腹主动脉缩窄法致大鼠心肌纤维化模型的建立

目的用腹主动脉缩窄法建立大鼠心肌纤维化模型。方法16只雄性SD大鼠随机分为腹主动脉缩窄组（模型组）及假手术组。分别比较两组左室心肌质量指数、左室心肌病理形态HE染色及左室心肌胶原染色等指标造模4周及造模8周时的变化。结果模型组造模4周及8周时左室重量指数（LVMI）较假手术组显著升高（P〈0.05）。胶原染色、HE染色及超微结构等病理变化,模型组造模4周、8周较假手术组改变明显;假手术组4周及8周时基本一致。结论SD大鼠在腹主动脉缩窄术后4周即可达心肌纤维化模型。     

Hypertensive-diabetic cardiomyopathy in the rat: an experimental model of human disease.

The authors recently described a group of diabetic patients with severe congestive heart failure, hypertension, and minimal coronary artery disease, who had significant myocardial degeneration apparently secondary to the combined effects of high blood pressure and diabetes on the heart. To evaluate the effects of hypertension and diabetes mellitus more fully, the authors studied four groups of rats with either no disease, streptozotocin-induced diabetes mellitus, renovascular hypertension, or a combination of hypertension and diabetes. They employed semiquantitative light microscopy, which revealed significantly greater replacement fibrosis in the hypertensive-diabetic rats when compared with the other three groups. Interstitial fibrosis was increased in the hypertensive-diabetic animals, though it was just below the 5% level of significance when compared with the hypertensives. Further analysis, however, revealed that those hypertensive-diabetic animals with the greatest relative cardiac hypertrophy, as measured by the heart weight/body weight ratio, had significantly increased interstitial fibrosis. Surprisingly, diabetes mellitus alone produced no morphologic light-microscopic alterations; yet 8 weeks of combined hypertension and diabetes mellitus led to myocardial degeneration similar to the human disease. These changes do not appear to be secondary to abnormalities of intramyocardial muscular vessels. Measurement of 3 parameters of vascular disease revealed that hypertensive animals with less myocardial damage had greater vascular changes than the more severely affected hypertensive-diabetics. This study provides evidence that the combination of diabetes mellitus and hypertension produces significantly greater myocardial lesions than either disease alone. The similarity of the lesions with those observed in human patients suggests that the hypertensive-diabetic rat is a useful model for elucidating the pathogenesis of clinical myocardial disease in patients with hypertension and diabetes mellitus.     

缺氧性肺动脉高压大鼠右心室重构

摘要目的：研究缺氧性肺动脉高压大鼠右心室重构情况。方法：常压间断缺氧法复制缺氧性肺动脉高压大鼠模型，采用右心导管法测定平均肺动脉压力，通过测量右心室流入及流出道长度、左心室壁和右心室壁厚度、右心室和左心室 室间隔重量对其右心室重构情况进行定性研究。结果：缺氧14d后大鼠平均肺动脉压力显著升高，右心室流出道长度及右心室肥大指数显著增加，缺氧21d后右心室游离壁重量显著增加；右心室流人道长度及左、右心室壁厚度与对照组无统计学差异。结论：缺氧性肺动脉高压大鼠右心室早期表现为离心性肥大。     

Cardiomyopathy in a rat model of pheochromocytoma. Morphological and functional alterations

