The diagnostic value of D-dimer, procalcitonin and CRP in acute appendicitis.

BACKGROUND: The early diagnosis of acute abdomen is of great importance. To date, several inflammatory markers have been used for the diagnosis of acute abdominal conditions, including acute appendicitis. The aim of this study was to evaluate the diagnostic utility of D-dimer, Procalcitonin (PCT) and C-reactive protein (CRP) measurements in the acute appendicitis.
METHODS: This prospective study was conducted between March 1(st), 2010 and July 1(st), 2011. In this period, seventy-eight patients were operated with the diagnosis of acute appendicitis, and D-dimer, PCT and CRP levels of the patients were measured. The patients were grouped as phlegmonous appendicitis (Group 1), gangrenous appendicitis (Group 2), perforated appendicitis (Group 3) and negative appendectomy (Group 4) according to the surgical findings and histopathological results.
RESULTS: Of 78 patients, 54 (69.2 %) were male and 24 (30.8 %) were female, and the mean age was 25.4 ± 11.1 years (range, 18 to 69 years). 66 (84.6 %) patients had increased leukocyte count (white blood cell count). The PCT values were higher than the upper normal limit in 20 (25.6%) patients, followed by D-dimer in 22 (28.2 %) patients and CRP in 54 (69.2 %) patients. The diagnostic value of leukocyte count and CRP in acute appendicitis was higher than that of the other markers, whereas leukocyte count showed very low specificity. CRP values were higher in perforated appendicitis when compared with the phlegmonous appendicitis (p < 0.05). However, PCT and D-dimer showed lower diagnostic values (26% and 31%, respectively).
CONCLUSION: An increase in CRP levels alone is not sufficient to make the diagnosis of acute appendicitis. However, CRP levels may differentiate between phlegmonous appendicitis and perforated appendicitis. Due to their low sensitivity and diagnostic value, PCT and D-dimer are not better markers than CRP for the diagnosis of acute appendicitis.

Background

The early diagnosis of the acute abdomen is a major goal in surgical practice. Despite the introduction of novel imaging modalities, acute abdominal conditions are still a challenging problem. To date, many inflammatory markers have been used for the diagnosis of acute surgical conditions, including acute appendicitis. Leukocyte count and C-reactive protein (CRP) are the most commonly used laboratory tests. Procalcitonin (PCT) and D-dimer have been studied as novel biomarkers for the diagnosis of acute abdomen in recent years 1.

PCT, inactive precursor of calcitonin, is a 116 amino acid polypeptide glycoprotein with a molecular weight of 13 kDa 2. It is found only in the C cells of the thyroid gland under normal metabolic conditions. Assicot has first reported the increased PCT levels in patients with bacterial and fungal infections and sepsis 3. Thereafter, many studies have confirmed that PCT is a biomarker of inflammatory host response to microbial infections and increased in surgical pathologies such as ileus and pancreatitis 4,5. There is also a proportional increase in PCT levels with the severity of the infection.

D-dimer is a degradation product of fibrin dissolution. Local fibrin formation and lysis are common events during inflammatory response. In general, the elevation of D-dimer levels is not a specific response. It is most commonly used in the diagnosis of venous thromboembolism and pulmonary embolism. Recently, D-dimer has also been used as a diagnostic marker in the acute abdomen.

CRP was first identified in 1930 by Tillet and Francis. It is a non-specific acute phase reactant 6 and mainly stimulates the cell-mediated immunity and chemotaxis in inflammation. CRP levels increase in acute appendicitis in relation with the severity of infection 7,8.

The aim of this prospective study was to evaluate the diagnostic value of D-dimer, PCT and CRP measurements in the acute appendicitis.

Methods

This prospective study enrolled 78 consecutive patients who were operated with the diagnosis of acute appendicitis between March 1st, 2010 and July 1st, 2011. The informed consent of the patients was obtained. The study was conducted in accordance with the Helsinki Declaration. The patients using warfarin or heparin, with a pregnancy, and under antibiotherapy were excluded from the study. The diagnosis of acute appendicitis was established based on the clinical findings of acute abdomen, routine laboratory tests and abdominal ultrasonography or computed tomography.

