OBJECTIVE: The aims were to determine (1) whether acute coronary occlusion provoked uniform hyperkinesis in remote non-ischaemic myocardium, and (2) how subsequent coronary stenosis affected such hyperkinesis. METHODS: Two pairs of ultrasonic crystals were placed in the anterior left ventricular midwall of nine pentobarbitone anaesthetised open chest cats. One pair (longitudinal) ran parallel to subendocardial fibres; the other pair (circumferential) was aligned with subepicardial and mid-myocardial fibres. Following circumflex coronary occlusion, subsequent hypoperfusion of the anterior wall was established by controlled constriction of a shunt line from the right subclavian artery to the left main coronary artery in two discrete steps. RESULTS: Following circumflex occlusion maximum systolic shortening of segments aligned to subendocardial fibres increased from 6.7(SEM 0.9)% to 11.5(1.4)% (p less than 0.001), whereas circumferential segment shortening was unchanged, at 12.2(0.8)% v 14.1(1.1)%. During mild shunt stenosis [delta P = 42(2) mm Hg] subendocardial tissue blood flow in the anterior wall decreased by 42(10)% (p less than 0.001), and longitudinal segment shortening decreased from 11.5(1.4)% to 6.9(1.1)% (p less than 0.001). Corresponding shortening of circumferential segments did not change. During severe shunt stenosis [delta P = 52(3) mm Hg] subendocardial tissue blood flow decreased further, and shortening of longitudinal segments approached zero value (p less than 0.001). CONCLUSIONS: Compensatory hyperkinesis of remote non-ischaemic myocardium following an acute coronary occlusion may depend mostly on augmented subendocardial contraction.
OBJECTIVE: The aims were to determine (1) whether acute coronary occlusion provoked uniform hyperkinesis in remote non-ischaemic myocardium, and (2) how subsequent coronary stenosis affected such hyperkinesis. METHODS: Two pairs of ultrasonic crystals were placed in the anterior left ventricular midwall of nine pentobarbitone anaesthetised open chest cats. One pair (longitudinal) ran parallel to subendocardial fibres; the other pair (circumferential) was aligned with subepicardial and mid-myocardial fibres. Following circumflex coronary occlusion, subsequent hypoperfusion of the anterior wall was established by controlled constriction of a shunt line from the right subclavian artery to the left main coronary artery in two discrete steps. RESULTS: Following circumflex occlusion maximum systolic shortening of segments aligned to subendocardial fibres increased from 6.7(SEM 0.9)% to 11.5(1.4)% (p less than 0.001), whereas circumferential segment shortening was unchanged, at 12.2(0.8)% v 14.1(1.1)%. During mild shunt stenosis [delta P = 42(2) mm Hg] subendocardial tissue blood flow in the anterior wall decreased by 42(10)% (p less than 0.001), and longitudinal segment shortening decreased from 11.5(1.4)% to 6.9(1.1)% (p less than 0.001). Corresponding shortening of circumferential segments did not change. During severe shunt stenosis [delta P = 52(3) mm Hg] subendocardial tissue blood flow decreased further, and shortening of longitudinal segments approached zero value (p less than 0.001). CONCLUSIONS: Compensatory hyperkinesis of remote non-ischaemic myocardium following an acute coronary occlusion may depend mostly on augmented subendocardial contraction.
Authors: Pankaj Garg; Ananth Kidambi; James R J Foley; Tarique Al Musa; David P Ripley; Peter P Swoboda; Bara Erhayiem; Laura E Dobson; Adam K McDiarmid; John P Greenwood; Sven Plein Journal: Open Heart Date: 2016-05-02
Authors: P Garg; R Aziz; T Al Musa; D P Ripley; P Haaf; J R J Foley; P P Swoboda; G J Fent; L E Dobson; J P Greenwood; S Plein Journal: Neth Heart J Date: 2018-02 Impact factor: 2.380