Hypertonic saline solution for renal failure prevention in patients with decompensated heart failure

Issa, Victor Sarli; Bacal, Fernando; Mangini, Sandrigo; Carneiro, Rodrigo Moreno Dias; Azevedo, Cristiano Humberto Naves de Freitas; Chizzola, Paulo Roberto; Ferreira, Silvia Moreira Ayub; Bocchi, Edimar Alcides

doi:10.1590/S0066-782X2007001600007

Abstracts

BACKGROUND: Hyponatremia and congestive phenomena indicate a bad prognosis in decompensated heart failure. The occurrence of renal failure is associated to an increased death risk. OBJECTIVE: To evaluate the safety and efficacy of the hypertonic saline solution in patients with decompensated heart failure for renal failure prevention. METHODS: Patients with decompensated heart failure, congestion and hyponatremia participated in the study. In addition to the standard treatment, the patients received hypertonic saline solution and were submitted to clinical as well as laboratory assessment. RESULTS: Nine patients were enrolled in the study. Mean age was 55 + 14.2 years, being 5 male (55.5%) and 4 (44.5%) female patients. All of them presented functional class III-IV of the New York Heart Association (NYHA), and 5 (55.5%) received dobutamine. All of them presented initial creatinine > 1.4 mg/dl. The mean tonicity of the solution was 4.39% + 0.018% (2.5% to 7.5%) and the duration of treatment was 4.9 days + 4.1 days (1-15 days). There were no severe adverse effects; none of the patients presented clinical worsening or neurologic disorders; hypokalemia occurred in 4 cases (44.5%). The comparison of the variables before and after treatment showed a decrease in urea (105 mg/dl + 74.8 mg/dl vs. 88 mg/dl + 79.4 mg/dl; p = 0.03) and increase in the urinary volume (1,183 ml/day vs. 1,778 ml/day; p = 0.03); there was no tendency to creatinine decrease (2.0 mg/dl + 0.8 mg/dl vs. 1.7 mg/dl + 1.0 mg/dl; p = 0.08). Despite the elevation in sodium levels (131 mEq/l + 2.8 mEq/l vs. 134 mEq/l + 4.9 mEq/l) and weight decrease (69.5 kg + 18.6 kg vs. 68.2 kg + 17.1 kg), there was no statistically significant difference. CONCLUSION: The use of hypertonic saline solution in patients with decompensated heart failure can be a safe therapeutic method and potentially related to clinical improvement and renal failure prevention.

Hypertonic solutions; heart failure; renal insufficiency; hyponatremia

FUNDAMENTO: Hiponatremia e fenômenos congestivos indicam mau prognóstico na insuficiência cardíaca descompensada. A ocorrência de insuficiência renal está associada a aumento do risco de morte. OBJETIVO: Avaliar a segurança e a eficácia da solução hipertônica em pacientes com insuficiência cardíaca descompensada para prevenção de insuficiência renal. MÉTODOS: Participaram do estudo pacientes com insuficiência cardíaca descompensada, congestão e hiponatremia. Além do tratamento padrão, os pacientes receberam solução salina hipertônica, e foram submetidos a avaliação tanto clínica como laboratorial. RESULTADOS: Foram incluídos 9 pacientes. A média das idades dos pacientes foi de 55 + 14,2 anos, sendo 5 (55,5%) do sexo masculino e 4 (44,5%), do feminino. Todos apresentavam classe funcional III-IV da New York Heart Association (NYHA), e 5 (55,5%) recebiam dobutamina. Todos apresentaram creatinina inicial acima de 1,4 mg/dl. A tonicidade média da solução foi de 4,39% + 0,018% (2,5% a 7,5%) e a duração do tratamento foi de 4,9 dias + 4,1 dias (1 dia a 15 dias). Não houve efeitos adversos graves; em nenhum caso houve piora clínica ou distúrbios neurológicos; hipocalemia ocorreu em 4 (44,5%) casos. A comparação das variáveis pré- e pós-tratamento demonstrou queda da uréia (105 mg/dl + 74,8 mg/dl vs. 88 mg/dl + 79,4 mg/dl; p = 0,03) e aumento do volume urinário (1.183 ml/dia vs. 1.778 ml/dia; p = 0,03); houve tendência a redução da creatinina (2,0 mg/dl + 0,8 mg/dl vs. 1,7 mg/dl + 1,0 mg/dl; p = 0,08). Apesar da elevação do valor do sódio (131 mEq/l + 2,8 mEq/l vs. 134 mEq/l + 4,9 mEq/l) e da redução do peso (69,5 kg + 18,6 kg vs. 68,2 kg + 17,1 kg), não houve diferença estatisticamente significante. CONCLUSÃO: O uso de solução salina hipertônica em pacientes com insuficiência cardíaca descompensada pode ser método terapêutico seguro e potencialmente relacionado a melhora clínica e de prevenção da insuficiência renal.

