Usefulness of plasma D-dimer level for monitoring development of distant organ metastasis in colorectal cancer patients after curative resection.

PURPOSE: To investigate the usefulness of plasma D-dimer level for monitoring the development of distant organ metastasis in colorectal cancer (CRC) patients after curative resection. PATIENTS AND METHODS: One hundred and seventy-eight CRC patients after curative resection were enrolled in the study. Ninety-two patients developed distant organ metastasis during follow-up (metachronous metastasis), and blood was collected on the day metastasis was confirmed. Eighty-six patients had no evidence of metastasis yet, and their blood samples were evaluated at last return visit. The levels of D-dimer, carcinoembryonic antigen (CEA), and lactate dehydrogenase (LDH) between two patient groups were compared. The agreement between D-dimer and CEA (or LDH) was examined. The receiver operator characteristic (ROC) curve was used to evaluate the performance of D-dimer, CEA, LDH, and their combination in detection of distant organ metastasis.
RESULTS: The level of D-dimer in CRC patients with metachronous metastasis was higher than that in non-metastasis patients (P<0.0001). Agreement between D-dimer and CEA was fair (κ=0.416, P<0.0001). D-dimer had a larger area under ROC (AUC) (0.85) compared to CEA (0.72) or LDH (0.68). The specificity of D-dimer (73.3%) was lower than that of CEA (74.4%), but the sensitivity (88.0%) of D-dimer assay was superior to that of CEA assay (65.2%). LDH showed the lowest sensitivity (42.4%) and highest specificity (95.3%) among the three bio-markers. The sensitivity and negative predictive value (NPV) of a combination assay (either D-dimer elevation or CEA elevation) were 94.6% and 91.1%, respectively, and the specificity and positive predictive value of another combination assay (both D-dimer elevation and LDH elevation) were 97.7% and 94.9%, respectively. Parallel test of the three markers improved the sensitivity and NPV to 95.7% and 92.7%, respectively.
CONCLUSION: Combining with CEA and/or LDH, D-dimer could be a useful surveillance marker for distant organ metastasis in CRC patients after curative resection.

Introduction

Colorectal cancer (CRC) is the third most common cancer worldwide, and its mortality rate continues to increase yearly in less developed regions.1 According to a report concerning CRC mortality in China,2 the adjusted death rate increased gradually after 2009, with a mortality of 6.15 per 100,000 people in 2009 which further increased to 7.77 per 100,000 in 2011. Distant organ metastasis from CRC is mainly responsible for the high rate of death.3 Approximately 40%–50% of CRC patients will eventually develop distant organ metastasis after resection of the primary tumor (metachronous metastasis).3,4 Therefore, it is necessary for these CRC patients to monitor distant organ metastasis during postoperative visit.

Currently, pathological evidence of malignant cells in distant organs is regarded as the gold standard in CRC metachronous metastasis diagnosis. Imaging techniques, like CT and ultrasound, are commonly used methods for diagnosing distant organ metastasis.5 By comparison, blood tests are relatively non-invasive, and patients do not suffer from ionizing radiation and high cost.6 Therefore, using serum/plasma biomarkers for detection is more suitable for long-term follow-up. Carcinoembryonic antigen (CEA) is the routine clinical biomarker for predicting metachronous metastasis in CRC, and elevated lactate dehydrogenase (LDH) is also reported as a risk factor for development of distant organ metastasis in patients with CRC.7–9 According to different cutoff values, the sensitivity of CEA or LDH used as postoperative surveillance ranged from 51.7% to 70.4%.9–11 Thus, more valuable biomarkers are needed to monitor the development of distant organ metastasis in CRC patients after curative resection.

