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ORIGINAL RESEARCH

NLR48 is Better Than CRP, and mCTSI, and Similar to BISAP and SOFA Scores for Mortality Prediction in Acute Pancreatitis: A Comparison of 6 Scores

Sergiu Marian Cazacu1 Gastroenterology Department, University of Medicine and Pharmacy Craiova, Clinical Emergency Hospital Craiova, Craiova, RomaniaORCID Iconhttps://orcid.org/0000-0001-9623-7683View further author information
ORCID Icon,
Mircea Parscoveanu2 Surgery Department, University of Medicine and Pharmacy Craiova, Clinical Emergency Hospital Craiova, Craiova, RomaniaView further author information
,
Dan Cartu2 Surgery Department, University of Medicine and Pharmacy Craiova, Clinical Emergency Hospital Craiova, Craiova, RomaniaView further author information
,
Emil Moraru2 Surgery Department, University of Medicine and Pharmacy Craiova, Clinical Emergency Hospital Craiova, Craiova, RomaniaView further author information
,
Ion Rogoveanu1 Gastroenterology Department, University of Medicine and Pharmacy Craiova, Clinical Emergency Hospital Craiova, Craiova, RomaniaORCID Iconhttps://orcid.org/0000-0002-3385-098XView further author information
ORCID Icon,
Bogdan Silviu Ungureanu1 Gastroenterology Department, University of Medicine and Pharmacy Craiova, Clinical Emergency Hospital Craiova, Craiova, RomaniaORCID Iconhttps://orcid.org/0000-0002-1984-791XView further author information
ORCID Icon,
Sevastita Iordache1 Gastroenterology Department, University of Medicine and Pharmacy Craiova, Clinical Emergency Hospital Craiova, Craiova, RomaniaCorrespondence[email protected]
View further author information
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Dan Nicolae Florescu1 Gastroenterology Department, University of Medicine and Pharmacy Craiova, Clinical Emergency Hospital Craiova, Craiova, RomaniaView further author information
,
Vlad Florin Iovanescu1 Gastroenterology Department, University of Medicine and Pharmacy Craiova, Clinical Emergency Hospital Craiova, Craiova, RomaniaView further author information
&
Manuela Iuliana Dragomir3 Public Health Management Department, University of Medicine and Pharmacy Craiova, Craiova, RomaniaView further author information
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Pages 4793-4804 | Received 18 Aug 2023, Accepted 10 Oct 2023, Published online: 20 Oct 2023

Abstract

Introduction

The neutrophil–lymphocyte ratio (NLR) has been suggested as a reliable marker for predicting inflammation progression and severity of acute pancreatitis, although the role of the NLR stratified by etiology is still insufficiently studied. However, the NLR’s role in mortality prediction was poorly evaluated in the literature.

Patients and Methods

We performed a retrospective, cross-sectional study to analyze the role of NLR0 (at admission) and NLR48 (at 48 hours) in acute pancreatitis as compared with CRP, BISAP, SOFA, and modified CTSI (mCTSI) for the prediction of mortality and severe acute pancreatitis (SAP) in patients admitted into the Emergency Clinical County Hospital of Craiova during 48 months. The primary assessed outcomes were the rate of in-hospital mortality, the rate of persistent organ failure, and ICU admissions. We analyzed mortality prediction for all acute pancreatitis, for biliary, alcoholic, and hypertriglyceridemic acute pancreatitis, for severe forms, and for patients admitted to the ICU.

Results

A total of 725 patients were selected; 42.4% had biliary acute pancreatitis, 27.7% had alcoholic acute pancreatitis, and 8.7% had hypertriglyceridemia-induced acute pancreatitis. A total of 13.6% had POF during admission. The AUC for NLR48 in predicting mortality risk and SAP was 0.81 and 0.785, superior to NLR0, CRP48, and mCTSI but inferior to BISAP and SOFA scores. The NLR48/NLR0 ratio did not add significantly to the accuracy. NLR0 and NLR48 performed poorly for mortality prediction in severe forms and in patients admitted to the ICU. NLR48 has good accuracy in our study for predicting death risk in biliary and alcoholic acute pancreatitis but not in hypertriglyceridemic acute pancreatitis.

