Docetaxel, cisplatin and 5-fluorouracil adjuvant chemotherapy following three-field lymph node dissection for stage II/III N1, 2 esophageal cancer

  • Authors:
    • Tadasuke Hashiguchi
    • Motomi Nasu
    • Takashi Hashimoto
    • Tetsuji Kuniyasu
    • Hirohumi Inoue
    • Noritaka Sakai
    • Kazutomo Ouchi
    • Takayuki Amano
    • Fuyumi Isayama
    • Natsumi Tomita
    • Yoshimi Iwanuma
    • Masahiko Tsurumaru
    • Yoshiaki Kajiyama
  • View Affiliations

  • Published online on: June 19, 2014     https://doi.org/10.3892/mco.2014.320
  • Pages: 719-724
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Abstract

To determine the efficacy of postoperative adjuvant chemotherapy with docetaxel + cisplatin + 5-fluorouracil (DCF) in lymph node metastasis-positive esophageal cancer, we retrospectively analyzed 139 patients with stage II/III (non‑T4) esophageal cancer with lymph node metastasis (1-6 nodes), who did not receive preoperative treatment and underwent three‑field lymph node dissection in the Juntendo University Hospital between December, 2004 and December, 2009. the tumors were histologically diagnossed as squamous cell carcinoma. The patients were divided into two groups, a surgery alone group (S group, 88 patients) and a group that received postoperative DCF therapy (DCF group, 51 patients). The disease-free and overall survival were compared between the groups and a multivariate analysis of prognostic factors was performed. The same analysis was performed for cases classified as N1 and N2, according to the TNM classification. There were no significant differences between the S and DCF groups regarding clinicopathological factors other than intramural metastasis and main tumor location. The presence of intramural metastasis, blood vessel invasion and the number of lymph nodes were identified as prognostic factors. The 5‑year disease-free and overall survival were 55.8 and 57.3%, respectively, in the S group and 52.8 and 63.0%, respectively, in the DCF group. These differences were not considered to be statistically significant (P=0.789 and 0.479 for disease‑free and overall survival, respectively). Although there were no significant differences in disease-free and overall survival between the S and DCF groups in N1 cases, both disease-free and overall survival were found to be better in the DCF group (54.2 and 61.4%, respectively) compared to the S group (29.6 and 28.8%, respectively) in N2 cases (P=0.029 and 0.020 for disease‑free and overall survival, respectively). Therefore, postoperative adjuvant chemotherapy with DCF was shown to improve disease-free and overall survival in moderate lymph node metastasis-positive cases (N2), suggesting that the DCF regimen may be effective as postoperative adjuvant chemotherapy for patients with lymph node metastasis from esophageal cancer.

Introduction

Esophageal cancer is more highly malignant compared to other gastrointestinal cancers and is associated with a high rate of lymph node metastasis and metastases distributed over a wide range (1). Three-field lymph node dissection is widely performed in Japan in an attempt to thoroughly dissect lymph nodes in highly malignant esophageal cancer and it is currently considered as the standard surgery for thoracic esophageal cancer with depth of invasion in the submucosa (SM) or greater (2). We previously reported that three-field lymph node dissection is expected to be effective in cases with ≤5 metastatic lymph nodes (3,4) and that the number of lymph node metastases is the most powerful prognostic factor for esophageal cancer, with the prognosis rapidly declining with ≥6 positive lymph nodes (3,4). The present study retrospectively analyzed the efficacy of treatment with docetaxel (TXT), cisplatin (CDDP) and 5-fluorouracil (5-FU) (DCF regimen) as postoperative adjuvant chemotherapy in patients undergoing surgery for esophageal cancer with lymph node metastasis. The patients were also grouped according to the number of metastatic nodes based on the TNM classification, in order to identify a subgroup that may benefit from DCF therapy.

Patients and methods

Patient characteristics and inclusion criteria

Of the esophageal cancer patients who underwent three-field lymph node dissection in our department between December, 2004 and December, 2009 and were found to be pathologically positive for lymph node metastasis, a total of 139 patients were included in this study, as they fulfilled all the following criteria: i) thoracic esophageal cancer diagnosed histologically as squamous cell carcinoma; ii) pathologic stage II/III patients according to the TNM classification, excluding pT4 patients; iii) 1–6 metastatic lymph nodes (N1 or N2 according to the TNM classification); iv) no preoperative treatment (chemotherapy, radiotherapy or chemoradiotherapy); v) no residual tumor on gross examination (R0); vi) Eastern Cooperative Oncology Group performance status of 0, 1 or 2; vii) no organ function abnormalities on clinical laboratory test results (white blood cell count ≥3,000/mm3; platelet count ≥100,000/mm3; hemoglobin ≥10 g/dl; serum creatinine ≤1.5 mg/dl; blood urea nitrogen ≤25 mg/dl; creatinine clearance ≥50 ml/min; aspartate aminotransferase ≤100 IU/l; alanine aminotransferase ≤100 IU/l; and total bilirubin ≤1.5 mg/dl); viii) informed consent was obtained from the participants; ix) no severe underlying heart disease; and x) postoperative time to chemotherapy >2 weeks and <2 months.

