively with intravenous nitroglycerin.
References
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Fig. 1. The first cystic duct cholangiogram. The intrahepatic biliary tract and common bile duct are visualized dilated by dye injection. The narrowing appearance of the distal common duct, with its tapering bird-beak shape, and the absence of radiographic dye flow into the duodenum are shown.
Fig. 1. The first cystic duct cholangiogram. The intrahepatic biliary tract and common bile duct are visualized dilated by dye injection. The narrowing appearance of the distal common duct, with its tapering bird-beak shape, and the absence of radiographic dye flow into the duodenum are shown.
Fig. 1. The first cystic duct cholangiogram. The intrahepatic biliary tract and common bile duct are visualized dilated by dye injection. The narrowing appearance of the distal common duct, with its tapering bird-beak shape, and the absence of radiographic dye flow into the duodenum are shown.
×
Fig. 2. The final cystic duct cholangiogram after injection of nitroglycerin. Free flow of contrast medium into the duodenum can be seen, and the whole biliary tract is of normal size.
Fig. 2. The final cystic duct cholangiogram after injection of nitroglycerin. Free flow of contrast medium into the duodenum can be seen, and the whole biliary tract is of normal size.
Fig. 2. The final cystic duct cholangiogram after injection of nitroglycerin. Free flow of contrast medium into the duodenum can be seen, and the whole biliary tract is of normal size.
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