Conclusion

NLR48 was a good indicator in predicting mortality risk and severe forms in all patients with acute pancreatitis, but not of death in SAP and in patients admitted to ICU, with good accuracy for predicting death risk in biliary and alcoholic acute pancreatitis but not in hypertriglyceridemic acute pancreatitis.

Introduction

Acute pancreatitis represents a disease with an estimated mortality rate of 1–5%;Citation1–3 10–25% may develop severe complications which require ICU admission,Citation2–4 and mortality rates of up to 30–40% have been noted in hospitalized patients with pancreatic necrosis and organ failure.Citation1,Citation3,Citation4 Biliary gallstones, alcohol consumption, and hypertriglyceridemia (HTG) above 1000 mg/dL represent the three main risk factors for acute pancreatitis; a systematic review and meta-analysis of 127 studies showed that the risk for non-mild acute pancreatitis and for complications is higher in HTG acute pancreatitis (HTGAP) compared with alcoholic acute pancreatitis (AAP) and biliary acute pancreatitis (BAP); a higher mortality rate was noted in HTGAP versus AAP (OR=1.72) and BAP (OR=1.50).Citation4

Several scoring systems are available today, such as the Ranson score, Glasgow score, APACHE II, BISAP, CTSI (Computed Tomography Severity Index), and modified CTSI (mCTSI)Citation2,Citation3 but many complex scores require several parameters not usually sampled at admission in all cases of acute pancreatitis (mostly in ICU admissions). The BISAP score requires only five parameters (BUN>25 mg/dL, impaired mental status, the presence of systemic inflammatory response syndrome or SIRS, age above 60 years, and pleural collection) and has high specificity but limited sensitivity;Citation2,Citation3 a meta-analysis comparing the BISAP score with the Ranson score and APACHE II showed a higher sensitivity but a lower specificity.Citation3

Several biological markers have been proposed for the prediction of the severity and mortality of acute pancreatitis. C-reactive protein (CRP) represents one of the first predicting markers for disease severity, with proposed cut-offs of 150 or 190 mg/dL at 48 h or an interval change of 90 mg/dL at 48 h.Citation5 These results suggest that CRP can be used to select mild cases of acute pancreatitis which can be discharged early and managed in an ambulatory setting. Other proposed markersCitation6 were the white blood cell count, neutrophil number, erythrocyte sedimentation rate, and Hb level.

The neutrophil–lymphocyte ratio (NLR) has been suggested as a reliable marker for predicting inflammation progression and severity of pancreatitis in several studies.Citation7–17 Acute pancreatic inflammation activates inflammatory cytokines and proteolytic enzymes;Citation2 a high neutrophil number indicates an acute inflammatory response and a low lymphocyte number a deterioration in the general health condition combined with physiological stress.Citation10 The NLR can have physiological variations in healthy persons (0.78 to 3.53) and the baseline NLR can therefore influence increased values in acute pancreatitis.Citation18 Most studies were focused on NLR0 (at admission) and some studies evaluated also NLR48 (48 hours after admission); the time interval between the onset of the symptoms and hospitalization can be variable, and the ratio between NLR48 and NLR0 may reflect the trend of increasing or decreasing inflammation and therefore may theoretically overcome the limitations induced by the timing of NLR determination and also of NLR physiological variations. Moreover, the ratio between NLR48 and NLR0 may eliminate the individual variation in the NLR and therefore may be more accurate than NLR0 or NLR48 for prognosis prediction.

Materials and Methods

We performed a retrospective, cross-sectional study in order to analyze the role of the NLR (at admission, NLR0 at 48 hours, NLR48; and the ratio between, NLR48/NLR0) as compared with BISAP and SOFA scores, and also with mCTSI and CRP levels for the prediction of mortality in patients admitted with acute pancreatitis into the Emergency Clinical County Hospital of Craiova during a period of 48 months (January 2018–December 2021). We collected the clinical data of the patients (age, sex, predisposing factors, clinical history, complications), and laboratory data at admission (including serum triglyceride level, serum amylase and lipase, creatinine, bilirubin, ASAT, and ALAT values) and at 48 h (including hemogram and CRP level at 48 hours). The SOFA, BISAP, and mCTSI scores were estimated, as also the APACHE II score for patients admitted to ICU.

