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Nitrite exhaled breath condensate study in patients undergoing cardiopulmonary bypass cardiac surgery

Estudo do nitrito do condensado do exalado pulmonar em pacientes submetidos à cirurgia cardíaca com CEC

Abstracts

BACKGROUND: There is a relative lack of studies on postoperative changes in nitrite (NO2 - ) concentrations, a marker of injury, following cardiac surgery. In this context, investigations on how exhaled NO concentrations vary in the postoperative period of cardiac surgery will certainly contribute to new clinical findings. OBJECTIVE: The objective of this study was to compare the EBC NO levels in both the pre and postoperative (24 hours) periods of cardiac surgery. METHODS: Twenty - eight individuals were divided into three groups: 1) control, 2) coronary artery bypass grafting, and 3) valve surgery. The nitrite (NO2 - ) levels were measured by chemiluminescence in blood samples and exhaled breath condensate (EBC). Data were analyzed by the Mann - Whitney and Wilcoxon tests. RESULTS: 1) Preoperatively, the EBC NO2 - levels from groups 2 and 3 patients were higher than control individuals; 2) The postoperative (24 hours) NO2 - levels in the EBC from group 3 patients were lower compared with preoperative values; 3) The NO2 - levels in the plasma from group 2 patients were lower in the preoperative compared with the postoperative (24h) values and; 4) Preoperatively, there was no difference between groups 2 and 3 in terms of plasma NO2 - concentrations. CONCLUSION: These data suggest that NO measurement in EBC is feasible in cardiac surgery patients.

Nitrites; Nitric Oxide; Respiratory Function Tests; Thoracic Surgery; Cardiaca Surgical Procedures


INTRODUÇÃO: Estudos mostrando alterações das concentrações de nitrito (NO2 - ) exalado, com biomarcador de lesão, são raros em pacientes submetidos à cirurgia cardíaca. Nesse contexto, o seu estudo no pré e pós - operatório de cirurgias cardíacas poderá contribuir para novos dados clínicos. OBJETIVO: O objetivo foi comparar os níveis de nitrito (NO2 - ) do condensado do exalado pulmonar (CEP) no pré e pós - operatório de cirurgia cardíaca com circulação extracorpórea. MÉTODOS: Vinte e oito indivíduos foram alocados em três grupos: 1) controle, 2) revascularização do miocárdio e 3) correção valvar. Os níveis de NO2 - foram dosados por quimioluminiscência em amostras de CEP e sangue. Os dados foram analisados pelos testes Mann - Whitney e Wilcoxon. RESULTADOS: 1) Os níveis de NO2 - no CEP dos grupos 2 e 3 no pré - operatório foram superiores aos do grupo controle; 2) Os níveis de NO2 - no CEP do Grupo 3 foram maiores no pré que no pós - operatório 24h; 3) Os níveis de NO2 - plasmático do Grupo 2 foram menores no pré que no pós - operatório 24h e; 4) Não houve diferença na concentração de NO2 - plasmático entre os grupos 2 e 3 no pré - operatório. CONCLUSÕES: Esses dados sugerem que a dosagem de NO2 - no CEP é viável em pacientes submetidos à cirurgia cardíaca.

Nitritos; Óxido Nítrico; Testes de Função Respiratória; Cirurgia Torácica; Procedimentos Cirúrgicos Cardíacos


ARTIGO ORIGINAL

Nitrite exhaled breath condensate study in patients undergoing cardiopulmonary bypass cardiac surgery

Estudo do nitrito do condensado do exalado pulmonar em pacientes submetidos à cirurgia cardíaca com CEC

Viviane dos Santos AugustoI; Graziela Saraiva ReisII; Verena Kise CapelliniIII; Andrea Carla CelottoIV; Alfredo José RodriguesV; Paulo Roberto Barbosa EvoraVI

IMestre; Coordenadora do Programa de Aprimoramento em Fisioterapia da Divisão de Cirurgia Cardiotorácica do Hospital das Clínicas de Ribeirão Preto - FMRP/USP

IIMestre; Fisioterapeuta do CTI da Unidade de Emergência do Hospital das Clínicas de Ribeirão Preto - FMRP/USP

IIIMestre; Pós - graduanda do Departamento de Cirurgia e Anatomia - FMRP/USP

IVProfessora - doutora;(Coordenadora do Laboratório de Reatividade Vascular de Função Endotelial do Departamento de Cirurgia e Anatomia - FMRP/USP

