Target Hemoglobin May Be Achieved with Intravenous Iron Alone in Anemic Patients with Cardiorenal Syndrome: An Observational Study.

BACKGROUND: The treatment of anemia in patients with cardiorenal syndrome (CRS) is based mainly on intravenous (IV) iron therapy and/or erythropoiesis-stimulating agents (ESAs). There are concerns about the safety of ESAs due to a potentially higher risk for stroke and malignancy. OBJECTIVE: We aimed to explore whether IV iron alone is sufficient to improve anemia in CRS patients and to define the predictors of treatment response. METHODS: We retrospectively analyzed data of 81 CRS patient treated for anemia at our clinic. All patients received IV iron for 6 weeks. A subset of patients was additionally given subcutaneous ESAs. The end point was the improvement from baseline in hemoglobin (Hb) and ferritin levels at week 7. RESULTS: We retrieved the files of 81 patients; 34 received IV iron alone and 47 were given IV iron and ESAs (the combination group). The Hb levels significantly increased in both groups (in the IV iron alone group: 10.6 ± 1.1 to 11.9 ±1.1 g/dl, p < 0.001; in the combination group: 10.2 ± 0.9 to 12.4 ± 1.3 g/dl, p < 0.001), but more pronouncedly in the combination group (2.17 vs. 1.24 g/dl; p = 0.001). The platelet count decreased significantly in the IV iron alone group but was unchanged in the combination group. Eighty percent of patients attained a Hb target of 11 g/dl, with no significant difference between the two groups (73.5 vs. 85.1%; p = 0.197). Low baseline Hb was the only predictor of a favorable outcome to treatment. CONCLUSION: Our observational study suggests that IV iron treatment without ESAs may substantially raise the Hb level to ≥11 g/dl in CRS patients. This treatment strategy may reduce the use of ESAs and hence its potential adverse effects.

Is Correction of Iron Deficiency a New Addition to the Treatment of the Heart Failure?

Anemia is present in about 40% of heart failure (HF) patients. Iron deficiency (ID) is present in about 60% of the patients with anemia (about 24% of all HF patients) and in about 40% of patients without anemia (about 24% of all HF patients). Thus ID is present in about half the patients with HF. The ID in HF is associated with reduced iron stores in the bone marrow and the heart. ID is an independent risk factor for severity and worsening of the HF. Correction of ID with intravenous (IV) iron usually corrects both the anemia and the ID. Currently used IV iron preparations are very safe and effective in treating the ID in HF whereas little information is available on the effectiveness of oral iron. In HF IV iron correction of ID is associated with improvement in functional status, exercise capacity, quality of life and, in some studies, improvement in rate of hospitalization for HF, cardiac structure and function, and renal function. Large long-term adequately-controlled intervention studies are needed to clarify the effect of IV iron in HF. Several heart associations suggest that ID should be routinely sought for in all HF patients and corrected if present. In this paper we present our approach to diagnosis and treatment of iron deficiency in heart failure.

Anemia and iron deficiency in COPD patients: prevalence and the effects of correction of the anemia with erythropoiesis stimulating agents and intravenous iron.

