Ultrastructural stereological analysis of acute myocardial hypertrophy of hypertensive etiology

The myocardium of Wistar rats was studied by electron microscopy after ligation of the renal artery resulting in a stable elevation of blood pressure. The ultrastructural data on the development of heart hypertrophy were described within 5 to 35 days after operation using the morphometric and stereological methods and correlation analysis. The hypertrophied cardiomyocytes showed a reduction in the ratio of the total volume density of the mitochondria, sarcoplasmic reticulum and T system to the volume density of myofibrils. It was discovered that hypertrophy of cardiomyocytes is marked by an increase in the sarcoplasmic reticulum rather than in myofibrils and other cell compartments, whereas the relative volume of mitochondria decreases.     

Correction of stress-induced disorders of the ultrastructure of hypertrophied myocardium with thyroid hormones

In the experiment performed on 25 non-inbred male rats ultrastructural changes in cardiomyocytes of the hypertrophied heart have been studied under conditions of stress caused by immobilization and possibility to correct these changes by means of thyroid hormones. The stress intensifies destructive lesions in a number of organelles++, which develop at a prolonged hypertrophy, decreases essentially the ratio mitochondria/myofibrils in section area. Small doses of the thyroid hormones protect the hypertrophied heart from the damaging effect of the stress: prevent the stress-induced+ decrease in the ratio mitochondria/myofibrils, as well as stimulate development of the regenerative-adaptive processes (increase in size and number of mitochondria and their crists, elements of the sarcoplasmic reticulum, glycogen granules, increase in section areas of their nuclei and chromatin in them). The thyroid hormones restrict essentially decrease in correlation of organelles++, resulted from hypertrophy. Thus, the stress-induced disturbances in ultrastructure of the hypertrophied heart can be prevent by means of the thyroid hormones, administered in small doses.     

Stereological analysis of the ultrastructural organization of the cardiomyocytes in the red-cheeked suslik in different seasons of the year

The myocardium of red-cheeked sousliks was studied at different seasons with the use of stereological analysis. The volume and surface densities of the myofibrils, mitochondria, T system, sarcoplasmic reticulum as well as the surface-volume ratios of the main organelles were measured. Pronounced seasonal changes in physiological activity of the heterothermal animals were accompanied by marked reorganization of the spatial ultrastructure of the cardiomyocytes. The seasonal regression of the heart weight and diminution of the cardiomyocyte diameter were recorded during hibernation. The authors believe that the increased volume ratio of the cytoplasmic organelles to the myofibrils forms the basis for a rapid adaptive reaction of the heart during hibernation and waking up.     

Stereological ultrastructural study of myocardial atrophy in hypokinesia

The myocardium of Wistar rats immobilized for 5, 15 and 30 days was examined by morphometry and stereological methods for evaluating the volumetric and surface density of myofibrils, mitochondria, T system, sarcoplasmic reticulum and for the measurement of the volumetric ratio of different ultrastructures to the density of myofibrils and the surface-volumetric ratio of the main organelles of the cardiomyocyte. Myocardial atrophy was shown to develop in the course of hypokinesia. The 30-day hypokinesia entailed changes in ultrastructural organization of cardiomyocytes, attesting to the tension of intracellular systems responsible for energy supply, of ionic membrane transport and the contractile apparatus.     

Early ultrastructural changes in the myocardium following thyroxine-induced hypertrophy

The model of myocardial hypertrophy induced by thyroxine was studied with particular regard to the early ultrastructural changes in fractional volume of the mitochondria and myofibrils, and capillary distribution. Following injections of L-thyroxine (25 mg/kg IP) for 9 consecutive days, rats were sacrificed by vascular perfusion and cardiac tissue samples from the mid-wall zone of the left ventricle were processed routinely for electron microscopy. Heart weight/body weight ratios of thyroxine treated (T) rats showed a significant increase (P less than 0.001) over the ratios in control (C) rats. Likewise, the fractional volume of mitochondria (42%) was significantly increased (P less than 0.001) in the myocardium of T rats when compared with C rats (31%). However, the fractional volume of myofibrils was significantly decreased in the myocardium of T rats (P less than 0.001) and there was no significant difference between the hearts of T and C rats with respect to capillary luminal area/myocyte area. The mitochondria/myofibril ratio was increased in the hearts of T rats (0.82) over that found in control hearts (0.52). These results suggest that in the early stages of thyroxine-induced myocardial hypertrophy there is not an immediate increase in capillary area which may account for the ischemia and significant increase in mitochondrial volume which characterized myocardial hypertrophy in this model.     

