ABSTRACT
Objective:
This study aimed to determine the relationship between the tumor load and carcinoembryonic antigen (CEA) positivity by comparing CEA positivity and volume-based positron emission tomography/computed tomography (PET/CT) preoperative parameters in patients with colorectal cancer.
Methods:
This retrospective study included a total of 87 patients with colorectal cancer who underwent PET/CT between January 2018 and December 2019 and had simultaneous CEA measurements. CEA level ≥5 ng/mL was accepted as positive. Patients who underwent surgery or received chemotherapy/radiotherapy were excluded from the study. The maximum standardized uptake value (SUVmax), metabolic tumor volume (MTV), and total lesion glycolysis (TLG) values were calculated using 18fluoro-fluorodeoxyglucose PET/CT images of the patients.
Results:
CEA was positive in 43 (49.4%) patients. The site of the primary lesion was the rectum in 40 (46%) patients, sigmoid colon in 19 (21.8%), ascending colon in 14 (16.1%), descending colon in 9 (10.3%), transverse colon in 3 (3.4%), hepatic flexure in 1 (1.1%), and descending-sigmoid colon junction in 1 (1.1%). No significant association was noted between the intestinal segment of the primary lesion and CEA positivity (p=0.878). Moreover, no significant difference was found among SUVmax, MTV, and TLG values of the primary tumor and CEA positivity (p=0.611, p=0.980, and p=0.527, respectively).
Conclusion:
Preoperatively, no significant relationship was found between CEA positivity and volume-based PET/CT parameters, specifically MTV and TLG, in patients with colon cancer. CEA positivity in the preoperative period has low diagnostic effectiveness independent of the tumor load.
INTRODUCTION
Colorectal cancer is the third leading cancer type and one of the most common causes of cancer-related deaths (1). Colorectal cancers are diagnosed by colonoscopic and histopathological examination, and tumor markers are important for screening and detecting recurrences. Carcinoembryonic antigen (CEA) is one of the main tumor markers used in diagnosing colorectal cancers (2,3). CEA has a glycoprotein structure, and preoperative and postoperative measurements of its serum level have been considered clinically useful (4).
18fluoro-fluorodeoxyglucose (18F-FDG) positron emission tomography/computed tomography (PET/CT) is a frequently used imaging method for metabolic characterization, staging, treatment response evaluation, radiotherapy planning, and restaging of colorectal cancers (5). The maximum standardized uptake value (SUVmax) measured with 18F-FDG PET/CT is a preoperative prognostic factor for patients with colorectal cancer (6). Recently, some volume-based metabolic parameters such as the metabolic active tumor volume (MTV) and total lesion glycolysis (TLG) have also been studied as prognostic factors (7,8).
To our knowledge, only a limited number of studies have investigated the relationship between serum CEA levels and volume-based PET/CT parameters in patients with colorectal cancer, and most of these studies focused on recurrence assessment (9,10). Thus, in the present study, we aimed to determine the relationship between the tumor load and CEA positivity by comparing preoperative period CEA positivity and volume-based PET/CT parameters in patients with colorectal cancer.
METHODS
This retrospective study included 87 patients with colorectal cancer who underwent PET/CT and had simultaneous CEA measurements between January 2018 and December 2019 at the department of nuclear medicine in Gazi Yasargil Training and Research Hospital. Overall, 23 patients were female and 64 were male, and their mean age was 56.7±15.44 years. Patients with an interval of more than 1 week between CEA measurement and 18F-FDG PET/CT and patients with distant organ and lymph node metastases found in PET/CT were excluded from the study. Patients with M0 and N0 status were included in the study. Participant selection was performed during the preoperative period. Furthermore, patients who received chemotherapy/radiotherapy were excluded. All patients who met the inclusion criteria were consecutively included in the study. SUVmax, MTV, and TLG values were calculated by using the 18F-FDG PET/CT images of these patients. Collected data and CEA results were compared statistically.
This study was conducted in accordance with the local good clinical practice guidelines and current legislations. Permission was obtained from the Institutional Ethics Committee of the University Health Science Turkey of Gazi Yasargil Training and Research Hospital for the use and publication of patient data (protocol no: 435/2020).