BACKGROUND: Little is known about iron deficiency (ID) and anemia in Chronic Obstructive Pulmonary Disease (COPD). The purposes of this study were: (i) To study the prevalence and treatment of anemia and ID in patients hospitalized with an exacerbation of COPD. (ii) to study the hematological responses and degree of dyspnea before and after correction of anemia with subcutaneous Erythropoiesis Stimulating Agents (ESAs) and intravenous (IV) iron therapy, in ambulatory anemic patients with both COPD and chronic kidney disease. METHODS: (i) We examined the hospital records of all patients with an acute exacerbation of COPD (AECOPD) to assess the investigation, prevalence, and treatment of anemia and ID. (ii) We treated 12 anemic COPD outpatients with the combination of ESAs and IV-iron, given once weekly for 5 weeks. One week later we measured the hematological response and the severity of dyspnea by Visual Analogue Scale (VAS). RESULTS: (i) Anemia and iron deficiency in hospitalized COPD patients: Of 107 consecutive patients hospitalized with an AECOPD, 47 (43.9%) were found to be anemic on admission. Two (3.3%) of the 60 non-anemic patients and 18 (38.3%) of the 47 anemic patients had serum iron, percent transferrin saturation (%Tsat) and serum ferritin measured. All 18 (100%) anemic patients had ID, yet none had oral or IV iron subscribed before or during hospitalization, or at discharge. (ii) Intervention outpatient study: ID was found in 11 (91.7%) of the 12 anemic ambulatory patients. Hemoglobin (Hb), Hematocrit (Hct) and the VAS scale scores increased significantly with the ESAs and IV-iron treatment. There was a highly significant correlation between the ∆Hb and ∆VAS; rs = 0.71 p = 0.009 and between the ∆Hct and ∆VAS; rs = 0.8 p = 0.0014. CONCLUSIONS: ID is common in COPD patients but is rarely looked for or treated. Yet correction of the ID in COPD patients with ESAs and IV iron can improve the anemia, the ID, and may improve the dyspnea.

The missed opportunities to diagnose and treat iron deficiency in patients hospitalized with heart failure.

INTRODUCTION: Iron Deficiency (ID) is common in heart failure (HF), and is an independent contributor to mortality and morbidity. We examined whether patients with previously known HF who were recently hospitalized, had previous treatment for ID, were investigated for it at the time of hospitalization, and, if ID was found, were prescribed iron on discharge. METHODS: We examined the records of 76 consecutive patients admitted to our hospital medical wards with a primary diagnosis of HF. RESULTS: Anemia (Hb<12 g/dl) was found in 42/76 patients (55.3%). In 55/76 patients (72.4%) there was no iron workup, in 6 (7.9%) an incomplete iron workup with serum iron, transferrin or ferritin lacking and in 15/76 (19.7%) a complete iron workup. If ID was defined as either a serum ferritin of <100 µg/l or a serum ferritin of 100-299 µg/l and a %Transferrin Saturation of <20% it was found in 12/15 (80%) of those with a complete workup; in 9 of 10 (90%) of the anemic patients and in 3 of 5 (60%) of those non-anemic patients. At discharge 11/15 (73.3%) of those with a complete iron workup were given iron, 10 orally and 1 IV. In those 6 with an incomplete workup 2 were started on oral iron (33.3%) and in those without any workup, 1 of 55 (1.8%) was given oral iron. IN CONCLUSIONS: ID is common in hospitalized HF patients but is usually not sought after by physicians at the time of admission. However if detected the physicians usually treated it.

Retrasar el inicio de diálisis para tratar la retención de líquidos grave en la insuficiencia cardiaca / Avoiding early dialysis for severe fluid retention in heart failure

No disponible

The role of iron, omega-3 Fatty acids, and vitamins in heart failure.

OPINION STATEMENT: The high prevalence of iron deficiency in heart failure (HF), its easy detection, and its rapid treatment effects with intravenous compounds including, among other things, improved New York Heart Association class, quality of life, and exercise capacity, may offer a major new addition to the treatment of HF. Although more research is required in HF, iron deficiency has been recognized as a disease for over a century and there is no question that its correction is desirable for improving the health and the quality of life of the iron-deficient patient. Iron deficiency with or without an associated anemia should be routinely searched for and treated in HF patients. Controlled studies of omega-3 fish oils suggest that they are cardioprotective in HF. They also may have additional value as safe and highly effective analgesics and anti-inflammatory agents in HF patients who often cannot take traditional nonsteroidal agents. The American Heart Association has recently recommended use of fish and/or fish supplements for all patients with cardiovascular disease. However, practical questions remain. For example, it is not clear what the optimal ratio of the two major components of fish oil, eicosapentaenoic acid (EPA) and docosahexaenoic acid (DHA), should be in supplements. The role of other vitamins, such as vitamin D, in HF remains unclear.

Secondary prevention of hyperkalemia with sodium polystyrene sulfonate in cardiac and kidney patients on renin-angiotensin-aldosterone system inhibition therapy.

