Hibernating myocardium: morphological correlates of inotropic stimulation and glucose uptake

doi:10.1136/heart.83.4.456

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Hibernating myocardium: morphological correlates of inotropic stimulation and glucose uptake D Pagano^a, J N Townend^b, D V Parums^c, R S Bonser^a, P G Camici^d

^a Cardiothoracic Surgical Unit, Queen Elizabeth Hospital, Birmingham, UK, ^b University Department of Cardiovascular Medicine, Queen Elizabeth Hospital, ^c Department of Histopathology, Papworth Hospital, Cambridge, UK, ^d MRC Cyclotron Unit, Imperial College School of Medicine, Hammersmith Hospital, Du Cane Road, London W14 0NN, UK

Correspondence to: Professor Camici email: paolo.camici{at}csc.mrc.ac.uk

Accepted 1 November 1999

BACKGROUND $---$ In patients with postischaemic left ventricular dysfunction, segments recovering function after revascularisation (hibernatingmyocardium) may not respond during dobutamine echocardiography,despite preserved [¹⁸F] 2-fluoro-2-deoxy-D-glucose (FDG) uptake at positron emissiontomography.
OBJECTIVE $---$ To investigate whether this lack of response might reflect the degree of ultrastructural change in hibernatingmyocardium.
METHODS $---$ Transmural biopsies were obtained from 22 dysfunctional segments in 22 patients during coronary artery bypass grafting andexamined by light and electron microscopy. Wall motion scoresand coronary vasodilator reserve were assessed before and aftercoronary artery bypass grafting(CABG).
RESULTS $---$ Mean (SD) wall motion score improved in all segments following CABG (from 2.24 (0.4) to 1.55 (0.4); p < 0.0001), confirminghibernating myocardium. In these segments myocardial blood flow(positron emission tomography with H₂¹⁵O) before CABG was similar to that in normal volunteers (1.02(0.24) v 1.02 (0.23) ml/min/g), while the coronary vasodilatorreserve was blunted (1.26 (0.7) v 3.2 (1.6); p < 0.0001). Myocardialblood flow was unchanged after CABG, whereas coronary vasodilatorreserve increased to 2.10 (0.90) (p < 0.0007). In hibernatingmyocardium myofibrillar loss, interstitial fibrosis, and glycogen-richmyocytes were more marked than in control donor hearts. On thebasis of the response to dobutamine before CABG, two functionalgroups were identified: group A, segments with inotropic reserve(n = 15); group B, segments without inotropic reserve (n = 7).FDG uptake was similar in group A and group B (0.40 (0.1) v 0.44(0.1) µmol/min/g). In group B there was more myofibrillar loss(26 (8)% v 11 (5)%; p = 0.0009) and glycogen-rich myocytes (28(11)% v 17 (10)%; p = 0.02), whereas interstitial fibrosis, myocardialblood flow, and coronary vasodilator reserve were similar in thetwo groups. Myofibrillar loss was the only independent predictorof inotropic reserve (p = 0.01).
CONCLUSIONS $---$ Hibernating myocardium is characterised by a reduced coronary vasodilator reserve which improves on revascularisation andshows a spectrum of ultrastructural changes that influence theresponse to dobutamine, while FDG uptake is invariablypreserved.

Keywords: coronary artery disease; heart failure; myocardial viability; myocardial blood flow; positron emission tomography

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				J. J. Bax, F. C. Visser, D. Poldermans, A. Elhendy, J. H. Cornel, E. Boersma, A. van Lingen, P. M. Fioretti, and C. A. Visser Time Course of Functional Recovery of Stunned and Hibernating Segments After Surgical Revascularization Circulation, September 18, 2001; 104(90001): I-314 - 318. [Abstract] [Full Text] [PDF]

				J.J. Bax, A. Elhendy, E. Boersma, and D. Poldermans Evaluation of patients with chronic ischaemic left ventricular dysfunction - assessment of tissue viability Eur. Heart J. Suppl., September 1, 2001; 3(suppl_F): F11 - F14. [Abstract] [PDF]

				D Pagano, F Fath-Ordoubadi, K J Beatt, J N Townend, R S Bonser, and P G Camici Effects of coronary revascularisation on myocardial blood flow and coronary vasodilator reserve in hibernating myocardium Heart, February 1, 2001; 85(2): 208 - 212. [Abstract] [Full Text]

				D. Pagano, P.G. Camici, S. F. Nagueh, I. Mikati, D. Weilbaecher, M. J. Reardon, G. J. Al-Zaghrini, D. Cacela, Z.-X. He, G. Letsou, et al. Relation of Contractile Reserve of Hibernating Myocardium to Myocardial Structure in Humans Response Circulation, December 19, 2000; 102 (25): e189 - e190. [Full Text] [PDF]

				R Schulz and G Heusch Hibernating myocardium Heart, December 1, 2000; 84(6): 587 - 594. [Full Text]