VProfessor - doutor; Docente da Divisão de Cirurgia Torácica e Cardiovascular do Departamento de Cirurgia e Anatomia - FMRP/USP

VIProfessor Titular; Chefe do Departamento de Cirurgia e Anatomia da FMRP/USP

Correspondence address Correspondence address: Paulo Roberto Barbosa Evora Rua Rui Barbosa, 367/15 CEP: 14015 - 120 - Ribeirão Preto, SP, Brazil E - mail: prbevora@fmrp.usp.br

ABSTRACT

BACKGROUND: There is a relative lack of studies on postoperative changes in nitrite (NO2 - ) concentrations, a marker of injury, following cardiac surgery. In this context, investigations on how exhaled NO concentrations vary in the postoperative period of cardiac surgery will certainly contribute to new clinical findings.

OBJECTIVE: The objective of this study was to compare the EBC NO levels in both the pre and postoperative (24 hours) periods of cardiac surgery.

METHODS: Twenty - eight individuals were divided into three groups: 1) control, 2) coronary artery bypass grafting, and 3) valve surgery. The nitrite (NO2 - ) levels were measured by chemiluminescence in blood samples and exhaled breath condensate (EBC). Data were analyzed by the Mann - Whitney and Wilcoxon tests.

RESULTS: 1) Preoperatively, the EBC NO2 - levels from groups 2 and 3 patients were higher than control individuals; 2) The postoperative (24 hours) NO2 - levels in the EBC from group 3 patients were lower compared with preoperative values; 3) The NO2 - levels in the plasma from group 2 patients were lower in the preoperative compared with the postoperative (24h) values and; 4) Preoperatively, there was no difference between groups 2 and 3 in terms of plasma NO2 - concentrations.

CONCLUSION: These data suggest that NO measurement in EBC is feasible in cardiac surgery patients.

Descriptors: Nitrites. Nitric Oxide. Respiratory Function Tests. Thoracic Surgery. Cardiaca Surgical Procedures.

RESUMO

INTRODUÇÃO: Estudos mostrando alterações das concentrações de nitrito (NO2 - ) exalado, com biomarcador de lesão, são raros em pacientes submetidos à cirurgia cardíaca. Nesse contexto, o seu estudo no pré e pós - operatório de cirurgias cardíacas poderá contribuir para novos dados clínicos.

OBJETIVO: O objetivo foi comparar os níveis de nitrito (NO2 - ) do condensado do exalado pulmonar (CEP) no pré e pós - operatório de cirurgia cardíaca com circulação extracorpórea.

MÉTODOS: Vinte e oito indivíduos foram alocados em três grupos: 1) controle, 2) revascularização do miocárdio e 3) correção valvar. Os níveis de NO2 - foram dosados por quimioluminiscência em amostras de CEP e sangue. Os dados foram analisados pelos testes Mann - Whitney e Wilcoxon.

RESULTADOS: 1) Os níveis de NO2 - no CEP dos grupos 2 e 3 no pré - operatório foram superiores aos do grupo controle; 2) Os níveis de NO2 - no CEP do Grupo 3 foram maiores no pré que no pós - operatório 24h; 3) Os níveis de NO2 - plasmático do Grupo 2 foram menores no pré que no pós - operatório 24h e; 4) Não houve diferença na concentração de NO2 - plasmático entre os grupos 2 e 3 no pré - operatório.

CONCLUSÕES: Esses dados sugerem que a dosagem de NO2 - no CEP é viável em pacientes submetidos à cirurgia cardíaca.

Descritores: Nitritos. Óxido Nítrico. Testes de Função Respiratória. Cirurgia Torácica. Procedimentos Cirúrgicos Cardíacos.

INTRODUCTION

Exhaled nitric oxide (NO) has been considered a potential biomarker of lung injury after cardiac surgery with cardiopulmonary bypass (CPB) [1]. The measurement of pulmonary vasoreactivity is important not only in ischemia - reperfusion, but also in patients with pulmonary hypertension, sepsis, and acute respiratory distress syndrome [2].

Bronchoscopy has long been employed for collection of fluid from the lower respiratory tract. However, the invasive nature of this technique has prompted growing interest in the use of exhaled breath condensate (EBC), a simple, safe, and non - invasive approach to the sampling of the lower airways [3,4]. Nonetheless, the dosing technique is not well established yet, and the use of multiple devices makes comparison of different studies difficult [5].

