The role of anemia in the progression of congestive heart failure. Is there a place for erythropoietin and intravenous iron?

Anemia is found in about one-third of all cases of congestive heart failure (CHF). The most likely common cause is chronic kidney insufficiency (CKI), which is present in about half of all CHF cases. The CKI is likely to be due to the renal vasoconstriction that often accompanies CHF and can cause long-standing renal ischemia. This reduces the amount of erythropoietin (EPO) produced in the kidney and leads to anemia. However, anemia can occur in CHF without CKI and is likely to be due to excessive cytokine production (for example, tumor necrosis factor-alfa (TNF-alfa) and interleukin-6 (IL-6)), which is common in CHF and can cause reduced EPO secretion, interference with EPO activity in the bone marrow and reduced iron supply to the bone marrow. The anemia itself can worsen cardiac function, both because it causes cardiac stress through tachycardia and increased stroke volume, and because it can cause a reduced renal blood flow and fluid retention, adding further stress to the heart. Long-standing anemia of any cause can cause left ventricular hypertrophy (LVH), which can lead to cardiac cell death through apoptosis and worsen the CHF. Therefore, a vicious circle is set up wherein CHF causes anemia, and the anemia causes more CHF and both damage the kidneys worsening the anemia and the CHF further. We have termed this vicious circle the cardio renal anemia (CRA) syndrome. Patients with CHF who are anemic are often resistant to all CHF medications resulting in being hospitalized repeatedly. Many studies also demonstrate that these patients die more rapidly than their non-anemic counterparts do. In addition, they have a more rapid deterioration in their renal function and can end up on dialysis. There is now evidence from both uncontrolled and controlled studies that early correction of the CHF anemia with subcutaneous EPO and intravenous (i.v.) iron improves shortness of breath and fatigue, cardiac function, renal function and exercise capability, dramatically reducing the need for hospitalization. For these reasons, it is not surprising that quality of life has also been shown to improve. As both CHF and end-stage renal disease (ESRD) are rapidly increasing, the possibility that these twin conditions can be improved by the adequate treatment of anemia offers new hope for slowing the progression of both conditions.     

Erythropoietin should be part of congestive heart failure management

BACKGROUND: Up to 64% of patients referred to nephrologists with chronic kidney insufficiency (CKI) have evidence of congestive heart failure (CHF), and most of these patients are also anemic. We have called this triad of anemia, CKI, and CHF the cardio renal anemia (CRA) syndrome. The 3 components of this syndrome form a vicious circle, with each one capable of causing or worsening the other 2. Anemia is found in one-third to one-half of CHF patients and can either cause or worsen the CHF, and can increase the mortality, hospitalization, and malnutrition in this condition. Anemia is also associated with a worsening of renal function in CHF and CKI, causing a more rapid progression to dialysis than is found in those without anemia. Uncontrolled CHF can cause rapid deterioration of renal function and may also cause anemia. Chronic kidney insufficiency can cause anemia and worsen the CHF. METHODS: Aggressive therapy of CHF with all the accepted CHF medications in the accepted doses will often fail to improve the CHF if anemia is also present but is not corrected. However, when the anemia was corrected with subcutaneous erythropoietin and, in some cases, with intravenous iron, the cardiac and patient function and quality of life improved, the need for hospitalization and for high-dose oral and intravenous diuretics was strikingly reduced, and renal function, which had previously been deteriorating, stabilized. RESULTS: Nephrologists should carefully assess the cardiac status of all CKI patients, including routinely getting an echocardiogram and possibly measuring B-type natriuretic peptide. Where CHF is present, the indicated CHF agents in the indicated doses should be used. CONCLUSION: Studies show that most cardiologists and internists do not recognize, investigate, or treat the anemia frequently seen in their CHF patients. In our experience cooperation between nephrologists and these specialists has increased their awareness about anemia, resulting in its earlier correction, and thus preventing the deterioration of the CHF, the CKI, and the anemia itself.     

