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Totonchi Z, Ghorbanlou M, Kiaei M. M, Yousefzadeh A, Mohaghegh M. R. Does B-type Natriuretic Peptide Level Predict Outcome After Arterial Switch Operation?. Biosci Biotech Res Asia 2016;13(1)
Manuscript received on : 11 February 2016
Manuscript accepted on : 17 March 2016
Published online on:  21-03-2016
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Does B-type Natriuretic Peptide Level Predict Outcome After Arterial Switch Operation?

Ziya Totonchi1, Masoud Ghorbanlou2, Mehrdad Mesbah Kiaei2, Ahmad Yousefzadehand Mahmoud Reza Mohaghegh4*

1Cardiac Anesthesiologist , Rajaie Cardiovascular Medical and Research Center , Iran University of Medical Sciences , Tehran , Iran 2Cardiac Anesthesiologist , Hasheminejad Kidey Center ,School of Medicine , Iran University of Medical Sciences , Tehran , Iran 3Cardiac Anesthesiologist , Lorestan University of Medical Science , Khorramabad, Iran 4Anesthesia and Critical Care Department , Hasheminejad  Kidey Center ,School of Medicine , Iran University of Medical Sciences , Tehran , Iran.   Corresponding Author Email: mohaghegh_mr@yahoo.com

DOI : http://dx.doi.org/10.13005/bbra/2045

ABSTRACT: evaluation the predictive value of perioperative Plasma B-type natriuretic peptide level in arterial switch operation. Plasma B-type natriuretic peptide level was measured before and  and 24 hours after surgery in 29 patients with arterial switch operation. we evaluated 29 patients (22 male,76%,7 female 24%) with mean age 67.93±84.09 days (range 6 days to 14months).The mean of BNP level before surgery was 7989.96±9691.94 and increased after surgery to 22391.35±11898.67 and difference between two groups was significant (P=0.003).In linear regression test the BNP did not correlate with sex(r=0.33, P=0.085) and age(r=0.14,P=0.45). Furthermore, BNP did not correlate with duration of mechanical ventilation (r=0.132,P=0.53) , ICU stay (r=0.137,P=0.52) and with lactate level (r=0.41,P=0.054)after operation. During the study 4 patients(13.8%) died and the mean of BNP 24h after operation among them was 35000.00±00.00.using chai-square and fisher exact test the correlation between BNP  and death was significant(P=0.001). we implied that BNP  level increased 24 hours after arterial switch operation, moreover we denoted it correlated well with the death rate and an increase in B-type natriuretic peptide 24 hours after surgery predicts poor postoperative outcome. However it did not correlate with duration of mechanical ventilation ,ICU stay and lactate level in this patients.

KEYWORDS: BNP; arterial switch operation; duration of mechanical ventilation

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Totonchi Z, Ghorbanlou M, Kiaei M. M, Yousefzadeh A, Mohaghegh M. R. Does B-type Natriuretic Peptide Level Predict Outcome After Arterial Switch Operation?. Biosci Biotech Res Asia 2016;13(1)

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Totonchi Z, Ghorbanlou M, Kiaei M. M, Yousefzadeh A, Mohaghegh M. R. Does B-type Natriuretic Peptide Level Predict Outcome After Arterial Switch Operation?. Biosci Biotech Res Asia 2016;13(1). Available from: https://www.biotech-asia.org/?p=7351

Introduction

B-type natriuretic peptide (BNP) is a cardiac neurohormone secreted from membrane granules in the cardiac ventricles as a response to ventricular volume expansion and pressure overload. BNP is a 32-amino acid polypeptide hormone, with diuretic, natriuretic, and vasoactive actions, and use as a biomarker for the management of cardiac disease in both pediatric and adults’ patients (1-4).