The primary assessed outcomes were the rate of in-hospital mortality, the rate of persistent organ failure, and intensive care unit admissions. The study was conducted in accordance with the Declaration of Helsinki. Informed consent was obtained from all admitted patients and an approval by Local Ethics Committee of the Emergency Clinical County Hospital of Craiova was also obtained (Protocol No 18592/13 April 2023). Patients aged below 18 years, those with other chronic severe diseases (malignancy, chronic severe organ dysfunction, acute or chronic leukemia, acute extrapancreatic infections) which can interfere with the NLR values, and those with insufficient data were excluded from the study.

The diagnosis of acute pancreatitis was based on Atlanta classification and definitions criteria,Citation19 with two of the following three criteria: the symptoms of abdominal pain consistent with acute pancreatitis (acute onset of a persistent, severe, epigastric pain which often radiates to the back), serum lipase/amylase greater than 3 times upper normal limit, and characteristic findings of CT/IRM for acute pancreatitis. The diagnosis of HTG-AP was made by a level above 1000 mg/dL (11.3 mmol/L) or in the case of values between 500 and 1000 mg/dL (5.65–11.3 mmol/L) if other possible etiologies were excluded.Citation17 SAP was diagnosed by the presence of persistent organ dysfunction (respiratory, circulatory, and renal) with a Marshall score of a minimum of 2 points.Citation19 Local collections included acute peripancreatic fluid collections, pancreatic pseudocysts, and necrosis. Patients with acute biliary pancreatitis were admitted to the Surgery Department; those with other etiology were admitted to the Gastroenterology Department and transferred to the Surgery Department when surgical procedures were required.

Statistical analysis was performed using Microsoft Excel (Microsoft Corp., Redmond, WA, USA), together with the XLSTAT 2016 add-on for MS Excel (Addinsoft SARL, Paris, France) and IBM SPSS Statistics 20.0 (IBM Corporation, Armonk, NY, USA) for processing the data. Three categories of patients were analyzed: all acute pancreatitis, acute pancreatitis with POF, and those admitted to the ICU. We constructed the ROC curves for NLR0, NLR48, NLR48 to NLR0 ratio, BISAP and SOFA score, CRP48, mCTSI, and APACHE II score in patients admitted to the ICU; only if the difference from 50% for AUC proved highly significant (p<0.001), we should consider as relevant the cut-off values identified in order to maximize the sensitivity, specificity, and accuracy for that threshold. The results of the study were presented according to the STROBE statement.Citation20

Results

General Characteristics of the Study Group

A total of 725 patients were selected during the analyzed period; 58.9% were male, mean age was 56.8 years. In total, 42.4% had biliary acute pancreatitis, 27.7% had alcoholic acute pancreatitis, and 8.7% had hypertriglyceridemia-induced acute pancreatitis. A total of 8.1% were admitted to the ICU during hospitalization, and 13.6% had POF during admission. Fifty-seven deaths were recorded (7.9% of all cases mortality).

To test the normality of the data for all patients with acute pancreatitis we used the Anderson–Darling test. None of the numerical variables investigated had a normal distribution of data, globally (p<0.0001, except for hematocrit where we found p-value=0.0028); because the data did not follow a normal distribution, results were summarized as the median value and interquartile interval and nonparametric statistical tests should be used. The general characteristics of the selected group are presented in .

Table 1 Basic Characteristics of Patients with Acute Pancreatitis

All Patients with Acute Pancreatitis

For mortality prediction, the AUC for all patients with acute pancreatitis was 0.596 for NLR0, 0.809 for NLR48, 0.676 for the ratio between NLR48 and NLR0, 0.529 for CRP48, 0.610 for mCTSI, 0.827 for the BISAP score, and 0.809 for the SOFA score. NLR48 was superior to NLR0 for death prediction; the ratio between NLR48 and NLR0 was superior to NLR0 but inferior to NLR48. The accuracy of BISAP and SOFA scores was similar to NLR48 and superior to NLR0. Both the CRP48 level and mCTSI had an accuracy inferior to BISAP, SOFA, and NLR48 (). The sensitivity and specificity were 79.5% and 74.3% for NLR48 (at 7.466 cutoff), 75.7% and 72.7% for BISAP (at 1.000 cutoff), and 63% and 83.9% for SOFA (at 2.000 cutoff). It is remarkable that a simpler score such as the NLR has a sensitivity and specificity similar to some complex scores such as BISAP and SOFA (which require the use of multiple parameters).