BACKGROUND: Hyperkalemia, induced by renin-angiotensin-aldosterone system inhibition (RAAS-I) in patients with chronic kidney disease (CKD), or cardiac disease often leads to withdrawal of RAAS-I therapy. Sodium polystyrene sulfonate (SPS) is a potassium-binding resin used for the treatment of hyperkalemia. Recently, concerns about the safety and efficacy of SPS were raised. We report here a follow-up of 14 patients with CKD and heart disease on RAAS-I treatment who were treated with low-dose daily SPS to prevent recurrence of hyperkalemia. HYPOTHESIS: Daily SPS is safe and effective for secondary prevention of hyperkalemia induced by RAAS-I therapy in CKD patients with heart disease. METHODS: We reviewed the medical charts of the patients with CKD (nondialysis patients) and heart disease treated in our CKD clinic from 2005 to 2010 and identified all patients on RAAS-I therapy who were treated with daily SPS (sorbitol-free) after episodes of hyperkalemia. Data on hospitalizations, symptoms that may be attributed to SPS therapy, and electrolyte concentration levels were obtained. RESULTS: Fourteen patients were treated with low-dose SPS therapy for a total of 289 months (median length of follow-up, 14.5 months). None of the patients developed colonic necrosis or life-threatening events that could be attributed to SPS use. Mild hypokalemia was noted in 2 patients and responded to reducing the dose of SPS. No further episodes of hyperkalemia were recorded while patients were on the therapy. SPS was well-tolerated during the follow-up without need for withdrawal or reduction of the dose of RAAS-I therapy by any patients. CONCLUSIONS: Low-dose SPS was safe and effective as a secondary preventive measure for hyperkalemia induced by RAAS-I in CKD patients with heart disease.

Correction of iron deficiency in the cardiorenal syndrome.

Impaired energy metabolism is a feature of Congestive Heart Failure (CHF). Iron deficiency has been shown to reduce energy production in the cell in animals and humans. Iron deficiency is common in both Chronic Kidney Disease (CKD) and in CHF. Recent studies suggest that iron deficiency is an independent risk factor for mortality in CHF. Studies of correction of the anemia with intravenous (IV) iron in both CKD and CHF have shown an improvement in the anemia and, in some cases, in the renal function as well. Some CHF studies of correction of the iron deficiency have shown an improvement in cardiac function and structure as well as in exercise capacity and quality of life. This occurred independent of whether or not they had anemia, suggesting that the iron deficiency itself may be independently contributing to the worsening of the CHF and CKD. If future long-term studies confirm the safety and efficacy of IV iron in the treatment of iron deficiency in CKD and CHF, this will become a new addition to the therapeutic armamentarium of the cardiorenal syndrome, and parameters of iron deficiency will become part of the routine measurements performed in both CKD and CHF whether or not the patient is anemic.

The role of erythropoiesis stimulating agents and intravenous (IV) iron in the cardio renal anemia syndrome.

Anemia is common in Congestive Heart Failure (CHF) and is associated with an increased mortality, morbidity and progressive renal failure. The most common causes of the anemia in CHF are (1) the associated Chronic Kidney Disease (CKD), which causes depression of erythropoietin (EPO) production in the kidney, and (2) excessive cytokine production in CHF, which can cause both depression of erythropoietin production in the kidney and depression of erythropoietin response in the bone marrow. The cytokines can also induce iron deficiency by increasing hepcidin production from the liver, which both reduces gastrointestinal iron absorption and reduces iron release from iron stores located in the macrophages and hepatocytes. It appears that iron deficiency is very common in CHF and is rarely recognized or treated. The iron deficiency can cause a thrombocytosis that might contribute to cardiovascular complications in both CHF and CKD and is reversible with iron treatment. Thus, attempts to control this anemia in CHF will have to take into consideration both the use of both Erythropoiesis Stimulating Agents (ESA) such as EPO and oral and, probably more importantly, intravenous (IV) iron. Many studies of anemia in CHF with ESA and oral or IV iron and even with IV iron without ESA have shown a positive effect on hospitalization, New York Heart Association functional class, cardiac and renal function, quality of life, exercise capacity and reduced Beta Natriuretic Peptide and have not demonstrated an increase in cardiovascular damage related to the therapy. However, adequately powered long-term placebo-controlled studies of ESA and of IV iron in CHF are still needed and are currently being carried out.

