Kouichi Sato scite author profile

Fourteen patients with cholecystitis were treated by endoscopic placement of an endoprosthesis into the cystic duct. In these patients the administration of antibiotics had failed to change the clinical picture of cholecystitis. Clinical and ultrasonographic findings before and two months after stenting were compared. There was an improvement in abdominal pain in 9 out of 14 cases (64%); fever, present in 5 patients, disappeared in all. No clinical complications were observed. Sonographic findings in terms of gallbladder wall thickening and sludge present within the gallbladder improved in 57% and 88%, respectively. Our results indicate that this endoscopic procedure may be effective in the treatment of cholecystitis.

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Microvascular sites and mechanisms responsible for reactive hyperemia in the coronary circulation of the beating canine heart.

Kanatsuka

Sekiguchi

Sato

et al. 1992

Circulation Research

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Our aim was to elucidate the site and mechanism responsible for reactive hyperemia in coronary circulation. In in vivo beating canine hearts, microvessels of the left anterior descending coronary artery (LAD) were observed through a microscope equipped with a floating objective. Flow velocity of the LAD was measured with a suction-type Doppler probe. The LAD was occluded for 20 or 30 seconds and then released, and reactive hyperemia was observed before and after 8-phenyltheophylline (7.5 mg/kg i.v.) or glibenclamide (200 micrograms/kg into the LAD) infusion. During the occlusion, only arterial microvessels smaller than 100 microns in diameter dilated. Dilation of those vessels was partially attenuated by 8-phenyltheophylline and completely abolished with glibenclamide. In the early phase of reactive hyperemia, all arterial microvessels dilated, and the magnitude of peak dilation was greater in vessels smaller than 100 microns compared with those larger than 100 microns. Vasodilation during reactive hyperemia ceased within 60 seconds in vessels smaller than 100 microns but was sustained for more than 120 seconds in those larger than 100 microns. 8-Phenyltheophylline did not change peak dilation of arterial microvessels but reduced dilation after the peak. Glibenclamide remarkably attenuated dilation of all arterial microvessels in the whole phase of reactive hyperemia. These results indicate that all arterial microvessels are responsible for reactive hyperemia after coronary artery occlusions of 20-30 seconds, but there is greater participation of vessels smaller than 100 microns in the early phase of reactive hyperemia. Dilation of vessels larger than 100 microns assumes an important role in the later phase. ATP-sensitive K+ channels mediate dilation of arterial microvessels both in brief ischemia and reactive hyperemia.

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Kouichi Sato

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Microvascular sites and mechanisms responsible for reactive hyperemia in the coronary circulation of the beating canine heart.

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