Anemia, chronic renal disease and congestive heart failure—the cardio renal anemia syndrome: the need for cooperation between cardiologists and nephrologists

Many patients with congestive heart failure (CHF) fail to respond to maximal CHF therapy and progress to end stage CHF with many hospitalizations, poor quality of life (QoL), progressive chronic kidney disease (CKD) which can lead to end stage kidney disease (ESKD), or die of cardiovascular complications within a short time. One factor that has generally been ignored in many of these people is the fact that they are often anemic. The anemia in CHF is due mainly to the frequently-associated CKD but also to the inhibitory effects of cytokines on erythropoietin production and on bone marrow activity, as well as to their interference with iron absorption from the gut and their inhibiting effect on the release of iron from iron stores. Anemia itself may further worsen cardiac and renal function and make the patients resistant to standard CHF therapy. Indeed anemia in CHF has been associated with increased severity of CHF, increased hospitalization, worse cardiac function and functional class, the need for higher doses of diuretics, progressive worsening of renal function and reduced QoL. In both controlled and uncontrolled studies of CHF, the correction of the anemia with erythropoietin (EPO) and oral or intravenous (IV) iron has been associated with improvement in many cardiac and renal parameters and an increased QoL. EPO itself may also play a direct role in improving the heart unrelated to the improvement of the anemia—by reducing apoptosis of cardiac and endothelial cells, increasing the number of endothelial progenitor cells, and improving endothelial cell function and neovascularization of the heart. Anemia may also play a role in the worsening of acute myocardial infarction and chronic coronary heart disease (CHD) and in the cardiovascular complications of renal transplantation. Anemia, CHF and CKD interact as a vicious circle so as to cause or worsen each other- the so-called cardio renal anemia syndrome. Only adequate treatment of all three conditions can prevent the CHF and CKD from progressing.     

Role of iron deficiency and anemia in cardio-renal syndromes

Chronic heart failure is a common disorder associated with unacceptably high mortality rates. Chronic renal disease and anemia are two important comorbidities that significantly influence morbidity and mortality in patients with chronic heart failure (CHF). Progress in CHF again may cause worsening of kidney function and anemia. To describe this vicious cycle, the term cardio-renal anemia syndrome has been suggested. Iron deficiency is part of the pathophysiology of anemia in both CHF and chronic kidney disease, which makes it an interesting target for treatment of anemia in cardio-renal anemia syndrome. Recently, studies have highlighted the potential clinical benefits of treating iron deficiency in patients with CHF, even if these patients are nonanemic. This article summarizes studies investigating the influence of iron deficiency with or without anemia in chronic kidney disease and CHF and gives an overview of preparations of intravenous iron currently available.     

The interaction between heart failure and other heart diseases, renal failure, and anemia

Anemia, defined as a hemoglobin level of less than 12 g/dL, often is seen in congestive heart failure (CHF). It is associated with an increased mortality and morbidity and increased hospitalizations. Compared with nonanemic patients the presence of anemia also is associated with worse cardiac clinical status, more severe systolic and diastolic dysfunction, a higher beta natriuretic peptide level, increased extracellular and plasma volume, a more rapid deterioration of renal function, a lower quality of life, and increased medical costs. The only way to determine if anemia is merely a marker for more severe CHF or actually is contributing to the worsening of the CHF is to correct the anemia and see if this favorably influences the CHF. In several controlled and uncontrolled studies, correction of the anemia with subcutaneous erythropoietin (EPO) or darbepoetin in conjunction with oral and intravenous iron has been associated with an improvement in clinical status, number of hospitalizations, cardiac and renal function, and quality of life. However, larger, randomized, double-blind, controlled studies still are needed to verify these initial observations. The effect of EPO may be related partly to its nonhematologic functions including neovascularization; prevention of apoptosis of endothelial, myocardial, cerebral, and renal cells; increase in endothelial progenitor cells; and anti-inflammatory and antioxidant effects. Anemia also may play a role in increasing cardiovascular morbidity in chronic kidney insufficiency, diabetes, renal transplantation, asymptomatic left ventricular dysfunction, left ventricular hypertrophy, acute coronary syndromes including myocardial infarction and chronic coronary heart disease, and in cardiac surgery. Again, controlled studies of correction of anemia are needed to assess its importance in these conditions. The anemia in CHF mainly is caused by a combination of renal failure and CHF-induced increased cytokine production, and these can both lead to reduced production of EPO, resistance of the bone marrow to EPO stimulation, and to cytokine-induced iron-deficiency anemia caused by reduced intestinal absorption of iron and reduced release of iron from iron stores. The use of angiotensin-converting enzyme inhibitor and angiotensin receptor blockers also may inhibit the bone marrow response to EPO. Hemodilution caused by CHF also may cause a low hemoglobin level. Renal failure, cardiac failure, and anemia therefore all interact to cause or worsen each other--the so-called cardio-renal-anemia syndrome. Adequate treatment of all 3 conditions will slow down the progression of both the CHF and the chronic kidney insufficiency.     