The features of mitochondria of cardiomyocytes from rats with chronic heart failure

Electron-microscopy study of rat myocardium 2 weeks after a heart attack revealed significant alterations in the ultrastructure of cardiomyocytes than for the control. The location of myofibrils was less regular than for normal cells. The population of interfibrillar mitochondria decreased. Mitochondrial cristae were located less densely and formed cellated structures. Swollen mitochondria were observed in the periinfarction and intact areas, indicating the development of ischemia in the myocardium as a whole. Six months after the occlusion of coronary vessels alterations in the location of myofibrils and mitochondria were mainly observed in the peri-infarction area. Mitochondria also formed cellated structures. A 30% decrease in the density of the arrangement of the inner membranes of mitochondria on an area unit was found in the periinfarction zone. The ratio between the relative volumes of mitochondria and myofibrils in the cardiomyocytes of the peri-infarction area was increased by 20%. The area of mitochondria in the intact zone of the left ventricle was 30% greater than for the control. A study of isolated living cardiomyocytes revealed that the mitochondrial- membrane potential in the rats subjected to myocardial infarction half a year ago previously was significantly lower than for the mitochondrial-membrane potential in the control rats. Thus, cardiomyocytes that were similar to healthy cardiomyocytes in their morphology exhibited lower total mitochondrial-membrane potential, indicating their decreased energy state.     

Ultrastructural stereological analysis of the absolute parameters of the cardiomyocytes in myocardial hypertrophy

Arterial hypertension was produced in male Wistar rats by abdominal aorta ligation. By the 35th day of experiment the animals had developed myocardial hypertrophy. The subcellular organization of cardiomyocytes was studied by electron microscopy and stereology (computation of relative and absolute parameters). In myocardial hypertrophy, the absolute volume of myofibrils, sarcoplasmic reticulum and T system in the left ventricle of the heart was increased, whereas the absolute volume of the mitochondria remained unchanged. The general surface area of all organelles was noticeably increased. The myofibrils and sarcoplasmic reticulum experienced greater changes, which may reflect the features of compensatory processes under the experimental conditions described.     

Prevention of disorders of cardiomyocyte ultrastructure in experimental myocardial infarction in immobilization-induced stress by administration of thyroid hormones

In the experiment, carried out on 48 non-inbred male rats ultrastructural changes in cardiomyocytes in non-ischemized parts of the heart at experimental infarction of myocardium under conditions of immobilization stress have been studied, as well as possibility to correct these changes by means of thyroid hormones. The stress intensifies dystrophic processes, developed outside the infarction zone, increases the mass of the necrotized tissue, essentially decreases the areas occupied by mitochondria and myofibrils, as well as their ratio in the section area. Small doses of thyroid hormones prevent the heart from the damaging effect of the stressor: decreasing area; occupied by mitochondria, myofibrils and their relation in the section, as well as they stimulate intracellular regenerative processes (accumulation of polymorphous mitochondria with clearly manifested cristae, membranes of the endoplasmic reticulum) and decrease the myocardial necrotized zone). Thus, structural lesions, resulted from the effect of ischemic necrosis and stress, can be prevented by small doses of thyroid hormones+.     

Effect of chronic stress on the ultrastructure of the myocardium and hypothalamus of "emotional" and "nonemotional" rats

The influence of chronic stress on the ultrastructure of the myocardium and hypothalamus was studied in experiments on male rats with different levels of emotional-behavioral reactivity. "Emotional" rats manifested a pronounced increase in glycogen granules in myocytes and intercellular space, appearance of the areas of overcontraction of myofibrils, conglomerates of aggregated platelets in myocardial capillaries, and red cell egress from myocardial and hypothalamic capillaries. Alterations in the ultrastructure of the myocardium and hypothalamus in "nonemotional" rats were less marked and consisted in the appearance of the areas of overcontraction of myofibrils, enlargement of sarcoplasmic reticulum caverns, and in an increase in the lipid content in cardiomyocytes. The ultrastructural changes in the myocardium and hypothalamus of "emotional" and "nonemotional" rats indicate different reactivity of the animals and are likely to be accounted for by different levels of activation of their adrenergic systems.     

3-dimensional ultrastructural characteristics of the cardiomyocytes of SHR strain rats with spontaneous genetic hypertension

The quantitative morphological analysis of hypertrophied cardiomyocytes was carried out in SHR rats (spontaneously hypertensive rats). The features of spatial ultrastructural organization of heart muscle cells were shown as manifested in the increased synthesis of contractile proteins and focal disorders of myofilament arrangement. Stereological analysis revealed the decrease of the ratio of the summary volume of the main cardiomyocyte organelles (mitochondria, smooth sarcoplasmic reticulum and T-system) to the myofibril volume.     

