Mudjianto Chandra

Laparoscopic transcystic duct balloon dilatation of the sphincter of Oddi.

SummaryBalloon dilatation of the sphincter of Oddi has been performed via a laparoscopic transcystic duct technique. Small common duct stones and stone debris have been successfully lavaged into the duodenum in 17 of 20 cases (85%) by this method. Postoperative hyperamylasemia was noted in four patients. Mild clinical pancreatitis was observed in three patients (15%). Further evaluation of this technique as an adjunct to laparoscopic common bile duct stone extraction is warranted.

Biliary lithotripsy as an adjunct to laparoscopic common bile duct stone extraction

SummaryWe investigated various energy sources and delivery systems suitable for fragmentation of common duct calculi by a laparoscopic technique. We evaluated electrohydraulic lithotripsy (EHL) using 1.9-Fr probe delivering 80 W and laser lithotripsy using a 200-μm fiber delivering 30–70 mJ/pulse at 5–20 Hz. In vitro biliary stone fragmentation analysis suggested that the laser lithotripsy produced a more controllable fragmentation than EHL. Initial attempts to employ EHL techniques in animal models resulted in common bile duct injury or inadequate fragmentation of stones. In contrast, biliary lithotripsy was accomplished in pigs using the pulsed-dye laser at 10 Hz and 60 mJ/pulse. Histologic evaluation revealed no evidence of ductal injury related to laser stone fragmentation. Subsequently, laser common duct lithotripsy was used in two human subjects. One patient had a 1.8-cm impacted ampullary stone and one patient had a 3-cm intrahepatic stone. In both cases, the stones were removed laparoscopically after laser fragmentation. Our experience suggests that the laser lithotripsy may facilitate laparoscopic common duct stone extraction procedures.

Intraoperative metastases detection by laser-induced fluorescence spectroscopy

The authors studied the ability of Laser Induced Fluorescence Spectroscopy (LIFS) for the intraoperative identification of metastases using a photosensitizing agent Photofrin IIr to enhance spectroscopic detection. A He-Cd laser source (442 nm) was used to produce low-power illumination of tissue via a hand-held 400 micrometers fiberoptic probe. Through the same fiber, reflected and emitted light was returned to an optical multi-channel analyzer (OMA III) for analysis. Spectroscopic signals were displayed on a screen for immediate examination. Lobund Wistar rats, inoculated with Pollard rat adenocarcinoma cells, were used as an animal model. Photofrin IIr was administered intraperitoneal 24 or 48 hours prior to surgical exploration in doses varying from 0.75-7.5 mg/kg. Metastases detection was performed during abdominal exploration directed to ipsilateral and contralateral inguinal, iliac, para-aortic and renal lymph nodes. Nineteen tissue samples, identified as abnormal by LIFS, were removed for histologic analysis; 11 of these samples were larger than 5mm and histologic examination revealed malignancy in all cases. While LIFS signals showed malignancy in 8 tissue samples with dimensions less than 5mm, histology confirmed this in only 3. However, serial histologic sections were not performed. From the initial results, it was concluded that LIFS detection of malignant tissue is feasible and enhanced by the addition of Photofrin IIr. LIFS may be a promising technique for the intraoperative detection of primary malignant and metastatic tissue.

Laparoscopic Cholecystectomy in Critically Ill Cardiac Patients

From August 1989 to January 1993, the authors performed laparoscopic biliary operations in 900 patients, 13 of whom had severe cardiac dysfunction. Nine patients were Goldman Class IV, and four patients were Goldman Class III. Three patients had recent myocardial infarction, five patients were known to have low left ventricular ejection fractions (10%, 21%, 25%, 26%, and 30%), one had severe myocardial ischemia, one had severe congestive heart failure, and one was in profound shock. Nine patients underwent successful laparoscopic cholecystectomy. Laparoscopic cholecystostomies were performed in three patients. One operation was converted to an open cholecystectomy. There was one death within 30 days of surgery. With appropriate hemodynamic monitoring and adequate perioperative support of cardiac function, laparoscopic cholecystectomy can be performed safely for acute cholecystitis in patients with severe cardiac disease. When compared with historical controls, laparoscopic cholecystectomy appears to be safer than open cholecystectomy.

Practical considerations for effective microendoscopy

This paper reports on the application of angioscopic technology to the endoscopy of previously inaccessible body cavities. Necessary instruments including endoscopes, light sources, cameras, video recorders, monitors, and other accessories are described. Practical considerations for effective instrumentation are discussed. An overview of our clinical microendoscopic applications in more than 630 patients is presented.

Laser-induced fluorescence spectroscopy of pathologically enlarged prostate gland in vitro

The authors investigate the laser induced fluorescence spectroscopy of prostate tissue.

Laparoscopically guided bilateral pelvic lymphadenectomy

Pelvic node dissection has gained widespread acceptance as the final staging procedure in patients with normal acid phospatase and bone scan free of metastatic disease prior to definitive therapy for cure. However, the procedure has had a high morbidity (20-34%) and a major economic impact on the patient due to lengthy hospitalization and recuperative time. The development of laparoscopic biopsy techniques suggests that the need for open surgical lymphadenectomy may be reduced by a laparoscopically performed lymphadenectomy. The goal of this report is to investigate the possibility of laparoscopic pelvic lymphadenectomy in an animal model. Our interest in laparoscopy is based on the ability of this technique to permit tissue removal without the need for major incisions. In laparoscopic cholecystectomy and laparoscopic appendectomy, the surgical procedure is essentially unaltered. The diseased organ is removed and there is no need for a large abdominal incision.

Detection of atheroma using Photofrin II r and laser-induced fluorescence spectroscopy

The goal of this study was to investigate laser induced fluorescence spectroscopy (LIFS) as a method of localization of atherosclerotic lesions not visible by angiography using Photofrin IIr enhanced fluorescence. Twenty-four New Zealand White rabbits divided into six groups varying in type of arterial wall lesion and Photofrin IIr administration time (i.v.) were used. Aortic wall fluorescence signals were acquired from the aortic arch to iliac bifurcation. The output of a He-Cd laser (442 nm, 17 mW) was directed at the arterial wall through a 400 micron fiber. The fluorescence signal created in the arterial wall was collected via the same fiber and analyzed by an optical multi-channel analyzer (OMA). The ratio of fluorescence intensities at 630 nm (Photofrin IIr) and 540 nm (autofluorescence of artery wall) was analyzed (I630nm/I540nm). Intensity ratio values 24 hours after administration of Photofrin IIr were found to be as follows: in normal artery wall of 0.30 +/- 0.14 (n equals 3), in mechanically damaged wall of 0.91 +/- 0.65 (n equals 2) and, in atheromatous tissue, 0.88 +/- 0.54 (n equals 4). The intensity ratio of atheromatous tissue without Photofrin IIr was 0.23 +/- 0.04 (n equals 7). These results suggest that the use of Photofrin IIr allows in vivo atheroma detection by LIFS because of its ability to accumulate in atheroma. In addition, accumulation of Photofrin IIr was found in artery walls traumatized by balloon catheter intervention. Using this method, a catheter-based LIFS system may be developed for atheroma detection.