Figure 1 AUC for mortality prediction, all patients with acute pancreatitis.

Figure 1 AUC for mortality prediction, all patients with acute pancreatitis.

For the prediction of POF, the AUC for all patients with acute pancreatitis was 0.619 for NLR0, 0.785 for NLR48, 0.635 for the ratio between NLR48 and NLR0, 0.513 for CRP48, 0.565 for mCTSI score, 0.817 for BISAP score, and 0.848 for SOFA score (). The accuracy of BISAP and SOFA scores was superior to both NLR48 and NLR0; the ratio between NLR48 and NLR0 was superior to NLR0 but inferior to NLR48 ().

Table 2 AUC and 95% Confidence Interval (CI) for the Prediction of Death and POF in All Patients with Acute Pancreatitis

Figure 2 AUC for the prediction of persistent organ failure, all patients with acute pancreatitis.

Figure 2 AUC for the prediction of persistent organ failure, all patients with acute pancreatitis.

Patients with Acute Pancreatitis and Persistent Organ Failure/Admitted to the ICU

In patients with POF, the AUC for mortality prediction was 0.453 for NLR0, 0.623 for NLR48, 0.577 for the ratio between NLR48 and NLR0, 0.478 for CRP48, 0.512 for mCTSI, 0.470 for the BISAP score, and 0.561 for the SOFA score (). All scores had only low or moderate accuracy for mortality in patients with POF ().

Table 3 AUC and 95% Confidence Interval (CI) for the Prediction of Death in Patients with Acute Pancreatitis and POF and in Those Admitted to the ICU

Figure 3 AUC for mortality prediction in patients with persistent organ failure.

Figure 3 AUC for mortality prediction in patients with persistent organ failure.

Fifty-nine patients were admitted to the ICU Department (8.1%). For mortality prediction in patients admitted to the ICU, the AUC was 0.535 for NLR0, 0.650 for NLR48, 0.524 for the ratio between NLR48 and NLR0, 0.459 for CRP48, 0.546 for mCTSI, 0.650 for the BISAP score, 0.692 for the SOFA score and 0.757 for APACHE II score (). APACHE II score has had the highest accuracy for predicting mortality in ICU-admitted patients ().

Figure 4 AUC for mortality prediction in patients admitted to the ICU.

Figure 4 AUC for mortality prediction in patients admitted to the ICU.

We analyzed the accuracy of NLR0, NLR48, NLR48/NLR0, BISAP, mCTSI, and SOFA score for the prediction of mortality stratified by etiology (alcoholic pancreatitis=201 cases, biliary pancreatitis=308 cases, hypertriglyceridemic pancreatitis=63 cases). NLR48 had good accuracy in both alcoholic and biliary pancreatitis (AUC 0.798 and 0.871, respectively) but not in hypertriglyceridemic pancreatitis. NLR48/NLR0 had a moderate accuracy only in biliary pancreatitis (AUC 0.81), inferior to NLR48. BISAP and SOFA scores had both a good accuracy in alcoholic pancreatitis; BISAP performed better in biliary pancreatitis (AUC 0.80 versus 0.68 for SOFA) while the SOFA score performed better in hypertriglyceridemic pancreatitis (AUC 0.87 versus 0.78 for BISAP) and was the only score with statistical significance. The mCTSI score had moderate accuracy in all forms (AUC 0.73 in alcoholic pancreatitis, 0.64 in biliary pancreatitis, and 0.84 in hypertriglyceridemic pancreatitis), although with borderline statistical significance P-values between 0.05 and 0.07 (.

Table 4 AUC and 95% Confidence Interval (CI) for the Prediction of Death in Patients with Acute Pancreatitis by Etiology

Discussion

Early prediction of complications and mortality in acute pancreatitis represents an important factor for therapeutic decisions including ICU admissions and aggressive early treatment in potentially severe cases. Several predictive scores have been proposed, the most used being Ranson, Glasgow–Imrie, SOFA, and BISAP scores; Balthazar and later mCTSI scores have been proposed for CT evaluation of pancreatitis severity, and APACHE II score is generally used in ICU-admitted patients. Ranson and Glasgow–Imrie scores are the first proposed predictive scores but require many parameters and also further evaluation of several parameters at 48 h after admission.