Soluções hipertônicas; baixo débito cardíaco; insuficiência renal; hiponatremia

ORIGINAL ARTICLE

Hypertonic saline solution for renal failure prevention in patients with decompensated heart failure

Victor Sarli Issa; Fernando Bacal; Sandrigo Mangini; Rodrigo Moreno Dias Carneiro; Cristiano Humberto Naves de Freitas Azevedo; Paulo Roberto Chizzola; Silvia Moreira Ayub Ferreira; Edimar Alcides Bocchi

Instituto do Coração (InCor) - Hospital das Clínicas da Faculdade de Medicina da Universidade de São Paulo - São Paulo, SP - Brazil

^{Mailing address} Mailing address: Victor Sarli Issa Rua Fabia, 500 05051-030 - São Paulo, SP- Brazil E-mail: victorissa@cardiol.br

SUMMARY

BACKGROUND: Hyponatremia and congestive phenomena indicate a bad prognosis in decompensated heart failure. The occurrence of renal failure is associated to an increased death risk.

OBJECTIVE: To evaluate the safety and efficacy of the hypertonic saline solution in patients with decompensated heart failure for renal failure prevention.

METHODS: Patients with decompensated heart failure, congestion and hyponatremia participated in the study. In addition to the standard treatment, the patients received hypertonic saline solution and were submitted to clinical as well as laboratory assessment.

RESULTS: Nine patients were enrolled in the study. Mean age was 55 + 14.2 years, being 5 male (55.5%) and 4 (44.5%) female patients. All of them presented functional class III-IV of the New York Heart Association (NYHA), and 5 (55.5%) received dobutamine. All of them presented initial creatinine > 1.4 mg/dl. The mean tonicity of the solution was 4.39% + 0.018% (2.5% to 7.5%) and the duration of treatment was 4.9 days + 4.1 days (1-15 days). There were no severe adverse effects; none of the patients presented clinical worsening or neurologic disorders; hypokalemia occurred in 4 cases (44.5%). The comparison of the variables before and after treatment showed a decrease in urea (105 mg/dl + 74.8 mg/dl vs. 88 mg/dl + 79.4 mg/dl; p = 0.03) and increase in the urinary volume (1,183 ml/day vs. 1,778 ml/day; p = 0.03); there was no tendency to creatinine decrease (2.0 mg/dl + 0.8 mg/dl vs. 1.7 mg/dl + 1.0 mg/dl; p = 0.08). Despite the elevation in sodium levels (131 mEq/l + 2.8 mEq/l vs. 134 mEq/l + 4.9 mEq/l) and weight decrease (69.5 kg + 18.6 kg vs. 68.2 kg + 17.1 kg), there was no statistically significant difference.

CONCLUSION: The use of hypertonic saline solution in patients with decompensated heart failure can be a safe therapeutic method and potentially related to clinical improvement and renal failure prevention.

Key words: Hypertonic solutions; heart failure; renal insufficiency; hyponatremia.

Introduction

Patients with decompensated heart failure have distinct characteristics and some aspects of its presentation have received special attention due to its association with a worse prognosis^1,2. Advanced age, the presence of hypotension and shock and hyponatremia are known markers of a worse prognosis, among others^3,4. In this situation, the presence of renal failure has shown to be an important risk factor; even a creatinine increase of 0.3 mg/dL in patients with decompensated heart failure is a marker of a higher risk of death⁵.