Recently a study in patients with congenital heart defects amenable to biventricular repair indicated that measurement of circulating levels of BNP can predict the development of  low cardiac output syndrome (LCOS) and prolonged mechanical ventilation (5).Furthermore, other studies indicated higher plasma level of BNP in children with congenital heart disease and newborns with severe fetal distress (6-8).Because of serious complications related to congenital cardiac defects, surgical repair or palliation of congenital cardiac defects is carried out usually during the neonatal period (8-9).Moreover, neonates,compared to  infants and children, have more adverse events and  perioperative mortality. On the other hand,the clinical predictive value of perioperative plasma BNP levels in neonates, who are most at risk for unpredictable adverse outcomes, is controversial (5-10).So, we steered this study to address these concerns and to shed light on predictive value of preoperativeBNP plasma level in patients under cardiac surgery.

Materials and Methods

We directed a prospective cohort study in the Rajaiee cardiac hospital at the Tehran University of medical sciences between May 2012 and September 2012. The study protocol was approved by ethical committee of Tehran University of medical sciences. Furthermore, we obtained written informed consent from the patients’ parents or guardians before enrollment in the study.

Eligible patients were children  with TGA undergoing arterial switch operation.The preoperative anesthesia management, intraoperative bypass strategy, and subsequent Pediatric Cardiac Intensive Care Unit management followed standard institutional practices. All patients underwent modified ultra filtration before separating from CPB. An on-service team, blinded to the BNP values, made all patient management decisions.

Data Collection

Blood samples were obtained from an arterial catheter 2 hours before operation and 24 hours after CPB.The samples were placed immediately on ice in chilled ethylenediaminetetraaceticacid tubes and centrifuged at 3000 rpm for 15 minutes at 4°C.

Separated plasma was stored at _20°C. Within 4 days of obtaining the sample, the plasma was thawed to room temperature and BNP levels were measured using a commercially available fluorescence immunoassay (Triage Meter Plus, Biosite Diagnostic, San Diego,Calif). The measurable range of BNP on this device is between 5 and 5000 pg/mL. The estimated coefficient of variation for the assay is 9.2% to 11.4%.

Clinical and biochemical data were collected prospectively at each sampling point and daily thereafter by an observer blinded to the BNP data. The clinical data collected included the patient demographics, CPB duration, aortic cross clamp duration, inotrope dose, intensive care unit days, hospital days, and use of mechanical ventilation. Biochemical data collected included Hb , BS, serum lactate, blood urea nitrogen, and creatinine level.

Statistical Analyses

Data were analyzed using SPSS version 20.Categorical data are presented as numbers (%), and continuous data as mean ± SD. We used the Chai_2 or Fisher’s exact test to compare categorical variables and the Student’s t test, the paired test, or the Mann-Whitney’s rank sum U test to compare continuous variables. Correlations between BNP concentrations and hemodynamic variables were calculated by Spearman rank correlation analysis.

Results

In this study we evaluated 29 children (22 boy,76%,7 girls 24%) with mean age 67.93±84.09 days (range 6 days to 14months). The patients main cardiac lesions wereVSD,ASD,dTGA PDA.All patients after operation needed inotropic agents as epinephreine,milrinone,dobutamine, adrenaline and dopamine.

The mean of BNP before surgery was 7989.96±9691.94 and increased after surgery to 22391.35±11898.67 and difference between two groups was significant (P=0.003)(Table1).In linear regression test the BNP did not correlate with sex(r=0.33,P=0.085) and age(r=0.14,P=0.45) .Furthermore,BNP did not correlate with ventilation time (r=0.132,P=0.53), ICU stay (r=0.137,P=0.52) and with lactate level (r=0.41,P=0.054)after operation. During the study 4 patients(13.8%) died and the mean of BNP 24 after operation among them was 35000.00±00.00.using chai-square and fisher exact test the correlation between BNP  and death was significant(P=0.001).