It is widely accepted that certain CRC patients present coagulation and fibrinolysis abnormalities.12 D-dimer can reflect activation of coagulation and fibrinolysis system, as it is a degradation product of cross-linked fibrin. Recently, plasma D-dimer level could be determined routinely in clinical laboratories on the basis of several detection kits. Thus, more and more studies find that higher D-dimer levels before operations are correlated with a more advanced CRC tumor stage10,13–18 and a poorer prognosis.14,16,19–23 This is more distinct in the cases of distant organ metastasis, which may result from the increased angiogenesis in the primary tumor as well as the formation of tumor emboli in the circulation.18 Therefore, we speculate that D-dimer levels might be elevated in CRC patients who develop distant organ metastasis. However, the usefulness of D-dimer for monitoring the development of distant organ metastasis in CRC patients after curative resection has not been reported yet.

In the present study, we measured the plasma D-dimer levels of CRC patients with or without metachronous metastasis after operation. The aim was to evaluate the usefulness of D-dimer combined with CEA and/or LDH as a surveillance marker in detection of distant organ metastasis in CRC after curative resection.

Patients and methods

Ethics statement

Oral and written informed consent was provided by all enrolled patients. This study methodology was approved by the Institution Ethics Review Board for Human Studies at the National Cancer Center/Cancer Hospital, Chinese Academy of Medical Sciences, and Peking Union Medical College. We also have complied with the World Medical Association Declaration of Helsinki regarding ethical conduct of research involving human subjects.

Patients

The medical information of patients diagnosed with CRC in the Cancer Hospital Chinese Academy of Medical Sciences was reviewed from January 2015 to August 2017. The following inclusion criteria were applied: 1) patients who had undergone primary tumor resection with systematic lymph node dissection for a curative intent, 2) who were histologically confirmed by endoscopic or surgical specimen, and 3) who had complete follow-up data. Cases with following conditions were excluded: 1) patients with concomitant malignant diseases, 2) with infections or other inflammatory diseases, 3) with coagulation dysfunction, 4) being treated with anticoagulants or thrombolytic medications, and 5) with distant organ metastasis initially (synchronous metastasis). Distant organ metastasis was defined as metastatic lesion(s) in organs beyond the colorectum. The identification of metastatic lesion(s) was based on the results of imaging examination, image-guided biopsy, or exploratory laparotomy. Finally, the enrolled cohort comprised 178 patients.

Blood collection and biochemical assays

Blood samples from peripheral vein were collected at each return visit after surgical operation, and the values of D-dimer, CEA, and LDH were measured. For patients with distant organ metastasis, blood samples collected on the day when metastasis was confirmed were used; for patients without distant organ metastasis, blood samples collected at last follow-up were used.

After an overnight fast, 3 mL of peripheral blood was drawn into collection tubes with sodium citrate for the measurement of D-dimer, and 5 mL of blood was collected into serum-separating tubes for CEA and LDH detection. D-dimer values were determined with a Microparticle Enzyme Immunoassay Analyzer (SYSMEX CS-5100) using the commercially available D-dimer assay kit. CEA was detected with an electrochemiluminescence-based immunoassay analyzer (Roche Cobas e441). Automatic biochemistry analyzer (Roche Cobas 8000) was used to measure LDH level by spectrophotometry. The reference ranges of D-dimer, CEA, and LDH in the study were (0–0.55 mg/L FEU), (0–5 ng/mL), and (115–220 U/L), respectively.

Statistical analysis

Statistical analysis was carried out using SPSS software (version 13.0; SPSS Inc., Chicago, IL, USA). Student’s t-test was used to compare age and tumor sizes of the two patient groups, and the results were presented as mean ± SD. Wilcoxon rank-sum test was used compare the values of D-dimer, CEA, and LDH between the two patient groups, and results were reported as median and interquartile ranges. Association among clinicopathological variables was determined by chi-squared tests. Kappa identity test was used to examine the agreement between D-dimer and CEA levels, or between D-dimer and LDH levels. The receiver operator characteristic (ROC) curve was used to evaluate the performance of D-dimer, CEA, and combination of D-dimer and CEA in detection of distant organ metastasis. All tests were two-sided, and a P-value <0.05 was considered statistically significant.