The congestive phenomena can be present in up to 70% of the patients admitted at the hospital due to decompensated heart failure², with a high rate of diuretic resistance being observed among these patients⁶. In these conditions, the occurrence of renal failure becomes even more important and it can be related to the abrupt decrease in the effective plasma volume, the use of angiotensin-converting enzyme inhibitors (ACEI) and angiotensin II receptor blockers, the presence of low cardiac output and the neurohormonal adaptations.

The currently available treatment strategies include hydric restriction, use of intravenous diuretics, association of diuretics, and administration of inotropics⁷, artificial methods of ultrafiltration⁸, vasopressin antagonists⁹ and natriuretic peptides¹⁰. However, these treatment modalities have not been associated to a better prognosis and they are limited by conditions such as availability, high cost, poor patient compliance to the dietary restrictions, diuretic resistance and worsening of renal function.

Hypertonic saline solutions have been tested in different clinical situations of cardiovascular system failure, such as hemorrhagic and septic shock¹¹. Recently, some authors have proposed the use of hypertonic saline solution for the control of congestive phenomena in patients with decompensated heart failure, congestive phenomena and hyponatremia^12-14.

Thus, the safety of the hypertonic saline solution use was evaluated in a series of patients with decompensated heart failure, as a strategy for the control of congestive symptoms, correction of hyponatremia and renal failure prevention.

Methods

The patients were selected for the study from December 2005 to November 2006, in a tertiary university hospital specialized in Cardiology. The inclusion criteria were: age older than 18 years, presence of decompensated heart failure¹⁵, serum sodium < 135 mEq/L and presence of signs of pulmonary congestion (defined as the presence of pulmonary rales or radiological signs indicative of pulmonary venous congestion) or systemic congestion (indicated by the presence of lower limb edema, ascites, hepatomegaly and jugular stasis > 4 cm from the manubrium-sternal angle), despite treated by standard therapy for at least 48 hrs. The exclusion criteria included the presence of specific causes for cardiac decompensation (pulmonary embolism, myocardial ischemia, arrhythmias, infection, anemia) and the presence of several primary valvulopathies.

Intervention - The treatment considered to be standard includes rest, restriction of salt (2 g/day) and water intake, intravenous furosemide, oral vasodilator (angiotensin converting enzyme inhibitor, angiotensin II receptor blockers or the association of hydralazine and nitrate), spironolactone and maintenance of the betablocker dose used chronically by the patient; in the presence of signs of low cardiac output, dobutamine was used. In addition to the standard treatment of the decompensated heart failure, the patients received an infusion of hypertonic saline solution administrated to peripheral vein for one hour, twice a day, associated to furosemide. The tonicity of the solution was based on previous protocols^10-12, with modifications being carried out according to the intensity of the congestive phenomena, such as the degree of hyponatremia as well as the presumed risk of renal failure.

The initial dose of diuretics was determined by the physician in charge of the case and was modified according to the initially obtained response.

Variables studied - The patients were submitted to daily clinical evaluations and weight and urinary volume were also measured on a daily basis. Sodium, potassium, urea, creatinine and hemoglobin were measured in peripheral blood throughout the intervention.

Statistical analysis - The values of continuous variables are expressed as mean ± SD. For the comparison of the continuous variables, we used the paired Students t test and p values < 0.05 were considered statistically significant.

Results

In total, 9 patients were included in the study (Table 1). All of the patients presented creatinine values above normal ranges; only 2 patients had urinary volume > 1 ml/kg/min on the day before the start of the intervention and four patients had urinary volume < 0.5 ml/kg/min. One of the patients was undergoing peritoneal dialysis for congestion control.

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The mean tonicity of the solution used was 4.39% ± 0.018% (2.5 to 7.5%) and the duration of the treatment was 4.9 days ± 4.1 days (1 day to 15 days). All patients received at least one day of treatment, 8 patients received at least 2 days of treatment and 7 patients received at least three days of treatment. All of the patients tolerated the medication infusion. No severe adverse events were observed and no pulmonary or systemic congestion was observed in any case. No neurological disorders were observed. The mean dose of intravenous furosemide used was 177.5 mg ± 177.7 mg (60 mg to 600 mg). Hypokalemia with the need for potassium replacement was the most frequent complication, occurring in 4 cases (44.6%).