To investigate the cardiac muscle damage observed in pheochromocytoma, New England Deaconness Hospital rats were implanted subcutaneously with a transplantable pheochromocytoma. The tumor was evident 4 weeks after transplantation. Approximately 5-6 weeks after transplant, systolic blood pressure was significantly increased in tumor-bearing animals (183 +/- 13 vs 119 +/- 7 in controls). At this time a cardiomyopathy with the following features was apparent in the tumor-bearing animals: multifocal lesions of enhanced interstitial and replacement fibrosis; granularity of the cytoplasm and contraction band necrosis; and mixed inflammatory infiltrates. Using a morphological scoring system from 0 (no cardiac damage) to 3 (complete involvement of the ventricular cross section studied), the pheochromocytoma animals had a cardiomyopathy score of 1.8 +/- 0.1, which is significantly greater than that found in age- and sex-matched controls: 0.4 +/- 0.1, p less than .001. A significant increase in the wet heart weights (1.28 +/- 0.07 vs. 1.12 +/- 0.04 in controls) was also observed in these animals, indicating the possibility of cardiac hypertrophy in the pheochromocytoma rats. There was a marked decrease in sensitivity to isoproterenol in isolated, electrically driven left atrial strips from pheochromocytoma rats. Isoproterenol's EC50 increased eightfold from 1.5 +/- 0.6 x 10(-8) M in controls to 1.3 +/- 0.4 x 10(-7) M in left atrial strips from the pheochromocytoma rats. However, there was no difference in maximal contractile response to isoproterenol in either the left atrial strips or in right or left ventricular papillary muscle strips. Also, there was no change in responsiveness of either left atrial or right ventricular muscle strips from pheochromocytoma hearts to contraction induced by 3.75 mM calcium chloride. However, the contractile response to calcium was enhanced in left ventricular papillary muscle from tumor-bearing animals (808 +/- 195 vs 372 +/- 101 mg tension in controls, p less than 0.05). These results demonstrate a catecholamine-induced cardiomyopathy in hearts from pheochromocytoma-bearing rats. Furthermore, the results demonstrate a functional beta-adrenergic receptor desensitization in isolated left atrial strips from tumor-bearing rats, whereas maximal contraction of heart muscle, induced by either isoproterenol or calcium chloride, remains intact.     

呋喃唑酮制备大鼠扩张型心肌病模型

目的：探讨用呋喃唑酮饲养Wistar大鼠建立扩张型心肌病（DCM）大鼠模型的可行性。 方法： 用呋喃唑酮饲养Wistar大鼠建立扩张型心肌病大鼠模型, 超声心动图检测大鼠左心室结构和功能；有创导管测压力；测量大鼠左心室内径和游离壁厚度，HE染色观察大鼠心肌细胞形态学变化,V-G和免疫组化染色检测心肌胶原纤维并计算胶原容积分数(CVF)。 结果： ①DCM组大鼠饲养12周后诱发呋喃唑酮扩张型心肌病（Fz-DCM）总成功率为66.6%(20/30)。② DCM组大鼠左室舒张期末内径、左室收缩末内径、右房压、左室内径、心脏重量/体重比值均明显大于NC组，左室内径缩短率、左室射血分数、左室游离壁厚度均明显小于NC组（均P<0.05）。③DCM大鼠心肌细胞肥大、变性，间质胶原纤维增生，Ⅰ、Ⅲ型胶原纤维及CVF明显增加。 结论： 呋喃唑酮能成功诱发DCM大鼠模型；Fz-DCM大鼠出现左室扩大、心室壁变薄，间质纤维组织增生等病理改变，并且左室收缩功能下降，提示Fz-DCM大鼠模型能反映扩张型心肌病的病理生理特征。     

Collagen remodeling after myocardial infarction in the rat heart.

In this study changes in the amount and distribution of types I and III collagen mRNA and protein were investigated in the rat heart after induction of a left ventricular myocardial infarction (MI). Sham operated rats served as controls. The animals were sacrificed at different time intervals after operation. Northern blotting of cardiac RNA and hybridization with cDNA probes for types I and III procollagen revealed a 5- to 15-fold increase in the infarcted left ventricle. Type III procollagen mRNA levels were already increased at day 2 after MI, whereas type I procollagen mRNA followed this response at day 4 after MI. This increase was sustained for at least 21 days in the infarcted left ventricle for type III procollagen mRNA, whereas type 1 procollagen mRNA levels were still elevated at 90 days after MI. In the noninfarcted right ventricle a 5- to 7-fold increase was observed for both type I and type III procollagen mRNA levels, but only at day 4 after MI. In the non-infarcted septum a transient increase was observed for type I procollagen mRNA from day 7-21 (4- to 5-fold increase) and a decline to sham levels thereafter. In the septum type III procollagen mRNA levels were only elevated at 7 days after MI (4- to 5-fold increase) compared with sham operated controls. In situ hybridization with the same types I and III procollagen probes showed procollagen mRNA-producing cells in the infarcted area around necrotic cardiomyocytes, and in the interstitial cells in the non-infarcted part of the myocardium. No labeling was detected above cardiomyocytes. Combined in situ hybridization and immunohistochemistry showed that the collagen mRNA producing cells have a myofibroblast-like phenotype in the infarcted myocardium and are fibroblasts in the noninfarcted septum and right ventricle. The increase in types I and III procollagen mRNA in both infarcted and non-infarcted myocardium was followed by an increased collagen deposition, measured by computerized morphometry on sirius red-stained tissue sections as well as by the hydroxyproline assay. In the non-infarcted septum and right ventricle the collagen-positive area was maximal at day 14 (3- to 5-fold increase compared with sham operated controls) and slightly declined at day 21. In the infarcted myocardium the collagen-positive area was 57 +/- 10% at day 14 after MI. Hydroxyproline contents were significantly increased in the noninfarcted septum.(ABSTRACT TRUNCATED AT 400 WORDS)     

Coronary microvascular abnormalities in the hypertensive-diabetic rat. A primary cause of cardiomyopathy?