Ultrastructure of skeletal muscle fibers in monkeys after space flight

It is known that exposure of humans and animals to microgravity causes reduction in the cross-sected area of muscle fibers and muscle atrophy. These changes also involve ultrastructural alterations in muscle fibers. Therefore primates, that are physiologically close to humans, are to be examined to help a better understanding of the nature of these ultrastructural changes is muscles and muscle fibers. Although failed to find any relevant published data on the quantitative aspects of ultrastructural changes in muscle fibers of space-flown primates we believe that it is important to examine these aspects. The postflight study of monkey's m. soleus, and m. vastus lateralis did not reveal any significant changes in volume density of the myofibrillar apparatus. Mitochondria of m. soleus showed a distinct reduction in volume density, being more obvious in the subsarcolemmal zone than in the central one. Mitochondria of m. vastus lateralis showed a decrease (P > 0.05) in volume density. Following the flight, m. soleus and m. vastus lateralis of the monkeys showed a significant increase in the mean area of myofibrils, and a trend towards a decrease in the number of myofibrils per 100 micron 2. Besides, m. soleus showed a significant increase in the mean area of mitochondria, and a trend towards a decrease in the number of mitochondria per 100 micron 2. In m. vastus lateralis of the monkeys after space flight the number opf mitochondria tended to decrease and the mean area showed differential changes. It can be postulated that these phenomena may be associated with a reduction in the diffusion surface of mitochondria resulting from the diminished myofibrillar volume.     

Temperature acclimation in crucian carp, Carassius carassius L., morphometric analyses of muscle fibre ultrastructure

Carp show a partial compensation in metabolic rate and activity following temperature acclimation. In the present study crucian carp, Carassius carassius , were acclimated for eight weeks to either 2deg; C or 28deg; C. The effects of temperature acclimation on muscle fibre ultrastructure has been investigated. The fractional volume (%) of each fibre type occupied by mitochondria and myofibrils was determined using a point counting morphometric method. Mitochondrial density was found to be higher in the muscles of cold (red fibres 25%; pink fibres 20% and white fibres 4%) than in those of warm acclimated fish (red fibres 14%, pink fibres 11%, white fibres 1%). The proportion of subsarcolemmal to intra-myofibrillar mitochondria was significantly lower in the red fibres of cold acclimated fish. Metabolic compensation to low temperatures are therefore associated with an increase in the number of mitochondria per cell. In contrast, the fractional volume occupied by myofibrils actually decreased following cold acclimation. Evidence is reviewed that temperature compensation of contractile activity results from qualitative rather than quantitative changes in myofibrillar proteins.     

Rat soleus muscle ultrastructure after hindlimb suspension

The aim of the present investigation was to determine, by quantitative electron microscopy, the effects of a 5-wk tail-suspension period on rat soleus muscle ultrastructure. A marked decline (-60%) in muscle mass occurred. The mean fiber cross-sectional area decreased to a greater extent (-75%) than the capillary-to-fiber ratio (-37%), leading to a higher capillary density (+148%) after hypokinesia. The total mitochondrial volume density remained unchanged, whereas the volume density of myofibrils was slightly but significantly reduced (-6%). A shift from subsarcolemmal to interfibrillar mitochondria occurred. Interfibrillar mitochondrial volume density was highest near the fiber border and decreased toward the fiber center. An increase in volume density of satellite cells suggested muscle regenerative events. Soleus atrophy with tail suspension greatly decreases the muscular volume but leaves the ultrastructural composition of muscle fibers relatively unaffected.     

Structural and functional heterogeneity of cardiomyocytes during hemodynamic loading of the rat heart

Ultrastructural studies of cardiomyocytes during experimental aorta coarctation enabled one to divide them into 6 types: with mitochondrial swelling and enlargement of the sarcoplasmic reticulum; with primary damage to myofibrils; with disintegration of ultrastructure because of edema; with hypertrophy and hyperplasia of ultrastructures; without essential changes in organelles; and with concomitant changes in mitochondria and myofibrils. Such different reactions of cardiomyocytes are regarded as an adaptation mechanism that ensures the maintenance of heart function under extreme conditions.     

An ultrastructural stereological analysis of the cardiomyocytes in a hibernating rodent (the red-cheeked suslik Citellus erythrogenys, Brandt)

The quantitative morphological study of cardiomyocytes in heterothermic animals (red-cheeked susliks Citellus erythrogenys Br.) was quantitatively morphologically studied. The features of spatial ultrastructural cardiomyocyte reorganization in hibernating susliks were shown to manifest in pronounced increase of volume and surface densities of sarcoplasmic reticulum and relative volume of lipid droplets.     