The evolution of the variables studied during the first three days of treatment is shown in Figure 1. The comparison between the pre- and post-treatment values of the variables is shown in Table 2. After the administration of the hypertonic saline solution, there was a decrease in the urea levels, increase in 24-h urinary volume and a tendency to decrease in creatinine levels. Despite the increase in sodium levels and the decrease in the weight of the patients, these variables did not reach a statistically significant difference.

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Discussion

In the present study, the administration of a hypertonic saline solution to a series of 9 patients with decompensated heart failure was related to an increase in urinary volume, tendency to increase in serum sodium as well as the improvement in renal function parameters, without the occurrence of cardiovascular or neurological adverse events.

Hypertonic saline solutions have been tested in clinical situations of cardiovascular failure, such as hemorrhagic and septic shock, being important the contributions of national authors in this area¹⁰. In animal models of hypovolemia, the infusion of a hypertonic saline solution promotes increase in arterial blood pressure and cardiac output. These effects are attributed to the increase in plasma volume, peripheral vasodilation¹⁶ and the direct cardiac inotropic effect¹⁷.

The existence of vasodilation, not only mesenteric, but also renal, is particularly important, as these are the more intensely hypoperfused zones in cases of hypovolemia¹⁶. This hemodynamic effect, associated to the decrease in blood viscosity and the immunomodulatory effect¹⁸, makes the hypertonic saline solution potentially beneficial to patients with heart failure and signs of congestion. In this situation, the regular use of diuretics and vasodilators can lead to the reduction in plasma volume and tissue hypoperfusion, phenomena related to clinical signs of hypovolemia, such as arterial hypotension and increase in urea and creatinine, both markers of worse prognosis.

In the present study, the use of the hypertonic saline solution was safe, with no worsening signs of pulmonary as well as systemic congestion. Historically, the use of the hypertonic saline solution in patients with cardiopathies has been restricted. Such limitation is due to animal models of shock, in which the occurrence of hypotension and arrhythmia was observed after a fast infusion of hypertonic saline solution¹⁹. However, no significant adverse effects have been reported in physiological studies in humans^20,21, or in clinical studies (cardiogenic shock due to right ventricular dysfunction after pulmonary embolism²² and heart failure^10-12).

The results of the present study indicated clinical improvement of the patients with the use of the hypertonic saline solution, characterized by increase in the urinary volume and weight decrease in the patients. The weight decrease did not reach statistical difference, probably limited by the sample size. These data are in accordance with the results obtained by other authors, who reported improvement in the congestive phenomena, assessed by clinical parameters as well as by the decrease in B-type natriuretic peptide levels¹⁰.

Although serum sodium increase was observed in the present study with the use of the hypertonic saline solution, the difference was not statistically significant, probably limited by the sample size. This finding is in accordance with other authors^10-12. Neither previously reported studies nor our experience showed an association between serum sodium increase and the onset of neurological symptoms. A decrease in urea and a tendency to decrease in serum creatinine levels were observed with the use of the hypertonic saline solution. Previous studies, carried out in patients with decompensated heart failure, with no vasoactive drugs and normal renal function, also indicated the protective value of the hypertonic saline solution in renal function¹¹. The findings in the present study, however, are noteworthy due the fact that this sample consisted of patients at high risk for renal failure development. The value of the hypertonic saline solution in a high-risk population for the occurrence or worsening of renal failure had not been previously reported.

Limitations - The results obtained are in accordance with the experimental and clinical evidence reported by other authors; however, it is a non-controlled study, with a limited number of patients, which did not evaluate the long-term effects of the intervention. Additionally, the protocol used allowed the use of the saline solution with different tonicities and different doses of furosemide. The variability in the doses used was intentional and is part of the groups experience gain with this new treatment modality. These two aspects related to the medication doses make the intervention heterogeneous, which might have influenced the results obtained. It is also possible that existing differences might have been underestimated, considering the limited sample size.

Conclusion

The hypertonic saline solution has the potential to become a safe and effective method for the clinical improvement and sodium increase in patients with decompensated heart failure with signs of congestion and hyponatremia, with a protective effect against the occurrence of renal failure in these circumstances.

Potential Conflict of Interest

No potential conflict of interest relevant to this article was reported.

Sources of Funding

There were no external funding sources for this study.

Study Association

This study is not associated with any graduation program.

References

Manuscript received December 12, 2006; revised manuscript received March 15, 2007; accepted April 16, 2007.

