The effects of argon laser on in vitro aggregation of platelets in platelet rich plasma and whole blood.

The effects of an Argon laser on platelet aggregation were studied, since platelets may be exposed to laser energy when used intravascularly. Various preparations of platelets in platelet rich plasma (PRP) and whole blood, with or without aspirin, were tested with the aggregating agents ADP, collagen, thrombin, and epinephrine. Simultaneous release of ATP was also measured in PRP. At relatively low levels of irradiation, platelet aggregation was potentiated. Enhancement was evidenced by an increase in percent aggregation, earlier onset of the reaction, and reduction in the amount of aggregating agent required. In PRP, the mechanism of laser potentiation appeared to be the release of endogenous ATP from platelets. At relatively high levels of irradiation, platelets were destroyed and aggregation abolished. In whole blood, the mechanism was somewhat more complicated since release of ATP occurred from RBCs as well as platelets. Spontaneous aggregation following laser treatment occurred in isolated instances in PRP and in every trial in whole blood preparations. Aspirin ingestion inhibited the laser's effects in PRP but not in whole blood. These results may have important clinical implications for laser angioplasty, and the potentiated aggregation response may prove useful in laboratory studies of platelet function.

Effects of Nd:YAG laser energy on the arterial wall: evaluation of a new contact delivery system.

Although there has been much recent interest in the application of lasers to arterial occlusive disease, a detailed understanding of the effects of laser energy on vessel walls is lacking. This study compared the effect of a conventional, non-contact delivery system of Nd:YAG laser energy to a contact system using a 600 microns, artificial sapphire tip in eight mongrel dogs. A small section of the luminal surface of the carotid and femoral arteries was exposed to 10 or 15 joules of Nd:YAG laser power and flow was restored in the vessel. The animals were sacrificed at 0, 1, 2, 4, 7, 14, 21, and 30 days and the vessels were removed. The surface area of the laser injury for each artery was quantitated by computerized planimetry and all histologic sections were examined under light microscopy by an independent observer. Transmural necrosis occurred in 64% (20/31) of the non-contact lesions versus only 29% (9/31) of the contact lesions (P less than 0.01). Both types of laser injuries followed a predictable course with initial medial necrosis followed by formation of a fibrin erythrocyte coagulum overlying the lesions at 24 hr. The usual zones of vaporization, coagulation necrosis, and thermal damage were noted with both types of delivery systems, but the contact system resulted in more intimal vaporization. Healing of all lesions was rapid with complete endothelial coverage at two weeks. Thrombosis occurred in only 1 of 32 (3%) arteries, and there were no false aneurysms. Contact delivery of Nd:YAG laser energy produces significantly less transmural injury than does non-contact.(ABSTRACT TRUNCATED AT 250 WORDS)

Relation of atherosclerosis to arterial wall shear in the left anterior descending coronary artery of man.

Low fluid dynamic shear acting on the vascular endothelium has been suggested as a factor in atherogenesis. This study describes qualitatively differences of wall shear rate in the left anterior descending coronary artery (LAD) of man and relates the distribution of wall shear to that of atheromatous plaques. Selective coronary arteriograms of 21 patients without obstructive LAD diseases were reviewed. Blood velocity, and therefore wall shear in the LAD, was assessed qualitatively based upon the rate of clearance of contrast material. There was a rapid clearing of contrast material along the outer wall of the LAD as it curved around the border of the heart. A much slower clearing occurred along the inner wall, bordering the myocardium, which persisted two to six cardiac cycles after the outer wall had cleared. This suggests that velocity, and therefore shear rate, is lower along the inner wall of the LAD than along the outer wall. In 27 patients who died of noncardiac disease, an uneven distribution of atheromatous plaques in the LAD was observed histologically, with greater involvement of the inner wall. These observations demonstrate an association between the lower shear rate along the inner wall of the LAD and the site of higher concentration of atherosclerosis.

The comparative effects of the argon, Nd: YAG, and argon-pumped dye lasers on human platelets and erythrocytes in vitro.

The effects of three lasers, Argon, Nd:YAG, and Argon-pumped Dye, on three types of platelet preparations were evaluated. Either EDTA or buffered citrate served as anticoagulants. Platelets separated from plasma and suspended in buffer showed no decrease in counts following lasering, but morphologic damage was evident with transmission electron microscopy (TEM). In platelet-rich plasma, a fall in counts was noted for the Argon and the YAG (at high energy only) but was absent when the Dye laser was employed. Morphologic damage (TEM), however, was noted with all three lasers. When whole blood preparations were used, more marked changes in both RBCs and platelets were seen in samples collected in EDTA compared with citrated samples. Morphologic damage (TEM) to platelets and RBCs occurred with all three lasers. An artifactual increase in "platelet counts," the appearance of spherocytes, and an increase in plasma Hb indicated RBC injury. Both platelets and erythrocytes were sensitive to variations in power (wattage) despite constant total energy delivery.