Piotr WegrzynI; Grzegorz LisII; Pawel RudzinskiI; Jacek PiatekI; Grazyna Pyka-FosciakII; Ryszard KorbutIII; Boguslaw KapelakI; Krzysztof BartusI; Radoslaw LitwinowiczI
ABSTRACTObjective: The aim of this study was to compare the efficacy of two different papaverine concentrations (0.5 mg/ml and 2 mg/ml) for vasospasm prevention and their impact on endothelium integrity.
ANOVA = Analysis of variance
BMI = Body mass index
CABG = Coronary artery bypass graft
CCS = Canadian Cardiovascular Society
cGMP = Cyclic guanosine monophosphate
CK-MB = Creatine kinase-muscle/brain
KCl = Potassium chloride
ICU = Intensive care unit
LAD = Left artery descending
LIMA = Left internal mammary artery
NO = Nitric oxide
PBS = Phosphate-buffered saline
PDE = Phosphodiesterase
PE = Phenylephrine
RA = Radial artery
RAPCO = Radial Artery Patency and Clinical Outcomes
RCA = Right coronary artery
SD = Standard deviation
Coronary artery bypass graft (CABG) surgery is the most common cardiac surgical procedure that presents long term efficacy and durability with reduced mortality and morbidity observed in the last decade[1-3]. For many years, left internal mammary artery (LIMA) has been routinely applied in CABG surgery as "first conduit of choice" because of its resistance to atherosclerosis, especially in older patients. Radial artery (RA) is rarely used as a conduit in CABG surgery, mainly because of its high tendency to vasospasm. However, the durability of RA as an arterial conduit is satisfactory: according to Acar et al., patency rates were 93% after 9 months and 89% after 2 years. RA shows higher failure rates when grafted to right coronary artery (RCA) system than to left artery descending (LAD) system. The failures should rather be attributed to the coronary artery than to the RA conduit because of the higher intensity of atherosclerosis in RCA.
RA can be applied as a classic conduit or Y-graft, with the proximal site connected with LAD and the distal site grafted into coronary artery. Comparing RA grafts durability with that of veins, RA is much more suitable for CABG: after 5 years of follow-up, the patency of vessels was 98% vs. 86%. Ferrari and Segesser recommended RA as the "second conduit of choice", after the internal mammary artery, in CABG. Furthermore, it is worth to mention that according to mid-term outcomes in the Radial Artery Patency and Clinical Outcomes (RAPCO) trial, there was no essential difference both in patients' free survival time and graft patency time between RA and right internal thoracic artery.
Several techniques are available for bypass graft vessel predilatation during CABG surgery. With an increasing use of RA as a graft, it is very important to understand how the predilatation process can be pharmacologically controlled to improve graft function. We have already compared the vasodilatory effect and impact on endothelium of milrinone 0.4 mg/ml and papaverine 1 mg/ml. Our previously research revealed that papaverine in concentration of 1 mg/ml exerts stronger vasodilatory effect on RA and reveals lesser damaging influence on its endothelial cells compared to milrinone 0.4 mg/ml. Taking into consideration these results, we continued the study comparing another two different doses of papaverine - two times lower (0.5 mg/ml) and two times higher (2 mg/ml).
The aim of this research was to examine the vasodilatory potential and effect of different concentrations of papaverine on the endothelial integrity in the model of RA segments harvested from CABG patients.
We have examined 10 RA segments harvested from patients who underwent CABG surgery. Clinical characteristics as body mass index (BMI), Canadian Cardiovascular Society (CCS) scale, atherosclerosis risk factors, myocardial infarction, and atrial fibrillation were taken into consideration and presented in Table 1. All patients signed the written consent to participate in the study.
|Patients’ characteristics||Average ± SD or n (%)|
|Systolic blood pressure (mmHg)||135±7.82|
|Diastolic blood pressure (mmHg)||86.5±4.84|
|Post-surgical drainage (ml)||779±469.88|
|Blood unit transfusion (number)||2.3±1.7|
|CCS scale||II||2 (20%)|
|Arterial hypertension||8 (80%)|
|Myocardial infarction||2 (20%)|
|Atrial fibrillation||7 (70%)|
|Pressor drugs||10 (100%)|
Each vessel ring obtained during CABG surgery was cut into six or four smaller rings which were then exposed to organ bath (n=24) and histological examination (n=20).