1. Sales AL, Villacorta H, Reis L, Mesquita ET. Anemia como fator prognóstico em uma população hospitalizada por insuficiência cardíaca descompensada. Arq Bras Cardiol. 2005; 3 (84): 237-40.
2. Rassi S, Barretto ACP, Porto CC, Pereira CR, Calaça BW, Rassi D. Sobrevida e fatores prognósticos na insuficiência cardíaca sistólica com início recente dos sintomas. Arq Bras Cardiol. 2005; 4 (84): 309-13.
3. Gheorghiade M, Abraham WT, Albert NM, Greenberg BH, OConnor CM, She L, et al. Systolic blood pressure at admission, clinical characteristics, and outcomes in patients hospitalized with acute heart failure. JAMA. 2006; 296: 2217-26.
4. Nohria A, Tsang SW, Fang JC, Lewis EF, Jarcho JA, Mudge GH, et al. Clinical assessment identifies hemodynamic profiles that predict outcomes in patients admitted with heart failure. J Am Coll Cardiol. 2003; 41: 1797-804.
5. Dries D, Exner D, Domanski M, Greenberg B, Stevenson L. The prognostic implications of renal insufficiency in asymptomatic and symptomatic patients with left ventricular systolic dysfunction. J Am Coll Cardiol. 2000; 35: 681-9.
6. Schrier RW. Role of diminished renal function in cardiovascular mortality: marker or pathogenetic factor? J Am Coll Cardiol. 2006;47:1-8.
7. Cleland JG, Freemantle N, Coletta AP, Clark AL. Clinical trials update from the American Heart Association: REPAIR-AMI, ASTAMI, JELIS, MEGA, REVIVE-II, SURVIVE, and PROACTIVE. Eur J Heart Fail. 2006; 8 (1): 105-10.
8. Dahle TG, Blake D, Ali SS, Olinger CC, Bunte MC, Boyle AJ. Large volume ultrafiltration for acute decompensated heart failure using standard peripheral intravenous catheters. J Card Fail. 2006; 12 (5): 349-52.
9. Gheorghiade M, Gattis WA, OConnor CM, Adams KF, Elkayam U, Barbagelata A, et al. Effects of tolvaptan, a vasopressin antagonist, in patients hospitalized with worsening heart failure: a randomized controlled trial. JAMA. 2004; 291 (16): 1963-71.
10. Abraham WT, Adams KF, Fonarow GC, Costanzo MR, Berkowitz RL, LeJemtel TH, et al. ADHERE Scientific Advisory Committee and Investigators; ADHERE Study Group. In-hospital mortality in patients with acute decompensated heart failure requiring intravenous vasoactive medications: an analysis from the Acute Decompensated Heart Failure National Registry (ADHERE). J Am Coll Cardiol. 2005; 46 (1): 65-7.
11. Fellippe JJ de, Timoner J, Velasco IT, Lopes OU, Rocha e Silva M. Treatment of refractory hypovolaemic shock by 7.5% sodium chloride injections. Lancet. 1980; ii: 1002-4.
12. Paterna S, Di Pasquale P, Parrinello G, Fornaciari E, Di Gaudio F, Fasullo S, et al. Changes in brain natriuretic peptide levels and bioelectrical impedance measurements after treatment with high-dose furosemide and hypertonic saline solution versus high-dose furosemide alone in refractory congestive heart failure: a double-blind study. J Am Coll Cardiol. 2005; 45: 1997-2003.
13. Licata G, Di Pasquale P, Parrinello G, Cardinale A, Scandurra A, Follone G, et al. Effects of high-dose furosemide and small-volume hypertonic saline solution infusion in comparison with a high dose of furosemide as bolus in refractory congestive heart failure: long-term effects. Am Heart J. 2003; 145: 459-66.
14. Paterna S, Di Pasquale P, Parrinello G, Amato P, Cardinale A, Follone G, et al. Effects of high-dose furosemide and small-volume hypertonic saline solution infusion in comparison with a high dose of furosemide as a bolus, in refractory congestive heart failure. Eur J Heart Fail. 2000; 2: 305-13.
15. Bocchi EA, Vilas-Boas F, Perrone S, Caamano AG, Clausell N, Moreira M da C, et al. I Latin American Guidelines for the Assessment and Management of Decompensated Heart Failure. Arq Bras Cardiol. 2005; 85 (supl 3): 49-94; 1-48.
16. Gazitua S, Scott JB, Chou CC, Haddy FJ. Effect of osmolarity on canine renal vascular resistance. Am J Physiol. 1969; 217: 1216-23.
17. Rocha e Silva M, Velasco IT, Nogueira da Silva RI, Oliveira MA, Negraes GA, Oliveira MA. Hyperosmotic sodium salts reverse severe hemorrhagic shock: other solutes do not. Am J Physiol. 1987; 253: H751-H762.
18. Rocha-e-Silva M, Figueiredo LFP. Small volume hypertonic resuscitation of circulatory shock. Clinics. 2005; 60 (2): 159-72.
19. Kien ND, Kramer GC, White DA. Acute hypotension caused by rapid saline infusion in anesthetized dogs. Anesth Analg. 1991; 73: 597-602.
20. Boldt J, Zickmann B, Ballesteros M, Herold C, Dapper F, Hempelmann G. Cardiorespiratory responses to hypertonic saline solution in cardiac operations. Ann Thorac Surg. 1991; 51: 610-5.
21. Oliveira SA, Bueno RM, Souza JM, Senra DF, Rocha e Silva M. Effects of hypertonic saline dextran on the postoperative evolution of Jehovahs Witness patients submitted to cardiac surgery with cardiopulmonary bypass. Shock. 1995; 3: 391-4.
22. Ramires JAF, Serrano CV, César LAM, Velasco IT, Rocha e Silva Jr M, Pileggi F. Acute hemodynamic effects of hypertonic (7.5%) saline infusion in patients with cardiogenic shock due to right ventricular infarction. Circ Shock. 1992; 37 (3): 220-5.