Results

Patients’ characteristics

Of the 178 patients enrolled, 92 patients with CRC developed distant organ metastasis during follow-up, and 86 patients had no evidence of distant organ metastasis yet at last return visit. No significant difference was found in age, sex, primary tumor site, tumor size, tumor differentiation, and clinical stage between vtwo patient groups, indicating that the two cohorts were comparable. In the metastasis group, 65 patients had hepatic metastasis, 23 had lung metastasis, and four had metastatic lesions in both the liver and lung. Moreover, in eleven metastatic patients, other distant organs were involved, including brain, bone, and spleen. A detailed compilation of these data are presented in Table 1.

Table 1

Demographics and clinical characteristics of the study population

Characteristics	Metastasis (n=92)	Non-metastasis (n=86)	P-value
Age (years)	59.74±10.63	58.14±11.81	0.343
Sex			0.343
Male	58	60
Female	34	26
Primary site			0.208
Colon	45	34
Rectum	47	52
Tumor size (cm)	3.83±2.22	3.72±1.88	0.733
Differentiation			0.173
Well	14	9
Middle	70	62
Poor/mucinous	8	15
Stage			0.376
0	1	1
I	5	6
II	26	34
III	60	45
Metastatic organ
Liver	65	–
Lung	23	–
Other sites	11	–
Number of involved organs
1	86	–
≥2	6	–
D-dimer (mg/L FEU)	0.89 (0.57, 1.27)	0.28 (0.18, 0.46)	<0.0001
CEA (ng/mL)	15.73 (3.10, 50.28)	2.92 (1.94, 6.69)	<0.0001
LDH (U/L)	192 (152, 230)	161 (146, 184)	<0.0001

Note: Values of D-dimer, CEA, and LDH are shown as medians and IQRs.

Abbreviations: CEA, carcinoembryonic antigen; LDH, lactate dehydrogenase.

In the metastasis group, 51 patients were ≥60 years, 28 had a history of smoking, and 35 received chemotherapy after operation. In contrast, the non-metastasis group comprised 41 patients ≥60 years, 23 patients with a history of smoking, and 31 patients received chemotherapy. The detailed results are summarized in Table 2.

Table 2

Comparison of D-dimer levels in CRC patients who developed distant organ metastasis after surgical resection with those in patients without distant organ metastasis based on age, smoking history, and chemotherapy

	Metastasis		Non-metastasis		P-value
	n	D-dimer value (mg/L FEU)	n	D-dimer value (mg/L FEU)
Age (years)
<60	41	0.72 (0.44, 1.10)	45	0.24 (0.17, 0.35)	<0.0001
≥60	51	0.71 (0.41, 1.34)	41	0.31 (0.19, 0.55)	<0.0001
Smoking history
Non-smoker	64	0.72 (0.42, 1.10)	63	0.28 (0.18, 0.48)	<0.0001
Smoker	28	0.79 (0.41, 1.68)	23	0.24 (0.20, 0.44)	0.0002
Chemotherapy
No	57	0.68 (0.39, 1.10)	55	0.26 (0.16, 0.48)	<0.0001
Yes	35	0.78 (0.42, 1.23)	31	0.28 (0.20, 0.36)	<0.0001

Notes: Values of D-dimer are showed as medians and IQRs.

Abbreviation: CRC, colorectal cancer.

Comparison of D-dimer values between patients who developed distant organ metastasis and those without metachronous metastasis

Figure 1A shows the distribution of plasma D-dimer levels in CRC patients who developed distant organ metastasis (“metastasis” in the figures) and those without metachronous metastasis (“non-metastasis” in the figures). The results revealed statistically significant differences between the two groups. As shown in Table 1, the median D-dimer values of patients in the metastasis group and those in the non-metastasis group were 0.89 mg/L FEU and 0.28 mg/L FEU, respectively (P<0.0001). With respect to distant organ involvement, plasma D-dimer level was still higher in CRC patients who developed liver metastasis, or other organ metastasis, than in those not demonstrating metastasis (Figure 1B and C). Based on the reference range (0–0.55 mg/L FEU), 76% patients (70/92) showed an elevated plasma D-dimer value in the metastasis group, and only 19% patients (16/86) presented elevated D-dimer values in the non-metastasis group.

