Prolonged L-arginine on cardiovascular mass and myocardial hemodynamics and collagen in aged spontaneously hypertensive rats and normal rats

This study was designed to examine whether L-arginine could prevent hypertension- and age-related impairment of coronary hemodynamics and cardiac fibrosis in aged (80-week-old) rats. To differentiate between hypertension- and age-related changes, the study was performed in both normotensive Wistar-Kyoto rats (WKYs) and spontaneously hypertensive rats (SHR). Male 1-year-old rats of both strains were divided into 2 groups and given either placebo or L-arginine (1.2 g/L) in drinking water. After 6 months, systemic and coronary hemodynamics (radionuclide-labeled microspheres), right and left ventricular and aortic mass indexes, and ventricular hydroxyproline (an estimate of collagen) concentrations were determined. In the aged WKYs, L-arginine did not affect any of the examined variables except slightly reducing total peripheral resistance. In contrast, L-arginine diminished arterial pressure, total peripheral resistance, and left ventricular and aortic mass indexes in the SHRs; it also increased coronary flow reserve and reduced minimal coronary flow resistance and myocardial hydroxyproline concentration. These findings demonstrated that L-arginine ameliorated adverse cardiovascular effects of hypertension in aged SHRs, as demonstrated by reduced arterial pressure and total peripheral resistance, diminished left ventricular mass and collagen content, and improved coronary hemodynamics. There were no important effects in the old WKYs.

L-arginine reverses severe nephrosclerosis in aged spontaneously hypertensive rats

OBJECTIVE

Acute and prolonged effects of L-arginine on systemic and renal hemodynamics and on renal pathological changes were examined in 85-week-old spontaneously hypertensive rats (SHR).

RESULTS

After 3 weeks of L-arginine administration (n = 9; 2 g/l in drinking water), mean arterial pressure remained unchanged, although the cardiac index increased (187 +/- 26 versus 263 +/- 15 ml/min per kg; P < 0.05) and total peripheral resistance decreased (1.15 +/- 0.18 versus 0.67 +/- 0.06 AU; P < 0.05); the glomerular filtration rate increased (0.41 +/- 0.07 versus 0.79 +/- 0.07 ml/min; P < 0.01). Control untreated, aged SHR (n = 10) demonstrated severe nephrosclerosis histologically, but those treated with L-arginine demonstrated a markedly reduced glomerular injury score (164 +/- 22 versus 83 +/- 9; P < 0.005), and their urinary protein excretion (39 +/- 5 versus 19 +/- 5 mg/100 g body weight per day; P < 0.05) and serum creatinine concentration (1.4 +/- 0.1 versus 0.9 +/- 0.1 mg/dl; P < 0.05) diminished. Intravenous L-arginine (300 mg/kg body weight) given to untreated SHR reduced mean arterial pressure, increased the cardiac index (+98 versus +1%; P < 0.05) and decreased total peripheral resistance (+56 versus +13%, P < 0.005); however, these variables remained unchanged after 3 weeks of L-arginine treatment.

CONCLUSIONS

Three weeks of treatment with L-arginine improved systemic hemodynamics, renal function and renal histologic changes in aged SHR with naturally occurring nephrosclerosis. These data provide an important insight into the pathophysiology of nephrosclerosis in hypertension and with aging, which is seen clinically.

Recent advances on large arteries in hypertension

The most classic hemodynamic concept explaining the increased mean arterial pressure in hypertension reflects an increased total peripheral resistance dynamically and an increased wall-to-lumen ratio to suppress smaller arteries. However, a more current consideration takes into account not only that steady component but also the pulsatile component of blood pressure, a point that importantly modifies the traditional hemodynamic definition. Whereas mean arterial pressure is almost constant along the arterial tree, the pulse pressure increases markedly from the more central to the peripheral arteries, indicating that in vivo each artery should be characterized according to its own blood pressure curve. This important concept implies major modifications in the methods used to investigate the relationships between mechanical factors and large artery structure and function. It therefore seems reasonable that in hypertension the large arteries should no longer be considered as passive conduits but rather in terms of their active behavioral response to the mechanical forces to which they are subjected. New investigational aspects in hypertension therefore now involve not only genetic, cellular, and molecular mechanisms but also transductional hemodynamic mechanisms reflecting changing patterns in the extracellular matrix that influence structural remodeling of the vessels.

Nephroprotective effect of antihypertensive drugs in essential hypertension

BACKGROUND

Effective antihypertensive treatment has prevented target-organ involvement in hypertension, markedly reducing morbidity and mortality from strokes, coronary heart disease, cardiac failure, and hypertensive emergencies. However, the incidence of hypertension-related end-stage renal disease continues to increase, suggesting that therapeutic reduction in arterial pressure by itself is not sufficient to prevent the development of hypertensive renal failure.

OBJECTIVE

To examine experimental and clinical data concerning the protective effect of reduction of arterial pressure on the progression of hypertension-related renal disease, and the evidence indicating that some antihypertensive agents may afford more nephroprotection, over and above that attributable to reduction of arterial pressure.