There is a relative lack of studies on postoperative changes in nitrite (NO2 - ) concentrations, a marker of injury, following cardiac surgery. In this context, investigations on how exhaled NO concentrations vary in the postoperative period of cardiac surgery will certainly contribute to new clinical findings. It is worth mentioning that exhaled NO expresses microcirculatory phenomena better than the measurement of NO2 - levels in plasma samples collected from the pulmonary artery. Hence, assessment of exhaled NO may be more representative of vasoreactivity in the case of pulmonary hypertension.

The objective of this study was to compare the EBC NO levels in both the pre and postoperative (24 hours) periods of cardiac surgery.

METHODS

This prospective, nonrandomized study was approved by the Ethics Committee of the Hospital of the Faculty of Medicine of Ribeirão Preto, University of São Paulo (USP).

Twenty - eight adult patients of both sexes, aged between 26 and 71 years, were selected for this study and divided into three groups: 1) Control, consisting of 14 healthy volunteers who were not taking any medicine, including smokers, former smokers, and nonsmokers; 2) seven coronary artery bypass grafting (CABG) patients; and 3) seven heart valve surgery patients.

The EBC collector device was mounted in polystyrene box, and a mouth adaptor was added to the circuit, in order to aid patients in breathing in the tidal volume (TV). After correct placement of each circuit (mouth adaptor, plastic tubes, and Eppendorf/1.5 mL), the plastic box was performed with dry ice and positioned in the center of the polystyrene box which was filled with crushed ice. Care was taken so as not to allow direct contact between the two types of ice, and the measured temperature was around - 10º C.

Room air breathing volunteers were asked to rinse their mouth prior to EBC collection, to minimize saliva contamination. They were instructed to breathe in the TV through the piece adapted to the mouth by closing the lips around it. A calm respiratory pattern was requested during sampling, which lasted 10 minutes. EBC collection in the surgical group occurred at the following moments: a) Preoperatively: preoperative spontaneously breathing patients, and b) Postoperatively: spontaneously breathing patients 24 hours after the end of the CPB surgery. The EBC samples were stored at - 70ºC until NO dosage using the NO/ozone chemiluminescence method (Sievers NOA 280i, Sievers, Boulder, CO, USA).

Disinfection of devices and materials was accomplished with water and neutral liquid detergent Extran MaO2 (Merck), followed by rinsing with tap water and Milli - Q water, and drying with medical grade compressed air.

For measurement of plasma NO2 - levels, 1.5 mL blood samples were collected through a peripheral venous access preoperatively, and through a central venous access postoperatively. The blood sample was placed in a standard collection tube (BD Vacutainer K2 EDTA) containing 0.08 mL heparin, transported on ice ( - 20ºC), and centrifuged at 5000 rpm for 10 minutes, at 4ºC. The plasma was deproteinated and stored at - 70ºC for later NO2 - level measurement by NO/ozone chemiluminescence.

Statistical analysis

The parameters were expressed as mean ± standard deviation, with N corresponding to the number of patients. Normality of data distribution was tested using the Shapiro - Wilk test, which gave evidence of lack of normality. Thus, data were analyzed by the Mann - Whitney and Wilcoxon non - parametric tests, by means of the Prism 4.0 software. Statistical significance was set at P <0.05.

RESULTS

The preoperative NOlevels (4.28 ± 3.42) in the EBC from surgical patients, were higher than those measured in the EBC from the control group (1.34 ± 1.34) (P = 0.0065) (Figure 1). In the case of valve disease, the preoperative EBC NO values were significantly higher than the postoperative levels (5.26 ± 4.52 and 0.70 ± 0.6, respectively; P = 0.0173) (Figure 2).



In the surgical group who underwent CABG, there was no statistical difference (P = 0.3095) between the preoperative (3.74 ± 3.09) and postoperative (2.73 ± 4.66) EBC NOvalues (Figure 3).


There were no significant differences in the preoperative plasma NO2 - concentrations of the three groups (P = 0.5031). Indeed, similar values were detected in the control group (0.17 ± 0.13) and preoperative CABG patients (0.18 ± 0.11), whereas only slightly higher levels were found in the preoperative valve patients (0.25 ± 0.16) compared with the other groups (Figure 4).


Pre (0.25 ± 0.16) and postoperative (0.20 ± 0.19) plasma NO2 - concentrations in patients submitted to valve surgery were similar (P = 0.6875). In the group that underwent CABG, the plasma NO2 - concentration significantly increased postoperatively (preoperative level = 0.18 ± 0.11, postoperative level = 0.47 ± 0.55; P = 0.0156) (Figure 5).