Figure 1

Dimer levels in colorectal cancer (CRC) patients after curative resection based on the development of distant organ metastasis

Notes: (A) Comparison of D-dimer levels in CRC patients who developed distant organ metastasis with those in patients without distant organ metastasis. (B) Comparison of D-dimer levels in CRC patients who developed liver metastasis with those in patients without distant organ metastasis. (C) Comparison of D-dimer levels in CRC patients who showed other organ involvements (lung, adrenal gland, brain, bone, spleen, and ovary) with those in patients without distant organ metastasis.

The blood samples obtained from patients during follow-up were checked to determine whether there were still differences in D-dimer levels in every visit of the patients after curative resection. Among 178 CRC patients enrolled, 22 developed distant organ metastasis in their first visit after surgery. In the next four follow-ups, 24, 27, 12, and 7 patients developed distant organ metastasis, respectively. Totally, 92 patients developed distant organ metastasis during five follow-ups. The median interval for occurrence of distant organ metastasis was 8 months (interquartile range 4–11 months). Results showed that the median D-dimer values were elevated in patients who developed distant organ metastasis in each visit (Figure 2). Other details are given in Table 3.

Figure 2

Comparison of D-dimer levels in CRC patients who developed distant organ metastasis with those in patients without distant organ metastasis at different follow-up times.

Notes: (A) The first follow-up, (B) the second follow-up, (C) the third follow-up, (D) the fourth follow-up, and (E) the fifth follow-up.

Abbreviation: CRC, colorectal cancer.

Table 3

Comparison of D-dimer levels in CRC patients who developed distant organ metastasis after surgical resection with those in patients without distant organ metastasis during follow-up

Follow-up	Metastasis		Non-metastasis		P-value
	n	D-dimer value (mg/L FEU)	n	D-dimer value (mg/L FEU)
First	22	0.58 (0.35, 1.10)	156	0.42 (0.26, 0.58)	0.0209
Second	24	0.67 (0.45, 1.02)	117	0.48 (0.29, 0.61)	0.0006
Third	27	0.94 (0.62, 2.15)	75	0.42 (0.24, 0.54)	<0.0001
Fourth	12	0.73 (0.37, 2.62)	45	0.35 (0.24, 0.53)	0.0193
Fifth	7	0.61 (0.52, 0.91)	19	0.36 (0.22, 0.52)	0.0207

Notes: Values of D-dimer are showed as medians and IQRs.

Abbreviation: CRC, colorectal cancer.

It has been reported that D-dimer concentration increases with age.14,24 Additionally, exposure to cigarette smoke and chemotherapy can also cause elevated D-dimer values.25,26 To mitigate these variables, patients were divided into two groups based on age, smoking history, and chemotherapy. The differences in D-dimer values between the two groups were then analyzed. We found that the median D-dimer values were still higher in patients who developed distant organ metastasis than in those without metachronous metastasis regardless of age over or under 60 years. Similar results were also observed in the smoker vs non-smoker group and chemotherapy vs non- chemotherapy group. More details are presented in Figure 3 and Table 2.

Figure 3

Comparison of D-dimer levels in CRC patients who developed distant organ metastasis after curative resection with those in patients without distant organ metastasis based on age, smoking history, and chemotherapy.

Notes: (A) CRC patients <60 years. (B) CRC patients ≥60 years. (C) CRC patients without smoking history. (D) CRC patients with smoking history. (E) CRC patients without chemotherapy. (F) CRC patients with chemotherapy.

Abbreviation: CRC, colorectal cancer.

Agreement between D-dimer and CEA (or LDH)

Clinical data showed that CRC patients who developed distant organ metastasis had significantly higher CEA values than those without metachronous metastasis (15.73 ng/mL vs 2.92 ng/mL, P<0.0001) (Table 1). Moreover, the serum LDH value was significantly higher in patients with metastasis than in those without metastasis (192 U/L vs 161 U/L, P<0.0001) (Table 1). According to the reference range mentioned earlier, CEA values were elevated in 72% patients (66/92) who had developed distant organ metastasis, and LDH values were elevated in 29% of them (27/92). In the non-metastasis group, 42% (36/86) and 5% (4/86) of patients presented elevated CEA and LDH values, respectively.