The association between congestive heart failure and chronic renal disease

PURPOSE OF REVIEW: Recent findings on the relationship between congestive heart failure and renal failure are summarized in this review. RECENT FINDINGS: Congestive heart failure is found in about one-quarter of cases of chronic kidney disease. The most common cause of congestive heart failure is ischemic heart disease. The prevalence of congestive heart failure increases greatly as the patient's renal function deteriorates, and, at end-stage renal disease, can reach 65-70%. There is mounting evidence that chronic kidney disease itself is a major contributor to severe cardiac damage and, conversely, that congestive heart failure is a major cause of progressive chronic kidney disease. Uncontrolled congestive heart failure is often associated with a rapid fall in renal function and adequate control of congestive heart failure can prevent this. The opposite is also true: treatment of chronic kidney disease can prevent congestive heart failure. There is new evidence showing the cardioprotective effect of carvedilol in patients on dialysis, and of simvastatin and eplerenone in patients with congestive heart failure. Use of non-steroidal anti-inflammatory drugs doubles the rate of hospitalization in patients with congestive heart failure. Anemia has been found in one-third to half the cases of congestive heart failure, and may be caused not only by chronic kidney disease but by the congestive heart failure itself. The anemia is associated with worsening cardiac and renal status and often with signs of malnutrition. Control of the anemia and aggressive use of the recommended medication for congestive heart failure may improve the cardiac function, patient function and exercise capacity, stabilize the renal function, reduce hospitalization and improve quality of life. Congestive heart failure, chronic kidney disease and anemia therefore appear to act together in a vicious circle in which each condition causes or exacerbates the other. Both congestive heart failure and anemia are often undertreated. Cooperation between nephrologists and other physicians in the treatment of patients with anemic congestive heart failure may improve the quality of care and the subsequent prognosis for both congestive heart failure and chronic kidney disease. SUMMARY: Adequate and early detection and aggressive treatment of congestive heart failure and chronic kidney disease and the associated anemia may markedly slow the progression of both diseases.     

The cardio renal anemia syndrome: correcting anemia in patients with resistant congestive heart failure can improve both cardiac and renal function and reduce hospitalizations

Anemia (Hemoglobin of < 12 to 13 g/dl) is frequently encountered in patients with congestive heart failure (CHF). This anemia may be partly due to hemodilution, partly to the associated reduction in renal function, and partly to the use of ACE inhibitors and aspirin. However, there is evidence that CHF alone--through excessive cytokine production may also reduce the bone marrow and cause anemia. In several recent studies anemia has been found to be associated with a more severe degree of CHF, a higher rate of death, renal failure, hospitalization and evidence of malnutrition. In both uncontrolled and controlled studies correction of anemia with erythropoietin with or without the addition of i.v. iron has been attempted. The correction of anemia has been associated with a marked improvement in New York Heart Association (NYHA) functional cardiac class and Left Ventricular Ejection Fraction, a marked reduction in the need for hospitalization and high dose oral and i.v. diuretics, and an improvement in exercise capacity, peak exercise oxygen utilization and quality of life. The serum creatinine, which had been increasing steadily before treatment, stabilized with the correction of anemia. All this suggests that control of anemia in CHF could become a valuable addition to the therapeutic armamentarium of CHF and might also play a major role in the prevention of progressive renal failure.     

The correction of anemia in severe resistant heart failure with erythropoietin and intravenous iron prevents the progression of both the heart and the renal failure and markedly reduces hospitalization

Both Congestive Heart Failure (CHF) and Chronic Renal Failure (CRF) are increasing steadily in the community. We propose that there is a vicious circle established whereby CHF and CRF both cause anemia and the anemia then worsens both the CHF and CRF causing more anemia and so on. We call this the Cardio Renal Anemia (CRA) syndrome. By the combination of active treatment of the CHF and control of the anemia with subcutaneous erythropoietin and intravenous iron, the progression of both the CHF and the CRF can be slowed or stopped in most cases, the quality of life improved and the need for recurrent hospitalization reduced. This will involve cooperation between internists, cardiologists, and nephrologists to allow early and maximal therapy of both the CHF and the anemia.     