DISCUSSION

After CPB cardiac surgery, patients may develop an inflammatory response with increased release of pro - inflammatory cytokines and NO [6]. Indeed, recent studies have considered NO as an important biomarker of lung injury after cardiac surgery [1,7].

NO concentrations in exhaled air are lower after lung transplantation and in patients with acute respiratory distress syndrome. However, results concerning exhaled NO have only recently been recognized in the case of cardiac surgery patients [1,7,8]. The inflammatory reactions induced by CPB are related to the post - CPB period, and these reactions lead to respiratory dysfunction associated with reperfusion syndrome. They also cause interstitial edema, impaired microcirculation of organs due to increased protease activity, free radical production derived partly from granulocytes, and reduced endogenous NO production.

In the present study, significantly higher EBC NO concentrations were detected in cardiac surgery patients preoperatively, compared with healthy individuals (control). In the studied population, 43% of the surgical volunteers were using drugs such as angiotensin - converting enzyme (ACE) inhibitor (enalapril) and/or isosorbide dinitrate (NO donor). The biochemical and pharmacological effects of NO3 - are identical to those of the NO - derived relaxing factor from the endothelium; therefore, isosorbide dinitrate may promote NO bioavailability. According to Sumino et al. [9], becausethe measurement of exhaled NO is directly derived from thelung, it is possible that ACE inhibitors cause larger NO release in the latter organ compared with the serum NOx level in the peripheralvenous blood. It is possible that NO production in the systemiccirculation is also promoted by ACE inhibition, but this change is so small that NOx is rapidly excreted in urine withoutapparent alterations in the NOx serum level. It is thusmore advantageous to use the amount of NO measured in expiredair as an indicator of the NO level endogenously produced in the lung instead of using the NOx serum level.

This is because it is likelythat enhanced NO bioavailability induced by ACE inhibitionresults in larger levels of NO radicals in exhaled air, which is not necessarily accompanied by elevation in NO metabolites measured as NOx in the serum. In other words, it is possible that ACE inhibition causes further increase in NO released by the lungs compared with NOx levels present in the plasma from peripheral venous blood. In addition, it can be speculated that the reduced production of angiotensin II and / or the accumulation of bradykinin in the lung tissue may be responsible for the larger NO production in lung components such as the pulmonary vascular endothelium, bronchial epithelial cells, macrophages, and neurons in the nasopharynx [9].

In the present investigation, it was observed that the EBC NO levels decreased, fact that in the case of CABG, or remained close to the preoperative values in the late postoperative period (24 hours) of valve surgery. This finding is similar to the results obtained by Kovesi et al. [7], and a possible explanation may be related to the anatomical origin of NO in exhaled air. Although vascular mechanisms contribute to the production of exhaled NO, recent studies suggest that bronchial epithelial cells are those that mostly contribute to NO formation. This is sustained by the distribution of nitric oxide synthase (NOS) isoenzymes in the lungs.

The NOS isoforms iNOS and eNOS are found in the epithelial cells of the airways and produce NO in large quantities. Furthermore, small amounts of NO are produced by NOS type III or eNOS. Thus, the pro - inflammatory cytokines activated after surgery induce high NO production by iNOS and affect the eNOS expression by destabilizing the ribonucleic acid (mRNA) messenger of this isoenzyme, thereby leading to its lower expression. Although iNOS is quite active during cardiac surgery and the postoperative period, there is no increase in exhaled NO levels because the oxidative stress generated by the surgical procedure causes NO consumption by the superoxide anion, which produces peroxynitrite (OONO-) [7].

The vascular endothelium is part of an important mechanism that contributes to vasodilation through the endogenous release of prostacyclin and NO. However, the endothelial function may decline with aging. In fact, the vessels appear to be morphologically normal in elder individuals, but a variety of metabolic abnormalities may exist. Although the mechanisms that explain these abnormalities remain unknown, the reduced NO production, increased destruction of NO by superoxide, and changes in membrane flags are compromised [10].

As already mentioned, the inflammatory reactions induced by CPB are related to the post - CPB period and culminate in respiratory dysfunction, associated with perfusion syndrome, causing interstitial edema, renal microcirculation of organs due to increased protease activity, free radical production derived partly from granulocytes, and decreased endogenous NO. In the present study, the plasma NO2 - levels in the control group and the preoperative plasma NO2 - levels in the CABG and heart valve surgery patients were similar, with some discrepancy in the values of valve repair patients.