Organ bath experiments were carried out according to standards described previously[10-13]. The organ chamber was filled with 5 ml of Krebs-Henseleit buffer, containing 120 mM NaCl, 4.7 mM potassium chloride (KCl), 1.2 mM MgSO4, 1.2 mM KH2PO4, 2.5 mM CaCl2, 25 mM NaHCO3, and 5.5 mM glucose, at 37°C. The rings were mounted between two hooks and were strained to the baseline value of 20 mN. Stabilization to 20 mN was done before each measurement. The rings were precontracted with 20 mM KCl followed by increasing concentrations (10-9 to 10-2M) of phenylephrine (PE). Next, they were rinsed, stabilized, and immersed in solutions of papaverine (papaverinum hydrochloricum; Warszawskie Zakłady Farmaceutyczne Polfa S.A., Karolkowa, Poland) at 0.5 mg/ml (n=12) or 2 mg/ml (n=12). The vasodilatory effect was measured after 10, 20, 30, 40, 50, and 60 min, as described previously. After stabilization, 20 mM KCl was added to the chambers for 10 min to assess the spasm-preventing effect of papaverine. The total amount of tested rings in organ bath were n=24. The AcomPC (Siemens, Germany) software was used in all measurements.
Immunofluorescence and Morphometry
The method was the same as in the first part of research. Twenty arterial rings were immersed for 20 min in phosphate-buffered saline (PBS), in solutions of papaverine 0.5 mg/ml (n=10) or 2 mg/ml (n=10), and then fixed in 4% buffered formalin for 24 hours. After washing and freezing with PBS, 10 µm thick cryostat sections were obtained and the influence of vasodilators on endothelial integrity was studied by immunofluorescence. All 20 rings were serially sectioned and used for immunohistochemical examination at every 20th section. The sections were preincubated with 5% normal goat serum for 40 min, and then were incubated overnight with endothelial cell marker, a mouse monoclonal anti-CD34 antibody (dilution 1:50; Novocastra, Newcastle, UK).
Subsequently, sections were washed extensively in PBS and incubated for 90 min with goat anti-mouse Cy-3-conjugated antibody (dilution 1:400; Jackson IR, West Grove, PA, USA), and then the cell nuclei were counterstained with DAPI (Sigma, Saint Louis, MO, USA). As previously, sections were washed three times in PBS and mounted in glycerol/PBS solution on the same pH=8.6. As in the first part, the endothelial integrity was expressed as the mean percentage of the lumen perimeter immunopositive for CD34.
Vasodilatory effects of two different papaverine concentrations were checked for normal distribution with the Shapiro-Wilk test. All results obtained by organ bath method and endothelial integrity measurements were expressed as mean ± standard deviation or median (interquartile range; Q1-25th percentile and Q3-75th percentile) unless otherwise stated. To assess the differences between two continuous variables, Student's t-test (for normally distributed values) or the Mann-Whitney U test (for non-normally distributed values) were applied. To assess the differences between three continuous variables, analysis of variance (ANOVA) test (for normally distributed values) or the Kruskal-Wallis test (for non-normally distributed values) were applied.
The mean vasorelaxation of precontracted RA was stronger in vessel rings incubated in papaverine 2 mg/ml than in 0.5 mg/ml. The statistical significance was reached after 30 min of incubation (papaverine 0.5 mg/ml, 65.19±20.21 vs. 2 mg/ml, 89.86±10.45; P<0.001; Figure 1). From the practical point of view, it means that the appropriate efficacy is reached after half an hour. The vasorelaxative effect was maintained until the end of vessel examination (60 min).