The authors have continued their investigation of the hypertensive-diabetic (HD) rat by evaluating changes in the myocardial microvasculature in this model. Perfusion of HD animals in vivo with a silicone rubber solution revealed numerous areas of microvascular tortuosity, focal constrictions, and microaneurysm formation. These alterations were present to a lesser extent in normoglycemic hypertensive (H) rats, and were distinctly rare in normotensive diabetic rats and unaffected control animals. Quantitation of these vascular lesions revealed highly significant differences between HD animals and the other three groups, with hypertensive rats intermediate between HD rats and diabetic control rats. Areas of pronounced arteriolar constriction were also identified in the HD and H animals with the use of serial sections of Epon-embedded myocardium. It is believed that these lesions represent dynamic changes in the microcirculation, which may cause segmental reperfusion injury to the myocardium, leading to focal replacement fibrosis. Interstitial scarring may result from increased leakiness of small vessels exacerbated by the combined disease. The authors propose that the additive effects of hypertension and diabetes mellitus on the myocardial microcirculation may be a primary cause of cardiomyopathy in this model of human disease.     

Effect of prenatal phenytoin administration on the fine structure of rat myocardium and aorta

Phenytoin (PHT) is an antiepileptic drug known to have teratogenic effects. The aim of this study was to examine the ultrastructure of the left ventricle, the left atrium, and the aorta of 3-month-old offspring and 4-month-old mother animals after oral PHT (150 mg/kg/day) administration to Wistar/DV rats on days 7-18 of gestation. Electron microscopy of the myocardium revealed a heterogeneous population of cardiomyocytes with conventional architecture, and hypoxia/ischemia-like subcellular changes. Cardiomyocytes of offspring hearts were more vulnerable to PHT administration compared with the mother animals. Atrial cardiomyocytes of both mother animals and offspring were less affected by PHT than the ventricular ones. In the myocardium, both interstitial fibrosis and injury of capillaries were noted. Electron microscopy of the aorta revealed a higher resistance of maternal endothelial and smooth muscle cells to PHT compared with offspring cells. Nuclei of endothelial and smooth muscle cells showed pronounced mitotic activity with one and/or two hyperactive nucleoli, more frequently observed in offspring. PHT administration resulted in aortic arteriogenesis in both offspring and mother animals. Interestingly, bundles of myocardial fibers consisting of ischemia-like altered cardiomyocytes with own capillary network were noted in off-spring aortic adventitia. These results are indicative of harmful effects of PHT on rat myocardium and aorta.     

Natural biventricular hypertrophy in normotensive rats. I. Physical and hemodynamic characteristics.

The Wistar-Kyoto strain of normotensive rats (WKY) is being used as a control animal for studies involving the spontaneously hypertensive rats (SHR). A subset of the WKY demonstrating an inheritable transmission of biventricular cardiac hypertrophy (BVH) has been identified. The cardiac enlargement is pronounced, with right and left ventricular weights greater than twice normal in some animals. This natural development of BVH appears to be in response to an increased cardiac output. Blood pressure is normal and, therefore, peripheral resistance is reduced. Left ventricular injection of 15-micrometer radioactively labeled microspheres demonstrated that WKY with BVH had a substantial shunt fraction of their cardiac output (45 +/- 7% radioactivity recovered in the lungs vs. 3 +/- 2% in normal WKY). This subset of WKY with BVH provides a natural model of volume-load hypertrophy. In addition, investigators using the WKY for comparison with SHR should exclude animals with BVH.     

Myocardial hypertrophy and enhanced left ventricular contractility in Zucker diabetic fatty rats.