Blood samples were taken immediately after admission for measuring PCT, D-dimer and CRP levels. PCT levels were measured by a PCT kit (VIDAS®BRAHMS PCT- France). A PCT level of >0.05 ng/ml was considered abnormal. D-dimer levels were measured by Stratus® CS Acute Care ™ D-dimer method. It is a two-site sandwich assay based upon solid phase Radial Partition Immunoassay (RPIA) technology. The normal range of D-dimer levels is between 0 and 600 ng/ml. CRP levels were measured by a nephelometric method. The normal range of CRP levels is between 0 and 0.8 mg/dl. PCT, D-dimer and CRP levels were compared between the patients in the study. Leukocyte count was also studied as a non-specific marker of the inflammation. The normal range of leukocyte count is between 4.6 and 10.2 K/uL.

All appendectomies were performed by conventional surgery and the specimens were sent for routine histopathological examination. The patients were grouped as phlegmonous appendicitis (Group 1), gangrenous appendicitis (Group 2), perforated appendicitis (Group 3) and negative appendectomy (Group 4) according to the surgical findings and histopathological results.

Statistical Evaluations

The data were presented as mean ± SEM (standard error of mean) or median and interquartile range. The clinical and demographic variables were compared using the student-t test for continuous variables with a normal distribution, the Wilcoxon rank sum test for nonparametric variables and the chi-square test (or Fisher's exact test) for categorical variables.

Results

Of 78 patients, 54 (69.2 %) were male and 24 (30.8 %) were female, and the mean age was 25.4 ± 11.1 years (range, 18 to 69 years). The most common symptom was abdominal pain with an occurrence in 64 (82%) patients. Right lower quadrant tenderness was the most common sign with an occurrence in 71 patients, followed by rebound tenderness in 64 patients and defense during physical examination in 19 patients. The demographic findings are shown in (Table There were 47 patients (60.3 %) with phlegmonous appendicitis (Group 1), 19 patients (24.3%) with gangrenous appendicitis (Group 2), 8 patients (10.2 %) with perforated appendicitis (Group 3) and 4 patients (5.2 %) with normal appendix (Group 4) 66 (84.6 %) patients had increased leukocyte count. The PCT values were higher than the upper normal limit in 20 (25.6%) patients, followed by D-dimer in 22 (28.2 %) patients and CRP in 54 (69.2 %) patients. The mean values for leukocyte, PCT, D-dimer and CRP are shown in (Table

CRP levels were increased in all patients with perforated appendicitis. The mean age and duration of pain were statistically higher in perforated appendicitis (Group 3) when compared with the phlegmonous, uncomplicated appendicitis (Group 1) (p<0.05). PCT and CRP levels were also higher in perforated group (p<0.05) (Table . CRP levels were found to be significantly different between the phlegmonous group and the perforated group (p<0.05). The ROC curve for PCT (with a cut off value of 0.05 ng/ml) was not helpful for differentiating between phlegmonous and negative appendicitis (p>0.05). In addition, D-dimer (with a cut off value of 600 ng/ml) was also not helpful for differentiating between phlegmonous and negative appendicitis (p>0.05). However, CRP (with cut off value of 0.8mg/ml) was found to be helpful for differentiating between phlegmonous and negative appendicitis (p<0.05). Sensitivity, specificity, positive and negative predictive values and diagnostic value of inflammatory markers are shown in Table 4 and Figures 1 and 2. Accordingly, leukocyte count and CRP showed the highest diagnostic value.

Table 4

PPV, NPV and DV of inflammatory markers in acute appendicitis.

Laboratory results	PPV	NPV	DV
WBC (>10.2 K/ul)	0.95	0.08	0.82
D-Dimer (>600 ng/ml)	0.95	0.05	0.31
PCT (>0.05 ng/ml)	0.90	0.03	0.26
CRP (>0.8 mg/dl)	0.98	0.13	0.72

*PPV: Positive predictive value, NPV: Negative predictive value, DV: Diagnostic value

Figure 1

Sensitivity values of inflammatory markers.