Intravenous iron in heart failure: beyond targeting anemia.

Iron deficiency is commonly seen in congestive heart failure (CHF) in both anemic and nonanemic patients. In six studies in which these iron-deficient patients with CHF were treated with intravenous (IV) iron, five found an improvement in the hemoglobin. In uncontrolled and controlled studies, the New York Heart Association (NYHA) class, quality of life, and exercise capacity were improved consistently with IV iron. In some studies, cardiac function also was improved. In one large, double-blind, placebo-controlled study of IV iron, the patient global assessment, quality of life, and NYHA class improved rapidly in both those who were anemic or not anemic. In contrast to these studies, another controlled study of anemia in CHF showed no effect of oral iron on hemoglobin or on any cardiac parameters over 1 year. These studies suggest that CHF in both anemic and nonanemic iron-deficient patients may benefit from a course of IV iron, but not oral iron.

Anaemia management in cardio renal disease.

Anaemia is common in congestive heart failure (CHF) and is associated with increased mortality, morbidity and progressive renal failure. The common causes of the anaemia are the associated renal failure and excessive cytokine production, both of which can cause depression of the erythropoietin (EPO) production in the kidney and depression of EPO response in bone marrow. The cytokines can also induce iron deficiency by increasing hepcidin production from the liver, which both reduces gastrointestinal iron absorption and reduces iron release from iron stores located in the macrophages and hepatocytes. Attempts to control this anaemia will have to consider the use of both erythropoiesis stimulating agents (ESA) as well as oral and, probably more importantly, intravenous (IV) iron. Studies of anaemia in CHF with ESA and oral or IV iron and even with IV iron alone have shown a positive effect on hospitalisation, fatigue and shortness of breath, cardiac and renal function, quality-of-life, exercise capacity and reduced beta natriuretic peptide and have not demonstrated an increase in cardiovascular damage related to therapy. Although some studies and meta-analyses have revealed improvement in these parameters others have not. Adequately powered long-term placebo-controlled studies of ESA and of IV iron in CHF are needed and are currently being carried out.

Severe obstructive sleep apnea: sleepy versus nonsleepy patients.

OBJECTIVES/HYPOTHESIS: To compare demographic and polysomnographic data of sleepy versus nonsleepy severe obstructive sleep apnea (OSA) patients according to the Epworth Sleepiness Scale (ESS). STUDY DESIGN: Retrospective cohort. METHODS: Six hundred forty-four consecutive severe (apnea-hypopnea index [AHI] >or= 30) adult OSA patients who underwent a polysomnographic evaluation in our sleep disorders unit. ESS data were available in 569 (88.3%). Three hundred twenty-seven (57.5%) patients had ESS > 10. RESULTS: Sleepy severe OSA patients are slightly younger and more obese than nonsleepy patients. These sleepy patients have shorter sleep latency and lower percentage of slow wave sleep. They consistently show a higher AHI, both supine and lateral AHI, have a higher number of short arousals, and a higher arousal index. They also have higher snoring loudness in the supine and both lateral positions and a lower minimal SaO(2) in rapid eye movement and non-rapid eye movement sleep. After adjusting for confounders, a logistic regression model points to apnea index as a significant prognostic factor for excessive daytime sleepiness. CONCLUSIONS: Severe OSA sleepy patients have a syndrome that is significantly more severe than nonsleepy patients. Sleepy patients have worse sleep-related breathing parameters, and their sleep patterns are lighter and more fragmented than nonsleepy patients. Apnea index appears as an important prognostic factor for excessive daytime sleepiness.

The anemia of heart failure.