Heart failure is known to be a complication of insulin-dependent (IDDM) and noninsulin-dependent diabetes mellitus (NIDDM) even in the absence of coronary heart disease or hypertension. The mechanisms leading to diabetic cardiomyopathy are unknown. The aim of the study was to characterize structural and functional alterations in hyperinsulinemic Zucker diabetic fatty (ZDF) rats treated with or without insulin. Diabetic animals showed a twofold increase in cardiomyocyte volume with increased left ventricular ANP but not BNP mRNA levels in spite of a reduced plasma renin activity (PRA) 2 months after onset of diabetes compared to nondiabetic littermates. These changes were associated with an increase in left ventricular performance as assessed by echocardiography. Insulin treatment led to a significant increase in body weight (BW), total heart weight, myocardial protein content, and left ventricular mass (LVM). Perivascular fibrosis and laminin thickness were significantly augmented in diabetic rat myocardium irrespective of insulin treatment, whereas interstitial collagen I and fibronectin were similarly found in diabetic and control myocardium. Initial stages of diabetic cardiomyopathy in hyperinsulinemic rats are characterized by cardiomyocyte hypertrophy and enhanced cardiac contractility. It is suggested that hyperinsulinemia may be involved in cardiac hypertrophy.     

The ventricular epicardial fat is related to the myocardial mass in normal, ischemic and hypertrophic hearts

BACKGROUND: The purpose of the present study was to evaluate the extent of the ventricular epicardial fat and its relationship with the underlying myocardium, neither of which is still completely understood. METHODS: A total of 117 autoptic human hearts was subdivided into four groups: normals (N), ischemics (I), hypertrophics (H) and hypertrophic-ischemics (HI). In each heart, the ventricular myocardial and epicardial fat weights were measured. On the basis of these data, the epicardial fat percentage within the ventricles was calculated. RESULTS: The left, right and total ventricular fat weights were greater in H and HI than in N and I (P<.05, P<.05, P<.01, respectively). No differences were detected in the epicardial fat weights in comparing H versus HI and N versus I. Moreover, the fat percentage in each ventricle did not vary between the four groups. However, if compared with the right ventricle, the left ventricle showed an epicardial fat percentage consistently lower (P<.0001). In nonhypertrophied hearts (N and I), the body mass index and the total epicardial fat weight were correlated (P<.05), whereas in hypertrophied hearts (H and HI), they were not. CONCLUSIONS: A constant fat-muscle ratio exists in each ventricle, which is not influenced by ischemia or hypertrophy. Accordingly, during the hypertrophic process, the ventricular fat and the underlying myocardium show a parallel and correlated increase in their masses.     

Norepinephrine-induced cardiac hypertrophy of the cat heart.

Norepinephrine administration causes progressive hypertrophy of the mammalian heart as measured by myocardial mass. The purpose of this study was to determine the growth response of the myocardial tissue components as well as the myocardial cell itself to norepinephrine. Young, adult cats were given low doses of norepinephrine in dextrose or dextrose alone twice daily for 15 days. On day 16, there were no changes in the animals body weight, right ventricular systolic pressure, right ventricular end-diastolic pressure, heart rate, cardiac index, or blood pressure. However, the right ventricle/body weight, the left ventricle/body weight and the total heart weight/body weight were increased significantly in the norepinephrine treated animals. The increase was on the order of 40%. The cardiac muscle cell was also significantly increased in size and both the right and left ventricular cardiac muscle cells exhibited a dramatic increase in size as measured by cross sectional area. Upon stereological examination it was found that the amount of hypertrophy as seen in the cardiac muscle cells was paralleled by the hypertrophy seen in the other tissue components of the myocardium. The volume density of the muscle cells, the interstitial components, as well as the blood vessel compartment were identical in the control and in the norepinephrine-treated groups. In conclusion, this study demonstrates that the response of the myocardium to norepinephrine is similar to that seen in response to a volume overload rather than that seen in response to pressure overload.     