Figure 2

Specificity values of inflammatory markers.

However, leukocyte count showed a very low specificity, and the diagnostic value of PCT and D-dimer were found to be very low (26% and 31%, respectively) for detecting acute appendicitis. ROC curves of the diagnostic value of PCT, D-dimer and CRP in differentiating between phlegmonous and perforated appendicitis were shown in Figures 3, 4 and 5.

Figure 3

Comparison of phlegmenous and perforated appendectomy group ROC curve for PCT (cut off value<=0.06).

Figure 4

Comparison of phlegmenous and perforated group ROC curve for CRP (cut off value <=1.35).

Figure 5

Comparison of phlegmenous and perforated group ROC curve for D-dimer (cut of value<=393).

Discussion

Despite the introduction of novel diagnostic tools in recent years, the diagnosis of appendicitis is still an important problem. Acute appendicitis may be associated with the perforation and serious complications. Misdiagnosis of acute appendicitis can result in unnecessary laparotomies. A 9 to 20% negative appendectomy rate has been reported in literature 9,10,11.

Leukocyte count and CRP are the most frequently used laboratory tests for diagnosis of acute appendicitis. They are easily implemented in routine practice and have an advantage of cost effectiveness, but their sensitivity and specificity are limited 12. Although it was not the major objective of this study, the sensitivity and specificity of leukocyte count were found to be 85% and 25%, respectively. The low specificity value of leukocyte count seems to be an important problem. Many inflammatory markers, including phospholipase A2, serum amyloid A, interleukins and cytokines have been used to increase diagnostic accuracy in acute appendicitis 13,14,15. PCT and D-dimer are new inflammatory markers, which are increased in septic conditions and also used in diagnosing acute appendicitis. It was postulated that PCT might be a better marker for bacterial sepsis 16. Sand M et al studied the diagnostic value of PCT in acute appendicitis 17. They were concluded that PCT was specially increased in patients with appendiceal perforation and gangrenous appendicitis. But it has a very low sensitivity, which prohibits its routine use for the diagnosis of acute appendicitis. Kouame DB has also reported similar results and stated that PCT had a sensitivity of 28% in acute appendicitis 18. In our study, the sensitivity and specificity, and the diagnostic value of PCT were 24 %, 50 %, and 26 %, respectively. These results showed that PCT was not a useful marker for the diagnosis of the acute appendicitis.

On the other hand, this study also demonstrated that PCT was significantly increased in patients with perforated appendicitis. PCT level was statistically higher in Group 3 (perforated appendicitis) when compared to Group 1 (phlegmonous appendicitis) (p<0.05).

PCT levels have been found to be lower in acute appendicitis compared to the other bacterial infections. In addition, it was claimed that uncomplicated appendicitis does not cause significant bacterial translocation 19, which may explain the low levels of PCT in uncomplicated, phlegmonous appendicitis.