RESULTS

Results of numerous studies clearly indicate that adequate control of arterial pressure, irrespective of the antihypertensive agent used, slowed the progression of renal disease. Results of some studies suggest that lowering arterial pressure below the level that is usually considered adequate has an additional beneficial effect by slowing the progression of renal injury.

CONCLUSION

Results of a number of studies evaluating nephroprotective effects of various drugs and regimens have indicated that certain agents, most notably angiotensin converting enzyme inhibitors and their combination with calcium antagonists, afford more protection than do others at similar levels of reduction of arterial pressure. Results of still other studies suggest that certain agents that exert greater nephroprotection are more efficient at controlling arterial pressure. Therefore, further data are needed before any final conclusion can be drawn. However, it is clear that, in order to establish nephroprotection in patients with essential hypertension, the problem should not be further complicated by additional comorbid diseases such as diabetes mellitus.

Treatment guideline in the USA: hypertension in the elderly

According to the JNC-5, at least six classes of antihypertensive agents have been synthesized and currently recommended for initial antihypertensive therapy in the USA for elderly patients. Each class is safe and effective in reducing arterial pressure, each has its own specific mechanism(s) of action that suppress specific pressor mechanisms, and each has its own side-effects which may be overcome by substituting a drug from another class of agents. In the case of adrenergic inhibitors, more specific agents have been introduced over the years. Each succeeding new class has obviated certain adverse effects of an earlier class. In the case of alpha-adrenergic receptor inhibitors, this concept is of particular value with the alpha 1A-receptor inhibiting compounds. The alpha 1-adrenergic inhibitors have special value for elderly patients with BPH as both hypertension and the prostatic disease can be treated with one compound. The alpha 1A-antagonists may have particular value in those patients in whom further reduction of arterial pressure is not desired and this obviously includes the normotensive elderly patient and the hypertensive patient whose blood pressure is already well-controlled by other agents.

Renoprotective effects of felodipine and/or enalapril in spontaneously hypertensive rats with and without L-NAME

To determine the renoprotective effects of a calcium antagonist (felodipine) and an angiotensin-converting enzyme (ACE) inhibitor (enalapril), alone or in combination, 10 groups of 19-week-old spontaneously hypertensive rats (SHR) (with or without N(G)-nitro-L-arginine methyl ester [L-NAME]) were studied using renal micropuncture techniques. Group 1 (control), group 2 (felodipine, 30 mg x kg(-1) x d[-1]), group 3 (enalapril, 30 mg x kg(-1) x d[-1]), and group 4 (felodipine plus enalapril, 15 mg x kg(-1) x d(-1) each agent) were studied after 3 weeks of treatment without L-NAME. L-NAME (50 mg/L) cotreatment was administered in drinking water to groups 6 through 10 using the same doses of each agent as in groups 1 through 4: group 5 (only L-NAME), group 6 (felodipine), group 7 (enalapril), and group 8 (felodipine plus enalapril). Groups 9 and 10 received L-NAME initially for 3 weeks followed by felodipine or felodipine plus enalapril, respectively, for the subsequent 3 weeks. All three treatments resulted in reductions in mean arterial pressure and total peripheral vascular resistance (P<.001) that were associated with important structural and functional renal microcirculatory improvements. Thus, the pathological nephrosclerosis (subcapsular and juxtamedullary) glomerular and arteriolar injury scores were improved (P<.05 at least) in association with normalization of afferent and efferent arteriolar resistances, and single-nephron glomerular filtration rate, plasma flow, and blood flow were significantly improved, as well as the ultrafiltration coefficient (compared with group 5, L-NAME). Thus, the calcium antagonist felodipine, alone or in combination with an ACE inhibitor, not only prevented but also reversed L-NAME-exacerbated hypertensive nephrosclerosis in SHR.

Coronary hemodynamics in aging spontaneously hypertensive and normotensive Wistar-Kyoto rats

OBJECTIVE

To delineate hypertension-related and age-related changes in coronary hemodynamics and to assess the role of myocardial (i.e. left ventricular) hypertrophy and cardiac fibrosis in inducing progressive deterioration of coronary flow reserve associated both with hypertension and with aging.

METHODS

Systemic and coronary hemodynamics (using radionuclide-labeled microspheres), right ventricular, left ventricular, and aortic mass indexes, and ventricular hydroxyproline concentrations (an estimate of collagen) in normotensive Wistar-Kyoto and spontaneously hypertensive rats aged 22, 35, and 65 weeks were determined.

RESULTS

Spontaneously hypertensive rats of all ages had greater left ventricular and aortic masses, greater collagen concentrations in both ventricles, a lower coronary flow reserve, and greater minimal coronary vascular resistance after administration of dipyridamole than did Wistar-Kyoto rats. Despite spontaneously hypertensive rats having only left ventricular hypertrophy, coronary hemodynamics were impaired to the same extent in both ventricles. Progressive increases in myocardial collagen concentration, decreases in coronary flow reserve, and increases in minimal coronary vascular resistance were observed in rats of both strains with aging. A positive correlation and linear regression between myocardial collagen concentration and minimal vascular resistance were found for both ventricles of rats of both strains.