Table 1: BNP, BUN and Cr pre and post operation

pre post Pvalue
BNP 7989.96±9691.94 22391.35±11898.67 0.003
BUN 9.47±3.43 10.35±3.77 0.30
Cr 0.57±16 0.60±0.32 0.35

 

Table 2 : The mean and SD of variables

variables Mean SD
Hb 14.14 2.84
BS 76.10 15.36
Pomp duration 164.00 44.90
Clamp 102.41 32.95
Transfusion during operation 182.69 116.80
Lactate* 5.29 2.75
Lactate* 3.90 2.54
Lactate* 3.30 2.04
Lactate* 2.93 1.72
Lactate** 2.77 1.58
Lactate** 1.88 1.78
Ventilation post operation(hour) 82.46 72.59
ICU stay(day) 7.41 3.56
Bleeding post operation 53.27 91.42
Transfusion post operation 70.17 74.05

*lactate one day after operation every 6 hours

**lactate two days after operation every 12 hour

Discussion

There are little evidencesto suggest that BNP may be helpful in a pediatric clinical setting (11). However, it is clear that it increases in various pathologic states; particularly those involved in increased cardiac chamber wall stretch and expanded fluid volume as heart failure, renal failure, primary hyperaldosteronism, and in reduced peptide clearance as in renal failure (11, 12). Furthermore some studies indicated that BNP seems to have clinical utility in terms of excluding the diagnosis of heart failure in patients with symptoms of breathlessness or fluid retention and may provide prognostic information about those with heart failure or other cardiac diseases (13-18)Also, there is some evidence that it may be useful for monitoring heart failure therapies (19-20).

Ootaki et al in a study indicated that plasma BNP levels correlate well with biventricular volume, particularly with left ventricular volume in various congenital heart diseases such as atrial septal defect,ventricular septal defect, and tetralogy of fallot and with cyanotic heart diseases (21).

Furthermore in another survey, Suda et al.signified that plasma BNP level reflects pressure and volume loading of the right ventricle and the pulmonary artery,so, they purposed that BNP determinations may help to identify children with ventricular septal defect complicated by pulmonary hypertension, which needs urgent intervention (22). These findings recommend that BNP may be a valuable biomarker for prognostication and risk stratification in neonates undergoing cardiac surgery and the measurement of plasma BNP may add clinically useful information relevant to the management of children with congenital heart disease.

In this clinical trial we indicated that the mean of BNP 24 hours after operation significantly increased (7989.96±9691.94 vs.22391.35±11898.67, P=0.003), moreover in four patients that died after operation the mean of BNP plasma level was higher than other(35000 vs. 22391)and the correlation between death and BNP was significant(p=0.001).In agreement to our results Koch et al. in a study signified that in children with congenital heart defects plasma BNP level increased immediately after cardiac surgery (23).Moreover another study by Shihetal.showed B-type natriuretic peptide levels increased after separation from cardiopulmonary bypass, with an 8-fold peak increase at 12 hours (24).However, in contrast to our results HSU et al evaluated the plasma B-type natriuretic peptide levels in 36 consecutive neonates and indicated that B-type natriuretic peptide levels at 24 hours were lower than preoperative levels (12).Moreover Sanjeevet al.in another survey specified that elevation of plasma BNP accurately detects the presence of  PDA in premature infants. Also, they designated that successful closure is reflected by a corresponding decrease in BNP plasma level in neonates (25).A possible explanation for such a discrepancy between studies is heterogeneity in patient’s samples and different technique in BNP measurement.

Our results did not show any correlation between BNP and serum lactate and duration of mechanical ventilation after surgery and BNP but conversely,Sanjeev etal. in their review pointed out that cardiopulmonary bypass time and serum lactate concentration correlated to BNP (25).Moreover, Shih et al showed postoperative 12-hour B-type natriuretic peptide levels were related with the duration of mechanical ventilation and low cardiac output after surgical treatment. (24).