Previous studies also reported that elevated CEA and LDH values indicate increased risk for distant organ metastasis in CRC,8,9,27,28 so we further investigated the agreement between D-dimer and CEA or LDH values. Table 4 shows that agreement between D-dimer and CEA values was fair (κ=0.416, P<0.0001). In contrast, the identity of D-dimer with LDH was inferior (κ=0.293, P<0.0001) (Table 4). Detailed values of D-dimer, CEA, and LDH in CRC patients enrolled in this study are listed in Table S1.

Table 4

Agreement between assays in CRC patients

D-dimer	CEA (ng/mL)		k	LDH (U/L)		k
	Elevated	Normal		Elevated	Normal
Elevated	63	23	0.416	28	59	0.293
Normal	29	63	P<0.0001	3	88	P<0.0001

Notes: Elevated: above the upper limit of reference range; Normal: within the reference range. Reference range: D-dimer: 0–0.55 mg/L FEU; CEA: 0–5 ng/mL; LDH: 115–220 U/L.

Abbreviations: CRC, colorectal cancer; CEA, carcinoembryonic antigen; LDH, lactate dehydrogenase.

Plasma D-dimer value as an indicator for distant organ metastasis in CRC patients after curative resection

As D-dimer values were markedly increased in CRC patients who developed distant organ metastasis, we inferred that plasma D-dimer level could indicate metastases in distant organs.

An ROC curve was used to evaluate the performance of D-dimer, CEA, and LDH on indicating distant organ metastasis in CRC patients after curative resection. The area under the curve (AUC) for D-dimer performance was 0.85, while the AUC for CEA and LDH was 0.72 and 0.68, respectively (Figure 4). A reasonable cutoff value of 0.415 mg/L FEU for D-dimer was determined using the Youden’s index. Similarly, the cutoff value for CEA assay was set at 6.095 ng/mL, and the cutoff value for LDH was 208 U/L. Sensitivity, specificity, positive predictive value (PPV), negative predictive value (NPV), and diagnostic accuracy of D-dimer, CEA, LDH, and their combination for indicating distant organ metastasis are summarized in Table 5.

Figure 4

ROC used for detecting distant organ metastasis in CRC patients after curative resection.

Abbreviations: CRC, colorectal cancer; ROC, receiver operator characteristic; AUC, area under ROC curve; CEA, carcinoembryonic antigen; LDH, lactate dehydrogenase.

Table 5

Sensitivity, specificity, PPV, NPV, and diagnostic accuracy of D-dimer, CEA, LDH, and combinations of D-dimer with CEA and LDH for detecting distant organ metastasis in CRC patients after curative resection

	Sensitivity	Specificity	PPV	NPV	Accuracy
D-dimer alone	88.0	73.3	77.9	85.1	80.9
CEA alone	65.2	74.4	73.2	66.7	69.7
LDH alone	42.4	95.3	90.7	60.7	68.0
D-dimer or CEA	94.6	59.3	71.3	91.1	77.5
D-dimer and CEA	56.5	87.2	82.5	65.2	71.3
D-dimer or LDH	90.2	70.9	76.9	87.1	80.9
D-dimer andLDH	40.2	97.7	94.9	60.4	68.0
Serial test	29.3	96.5	90.0	56.1	61.8
Parallel test	95.7	59.3	71.5	92.7	78.1

Notes: The cutoff value of D-dimer is 0.415 mg/mL FEU, the cutoff value of CEA is 6.095 ng/mL, and the cutoff value of LDH is 208 U/L. Values show the percentages. Serial tests: distant organ metastasis was determined only when the values of D-dimer, CEA, and LDH were all higher than cutoff values. Parallel tests: distant organ metastasis was determined as long as one of D-dimer value, CEA value, and LDH value was higher than cutoff value(s).