D-dimer is the degradation product of fibrin dissolution. D-dimer levels may be increased in many conditions, including venous thromboembolism, acute coronary syndromes, trauma, and malignancies 20-24. In recent years, D-dimer has been investigated in terms of acute abdominal conditions. Kurt Y et al 25 studied the diagnostic value of D-dimer for acute mesenteric ischemia in rats. They stated that D-dimer may be a valuable diagnostic tool in acute mesenteric ischemia. On the other hand, the results of other clinical studies on different acute abdominal conditions including acute appendicitis are controversial. Akyildiz HK et al 26 studied the D-dimer in non-traumatic acute abdominal conditions. In their study, the sensitivity of D-dimer test in patients needing urgent laparotomy was found as 95.7%. The sensitivity of leukocyte count was 74.8 % in the same patients. They concluded that D-dimer can be an alternative to leukocyte count in diagnosing the acute abdomen. In addition, the sensitivity of D-dimer was estimated to be 29 % in our study. Mentes O et al 27 have reported the similar results for the diagnostic value of D-dimer. We found that specificity of D-dimer test in acute appendicitis was relatively higher (about 75%). But similarly with PCT, the diagnostic value of D-dimer was very low (31%) in the acute appendicitis. We think that the low sensitivity and diagnostic value of D-dimer is an important hindrance for its routine use as a diagnostic marker in acute appendicitis. CRP is often used to guide the clinical evaluation of the acute appendicitis. It is an acute phase reactant that synthesized in liver in response to the tissue injury. The measurement of CRP is practical, easily applicable and cost effective. The previous studies have demonstrated a sensitivity of 40 to 94% and a specificity of 38 to 87 % for CRP measurement 28-30. In this study, the sensitivity of CRP measurement was found to be 72 % and the specificity was 75 %. Hallan S reported in a meta-analysis that CRP had moderate accuracy in diagnosing acute appendicitis 31. When compared to other two inflammatory markers (PCT and D-dimer), CRP was found to have higher sensitivity and diagnostic accuracy for the acute appendicitis. Some authors have claimed that CRP could predict the severity of appendicitis and perforation 32-33. We have also obtain similar results showing that CRP levels were significantly higher in perforated appendicitis cases than non-perforated cases (p<0.05).

Conclusion

Although this study has some limitations, such as having a small sample size for negative appendicitis, we can conclude that CRP seems to be a useful marker in the evaluation of acute appendicitis. In addition, CRP levels are increased proportionally with severity of appendiceal inflammation. But an increase in CRP levels alone is not sufficient to make the decision of the surgical intervention in the acute appendicitis. Despite the increase in the other inflammatory markers, PCT and D-dimer, in the acute appendicitis, the diagnostic value of CRP is higher than these two markers for the acute appendicitis. Future studies with larger sample size would be beneficial to evaluate the role of PCT, D-dimer and CRP in the acute appendicitis.

Table 1

General characteristics of patients operated with the diagnosis of acute appendicitis.

	PhlegmonousAppendicitis (n=47)	GangrenousAppendicitis (n=19)	PerforatedAppendicitis (n=8)	NegativeAppendectomy (n=4)
Age (year)	24±1	25±2	37±6	22±7
Sex
Female	17	3	1	3
Male	30	16	7	1
Physical examination
Tenderness in RLQ	42	17	8	4
Rebound tenderness	37	16	8	3
Defense	8	7	4	-
Duration of abdominal pain (day)
> 1 day	3	5	5	2
≤ 1 day	44	14	3	2

Table 2

Laboratory values of WBC, D-Dimer, PCT and CRP.

	Phlegmonous Appendicitis (n=47)	Gangrenous Appendicitis(n=19)	Perforated Appendicitis (n=8)	Negative Appendectomy(n=4)
WBC (4.6-10.2 K/uL)	13.5±0.5	14.3±0.6	17.4±1.3	11.8±1.1
Normal	10	1	0	1
High	37	18	8	3
D-dimer (0-600 ng/ml)	424±69	722±258	1345±605	495±319
Normal	36	13	4	3
High	11	6	4	1
PCT (<0.05 ng/ml)	0.29±1.8	0.49±1.4	3.55±8.81	0.04±0.02
Normal	41	11	4	2
High	6	8	4	2
CRP (<0.8 mg/dl)	6.84±10.5	57.14±105.7	33.45±64.5	3.54±6.37
Normal	18	3	0	3
High	29	16	8	1

Table 3

Comparison of phlegmonous and perforated appendicitis.

	Phlegmonous Appendicitis (n=47)	Perforated Appendicitis (n=8)	P value
WBC (4.6-10.2 K/uL)	13.5±0.5	17.4 ±1.3	0.01*
Normal	10	0
High	37	8
D-dimer (0-600 ng/ml)	424±69	1345±605	0.2*
Normal	36	4
High	11	4
PCT (<0.05 ng/ml)	0.49±1.4	3.55±8.81	0.03*
Normal	41	4
High	6	4
CRP (<0.8 mg/dl)	6.84±10.5	33.45±64.5	0.04*
Normal	18	0
High	29	8