During the study 4 patients died and the mean of BNP 24hours after operation among them was more than 35000 that is higher than other patients, more over death rate significantly correlate with BNP plasma level. In line with our outcomes Price et al. in a study pointed out that BNP concentrations increase in children with chronic LV systolic dysfunction and predict the 90-day composite end point of death, hospitalization, or listing for cardiac transplantation (26).

The main limitations are inherent to the present study are the relatively small sample size and short duration of follow-up. Further investigations are recommended with longer follow-up and larger series to validate the findings reported  here.

Conclusion

we implied that BNP plasma level increased 24 hours after surgical intervention in children with congenital heart disease, moreover we denoted it correlated well with the death rate and an increase in B-type natriuretic

peptide 24 hours after surgery predicts poor postoperative outcome. However it did not correlate with ventilation time and lactate level in this patients.

Acknowledgements

The authors would like to express their gratitude and thanks to the nursing, administrative and secretarial staff of Rajayi hospital for their constructive support throughout the study without which this project would have been impossible.

References

  1. Maeda K, Tsutamoto T, Wada A, Hisanaga T, Kinoshita M: Plasma brain natriuretic peptide as a biochemical marker of high left ventricular end-diastolic pressure in patients with symptomatic left ventricular dysfunction. Am Heart J 1998, 135:825-32.
  2. Richards AM, Nicholls MG, Espiner EA, Lainchbury JG, Troughton RW, Elliott J, Frampton C, Turner J, Crozier IG, Yandle TG: B-type natriuretic peptides and ejection fraction for prognosis after myocardial infarction. Circulation 2003, 107:2786-92.
  3. Costello JM, Goodman DM, Green TP. A review of the natriuretic hormone system’s diagnostic and therapeutic potential in critically ill children.PediatrCrit Care Med. 2006;7:308-18.
  4. Price JF, Thomas AK, Grenier M, Eidem BW, O’Brian Smith E,Denfield SW, et al. B-type natriuretic peptide predicts adverse cardiovascular events in pediatric outpatients with chronic left ventricular systolic dysfunction. Circulation. 2006;114:1063-9.
  5. Shih CY, Sapru A, Oishi P, Azakie A, Karl TR, Harmon C, et al. Alterations in plasma B-type natriuretic peptide levels after repair of congenital heart defects: a potential perioperative marker. J ThoracCardiovasc Surg. 2006;131:632-8.
  6. Pazoki-Toroudi HR, Hesami A, Vahidi S, Sahebjam F, Seifi B, Djahanguiri B. The preventive effect of captopril or enalapril on reperfusion injury of the kidney of rats is independent of angiotensin II AT1 receptors. Fundam Clin Pharmacol. 2003 Oct;17(5):595-8.
  7. Dowlatshahi K, Ajami M, Pazoki-Toroudi H, Hajimiresmaiel SJ. ATP-dependent potassium channels are implicated in simvastatin pretreatment-induced inhibition of apoptotic cell death after renal ischemia/reperfusion injury. Med J Islam Repub Iran. 2015 Mar 14;29:191. eCollection 2015.
  8. Leipala JA, Boldt T, Turpeinen U, Vuolteenaho O, FellmanV.Cardiac hypertrophy and altered hemodynamic adaptation in growth-restricted preterm infants. Pediatr Res 2003;53:989–93.
  9. Charpie JR, Dekeon MK, Goldberg CS, Mosca RS, Bove EL, Kulik TJ. Serial blood lactate measurements predict early outcome afterneonatal repair or palliation for complex congenital heart disease.J ThoracCardiovasc Surg. 2000;120:73-80.