Formation of transversely oriented myofibrils in myocardiocytes in the presence of heart enlargement]

Myocardial hypertrophy was induced in rats and mice by training in the pressure chamber (high altitude hypoxia) or ligation of the apex of the heart. Transversely oriented myofibrils developed in the subsarcolemma area of some cardiomyocytes of the ventricles in a fortnight; the Z bands of the newly-formed myofibrils were connected with the T tubules as in the normal myofibrils. It is supposed that this phenomenon was due to the appearance under the sarcolemma of transversely directed mechanical forrces as a result of enlargement of the cell volume.     

Effect of cordarone on the ultrastructure of cardiac muscle cells in experimental myocardial infarct

The effect of cordarone on the ultrastructure of cardiomyocytes of the periinfarction zone was studied in experiments on 30 cats. Cordarone was injected intramuscularly daily for 3.7 and 15 days in a dose of 10 mg/kg. Experimental myocardial infarction was induced by ligation of the left coronary artery at the border of its medium and inferior thirds. As compared with control, cordarone produced a more demonstrable reduction in the intracellular edema, more rapid recovery of the structure of myofibrils and greater accumulation of glycogen granules by the cytoplasm of cardiomyocytes. At the same time the structure of the mitochondria returned to normal more slowly as compared with control, with persistent widening of the cisternae of the sarcoplasmic reticulum being observed in addition. The changes described indicate that cordarone exerts different actions on the ultrastructure of cardiomyocytes, which is probably based on the drug influence on adrenergic processes and calcium turnover in the myocardium.     

The ultrastructure of renomedullary interstitial cells in short duration hypercalcemia induced by vitamin D3.

Under short duration hypercalcemia induced by pharmacological doses of vitamin D3 significant ultrastructural changes were observed in the renomedullary interstitial cells of rats. The most striking alteration was the degranulation of these cells accompanied with the increase in volume of the rough and smooth-surfaced endoplasmic reticulum, enlargement of the Golgi apparatus and occurence of osmiophilic inclusions probably of lipid nature in mitochondria. The ultrastructural changes can be regarded as an expression of the increase of a synthetic and secretory activity of the renomedullary interstitial cells and they may be associated with an enhanced production of prostaglandins or other lipid hormonal substances than prostaglandins under condition of hypercalcemia.     

Changes in the filtration and reabsorption barrier of the kidneys of the rat after administration of nonsteroidal anti-inflammatory preparations

Nonsteroid antiinflammatory preparations, influencing biosynthesis of renal prostaglandins, are able to produce certain changes in hemodynamics of the organ with successive ischemia. Administration of these preparation (indomethacin and voltaren) to rats in doses corresponding to human therapeutic ones, produces dystrophic changes in the canalicular epithelium of the nephron and appearance of infiltrates in the interstitium and in the lamina propria of the renal calyxes mucous membrane. Intercellular edema and changes in configuration of the cells, decreasing electron density of hyaloplasm, swelled mitochondria, diluted cysterns of the Golgi complex and of the endoplasmic reticulum--are general regularities in ultrastructural reorganization of the cells in response to administration of the two preparations. These changes differ only in degree of their manifestation. As demonstrate the results, the pharmacologic depression of the prostaglandin synthesis causes decreased blood supply of the kidneys and successive depression of their functional state. This can be considered as risk factors of the renal complications under treatment with the nonsteroid antiinflammatory preparations.     

Morphological and biochemical examination of Cosmos 1887 rat heart tissue: Part I--Ultrastructure

Morphological changes were observed in the left ventricle of rat heart tissue from animals flown on the Cosmos 1887 biosatellite for 12.5 days. These tissues were compared to the synchronous and vivarium control hearts. While many normal myofibrils were observed, others exhibited ultrastructural alterations, i.e., damaged and irregular-shaped mitochondria and generalized myofibrillar edema. Analysis of variance (ANOVA) of the volume density data revealed a statistically significant increase in glycogen and a significant decrease in mitochondria compared to the synchronous and vivarium controls. Point counting indicated an increase in lipid and myeloid bodies and a decrease in microtubules, but these changes were not statistically significant. In addition, the flight animals exhibited some patchy loss of protofibrils (actin and myosin filaments) and some abnormal supercontracted myofibrils that were not seen in the controls. This study was undertaken to gain insight into the mechanistic aspects of cardiac changes in both animals and human beings as a consequence of space travel (1). Cardiac hypotrophy and fluid shifts have been observed after actual or simulated weightlessness and raise concerns about the functioning of the heart and circulatory system during and after travel in space (2-4).