The postoperative plasma NO2 - levels of the surgical patients remained virtually unchanged, with the vast majority of surgeries having been performed at 34Ë%C (11 patients). These findings differ from those of Ohata et al. [11], who compared mitral valve disease patients submitted to surgery at two different temperatures (28Ë%C, 14 patients and 34Ë%C, 17 patients). Their results indicated that plasma NO2 - and NO3 - levels, and not the EBC NO levels, increased significantly in the group undergoing surgery at a temperature of 34Ë%C, which was accompanied by lowering of systemic vascular resistance. This suggests that the blood temperature is an important factor influencing NO production during cardiac surgery.

Exhaled NO seems to reflect the status of the respiratory system, but it is unclear whether exhaled NO may also be related to the NO production by the endogenous system. Plasma NO2 - and NO3 - are stable end products of NO oxidation, being thus considered specific markers of all the NO formed in the body. Interestingly, some authors have observed augmented synthesis of endogenous NO and elevated plasma NO2 - and NO3 - concentrations in patients with sepsis syndrome [12].

In the study by Kharitonov et al. [13], administration of L - arginine enhanced both exhaled NO and plasma NO3 - levels. This phenomenon may suggest a dynamic interplay between total NO production in the body, end products of NO metabolism, and exhaled NO concentrations [13].

Although the exact source of NO production in the airways has not been precisely determined, NO release seems to occur in both upper and lower respiratory tract. Some authors have demonstrated that the majority of exhaled NO is derived from the nose and paranasal sinuses in adults, children, and the newborn [12].

Although the correlation between plasma NO and exhaled NO seems unlikely because of the short half - life of NO in the presence of oxygen, hemoglobin, and reactive oxygen species, it has been shown that NO may be preserved in vivo by binding to albumin and being transported in this form and released elsewhere thereafter [14]. In this study, there were no significant correlations between EBC and plasma NO concentrations in the preoperative and postoperative periods of CABG and valve surgeries. This finding is similar to the results reported by Dillon et al. [15] and Biban et al. [12], who found no correlation between exhaled NO and plasma NO2 - and NO3 - levels. This could indicate that exhaled NO, at least in healthy conditions, is more reflective of local NO release than systemic - derived NO. Nevertheless, it might be argued that exhaled NO is not a representative component of the lung due to contamination of the upper airways (nose and paranasal sinuses) with NO.

CONCLUSIONS

There is a relative lack of studies in the literature on the use of NO as a marker of lung injury in the postoperative period of cardiac surgery. Thus, studies that demonstrate the importance of NO in the exhaled breath condensate before and after heart surgery will certainly contribute to new clinical findings and may have diagnostic or therapeutic relevance in different clinical situations. Therefore, the following results of this work should be borne in mind:

1) A technique for collection of exhaled pulmonary NO was employed here, which enabled measurement of NO in exhaled air and was sensitive to changes in NOx values, thereby allowing comparison between NO levels in the preoperative and postoperative periods of cardiac surgery [14,16,17].

2) In the preoperative period, the surgical group presented higher NO levels in the exhaled breath condensate compared with the control group. The NO levels in the exhaled breath condensate decreased in the postoperative period in the case of patients undergoing valve repair, whereas plasma NO2 - levels increased in the postoperative period (24 hours) in the case of coronary artery bypass grafting surgical patients [18];

3) In the pre and postoperative (24 hours) periods of cardiac surgery, there was no correlation between the exhaled breath condensate NO levels and plasma NO2 - levels [18].

Artigo recebido em 14 de setembro de 2010

Artigo aprovado em 6 de janeiro de 2011

This study was supported by Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP) and Fundação de Apoio ao Ensino, Pesquisa e Assistência do Hospital das Clínicas da Faculdade de Medicina de Ribeirão Preto da Universidade de São Paulo (FAEPA/HCFMRP/USP), SP, Brazil.

This study was done at Department of Surgery and Anatomy, Ribeirão Preto Faculty of Medicine, University of São Paulo, Avenida Bandeirantes, 3900, Ribeirão Preto, São Paulo 14048 - 900, Brazil.

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  • Correspondence address:

    Paulo Roberto Barbosa Evora
    Rua Rui Barbosa, 367/15
    CEP: 14015 - 120 - Ribeirão Preto, SP, Brazil
    E - mail:
  • Publication Dates

    • Publication in this collection
      21 June 2011
    • Date of issue
      Mar 2011

    History

    • Received
      14 Sept 2010
    • Accepted
      06 Jan 2011
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