Mailing address:

Victor Sarli Issa

Rua Fabia, 500

05051-030 - São Paulo, SP- Brazil

E-mail:

victorissa@cardiol.br

Publication Dates

Publication in this collection
18 Apr 2008
Date of issue
Oct 2007

History

Received
12 Dec 2006
Reviewed
15 Mar 2007
Accepted
16 Apr 2007

This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License.

[1] 1. Sales AL, Villacorta H, Reis L, Mesquita ET. Anemia como fator prognóstico em uma população hospitalizada por insuficiência cardíaca descompensada. Arq Bras Cardiol. 2005; 3 (84): 237-40.

[2] 2. Rassi S, Barretto ACP, Porto CC, Pereira CR, Calaça BW, Rassi D. Sobrevida e fatores prognósticos na insuficiência cardíaca sistólica com início recente dos sintomas. Arq Bras Cardiol. 2005; 4 (84): 309-13.

[3] 3. Gheorghiade M, Abraham WT, Albert NM, Greenberg BH, OConnor CM, She L, et al. Systolic blood pressure at admission, clinical characteristics, and outcomes in patients hospitalized with acute heart failure. JAMA. 2006; 296: 2217-26.

[4] 4. Nohria A, Tsang SW, Fang JC, Lewis EF, Jarcho JA, Mudge GH, et al. Clinical assessment identifies hemodynamic profiles that predict outcomes in patients admitted with heart failure. J Am Coll Cardiol. 2003; 41: 1797-804.

[5] 5. Dries D, Exner D, Domanski M, Greenberg B, Stevenson L. The prognostic implications of renal insufficiency in asymptomatic and symptomatic patients with left ventricular systolic dysfunction. J Am Coll Cardiol. 2000; 35: 681-9.

[6] 6. Schrier RW. Role of diminished renal function in cardiovascular mortality: marker or pathogenetic factor? J Am Coll Cardiol. 2006;47:1-8.

[7] 7. Cleland JG, Freemantle N, Coletta AP, Clark AL. Clinical trials update from the American Heart Association: REPAIR-AMI, ASTAMI, JELIS, MEGA, REVIVE-II, SURVIVE, and PROACTIVE. Eur J Heart Fail. 2006; 8 (1): 105-10.

[8] 8. Dahle TG, Blake D, Ali SS, Olinger CC, Bunte MC, Boyle AJ. Large volume ultrafiltration for acute decompensated heart failure using standard peripheral intravenous catheters. J Card Fail. 2006; 12 (5): 349-52.