腹主动脉缩窄大鼠血浆心房利钠肽水平的变化

目的:通过建立腹主动脉缩窄大鼠模型,观察腹主动脉缩窄大鼠血浆心房利钠肽(ANP)浓度的改变。方法:30只雄性SD大鼠随机分为假手术组(14只)和模型组(16只)。模型组根据Doering等的方法,用银夹造成腹主动脉部分狭窄(银夹内径0.7mm);8周后计算左室心肌质量指数(LVMI),胶原染色观察心肌病理形态,放射免疫法测定血浆ANP水平。结果:造模8周时左室心肌胶原染色显示模型组有大量鲜红色胶原纤维,较假手术组有明显改变;模型组LVMI及血浆ANP水平较假手术组显著升高(P<0.01)。结论:腹主动脉缩窄大鼠造模8周时心肌符合纤维化改变,ANP在其过程中发挥重要作用。     

Spectrum of pathological changes in both ventricles of patients dying suddenly with arrhythmogenic right ventricular dysplasia. Relation of changes to age

AIMS: To quantify the variation in fibrosis, fat and muscle within the walls of both ventricles and within the different regions of the heart from six patients dying suddenly of arrhythmogenic right ventricular dysplasia (ARVD) aged 20-60 years. METHODS: Seven heart regions were examined both macroscopically and histologically using the Picro-Sirius red stain. Quantification of fibrosis, fat and muscle was performed in each region and transmural layer using grid counting. RESULTS: There were macroscopic changes in all examined hearts. A higher percentage of fat with less fibrosis and muscle was observed within the right ventricle of the older patients. The left ventricle had more pathology in the older age group. Statistical differences in pathology in the heart were found. Fat predominated in the epicardial layer in the right and left ventricles of all patients, while the interventricular septum was the least affected. CONCLUSIONS: In ARVD, the pathology varies with age in both ventricles, fibrosis being the earliest hallmark of disease, with fatty infiltration evolving later. It should be labelled arrhythmogenic ventricular dysplasia because of biventricular involvement. Histopathologists should therefore sample from whole slices of the heart, so that all the changes can be observed.     

短链酰基辅酶A脱氢酶在大鼠生理性和病理性心肌肥大中的作用

 目的：研究短链酰基辅酶A脱氢酶(short-chain acyl-CoA dehydrogenase, SCAD)在大鼠生理性和病理性心肌肥大中的变化,探讨其与心肌肥大之间的关系。方法：以自发性高血压大鼠作为病理性心肌肥大模型,游泳运动训练性大鼠作为生理性心肌肥大模型。检测大鼠的血压、左室重量指数、血清和心肌游离脂肪酸含量、SCAD mRNA、蛋白表达及其酶活性的变化,采用超声心动图观察心脏的结构及功能。结果：与对照组比较,运动组大鼠出现了明显的离心性肥大,心肌收缩功能增强;而高血压组大鼠呈现出明显的向心性肥大,心肌收缩功能减退。与对照组比较,运动组和高血压组大鼠的左室重量指数均明显增高,但两组间比较无显著差异,二者发生了相同程度的心肌肥大。与对照组比较,运动组大鼠左心室SCAD mRNA和蛋白表达均明显上调,酶活性增高,血清和心肌游离脂肪酸含量明显减少;而自发性高血压大鼠左心室SCAD mRNA和蛋白表达均明显下调,酶活性下降,血清和心肌游离脂肪酸含量明显增多。结论：SCAD在生理性和病理性心肌肥大中呈现出不一致的变化趋势,可能作为区别2种不同心肌肥大的分子标志物以及病理性心肌肥大的潜在治疗靶点。     

Pathologic evidence of extensive left ventricular involvement in arrhythmogenic right ventricular cardiomyopathy.

Arrhythmogenic right ventricular cardiomyopathy (also known as arrhythmogenic right ventricular dysplasia) is characterized by adipose or fibroadipose tissue replacement of the right ventricular myocardium, whereas the left ventricle is substantively spared. Two cases of the disease with evidence of extensive left ventricular involvement at pathologic examination are described. Hearts from two patients who died suddenly showed full-thickness right ventricular fatty infiltration associated with extensive left ventricular involvement (greater than 50% of myocardial thickness). These findings might explain the reported clinical features of left ventricle dysfunction in a subset of patients with arrhythmogenic right ventricular cardiomyopathy. In view of the biventricular involvement of the disease, it should simply be termed "arrhythmogenic cardiomyopathy."     