Anemia management in chronic heart failure: lessons learnt from chronic kidney disease

The importance of anemia in chronic kidney disease (CKD) has become increasingly well recognized over recent years, as have the benefits of treating anemic CKD patients with recombinant human erythropoietin (rHuEPO, epoetin). As well as reducing the need for blood transfusions and the complications associated with renal failure in CKD patients, rHuEPO treatment decreases patient morbidity and mortality, particularly as a result of cardiovascular disease. The strong correlation between anemia, renal failure and cardiac failure is one that has received much attention recently, with each factor recognized to cause the other to worsen in a 'vicious cycle'. Recent studies have concentrated on the possible benefits of anemia treatment in patients with CHF. Currently available data suggest improvements in CHF symptoms, left ventricular ejection fraction (LVEF) and a reduction of hospitalizations associated with anemia correction through epoetin treatment. Available data from CKD patients suggest that anemia management should begin as early as possible, although the optimal target level for individual patients is as yet unclear. In addition to the currently available evidence, additional large, randomized, controlled studies are required to further define the morbidity/mortality benefits of epoetin treatment in CHF patients with anemia.     

Clinical epidemiology of cardiac disease in renal transplant recipients

Cardiovascular disease (CVD) is the major cause of death among renal transplant recipients (RTRs), accounting for 17-50% of deaths. Both cardiomyopathy (congestive heart failure [CHF] and left ventricular hypertrophy [LVH]) and ischemic heart disease (IHD) are important complications of renal transplantation, although the morbid impact of cardiomyopathy has been overlooked until recently. Echocardiographic disorders and clinical CHF occur far more frequently in RTRs than in the general population, suggesting that renal transplantation may be a state of accelerated heart failure. In contrast, the incidence of IHD in RTRs is similar to that in the Framingham cohort. Age, diabetes, and gender remain important markers of risk for both disorders. Smoking, hyperlipidemia, and hypertension appear to be the major reversible risk factors for IHD, while anemia and hypertension are major reversible risk factors for cardiomyopathy. Definitive evidence on optimal intervention is lacking. Clinical trials are needed to define optimum targets for treatment of these risk factors, especially hypertension and anemia.     

Should we reconsider iron administration based on prevailing ferritin and hepcidin concentrations?

The results of recent randomized, controlled trials in patients with chronic kidney disease and anemia have suggested that hyporesponsiveness to erythropoiesis stimulating agents (ESA) is a significant predictor of poor patient outcomes. Functional iron deficiency (FID) is the most common cause of suboptimal ESA response, and intravenous iron administration (IVFe) efficiently raises hemoglobin (Hb) concentrations even under the condition of FID. Consequently, renal anemia correction has conceptually shifted from ??higher Hb values with high ESA doses?? to ??prevention of ESA hyporesponsiveness with IVFe??. The discovery of hepcidin has profoundly changed our understanding of the place of FID in renal anemia therapy. Hepcidin reduces the abundance of iron transport proteins which facilitate iron absorption from the gut and iron mobilization from macrophages. Serum hepcidin is mainly modulated by iron stores, as is serum ferritin. High hepcidin or ferritin levels block intestinal iron absorption and iron recycling in macrophages and decrease iron availability for erythropoiesis, leading to FID. Iron administration, especially IVFe, increases hepcidin levels and concomitantly inhibits iron supply to erythroid cells. This in turn could lead to a vicious circle, exacerbating FID and increasing iron demand. Therefore, physicians should be cautious with unrestricted IVFe to chronic kidney disease patients with FID.     

The correction of anemia in patients with the combination of chronic kidney disease and congestive heart failure may prevent progression of both conditions

It has recently been recognized that many patients with congestive heart failure (CHF) are anemic. The anemia is very often associated with chronic kidney disease (CKD). The more severe the anemia the more severe the CHF, with higher mortality, morbidity, and hospitalization rate. The only way to prove that the anemia is itself a causative factor in the progression of both the CKD and the CHF is to correct it. In this paper we review the results of published papers and some preliminary reports about correction of this anemia in CHF. These studies frequently showed that erythropoietic stimulating agents (ESA) with oral or IV iron often resulted in improvement in left ventricular systolic and diastolic function, dilation, and hypertrophy, stabilization or improvement in renal function, reduced hospitalizations, diuretic dose, mitral regurgitation, pulmonary artery pressure, plasma volume, heart rate, serum brain natriuretic peptide levels, and the inflammatory markers C reactive protein and Interleukin 6, and an improvement in New York Heart Association class, exercise capacity, oxygen utilization during exercise, sleep apnea, caloric intake, depression, and quality of life. The activity of endothelial progenitor cells was also increased. Iron deficiency may also play an important role in the anemia, because significant improvement of cardiac, renal, and functional status in these anemic CKD–CHF has been seen after treatment with IV iron alone. Clearly more work is needed to clarify the relationship between anemia, CKD and CHF. This article was presented at the 38th Western Regional Meeting of the Japanese Society of Nephrology.     