A simplified score or a single, high predictive parameter may represent an attractive approach to predict the severity, the risk of persistent organ failure, the risk of ICU admission, and the risk of mortality. CRP represents one of the most used biological parameters for evaluating the prognosis in acute pancreatitis; a study has shown that CRP at 48 h has an AUC of 0.70 (inferior to mCTSI) and, at a cut-off value of 150 mg/dL, a positive predictive value (PPV) of only 30% was reached, with a negative predictive value (NPV) of 87.39% at 150 mg/dL and 88.81% at 190 mg/dL.Citation5

The NLR reflects an altered inflammatory ratio between activator (neutrophils) which promotes inflammation by activating pro-inflammatory cytokines (IL-1, 6, TNF-α) and proteolytic enzymes (myeloperoxidase, elastase, collagenase) and regulators (lymphocytes) which are related to the regulation of the immune system pathway. Persistent lymphopenia correlates with progressive inflammation in emergency admission and ICU patients, while higher neutrophil counts and pro-inflammatory-activated mediators are related to SIRS and progression toward multiple organ dysfunctions.Citation17 In acute pancreatitis, a high ratio between neutrophils and lymphocytes may be associated with higher local and systemic inflammation and a lower specific immune response, and higher values of the NLR at admission (NLR0) and at 48 h (NLR48) were more frequent in severe cases.Citation10,Citation14 In published studies, NLR values at admission (NLR0), in days 1 and 2, and at 48 h (NLR48) were higher in severe acute pancreatitis (SAP) than in those with mild disease,Citation10,Citation14 and a meta-analysis of 10 papers showed a combined sensitivity of 79% and specificity of 71%, with an AUC of 0.82.Citation2 Some studies compared the NLR with the BISAP scoreCitation11–13 or with mCTSI,Citation11 with similar accuracy.

In our study, the accuracy for mortality prediction in all patients with acute pancreatitis was highest for the BISAP score (AUC 0.827), followed by NLR48 and the SOFA score (both with AUC 0.809), while for NLR48/NLR0 (AUC 0.676), mCTSI (AUC 0.610), NLR0 (AUC 0.596), and CRP48 (AUC 0.529) the accuracy was low. At calculated best cutoff points, the sensitivity was best for NLR48 (79.5%), while the specificity was best for the SOFA score (83.9%). For POF prediction in all acute pancreatitis, the highest accuracy was noted for the SOFA score (0.848), followed by the BISAP score (AUC 0.817) and NL48 (AUC 0.785), while for NLR48/NLR0 (AUC 0.635), NLR0 (0.619), mCTSI (AUC 0.565), and CRP48 (0.513) the accuracy was low. The accuracy of the NLR in predicting mortality in acute pancreatitis, in severe forms, or in patients admitted to the ICU department was less studied, and most published papers were focused on predicting severe cases with persistent organ failure. The AUC for NLR0 for POF prediction for all-causes acute pancreatitis in the literature was estimated between 0.681 and 0.915,Citation8,Citation10–14 and a combined AUC of 0.82 was noted in a meta-analysis.Citation10 NLR48 was evaluated in a few studies and a meta-analysis for accuracy in predicting severe acute pancreatitis and AUCs between 0.739 and 0.93 were found.Citation8,Citation10,Citation13 For BISAP, the AUC was 0.82 for mortality and 0.87 for SAP, for the Ranson score the AUC was 0.92 for mortality and 0.83 for SAP, while for APACHE II the AUC was 0.83 for mortality and 0.82 for SAP; the pooled sensitivity and specificity for mortality was 81% and 70% for BISAP, 93% and 69% for the Ranson score, and 95% and 68% for APACHE II.Citation3