[9] 9. Gheorghiade M, Gattis WA, OConnor CM, Adams KF, Elkayam U, Barbagelata A, et al. Effects of tolvaptan, a vasopressin antagonist, in patients hospitalized with worsening heart failure: a randomized controlled trial. JAMA. 2004; 291 (16): 1963-71.

[10] 10. Abraham WT, Adams KF, Fonarow GC, Costanzo MR, Berkowitz RL, LeJemtel TH, et al. ADHERE Scientific Advisory Committee and Investigators; ADHERE Study Group. In-hospital mortality in patients with acute decompensated heart failure requiring intravenous vasoactive medications: an analysis from the Acute Decompensated Heart Failure National Registry (ADHERE). J Am Coll Cardiol. 2005; 46 (1): 65-7.

[11] 11. Fellippe JJ de, Timoner J, Velasco IT, Lopes OU, Rocha e Silva M. Treatment of refractory hypovolaemic shock by 7.5% sodium chloride injections. Lancet. 1980; ii: 1002-4.

[12] 12. Paterna S, Di Pasquale P, Parrinello G, Fornaciari E, Di Gaudio F, Fasullo S, et al. Changes in brain natriuretic peptide levels and bioelectrical impedance measurements after treatment with high-dose furosemide and hypertonic saline solution versus high-dose furosemide alone in refractory congestive heart failure: a double-blind study. J Am Coll Cardiol. 2005; 45: 1997-2003.

[13] 13. Licata G, Di Pasquale P, Parrinello G, Cardinale A, Scandurra A, Follone G, et al. Effects of high-dose furosemide and small-volume hypertonic saline solution infusion in comparison with a high dose of furosemide as bolus in refractory congestive heart failure: long-term effects. Am Heart J. 2003; 145: 459-66.

[14] 14. Paterna S, Di Pasquale P, Parrinello G, Amato P, Cardinale A, Follone G, et al. Effects of high-dose furosemide and small-volume hypertonic saline solution infusion in comparison with a high dose of furosemide as a bolus, in refractory congestive heart failure. Eur J Heart Fail. 2000; 2: 305-13.

[15] 15. Bocchi EA, Vilas-Boas F, Perrone S, Caamano AG, Clausell N, Moreira M da C, et al. I Latin American Guidelines for the Assessment and Management of Decompensated Heart Failure. Arq Bras Cardiol. 2005; 85 (supl 3): 49-94; 1-48.

[16] 16. Gazitua S, Scott JB, Chou CC, Haddy FJ. Effect of osmolarity on canine renal vascular resistance. Am J Physiol. 1969; 217: 1216-23.

[17] 17. Rocha e Silva M, Velasco IT, Nogueira da Silva RI, Oliveira MA, Negraes GA, Oliveira MA. Hyperosmotic sodium salts reverse severe hemorrhagic shock: other solutes do not. Am J Physiol. 1987; 253: H751-H762.

[18] 18. Rocha-e-Silva M, Figueiredo LFP. Small volume hypertonic resuscitation of circulatory shock. Clinics. 2005; 60 (2): 159-72.

[19] 19. Kien ND, Kramer GC, White DA. Acute hypotension caused by rapid saline infusion in anesthetized dogs. Anesth Analg. 1991; 73: 597-602.

[20] 20. Boldt J, Zickmann B, Ballesteros M, Herold C, Dapper F, Hempelmann G. Cardiorespiratory responses to hypertonic saline solution in cardiac operations. Ann Thorac Surg. 1991; 51: 610-5.

[21] 21. Oliveira SA, Bueno RM, Souza JM, Senra DF, Rocha e Silva M. Effects of hypertonic saline dextran on the postoperative evolution of Jehovahs Witness patients submitted to cardiac surgery with cardiopulmonary bypass. Shock. 1995; 3: 391-4.

[22] 22. Ramires JAF, Serrano CV, César LAM, Velasco IT, Rocha e Silva Jr M, Pileggi F. Acute hemodynamic effects of hypertonic (7.5%) saline infusion in patients with cardiogenic shock due to right ventricular infarction. Circ Shock. 1992; 37 (3): 220-5.

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Hypertonic saline solution for renal failure prevention in patients with decompensated heart failure

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