  10. Jenkins KJ, Gauvreau K, Newburger JW, Spray TL, Moller JH, Iezzoni LI. Consensus-based method for risk adjustment for surgery for congenital heart disease. J ThoracCardiovasc Surg. 2002;123:110-8.
  11. Choi BM, Lee KH, Eun BL, Yoo KH, Hong YS, Son CS, Lee JW.PatentDuctusArteriosus in Preterm InfantsUtility of Rapid B-Type Natriuretic Peptide Assay for Diagnosis of Symptomatic.Pediatrics 2005;115;e255
  12. Hsu JH, Keller RL, Chikovani O, Cheng H, Hollander SA,Karl TR, Azakie A, Adatia I. B-type natriuretic peptide levels predict outcome after neonatal cardiac surgery.J ThoracCardiovascSurg2007;134:939-945
  13. Tsutamoto T, Wada A, Maeda K, et al. Attenuation of compensation of endogenous cardiac natriuretic peptide system in chronic heart failure: prognostic role of plasma brain natriuretic peptide concentration in patients with chronic symptomatic left ventricular dysfunction. Circulation. 1997;96:509–516
  14. Mair J, Friedl W, Thomas S, Puschendorf B. Natriuretic peptides in assessment of left-ventricular dysfunction. Scand J Clin Lab Invest Suppl. 1999;230:132–142.
  15. McClure SJ, Caruana L, Davie AP, Goldthorp S, McMurray JJ. Cohort study of plasma natriuretic peptides for identifying left ventricular systolic dysfunction in primary care. BMJ.1998;317:516–51
  16. Nagaya N, Nishikimi T, Uematsu M, et al. Plasma brain natriuretic peptide as a prognostic indicator in patients with primary pulmonary hypertension. Circulation.2000;102:865–870.
  17. Koglin J, Pehlivanli S, Schwaiblmair M, Vogeser M, Cremer P, vonScheidt W. Role of brain natriuretic peptide in risk stratification of patients with congestive heart failure. J Am CollCardiol. 2001;38:1934–1941
  18. Cheng V, Kazanagra R, Garcia A, et al. Rapid bedside test for B-type peptide predicts treatment outcomes in patients admitted for decompensated heart failure: a pilot study. J Am CollCardiol. 2001;37:386–391
  19. Maisel AS. Use of BNP levels in monitoring hospitalized heart failure patients with heart failure. Heart Fail Rev. 2003;8:339–344
  20. Troughton RW, Frampton CM, Yandle TG, Espiner EA, Nicholls MG, Richards AM. Treatment of heart failure guided by plasma aminoterminal brain natriuretic peptide (N-BNP) concentrations. Lancet.2000; 355:1126–1130.
  21. Ootaki Y, Yamaguchi M, Yoshimura N, Oka S, Yoshida M, Hasegawa T. Secretion of A-type and B-type natriuretic peptides into the bloodstream and pericardial space in children with congenital heart disease. J Thorac Cardiovasc Surg. 2003;126:1411–1416
  22. Suda K, Matsumura M, Matsumoto M. Clinical implication of plasma natriuretic peptides in children with ventricular septal defect. Pediatr Int. 2003;45:249–254.
  23. Koch A,TobiasK,StefanZ,Cesnivar,Singer H.Impact of cardiac surgery on plasma levels of B-type natriuretic peptide in children with congenital heart disease.International Journal of Cardiology.2007;114(3):339-344.
  24. ShihCY,  Sapru A, Oishi P, Azakie A, Karl TR, Harmon C, Asija R, Adatia I, Fineman JR. Alterations in plasma B-type natriuretic peptide levels after repair of congenital heart defects: A potential perioperative marker Thorac Cardiovasc Surg 2006;131:632-638.
  25. Sanjeev S,PettersenM,Lua J, Thomas R, L’Ecuyer T,Role of Plasma B-Type Natriuretic Peptide in Screening for Hemodynamically Significant Patent Ductus Arteriosus in Preterm Neonates. 2005; 25,:709–713.
  26. Price JF, Thomas AK, Grenier M, Eidem BW, O’Brian Smith E, Denfield SW, Towbin JA, Dreyer WJ.B-Type Natriuretic Peptide Predicts Adverse Cardiovascular Events in Pediatric Outpatients With Chronic Left Ventricular Systolic Dysfunction. Circulation.2006; 114:1063-1069.
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