CONCLUSIONS

Both aging and hypertension adversely affected the coronary circulation; furthermore, these effects appeared to be additive. Cardiac fibrosis, but not hypertrophy, might play a role in progressive deterioration of coronary hemodynamics in aging and hypertension and could provide an explanation for the diastolic dysfunction encountered clinically in older patients with hypertension.

Current clinical pathophysiologic considerations in essential hypertension

Over the years, much has been learned from unraveling the pathophysiological alterations associated with the hypertensive diseases. Despite this large base of fundamental and clinical information, our knowledge continues to expand. This article discusses the multifactorial nature of hypertensive disease, including the vascular and cardiac participation in the elevation of arterial pressure and in target organ involvement by the disease. Some of the most exciting advances of the last decade are summarized in this review.

ACE inhibition reduces left ventricular mass independent of pressure without affecting coronary flow and flow reserve in spontaneously hypertensive rats

Systemic and regional (including coronary) hemodynamics were studied in spontaneously hypertensive and normotensive Wistar Kyoto rats after 3 weeks of treatment with one of the three doses of the angiotensin converting enzyme inhibitor, ramipril. The effects of respective treatments on cardiovascular mass and systemic, coronary, and regional hemodynamics (at rest, during maximal treadmill exercise, and during dipyridamole infusion) then were evaluated in conscious rats using radiomicrosphere techniques. Low-dose ramipril (10 micrograms/kg/day by gavage) neither decreased arterial pressure nor reduced cardiac mass. However, medium (100 micrograms/kg/day) and high (1 mg/kg/day) doses reduced total cardiac and left ventricular masses to the same extent in spontaneously hypertensive rats, despite a much greater fall in arterial pressure with a high dose. Resting cardiac index, and myocardial and all other organ blood flows remained unchanged in both strains. When compared with Wistar Kyoto rats, coronary circulation was impaired in untreated spontaneously hypertensive rats (ie, reduced coronary flow and flow reserve and increased minimal coronary vascular resistance during dipyridamole infusion). This remained unchanged by ramipril. Furthermore, significant (and comparable) increases in cardiac index and myocardial blood flow and decreases in coronary vascular resistance were produced by maximal treadmill exercise in both strains. This also was unaffected by ramipril. These data showed that angiotensin converting enzyme inhibition with suboptimal and optimal hypotensive doses of ramipril reversed left ventricular hypertrophy in spontaneously hypertensive rats, but coronary flow, flow reserve, and minimal coronary vascular resistance remained unchanged despite left ventricular hypertrophy reversal.

Disparate effects of ACE-inhibitors and calcium antagonists on left ventricular structure and function in essential hypertension

The present study was designed to compare the effects of angiotensin-converting enzyme (ACE) inhibitors and calcium antagonists-the two drug classes thought to be most effective in reducing left ventricular hypertrophy-on arterial pressure, left ventricular structure and function in patients with essential hypertension. After a placebo period of 4 weeks, a population of 96 patients were treated either with one of five different ACE inhibitors or one of six different calcium antagonists. Cardiac structure and function was assessed by 2D-guided M-mode echocardiography. Whereas both drug classes lowered arterial pressure to the same extent, ACE inhibitors had a more pronounced effect on posterior and septal wall thickness and left ventricular mass index than calcium antagonists. Diastolic function, as measured by peak filling rate and duration of rapid filling, improved in both treatment groups to the same extent. However, systolic performance, as assessed by midwall fractional fibre shortening, was significantly improved by ACE inhibitors only. Myocardial contractility (end-systolic wall stress/end-systolic volume index) showed no significant change in the ACE inhibitor group but decreased after treatment with calcium antagonists. We conclude that both calcium antagonists and ACE inhibitors lower arterial pressure and increase left ventricular filling to the same extent. However, compared with calcium antagonists, ACE inhibitors had a more pronounced effect on left ventricular mass and improved systolic ventricular performance in patients with essential hypertension.

Systemic and regional hemodynamic effects of gallopamil in patients with essential hypertension

Systemic and regional hemodynamics were assessed in 10 patients with uncomplicated mild to moderate essential hypertension before and during gallopamil therapy. Cardiac output was measured in triplicate with indocyanine dye. Plasma volume and renal blood flow were measured radioisotopically. Immediately following the initial dose of a slow-release (SR) formulation of gallopamil, a significant fall in arterial pressure associated with a decreased total peripheral resistance and a reflex increase in heart rate and cardiac output were seen. Then, after 8-12 weeks of treatment, arterial pressure and total peripheral resistance remained reduced, but heart rate and cardiac output returned to pretreatment levels. Gallopamil also produced significant reductions in renal and splanchnic vascular resistance. Plasma volume and total blood volume did not change. Thus, gallopamil reduced arterial pressure and vascular resistances without fluid retention or prolonged reflexive changes.