shu-508 and Necrosis

In order to find out whether high intensity focused ultrasound (HIFU) might be useful against hepatocellular carcinoma, we analyzed the effect of a microbubble agent (Levovist) on the temperature rise and tissue necrosis induced by HIFU. Rabbits were given 7 ml Levovist (300 mg/ml) or saline intravenously. Up to six areas per rabbit liver were exposed to HIFU for 60 s (2.18 MHz, I(SPTA)=400 W/cm(2)). The volume of the tissue coagulated by HIFU was measured 10 min after the start of HIFU. HIFU-induced lesions were larger in the animals given Levovist: (mm(3), Levovist versus saline) 371+/-104 versus 166+/-71 (P<0.001). Temperatures in the animals given Levovist were also higher 60 s after the start of exposure: ( degrees C, Levovist versus saline) 20.3+/-3.5 versus 13.2+/-3.8 (P<0.001). The amount of damage differed greatly, but the pathological changes caused by HIFU with Levovist were the same as those caused by HIFU with saline. Hemorrhagic areas and implosion cysts were seen, and many cells had been disrupted or destroyed. Microbubble agents developed for diagnostic uses could also be used in anticancer therapy.

Topics: Animals; Antineoplastic Agents; Body Temperature; Contrast Media; Hyperthermia, Induced; Liver; Microbubbles; Necrosis; Polysaccharides; Rabbits; Sodium Chloride; Time Factors; Ultrasonic Therapy; Ultrasonography

Erythrocytes, as well as microbubble contrast agents, are important factors in improving thermal effect of high-intensity focused ultrasound (US), or HIFU, and increasing the coagulation volume produced by HIFU irradiation. In vitro experiments used human plasma with various concentrations of human erythrocytes in combination with or without Levovist. In vivo experiments used eight Japan white rabbits with three degrees of anemia. Using a 2.17-MHz transducer, HIFU was applied for 60 s, and the temperature rise and the volume of coagulation necrosis was evaluated. There was a significant correlation between the HIFU-induced temperature rise and hematocrit, with a correlation coefficient of 0.998 (p=0.0001). Although the temperature rise was smaller at low hematocrit, it was significantly increased by adding Levovist in the suspension (p<0.01). The mean volume of coagulation necrosis was significantly greater in the rabbits with higher hematocrits (p<0.01), and that in the moderate anemia group was significantly increased by using Levovist (p<0.01).

Topics: Anemia; Animals; Blood Coagulation; Body Temperature; Contrast Media; Erythrocytes; Female; Hematocrit; Hot Temperature; Humans; Liver; Microbubbles; Necrosis; Polysaccharides; Rabbits; Ultrasonic Therapy

Single intravenous administration of three different gas-carrier contrast agents used in ultrasound imaging to mice caused inflammation, necrosis, and ulceration of cecum and proximal colon (cecocolonic area) and focal necrosis in the liver. Similar intestinal lesions were also found in rats after treatment with a single iv administration of a gas-carrier contrast agent. Strain differences in the incidences of these lesions were found in both rats and mice. HsdHan:NMRI mice were among the most sensitive of the strains of mice studied. Even at the lowest dose of Sonazoid technically possible to inject in HsdHan:NMRI mice, lesions were found and a no-effect dose could not be determined. In a time-course experiment in HsdHan:NMRI mice, it was found that the lesions began to develop in the cecum and colon within 15 to 30 min after dosing. Lesions in the liver were first observed 120-240 min after dosing. Diet played a role in the etiology of the lesions, as HsdHan:NMRI mice given a diet with reduced amounts of cellulose and starch had reduced incidences of lesions, and when glucose was the only carbohydrate source, no lesions were observed. No intestinal or hepatic lesions were found in guinea pigs or rabbits after repeated intravenous administrations of Sonazoid. In dogs, minimal to mild granulocytic inflammation of the cecum and/or colon was found after daily repeated intravenous injections for 28 days, but not after daily repeated administration for 14 days nor after a single administration. It is proposed that the intestinal and hepatic lesions in rats and mice after a single intravenous injection of gas-carrier contrast agents are caused by a common mechanism: intravascular growth of gas-carrier agents in tissues with gas supersaturation, as occurs in the cecal wall of rats and mice. In this particular environment the growing gas bubbles cause ischemia and necrosis in the cecal and colonic wall and liver. This proposed mechanism of action is consistent with the absence of clinical reports indicative of intestinal and/or hepatic lesions in humans after administration of gas-carrier contrast agents.