18F-FDG PET/CT Imaging Protocol
All patients were instructed not to eat at least 6 h before the intervention, and intravenous administration of glucose was stopped. Before the injection of 18F-FDG, blood glucose values were confirmed to be ≤140 mg/dL by finger stick measurement method. Moreover, 60 min after the injection of 3.5-5.5 MBq/kg 18F-FDG, CT was performed from the supine position using the Discovery IQ 4 ring 20 cm axial field of view (FOV) PET/CT scanner (GE Healthcare, Milwaukee, WI, USA) in the supine position, from the vertex to the middle of the thigh. The scanning parameters were as follows: Tube voltage, 120 kV; tube current, 80 mAs/slice; FOV, 700 mm, transaxial without gap; collimation, 64×0.625 mm; pitch, 1.4; rotation time, 0.5 s; slice thickness, 3.3 mm; matrix size, 512×512. Then, 2.5 min bedside PET images were obtained at three-dimensional FOV of 20 cm, ordered subset expectation-maximization algorithm of 5 iterations/12 subsets, and full width at half maximum of 3 mm.
Analysis of Images
All 18F-FDG PET/CT images were evaluated using PET volume computerized assisted reporting software (GE Advantage Workstation software version AW 4.7, USA) by two nuclear medicine specialists with at least 10 years of experience. The volumetric region of interest was drawn manually from the primary lesion in the colon or rectum in three planes, and the lesion and automatic MTV, TLG (MTV × SUVmean), and SUVmax values were obtained by the device for each lesion using 40% SUV threshold (Figure 1).
Statistical Analysis
Statistical analysis was performed using IBM SPSS Statistics for Windows version 25.0 (IBM Corp., Armonk, NY). The normality of continuous variables was evaluated by the Shapiro-Wilk-Francia test, and variance homogeneity was evaluated by Levene test. For the comparison of two independent groups in terms of quantitative data, independent-samples t-test was used together with Bootstrap results, while the Mann-Whitney U test was used with Monte Carlo simulation technique. Fisher’s exact test results were used to compare categorical data, while the Fisher-Freeman-Halton test was used with Monte Carlo simulation results. The correlation analysis of the variables was performed by Spearman’s rho test. Quantitative variables are expressed as mean ± standard deviation and median (minimum-maximum), and categorical variables are shown as n (%). Variables were examined at a 95% confidence level, and p<0.05 was considered significant.
RESULTS
CEA was positive in 43 (49.4%) patients (Table 1). No significant difference was noted in CEA positivity with respect to age and gender (p=0.150, p=0.811, respectively). The site of the primary lesion was distributed as follows: Rectum, 40 (46%) cases; sigmoid colon, 19 (21.8%) cases; ascending colon, 14 (16.1%) cases; descending colon, 9 (10.3%) cases; transverse colon, 3 (3.4%) cases; hepatic flexure, 1(1.1%) case; and descending-sigmoid colon junction, 1 (1.1%) case (Table 1).
No significant association was noted between the intestinal segment involving the primary lesion and CEA positivity (p=0.878). No significant difference was also noted among SUVmax, MTV, and TLG values of the primary tumor and CEA positivity (p=0.611, p=0.980, p=0.527, respectively) (Table 1).
No significant correlation was found in Spearman’s correlation test between CEA levels and PET parameters (p>0.05) (Table 2).
DISCUSSION
Few studies have compared serum levels of CEA and volume-based PET/CT parameters in patients with colorectal cancer, and most of these have focused on evaluation of recurrence (9,10). Thus, in the present study, we aimed to determine the relationship between tumor load and CEA positivity by comparing CEA positivity and volume-based PET/CT parameters of patients with colorectal cancer in the preoperative period.
In the present study, CEA positivity was not associated with age and gender. Moreover, the sensitivity of serum CEA level in the diagnosis of colorectal cancer was 49.4%. In a previous study, Dbouk et al. (11) reported that CEA had diagnostic sensitivity of 58.3%, which was relatively higher than our findings. This difference was considered due to the difference in the cutoff values for CEA positivity used in our study (5 ng/mL) and in their study (3.8 ng/mL) and the fact that a higher sensitivity is expected with the use of lower cutoff values (11).
In the present study, 46% of the tumoral lesions were detected in the rectum, 33.2% in the descending-sigmoid colon junction, 3.4% in the transverse colon, 1.1% in the hepatic flexure, and 16.1% in the ascending colon. Similarly, Siregar and Sibarani (12) evaluated tumor localization in colorectal cancer and reported that lesions were predominantly located in the rectum and left-sided colon.
Moreover, we observed no significant correlation between CEA positivity and the intestinal segment of the primary lesion. Siregar and Sibarani (12) reported that the highest CEA level was found in the rectum among the segments of the large intestine. Although their results appear different from our findings, the data compared are not exactly the same.