Congestive heart failure in renal transplant recipients: risk factors, outcomes, and relationship with ischemic heart disease

Cardiovascular disease (CVD) is the major cause of death in renal transplant recipients (RTR). Several cohort studies have examined CVD in RTR, but none have addressed the development of congestive heart failure (CHF). CHF would hypothetically be a frequent and prognostically important event in RTR. A retrolective cohort study was, therefore, conducted in two Canadian centers to describe the incidence, risk factors for, and interrelationships between de novo CHF, de novo ischemic heart disease (IHD), and mortality in 638 consecutive adult RTR who were free of cardiac disease at 1 yr posttransplant. Detailed clinic and hospital records were available for 99% of patients. Median follow-up was 7 yr (range, 1 to 28 yr). De novo CHF occurred as frequently as de novo IHD (1.26 versus 1.22 events/100 patient-years, respectively) and appeared to carry a similar prognosis (relative risk for death, 1.78 [confidence interval, 1.21 to 2.61] for CHF versus 1.50 [1.05 to 2.13] for IHD). The incidence of CHF was considerably higher than that in the Framingham cohort, whereas the incidence of IHD was not, suggesting that renal transplantation might correspond more to a state of "accelerated heart failure" than to "accelerated atherosclerosis." Age, diabetes, gender, BP, and anemia were identified as independent risk factors for de novo CHF, whereas age, diabetes, gender, BP, and rejection were independent risk factors for de novo IHD. Optimal strategies for treatment of BP and anemia in RTR will need to be determined in randomized controlled trials.     

Anemia as a risk factor for chronic kidney disease

Chronic kidney disease (CKD) is an important and leading cause of end-stage renal disease (ESRD) and moreover, plays a role in the morbidity and mortality due to cardiovascular disease, infection, and cancer. Anemia develops during the early stages of CKD and is common in patients with ESRD. Anemia is an important cause of left ventricular hypertrophy and congestive heart failure. Correction of anemia by erthyropoiesis-stimulating agent (ESA) has been shown to improve survival in patients with congestive heart failure. Anemia is counted as one of the non-conventional risk factors associated with CKD. Hypoxia is one of the common mechanisms of CKD progression. Treatment by ESA is expected to improve quality of life, survival, and prevent the CKD progression. Several clinical studies have shown the beneficial effects of anemia correction on renal outcomes. However, recent prospective trials both in ESRD and in CKD stages 3 and 4 failed to confirm the beneficial effects of correcting anemia on survival. Similarly, treatment of other risk factors such as hyperlipidemia by statin showed no improvement in the survival of dialysis patients. Given the high prevalence of anemia in ESRD and untoward effects of anemia in CKD stages 3 and 4, appropriate and timely intervention on renal anemia using ESA is required for practicing nephrologists and others involved in the care of high-risk population. Lessons from the recent studies are to correct renal anemia (hemoglobin <10 g/dl not hemoglobin > or =13 g/dl). Early intervention for renal anemia is a part of the treatment option in the prevention clinic. In this study, clinical significance of anemia management in patients with CKD is discussed.     

Anemia in chronic heart failure--frequency and prognostic impact

Chronic heart failure (CHF) is an important public health care problem and a leading cause of morbidity and mortality world wide. Anemia is a common finding in CHF and known to cause heart failure. Patients with CHF are limited by exercise capacity and fatigue. A low hemoglobin concentration leads to impairment of both. With increasing severity of heart failure, anemia also becomes more frequent and clinically more relevant. There are many potential reasons for development of anemia in chronic heart failure like bone marrow depression, reduced intestinal iron uptake, and the dilution in consequence of sodium and water retention. However, the anemia seen in CHF is generally an "anemia of chronic illness". Furthermore, it has been shown that hemoglobin levels independently predict increased mortality in CHF.     