Abbreviations: CEA, carcinoembryonic antigen; CRC, colorectal cancer; LDH, lactate dehydrogenase; NPV, negative predictive value; PPV, positive predictive value.

Discussion

Hypercoagulability and hyperfibrinolysis have been demonstrated in CRC.29 Mutant oncogenes, such as K-ras, promote colorectal carcinoma cells to express tissue factor (TF).30,31 Once tumor cells detach from primary location and invade into blood vessels, TF on the cytomembrane could initiate the blood coagulation cascades and participate in fibrin formation. Enhanced activity of urokinase-type plasminogen activator (u-PA) has also been demonstrated in colon cancer cells.32 u-PA could activate plasminogen and participate in fibrinolysis. Consequently, large quantities of D-dimer are produced due to fibrin degradation. According to the above-mentioned studies, D-dimer levels should be elevated when patients develop distant organ metstasis, as more tumor cells have invaded into the circulation. Therefore, we checked the D-dimer levels in the CRC patients who have developed distant organ metstasis after curative resection, and investigated its usefulness for monitoring the development of distant organ metastasis in this study.

Our results revealed that CRC patients who developed distant organ metastasis during follow-up had higher plasma D-dimer levels than those without metachronous metastasis. These results were not affected by patient age, smoking history, or chemotherapy. Moreover, D-dimer level was significantly consistent with CEA level in patients with CRC. Combining with CEA and/or LDH, D-dimer contributed to detect distant organ metastasis in postoperative CRC patients.

Increased D-dimer level was associated with a shorter survival time, and thus many studies have explored the application of D-dimer as a prognostic marker for CRC.16,22,23 However, the relationship between plasma D-dimer and distant organ metastasis was seldom reported. Kilic et al17 enrolled 54 CRC patients with synchronous metastasis, and found that there was a difference in D-dimer values between the metastatic positive group and the metastatic negative group before chemotherapy (373.7 IU/mL vs 603 IU/mL). Another study demonstrated that preoperative D-dimer level in patients with Dukes D CRC was significantly higher than in those with Dukes A, B, or C cancer.10 In the study mentioned above, 23 patients with Dukes D stage underwent operation (exploratory laparotomy) for diagnosis intent, and all were confirmed as having synchronous metastasis. By comparison, our study revealed the first observation that plasma D-dimer level is higher in CRC patients who developed distant organ metastasis after curative resection of the primary tumor.

Presently, the most common tumor marker applied to assess the risk of metachronous metastasis in CRC is serum CEA.33,34 LDH is another reflector of tumor burden, and linked to distant organ metastasis in CRC.9,17 Similarly, distributions of CEA and LDH were both markedly higher among CRC patients with metachronous metastasis in our study. Moreover, we found that D-dimer rise was fairly consistent with higher CEA, suggesting that elevated D-dimer level might also indicate the occurrence of distant organ metastasis in patients with resected CRC. However, the agreement of D-dimer with LDH was relatively low. The reason might be that most values of LDH still fell within the reference range in the metastasis group, although they were elevated compared to those in non-metastasis patients.

