CORONARY MORPHOLOGY AFTER PERCUTANEOUS DIRECTIONAL CORONARY ATHERECTOMY IN HUMANS - AUTOPSY ANALYSIS OF 3 PATIENTS

被引：23

作者：

GARRATT, KN ^{[1
]}

EDWARDS, WD ^{[1
]}

VLIETSTRA, RE ^{[1
]}

KAUFMANN, UP ^{[1
]}

HOLMES, DR ^{[1
]}

机构：

[1] MAYO CLIN & MAYO FDN,DIV PATHOL,ROCHESTER,MN 55905

来源：

JOURNAL OF THE AMERICAN COLLEGE OF CARDIOLOGY | 1990年 / 16卷 / 06期

关键词：

D O I：

10.1016/0735-1097(90)90388-6

中图分类号：

R5 [内科学];

学科分类号：

1002 ; 100201 ;

摘要：

The morphologic basis of angiographically successful percutaneous directional atherectomy and subsequent restenosis in human coronary arteries is unknown. The clinical and pathologic features of three patients who died after coronary atherectomy are described. Tissue fragments obtained with atherectomy demonstrated atheromatous and fibroproliferative intima, media and adventitia. At autopsy, treated vascular segments (from the left anterior descending artery in two patients and a vein graft in one patient) demonstrated discrete defects in the vascular wall. Defects extending into atheroma, media or adventitia corresponded with the presence of these tissues in the atherectomy specimens. Tissues were otherwise not disrupted in the manner associated with balloon angioplasty. Acute mural thrombus deposition was evident in the resection zone in one patient. Late findings included fibroproliferative intimal tissue extending from the resected areas into the vascular lumen. In one patient intimal hyperplasia was sufficient to narrow the vascular lumen by 82% and was implicated in subsequent myocardial ischemia and infarction. The study indicates that 1) the vascular injury associated with atherectomy is distinct from that associated with balloon angioplasty, 2) acute mural thrombus deposition may occur even with resection limited to the intima, and 3) intimal hyperplasia may develop in regions treated with atherectomy and may be associated with late myocardial ischemia and infarction. © 1990.

引用

页码：1432 / 1436

页数：5

共 15 条

[1]

Simpson, Robertson, Selmon, Percutaneous coronary atherectomy (abstr), J Am Coll Cardiol, 11, (1988)

[2]

Garratt, Kaufmann, Edwards, Vlietstra, Holmes, Safety of percutaneous coronary atherectomy with deep arterial resection, Am J Cardiol, 64, pp. 538-540, (1989)

[3]

Kaufmann, Garratt, Vlietstra, Menke, Holmes, Coronary atherectomy: first 50 patients at the Mayo Clinic, Mayo Clin Proc, 64, pp. 747-752, (1989)

[4]

Johnson, Hinohara, Selmon, Braden, Simpson, Primary peripheral arterial stenoses and restenoses excised by transluminal atherectomy: a histopathologic study, J Am Coll Cardiol, 15, pp. 419-425, (1990)

[5]

Simpson, Johnson, Braden, Gifford, Thapliyal, Selmon, Transluminal coronary atherectomy (TCA): results in 21 human cadaver vascular segments (abstr), Circulation, 74, pp. II-202, (1986)

[6]

Schwarten, Katzen, Simpson, Cutcliff, Simpson catheter for percutaneous transluminal removal of atheroma, AJR, 150, pp. 799-801, (1988)

[7]

Johnson, Skorton, Ericksen, Et al., Videodensitometric analysis of coronary stenoses: in vivo geometric and physiologic validation in humans, Invest Radiol, 23, pp. 891-898, (1988)

[8]

Johnson, McPherson, Fleagle, Et al., Videodensitometric analysis of human coronary stenoses: validation in vivo by intraoperative high-frequency epicardial echocardiography, Circulation, 77, pp. 328-336, (1988)

[9]

Block, Myler, Stertzer, Fallon, Morphology after transluminal angioplasty in human beings, N Engl J Med, 305, pp. 382-385, (1981)

[10]

Waller, McManus, Gorfinkel, Et al., Status of the major epicardial coronary arteries 80 to 150 days after percutaneous transluminal coronary angioplasty: analysis of 3 necropsy patients, Am J Cardiol, 51, pp. 81-84, (1983)

← 1 2 →