The impact of anemia correction on cardiovascular disease in end-stage renal disease

Cardiovascular disease is a major cause of mortality and morbidity in patients with end-stage renal disease. Anemia, a result of erythropoietin deficiency, is associated with increased all-cause and cardiovascular mortality in this population, and predisposes patients to the development of symptomatic heart disease. Anemia is also associated with the development and progression of left ventricular echocardiographic disorders, which strongly predict cardiac failure and death. Left ventricular dilatation with compensatory hypertrophy, the major pattern of echocardiographic disease progression in hemodialysis patients, is a particularly strong predictor of late mortality. Partial correction of anemia with recombinant human erythropoietin likely reduces left ventricular mass and volume. Complete correction of anemia may prevent progressive left ventricular dilatation in patients with normal left ventricular volumes. A recent trial, however, reports excess mortality and vascular access loss in patients with preexisting symptomatic heart disease when anemia was completely corrected. Consequently, hematocrit target ranges above 32% to 36% cannot be recommended in this population. In patients without symptomatic heart disease, it is not possible to conclude that potential benefits derived from a normalized hematocrit will outweigh potential risks.     

Inadequate treatment of congestive heart failure in dialysis patients

Congestive heart failure (CHF) is highly prevalent in patients on renal replacement therapy and is a leading cause of death in such patients. Several studies suggest that therapeutic agents for the treatment of CHF, particularly angiotensin converting enzyme inhibitors and beta-blockers, are underused in end-stage renal disease patients with CHF. Although limited data are available, growing evidence suggests that therapeutic agents for CHF improve survival and are safe to use, assuming close monitoring of adverse events. The reluctance of physicians in prescribing these therapeutic agents and the reasons underlying the inconsistent use of these agents in the dialysis population need to be addressed.     

Erythropoiesis-stimulating agents: past and future

Renal anemia is a well-recognized complication of chronic kidney disease (CKD), and the deficiency of erythropoietin (EPO) is the primary cause. Observational population-based studies continue to demonstrate the association of low hemoglobin with adverse outcomes, and renal failure, cardiac failure, and anemia all may interact to cause or worsen each other, the so-called cardio-renal anemia syndrome. Treatment of anemia can be successfully achieved with the use of erythropoiesis-stimulating agents (ESAs). From a mechanistic point of view, however, the therapeutic benefits of ESA could be far beyond the correction of anemia. ESA modulates a broad array of cellular processes that include progenitor stem cell development, cellular integrity, and angiogenesis. A pleiotropic effect of EPO has been shown in the central nervous system, the cardiovascular system, and the kidney. While recent results of randomized controlled trials have established that there is little support for normalizing hemoglobin in CKD patients, the results of these studies do not negate renoprotective effects of EPO. A large number of patients with CKD will benefit from early recognition and appropriate correction of anemia with ESA.     

Clinical assessment and management of dyslipidemia in patients with chronic kidney disease

Chronic kidney disease (CKD) is a common cause of cardiovascular disease (CVD). Several factors contribute to the onset and progression of atherosclerosis and CVD in CKD patients. Most of the cases of coronary heart disease in the general population can be explained by traditional risk factors, whereas non-traditional risk factors, including oxidative stress, anemia, inflammation, malnutrition, vascular calcification, and endothelial dysfunction, have been proposed to play a central role in the pathogenesis of CVD in CKD patients. However, the precise mechanism of CVD initiation in CKD patients remains unclear. Lipid-lowering therapies may decrease proteinuria, and increase or maintain renal function. Because the serum levels of triglyceride-rich lipoproteins are increased in CKD patients, particularly in advanced stages, the serum non-HDL cholesterol level may be a better biomarker of dyslipidemia than the serum LDL cholesterol level in this population. A meta-analysis showed that statin therapy was associated with decreased albuminuria in comparison with a placebo. Moreover, lipid-lowering therapy with statins is effective in reducing the risk of CVD in the early stages of CKD, whereas the benefit of statins in patients with end-stage renal disease may be limited.     

Hypocalcemic heart failure in end-stage renal disease

A 37-year-old woman presented with hypocalcemic heart failure complicating end-stage renal disease. Heart failure persisted despite conventional therapy but improved after correction of hypocalcemia. Continuous monitoring of left ventricular function by radionuclide study during calcium replacement showed dramatic improvement. Our case showed that hypocalcemia could be a rare but reversible cause of frank heart failure in uremic patients.