Topics: Administration, Oral; Albumins; Animal Feed; Animals; Contrast Media; Dogs; Dose-Response Relationship, Drug; Female; Ferric Compounds; Fluorocarbons; Gases; Guinea Pigs; Injections, Intravenous; Intestinal Mucosa; Intestine, Large; Iron; Liver; Male; Mice; Mice, Inbred Strains; Necrosis; Oxides; Polysaccharides; Rabbits; Rats; Rats, Inbred Strains; Species Specificity; Ultrasonography

Human histiocytic lymphoma U937 cells were exposed to continuous 1-MHz ultrasound (US) for therapeutic use, (0 approximately 6.5 W/cm(2) (I(SPTA)). Apoptosis and its related end points were examined by flow cytometry. Fraction of cells with low mitochondria membrane potential were observed after sonication and significant superoxide and peroxide formation, increased activity of caspase-3, and DNA fragmentation revealed biochemically, were also found. The fraction of early apoptosis and secondary necrosis increased with the incubation time after sonication. Early apoptosis observed at 6 h after sonication reached its maximum at 2 min of sonication and gradually decreased. On the other hand, secondary necrosis increased with the duration of sonication. When the effects of dissolved gases, Ar, N(2), O(2), air, N(2)O and CO(2), on free radical formation due to inertial cavitation were investigated by electron spin resonance (ESR) spin trapping, formation of hydroxyl radicals and hydrogen atoms was found in solutions saturated with Ar, N(2), O(2) and air, but not with N(2)O and CO(2). Apoptosis induced by US was also dependent on the dissolved gases in the order Ar = N(2) = O(2) = air >> N(2)O = CO(2) approximately 0. These results suggest that US-induced apoptosis, which is mitochondria-caspase dependent, was linked to inertial cavitation. However, quantities of free radicals did not influence the fraction of early apoptosis and secondary necrosis. When the cells were sonicated in the presence of an echo contrast agent, Levovist; synergistic enhancement of secondary necrosis induced by US was observed at concentrations of more than 20 mg/mL. In contrast, an additive increase of early apoptosis was observed in the combined treatments. These results suggest that Levovist; acting as cavitation nuclei, enhances secondary necrosis induced by US due to an increase in the membrane damage.

Topics: Apoptosis; Caspases; Contrast Media; DNA Fragmentation; Flow Cytometry; Free Radicals; Gases; Humans; Lymphoma, Large B-Cell, Diffuse; Membrane Potentials; Mitochondria; Necrosis; Polysaccharides; Sonication; U937 Cells; Ultrasonic Therapy

The purpose of this study was to evaluate the reliability of unenhanced and enhanced power Doppler sonography in visualization of intratumoral angioneogenesis. Thirty-seven malignant melanomas, which had been implanted intra- or subcutaneously in 22 mice, were examined. Various B-mode criteria, power Doppler criteria and spectral Doppler parameters were evaluated before and after IV-application of the d-galactose-based contrast agent Levovist. After sonographic examination, all tumors were analyzed histologically with semiquantitative grading of tumoral vascularization. Unenhanced, in 70% of the tumors, no intratumoral vessels were visible using power Doppler, but only in 11% of the intracutaneous and in 0% of the subcutaneous after injection of the contrast agent. The enhanced mode was definitely superior to unenhanced Doppler in showing the intratumoral vascularity. The intratumoral vascular structure could be sufficiently analyzed in 30% of all tumors by unenhanced Doppler, but in 92% enhanced. The mean percentage vessel area increased about 433% after application of Levovist (intracutaneous: 485%, subcutaneous: 280%). Despite the missing direct correlation between the sonographically and histologically determined grade of tumor vascularization (Pearson's correlation unenhanced 0,356, p <.05/enhanced 0.395, p <.05), the correlation between the percentage vessel area and the histologic grade of vascularization was improved after application of the contrast agent (Pearson's correlation unenhanced 0.347, p <.05/enhanced 0.686, p <.01). We did not find a significant direct correlation between histologically and sonographically determined degree of vascularization. However, the correlation was improved using a d-galactose-based signal-enhancing agent in power Doppler sonography.

Topics: Animals; Contrast Media; Image Processing, Computer-Assisted; Male; Melanoma, Experimental; Mice; Mice, Inbred C57BL; Necrosis; Neovascularization, Pathologic; Polysaccharides; Skin Neoplasms; Ultrasonography, Doppler