Correlation of alpha-skeletal actin expression, ventricular fibrosis and heart function with the degree of pressure overload cardiac hypertrophy in rats

We have analysed alterations of alpha-skeletal actin expression and volume fraction of fibrosis in the ventricular myocardium and their functional counterpart in terms of arrhythmogenesis and haemodynamic variables, in rats with different degrees of compensated cardiac hypertrophy induced by infra-renal abdominal aortic coarctation. The following coarctation calibres were used: 1.3 (AC1.3 group), 0.7 (AC0.7) and 0.4 mm (AC0.4); age-matched rats were used as controls (C group). One month after surgery, spontaneous and sympathetic-induced ventricular arrhythmias were telemetrically recorded from conscious freely moving animals, and invasive haemodynamic measurements were performed in anaesthetized animals. After killing, subgroups of AC and C rats were used to evaluate in the left ventricle the expression and spatial distribution of alpha-skeletal actin and the amount of perivascular and interstitial fibrosis. As compared with C, all AC groups exhibited higher values of systolic pressure, ventricular weight and ventricular wall thickness. AC0.7 and AC0.4 rats also showed a larger amount of fibrosis and upregulation of alpha-skeletal actin expression associated with a higher vulnerability to ventricular arrhythmias (AC0.7 and AC0.4) and enhanced myocardial contractility (AC0.4). Our results illustrate the progressive changes in the extracellular matrix features accompanying early ventricular remodelling in response to different degrees of pressure overload that may be involved in the development of cardiac electrical instability. We also demonstrate for the first time a linear correlation between an increase in alpha-skeletal actin expression and the degree of compensated cardiac hypertrophy, possibly acting as an early compensatory mechanism to maintain normal mechanical performance.     

Renin-angiotensin system and myocardial collagen matrix remodeling in hypertensive heart disease: in vivo and in vitro studies on collagen matrix regulation

Summary The interstitial space of the myocardium is composed of nonmyocyte cells and a highly organized collagen network which serves to maintain the architecture and mechanical behavior of the myocardial walls. It is the myocardial collagen matrix that determines myocardial stiffness in the normal and structurally remodeled myocardium. In hypertensive heart disease, the heterogeneity in myocardial structure, created by the altered behavior of nonmyocyte cells, particularly cardiac fibroblasts which are responsible for collagen synthesis and degradation, explains the appearance of diastolic and/or systolic dysfunction of the left ventricle that leads to symptomatic heart failure. Several lines of evidence suggest that circulating and myocardial renin-angiotensin systems (RAS) are involved in the regulation of the structural remodeling of the nonmyocyte compartment, including the cardioprotective effects of angiotensin converting enzyme (ACE) inhibition that was found to prevent myocardial fibrosis in the rat with renovascular hypertension. In cultured adult rat cardiac fibroblasts angiotensin II was shown to directly stimulate collagen synthesis and to inhibit collagenase activity, which is the key enzyme for collagen degradation, that would lead to collagen accumulation. In the spontaneously hypertensive rat, an appropriate experimental model for primary hypertension in man, left ventricular hypertrophy could be regressed and abnormal myocardial diastolic stiffness due to interstitial fibrosis could be restored to normal by inhibition of the myocardial RAS. These antifibrotic or cardioreparative effects of ACE inhibition that occurred irrespective of blood pressure normalization may be valuable in reversing left ventricular diastolic dysfunction in hypertensive heart disease.     

Effects of hypertension and hyperlipidemia on the myocardium and coronary vasculature of the WHHL rabbit.

This study was undertaken to study the effects of hyperlipidemia and hypertension on the coronary circulation and on the myocardium of Watanabe heritable hyperlipidemic (WHHL) rabbits. Surgery to induce hypertension by the one-kidney, one-clip technique was performed on the WHHL rabbits at 3 months of age. At 3 and 6 months after surgery, the right and left coronary arteries and the left ventricle and posterior papillary muscle from normotensive and hypertensive animals were assessed. Atherosclerotic involvement was found at the coronary origin in 94% of the arteries evaluated. Lesions were usually confined to the proximal 1-2 mm of the coronary artery. The prevalence of coronary atherosclerosis in the WHHL rabbit was found to be higher than previously reported in rabbits of the same age. Hypertension-induced muscular and vascular changes such as left ventricular hypertrophy, medial thickening of the arteries, and hyaline arteriolosclerosis were found in most of the hypertensive animals. These changes were rarely seen in the normotensive rabbits. Characteristics of ischemia and cell injury such as eosinophilic fibers, fiber vacuolization, and contraction band necrosis were found more often in hypertensive than in normotensive WHHL rabbits. Confluent areas of severe necrosis indicative of myocardial infarction were not found; myocardial damage was diffuse and involved individual cells and small microscopic areas. This model may be valuable in further studies of coronary artery disease and myocardial injury that result from the combination of hypercholesterolemia and hypertension.