CEA is recommended as a biomarker for predicting tumor recurrence for CRC in the guidelines issued by the National Comprehensive Cancer Network in 2017.33,34 Elevated LDH levels also indicate an increased risk for metachronous metastasis in CRC.9 Therefore, we compared the performance of D-dimer level in detecting metachronous metastasis with that of CEA or LDH. The results of ROC curve showed that AUC of D-dimer assay (0.8, 95%CI: 0.74–0.87) is larger than that of CEA (0.72, 95%CI: 0.64–0.80) or LDH (0.68, 95%CI: 0.60–0.76), indicating that D-dimer had the advantage over CEA or LDH in differentiating patients who developed distant organ metastasis from CRC after undergoing primary tumor resection. The specificity of D-dimer alone (73.3%) was lower than that of CEA alone (74.4%), but the sensitivity (88.0%), PPV (77.9%), NPV (85.1%), and accuracy (80.9% vs 69.7%) in D-dimer assay were superior to those in CEA assay (65.2%, 73.2% and 80.9%, respectively). Other studies also reported that CEA assay had a moderate sensitivity and specificity for distant organ metastasis in patients with CRC,7,10,17 mainly because CEA is relatively insensitive to non-liver metastasis.27,35 By comparison, LDH showed the lowest sensitivity (42.4%) and highest specificity (95.3%) among the three biomarkers. Dong et al36 found that the sensitivity of LDH for predicting brain metastasis in triple-negative breast cancer was 44.0%, which was similar to our result. Different combinations could further improve diagnostic performance. The sensitivity and NPV of a combination assay (either D-dimer elevation or CEA elevation) increased to 94.6% and 91.1%, respectively, and the specificity and PPV of another combination assay (both D-dimer elevation and LDH elevation) were 97.7% and 94.9%, respectively. Parallel test of the three markers increased the sensitivity and NPV to 95.7% and 92.7%, respectively. The results suggested that the combination of serum/plasma biomarkers could be warning indicators for detailed imaging examination. In general, CRC patients are followed up routinely at 2-month intervals for the first 2 years and at 6-month intervals thereafter. At each visit, blood samples are collected. However, chest radiographs and abdominopelvic CT are only performed 6 months postoperatively and then at yearly intervals. Therefore, if levels of D-dimer, CEA, or LDH are elevated in a CRC patient after curative resection during a return visit, timely imaging examination for distant organ metastasis should be recommended.

There surely are some potential limitations in the study. Firstly, patients with other cancers could also show elevated D-dimer level, so this feature is not an exclusive indicator for distant organ metastasis only in patients with CRC. Secondly, relevance between D-dimer values and distant organ metastasis in CRC still requires further validation with prospective trials.

Conclusion

Our study demonstrated that D-dimer level was elevated in postoperative CRC patients who developed distant organ metastasis. Combining with CEA and/or LDH, D-dimer could be a useful surveillance marker for distant organ metastasis in CRC after curative resection.

Table S1

Values of D-dimer, CEA, and LDH in CRC patients in the study based on the reference range