The strongest inhibition of vasoconstriction induced by KCl was observed at the highest papaverine dose (2.66±1.96 mN for 2 mg/ml vs. 7.35±3.33 mN for 0.5 mg/ml; P<0.001; Figure 2).
We have also evaluated the impact of the examined papaverine concentration on endothelial integrity by calculating the percentage of vessel's circumference lined by endothelial cells, as revealed by immunofluorescence of their CD34 marker. The endothelial integrity was better preserved after treatment of RA rings with papaverine 0.5 mg/ml (72.86±9.3%) than with papaverine 2 mg/ml (50.23±13.42 %, P=0.002) (Figure 3).
Our previous study has shown that when compared to milrinone, papaverine exerts a stronger vasodilatory effect on RA segments and more effectively inhibits their contractile response to KCl and PE. However some studies confirm the dual effect of milrinone and other[14,15] phosphodiesterase (PDE) inhibitors, which reveals an additionally important inotropic effect in medical treatment.
There is no unanimous standpoint concerning papaverine concentration that should be applied in conduits predilatation. In many cardiovascular centers worldwide, different doses of papaverine were examined and applied in predilatation of both RA and internal mammary artery. The efficacy of papaverine was proved for different doses: 0.4 mg/ml[16,17], 1 mg/ml, 2.5 mg/ml, and 4 mg/ml.
At the Department of Cardiovascular Surgery and Transplantology, John Paul II Hospital, where the investigation was carried out, the concentration of papaverine applied for RA predilatation associated with CABG surgery was usually 2 mg/ml.
In terms of vasodilatation and further vasoprotection force, the efficacy of the 0.5 mg/ml papaverine concentration is much lower compared to the 2 mg/ml concentration, and the effects of these two concentrations are comparable; from this viewpoint, both concentrations should be taken under consideration for practical use in CABG surgery. However, papaverine 2 mg/ml caused the highest endothelial damage, at the level of almost 50%. Concentrations of 0.5 mg/ml resulted in much better preservation of endothelial lining.
Immense damage of RA endothelium may lead to undesirable complications during the first postoperative hours in intensive care unit (ICU) because of severe deficiency of nitric oxide (NO), which is synthesized and secreted by endothelial cells. PDE inhibitors increases intracellular cyclic guanosine monophosphate (cGMP) and, as consequence, the level of NO as well. It is important to mention that, paradoxically, excess level of PDE concentration causes endothelium destruction and, as a result, lower NO secretion. This might cause a situation when a few hours after CABG surgery, the vasorelaxative and vasoprotective effects of papaverine disappear and the deficiency of NO, one of the most potent vasodilators which is crucial for the regulation of the vascular tone, could lead to a sudden, uncontrolled RA spasm and heart muscle ischemia, creating a direct health hazard with all its consequences for the patient, including low output syndrome or sudden death.
Furthermore, the dysfunction of endothelium induces platelet activation releasing thromboxane A2, which is conductive to thrombosis formation inside the vessel, heightening complications in short post-operative period. To elude uncontrolled RA vasospasm, appropriate no-touch harvesting technique and predilatation should be applied. Additionally, it is worth to mention that using RA as a conduit following radial access coronarography is controversial and should be avoided.
Thus, taking into consideration the safety (percentage of undamaged endothelium) and our previous research, papaverine at concentration 2 mg/ml should not be applied in RA predilatation. The efficacy (maximum vasorelaxation force) of 1 mg/ml examined in the first part of the research is almost identical, but at that concentration papaverine shows significantly better preservation of the endothelium. On the other hand, KCl and PE induced contraction of RA segments predilated by 0.5 mg/ml and 1 mg/ml papaverine is stronger when compared with 2 mg/ml.
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Article receive on Monday, May 14, 2018