Anemia is common in congestive heart failure (CHF) and is associated with an increased mortality and morbidity. The most likely causes of anemia are chronic kidney disease (CKD) and excessive cytokine production, both of which can cause depression of erythropoietin (EPO) production and bone marrow activity. The cytokines also induce iron deficiency by both reducing gastrointestinal iron absorption and iron release from iron stores located in the macrophages and hepatocytes. Iron deficiency can cause thrombocytosis which might also contribute to cardiovascular complications in both CHF and CKD and is partially reversible with iron treatment. Thus attempts to control this anemia will have to consider both the use of erythropoiesis-stimulating agents (ESA), such as EPO, as well as oral and, probably more importantly, intravenous (IV) iron. The many studies on anemia in CHF patients treated with ESA and oral or IV iron, and even with IV iron without ESA have up to now shown a quite consistent positive effect on hospitalization, fatigue, shortness of breath, quality of life, exercise capacity, and beta-natriuretic peptide reduction, in the absence of increased cardiovascular damage related to the therapy. Adequately powered long-term placebo-controlled studies of ESA and/or IV iron are currently being carried out and their results are eagerly awaited.

Beta-erythropoietin effects on ventricular remodeling, left and right systolic function, pulmonary pressure, and hospitalizations in patients affected with heart failure and anemia.

Anemia in heart failure is related to advanced New York Heart Association classes, severe systolic dysfunction, and reduced exercise tolerance. Although anemia is frequently found in congestive heart failure (CHF), little is known about the effect of its' correction with erythropoietin (EPO) on cardiac structure and function. The present study examines, in patients with advanced CHF and anemia, the effects of beta-EPO on left ventricular volumes, left ventricular ejection fraction (LVEF), left and right longitudinal function mitral anular plane systolic excursion (MAPSE), tricuspid anular plane excursion (TAPSE), and pulmonary artery pressures in 58 patients during 1-year follow-up in a double-blind controlled study of correction of anemia with subcutaneous beta-EPO. Echocardiographic evaluation, B-Type natriuretic peptide (BNP) levels, and hematological parameters are reported at 4 and 12 months. The patients in group A after 4 months of follow-up period demonstrated an increase in LVEF and MAPSE (P < 0.05 and P < 0.01, respectively) with left ventricular systolic volume reduction (P < 0.02) with respect to baseline and controls. After 12 months, results regarding left ventricular systolic volume LVEF and MAPSE persisted (P < 0.001). In addition, TAPSE increased and pulmonary artery pressures fell significantly in group A (P < 0.01). All these changes occurred together with a significant BNP reduction and significant hemoglobin increase in the treated group. Therefore, we revealed a reduced hospitalization rate in treated patients with respect to the controls (25% in treated vs. 54% in controls). In patients with anemia and CHF, correction of anemia with beta-EPO and oral iron over 1 year leads to an improvement in left and right ventricular systolic function by reducing cardiac remodeling, BNP levels, and hospitalization rate.

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.

The role of correction of anaemia in patients with congestive heart failure: a short review.

Many patients with Congestive Heart Failure (CHF) are anaemic. This anaemia is associated with more severe CHF and a higher incidence of mortality, hospitalisation and morbidity. The only way to prove that the anaemia is causing this worsening of CHF is to correct it. We review here some of the published papers about correction of anaemia. Many studies show a positive effect of Erythropoietin (EPO) or its' derivatives when administered in combination with oral or IV iron, with improvements in left and right ventricular systolic and diastolic function, dilation and hypertrophy and renal function. In addition, a reduction in hospitalisations, diuretic dose, pulmonary artery pressure, plasma volume, heart rate, serum Brain Natriuretic Peptide levels, the inflammatory marker Interleukin 6, soluble Fas ligand--a mediator of apoptosis, and improvements in New York Heart Association class, exercise capacity, oxygen utilization, caloric intake, Quality of Life and the activity of Endothelial Progenitor Cells, have been observed. Iron deficiency may also play an important role in this anaemia, since improvements in CHF have also been reported following treatment with IV iron alone. However, until the ongoing large placebo-controlled studies of the EPO derivative darbepoetin or IV iron are completed, we will not know whether these treatments really influence CHF outcome.