Patient No	D-dimer (mg/L FEU)		CEA (ng/mL)		LDH (U/L)
	≤0.55	>0.55	≤5	>5	≤220	>220
	n=91	n=87	n=85	n=93	n=145	n=33
1		0.78		23.71	175
2		0.56		177.7		522
3		1.86		84.2		245
4		0.71		34.6	159
5		4.16		17.99	146
6	0.28			198.3		225
7	0.49		14.36		166
8		2.9	1.24		190
9		0.91		932		1149
10		0.62		871.4	132
11	0.32		3.12		132
12		3.93		2389		783
13		1.08		5.03	119
14	0.35			21.69	164
15		1.78	3.6		219
16	0.45		1.67		150
17		0.75	0.95			265
18		0.74		6.17	139
19		4.03		304.2		270
20	0.36			12.36	143
21		4.27	0.57		167
22	0.47		1.34		210
23		0.72		506.2		237
24		1		146.7		652
25		0.62		8.69		651
26	0.26			134.9	148
27		2.15		24.3	209
28	0.18		1.5		170
29		1.01		75.59	144
30	0.43			11.23	110
31		1.03	4.92		166
32		3.08		214.6		772
33		4.1		645.3	209
34	0.15		1.82		137
35		1.03	2.85			444
36	0.26			38.54	179
37		0.71		7.76		221
38		2.59		5.23		258
39		1.13		19.33	133
40		1.28		72.4		252
41		2.74		17.59		271
42		1.05		35.19	177
43		0.91		7.24		224
44		1.84		3393		683
45		0.60		68.67		230
46		0.74		6.17	139
47		0.61		28	145
48		1.03	1.93			234
49		1.06	2.99		153
50		0.93	1.25		102
51		1.64	1.67		183
52	0.42		2.39		176
53	0.52			17.6	106
54		1.04		5.42	202
55		0.63	4.19		215
56		1.02		26.18	163
57		1.8		16.25	151
58		3.66		12.71		229
59		3.51		2147		297
60		0.94	2.61		187
61		1.15		1626	204
62		0.72	3.09		191
63		0.61		10.6	194
64	0.55		2.82		211
65		1.78		468.3	175
66		3.42		15.52	179
67	0.42			11.08	193
68		0.67		48.43		235
69		0.96		39.51	214
70		0.69		53.73	212
71		1.19		24.27	137
72	0.22			50.89		221
73		0.68		35.19	159
74		3.07	1.48		132
75	0.25		3.15		190
76		0.91	1.19		137
77		0.73		8.69	147
78		6.98		17.07		242
79		0.68		8.06	201
80		1.07		5.69	148
81	0.29			44.93	180
82		0.85		90.86		234
83		0.75		62.31	212
84	0.49		3.04		216
85		1.23		15.94		222
86		0.87		20.36	190
87		1.11	3.06		194
88		1.34	1.90		164
89	0.42		1.93			237
90		0.61		30.44		455
91	0.54			22.83	197
92		0.94	1.35		151
93	0.15			21.61	176
94	0.30			15.31	181
95	0.47		3.66		185
96		0.67	2.06		130
97	0.16		1.62		167
98	0.26		3.51		160
99	0.20			42.75	146
100		0.98		236.8	132
101	0.11		1.39		160
102	0.36		2.09		151
103		1.12		13.08	184
104	0.24		0.82		133
105		0.95	0.78		191
106		1.79		43.62		232
107		0.75	1.09		182
108	0.31			5.82	130
109	0.21		0.69		154
110	0.11		2.66		142
111		0.58	4.54		151
112	0.15		1.68		189
113	0.16		2.41		171
114		0.72		10.32	172
115	0.20		1.95		146
116	0.19		1.66		163
117	0.29		0.99		169
118	0.16		1.25		153
119	0.20		2.02		129
120		0.60		12.28	204
121	0.48		1.94		162
122	0.10		2.15		177
123	0.25		2.89		136
124	0.31			19.04	158
125	0.11		1.46		142
126	0.30		2.73		159
127	0.35			11.75	191
128	0.10		1.56		136
129	0.15		3.27		145
130	0.14		0.74		150
131	0.34			11.34	170
132	0.46			41.14	145
133	0.23			124.8	128
134	0.36			6.02	148
135		3.47		80.20		285
136		1.08		5.39	183
137	0.35	3.78			202
138	0.20			5.85	146
139		0.70		6.43	173
140	0.31		0.46		190
141	0.21		1.78		142
142	0.10			53.95	192
143	0.52		2.94		197
144	0.29		2.62		140
145	0.15		2.79		203
146	0.18		4.50		133
147	0.35		3.64		167
148	0.31		0.85		150
149	0.28		4.38		149
150	0.51		3.87		150
151	0.22		1.02		181
152	0.34		1.21		188
153	0.21		2.43		145
154		0.58		7.48	154
155	0.21		3.31		152
156		1.18		52.24	207
157		1.55	3.7		190
158	0.25			5.08	140
159		0.77	0.68		164
160	0.44		2.25		180
161	0.13			5.10	156
162	0.13			5.25	193
163	0.25		4.15		187
164	0.21		2.24		150
165	0.21			9.30	171
166	0.18		2.35		202
167	0.35		1.38		150
168	0.11		2.67			236
169	0.35		2.09		152
170	0.41		3.13		175
171		1.81	1.05		141
172	0.16		2.73		142
173	0.13			34.55	192
174	0.24		3.87		176
175	0.18			17.59	138
176	0.18		2.47		173
177	0.31			16.82	82
178	0.27		4.38			239

Notes: Reference range: D-dimer: 0–0.55 mg/L FEU; CEA: 0–5 ng/mL; LDH: 115–220 U/L.

Abbreviations: CEA, carcinoembryonic antigen; CRC, colorectal cancer; LDH, lactate dehydrogenase.