Regarding the predictive role stratified by etiology, in our study NLR48 had a good predictive value for mortality in alcoholic and biliary pancreatitis (AUC 0.798 and 0.871, respectively) but not in hypertriglyceridemic pancreatitis (AUC 0.544). For mortality prediction, there was no added value of NLR48/NLR0 ratio stratified by etiology of acute pancreatitis. Several studies have analyzed the predictive value of the NLR for severity in correlation with the etiology of acute pancreatitis;Citation9,Citation15–17 the most frequent causes of acute pancreatitis are biliary stones, alcoholic pancreatitis, and HTA-AP.Citation1 HTG-AP has gradually increased during the last decadesCitation17 and represents the third cause of AP with 2–5% of total cases in the USA;Citation17 several studies in China found an even higher rate than for alcohol-induced pancreatitis.Citation21,Citation22 The mechanism of HTG-APCitation17,Citation21 is related to the hydrolyzation of excessive TG by pancreatic lipase into free fatty acids; when the binding capacity of serum albumin is surpassed, the activation of protein kinase can induce an inflammatory response, pancreatic capillary damage, and also increased blood viscosity, pancreatic ischemia, and local acidosis. HTG-AP can be more severe than other forms,Citation17,Citation21,Citation22 with more systemic complications, and SIRS, but with no differences regarding mortality, hospitalization, and fewer infected necrosis.Citation22–24 Studies published in the literature have shown that in acute biliary pancreatitis the NLR had an AUC of 0.663 for predicting severe forms, while in acute hypertriglyceridemic pancreatitis, an AUC of 0.673 was noted in one study and an OR of 1.314 (95% CI 1.161–1.488, P<0.001) was also noted in multivariate analysis in another study.Citation17 The NLR has been shown to predict the severity of gallstone acute pancreatitis but not of alcoholic acute pancreatitis,Citation9 and another study showed the predictive value for severity only in HTG-AP but not in gallstone or alcohol-induced acute pancreatitis;Citation15 the OR for high NLR in severe acute pancreatitis was 1.34 (p<0.001).Citation17 The AUC for predicting the severity of HTG-AP was 0.706 in one study,Citation15 and 0.673 in another study.Citation16

The NLR may have significant individual variations and therefore the accuracy regarding the prognosis may be altered because of that. Although, in theory, the evolution of the NLR may be a more specific indicator for the prognosis and an increase in the NLR over time may suggest an increased systemic inflammation and therefore a higher risk of complications, severe pancreatitis, and death, in our study the ratio between NLR48 and NLR0 had higher accuracy than NLR0, but the accuracy was lower than NLR48, BISAP, and SOFA scores for the prediction of death risk.

All studied scores had only mild accuracy for death prediction in the subgroup including persistent organ failure patients (AUC between 0.45 and 0.63). In patients admitted into the ICU, moderate accuracy was obtained only for APACHE II (AUC 0.757), while for the SOFA score, BISAP score, NLR48, NLR48/NLR0 mCTSI, NLR0, and CRP48 the predictive value was less accurate (AUC 0.692 for SOFA, 0.650 for BISAP and NLR48, 0.546 for mCTSI, 0.535 for NLR0, and 0.459 for CRP48).

The NLR48 score has been superior to CRP48h in all predicted outcomes and therefore may substitute the determination of CRP at 48 hours as a predictive parameter for mortality and persistent organ failure.

There were some limitations of the study related to the patients not included because of the missing data, especially in case of the patients who died shortly before admission and in patients not included into the study because no NLR48 and CRP48 was obtained; the relatively small group of patients with HTG-AP (63 cases) can also influence the performance of analyzed scores.

Conclusions

In all patients with acute pancreatitis, the AUC for NLR48 in predicting mortality risk and severe forms was superior to NLR0, CRP48, and mCTSI and similar to BISAP and SOFA scores; the ratio between NLR48 and NLR0 did not add significantly to the accuracy. Both NLR0 and NLR48 performed poorly for mortality prediction in severe forms and in patients admitted to ICU. NLR48 has good accuracy in our study for predicting death risk in biliary and alcoholic acute pancreatitis but not in hypertriglyceridemic acute pancreatitis.

Author Contributions

All authors made a significant contribution to the work reported, whether that is in the conception, study design, execution, acquisition of data, analysis and interpretation, or in all these areas; took part in drafting, revising or critically reviewing the article; gave final approval of the version to be published; have agreed on the journal to which the article has been submitted; and agree to be accountable for all aspects of the work.

Disclosure

The authors report no conflicts of interest in this work.

Acknowledgments

Naina Popescu and Robert Godeanu (resident physicians) contributed to the data collection.

Additional information

Funding

The Article Processing Charges were funded by the University of Medicine and Pharmacy of Craiova, Romania.

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