18F-FDG PET/CT is now considered a powerful tool for the evaluation and follow-up of patients with cancer. In a retrospective study, Shi et al. (6) examined 107 patients and found that the SUVmax value and TNM classification obtained in PET/CT were independent predictors of survival, while SUVmax values ≤11.85 were associated with better survival. However, another study showed that a high SUVmax value in patients with resectable colorectal cancer was not significantly related with tumor recurrence and disease-free survival (13). The tumor markers CEA and CA 19-9 were also considered to show low diagnostic performance, while high CA 19-9 levels along with PET/CT use were considered to indicate poor prognosis (14). Vallam et al. (15) reported that PET/CT is a significant tool in the detection of recurrent disease during follow-up, independent of serum CEA levels, and the probability of disease recurrence is directly proportional to the value of the increased CEA level. Another study reported the recurrence rates of 10%, 45%, 70%, 94%, and 100% for serum CEA levels of <5, 5.1-10, 10.1-15, 15.01-50, and >50 ng/mL, respectively (16). In addition, PET/CT scan performed in all of these patients revealed sensitivity, specificity, positive predictive, and negative predictive values of 92.7%, 95.2%, 96.2%, and 90.9%, respectively (15).
The consensus report by the College of American Pathologists in 1999 accepted that the tumor volume did not have a prognostic significance (category 4), but serum CEA levels gained prognostic significance (category 1) (16).
Limited studies have shown the correlation between volume-based PET/CT parameters and tumor markers. In a study of 489 patients, Kim et al. (17) did not find a correlation between pretreatment serum CEA levels and tumor volume on magnetic resonance. Similarly, in our study, no significant correlation was found between the preoperative serum CEA level and MTV, TLG, and SUVmax values of the primary tumor. However, similar to previous reports, our findings indicate the likelihood of serum CEA levels to increase in the preoperative period (12,18). Although some studies have reported that CEA positivity is not related to the tumor, tumor diameter, and TNM classification, many studies have stated that the preoperative serum CEA levels are related to the prognosis (18-22). In a retrospective study of patients with stage 2 colorectal carcinoma, Spindler et al. (19) revealed that serum CEA levels were considered to change the risk classification by contributing to the distinctive features of patients and help the management of additional treatments. In addition, Margalit et al. (20) evaluated patients with stage I and II colon cancer and stated that serum CEA level ≥2.35 ng/mL can be used to predict the prognosis (13). In another study, preoperative CEA levels ≥5 ng/mL were reported to be independent prognostic factor for overall survival, disease-free survival, and recurrence detection and to be associated with a high risk of mortality (21,22).
Although the combined use of serum CEA levels and imaging methods increases the diagnostic sensitivity of colorectal carcinomas, many recent studies have found that postoperative serum CEA levels are clinically more valuable than its preoperative levels (23-25). Caglar et al. (10) analyzed patients with recurrent colorectal cancer and reported that all quantitative PET/CT parameters (i.e., SUVmax, TLG, and MTV) demonstrate a positive correlation with serum CEA levels (10).
Study Limitations
This study is limited by its retrospective design, small number of patients, and lack of data on comparison between benign and malign lesions in terms of CEA positivity.
CONCLUSION
In conclusion, our findings revealed no significant correlation between CEA positivity and volume-based PET/CT parameters (MTV and TLG) in the preoperative period of colon cancer. Although CEA positivity is considered useful in predicting recurrence in the postoperative period and is associated with tumor burden, it has low diagnostic efficacy in the preoperative period independent of tumor burden.
Ethics
Ethics Committee Approval: Permission was obtained from the Institutional Ethics Committee of the University Health Science Turkey of Gazi Yasargil Training and Research Hospital for the use and publication of patient data (protocol no: 435/2020).
Informed Consent: Before PET/CT, we routinely obtain informed consent from the patient or a relative of patient and ask whether they consent to their data being used anonymously in retrospective medical studies, and our patients in this study are patients who approve this.
Peer-review: Externally and internally peer-reviewed.
Authorship Contributions
Concept: Y.G., C.C., Design: Y.G., C.G., C.C., Data Collection or Processing: Y.G., C.G., Analysis or Interpretation: Y.G., C.G., C.C., Literature Search: C.G., C.C., Writing: Y.G., C.C.
Conflict of Interest: No conflict of interest was declared by the authors.
Financial Disclosure: The authors declared that this study received no financial support.