Treatment and endpoints

The primary endpoint was disease-free survival and the secondary endpoints were survival rate and severity of side effects. The postoperative adjuvant chemotherapy included two courses of DCF therapy (5-FU 500 mg/m2 on days 1–4, TXT 60 mg/m2 on day 1 and CDDP 60 mg/m2 on day 1).

Patient grouping and classification

The patients were divided into two groups, a surgery alone group, in which no postoperative adjuvant therapy was administered (S group, 88 patients) and a group that received postoperative DCF therapy (DCF group, 51 patients). The disease-free and overall survival were compared between the groups and a multivariate analysis of prognostic factors was conducted. The Japanese Classification of Esophageal Cancer (5) was used for clinicopathological factors and the TNM classification (7th edition) (6) of the UICC was used for staging. The patients were also classified as N1 cases (1–2 lymph node metastases) or N2 cases (3–6 lymph node metastases) according to the TNM classification; the same analyses were conducted in the S and DCF groups.

Statistical analysis

The survival rates were analyzed using the Kaplan-Meier method and tests of significance were performed using the log-rank method. The Cox regression analysis was used in the multivariate analysis of prognostic factors. In all analyses, P<0,05 was considered significant.

Results

Clinicopathological factors

The clinicopathological characteristics of the 139 patients are summarized in Table I. Except for intramural metastasis and main tumor location, there were no significant differences between the S (88 patients) and DCF (51 patients) groups regarding clinicopathological factors, including tobacco and alcohol use.

Table I

Clinicopathological factors.

Table I

Clinicopathological factors.

FactorsS group DCF group (n=88)(n=51)P-value
Mean age, years (range)65.4 (44–83)62.2 (52–76)0.205
Gender
 Male7244
 Female1670.644
Tobacco use
 Yes8047
 No840.720
Alcohol use
 Yes7647
 No1240.428
Main tumor location
 Upper thoracic84
 Middle thoracic4336
 Lower thoracic3711
 Abdominal esophagus000.036
Histological differentiation (SCC)
 High3726
 Moderate4823
 Poor320.561
Lymph vessel invasion
 ly0125
 ly14114
 ly235320.228
Venous invasion
 v02311
 v14622
 v219180.212
Depth of tumor invasion
 pT1b259
 pT2237
 pT340350.064
Intramural metastasis
 IM 08440
 IM 14110.001

[i] DCF, docetaxel + cisplatin + 5-fluorouracil; S, surgery alone; SCC, squamous cell carcinoma.

The presence of intramural metastasis and blood vessel invasion and the number of lymph nodes were identified as prognostic factors in all the patients (Table II).

Table II

Results of Cox regression analysis.

Table II

Results of Cox regression analysis.

CovariatesP-valueHazard ratio95% CI
Age0.2441.020
Gender0.4001.6980.495–5.824
Tobacco0.4900.5930.134–2.616
Alcohol0.6080.7210.206–2.518
Depth of tumor invasion0.132
 pT1b0.3600.3660.042–3.152
 pT20.3350.5580.170–1.826
 pT30.0632.5580.952–6.877
Lymph vessel invasion0.5481.4570.427–4.790
Blood vessel invasion0.0036.3201.843–21.67
Intramural metastasis0.0280.2240.095–0.529
No. of lymph nodes0.0001

[i] CI, confidence interval.

Adverse events

The adverse events due to chemotherapy were evaluated based on the Common Terminology Criteria for Adverse Events v4.0 (7) and are listed in Table III. Side effects of grade 3 or higher from DCF were leukopenia in 20 patients (39.2%), nausea/vomiting in 5 patients (9.8%), diarrhea in 5 patients (9.8%) and hyponatremia in 21 patients (41.2%), all of which were manageable with appropriate measures. The treatment was completed with one course in only 5 patients, and the proportion in which two courses could be completed was 47/51 (92.2%).

Table III

Side effects of DCF therapy.

Table III

Side effects of DCF therapy.

Grade

Toxicity01234
Low hemoglobin3710400
Leukopenia81013173
Thrombocytopenia483000
Nausea/vomiting3202350
Diarrhea3061050
Stomatitis471300
High creatinine492000
Arrhythmia510000
Infection492000
Fever30111000
Hyponatremia1614-192

[i] DCF, docetaxel + cisplatin + 5-fluorouracil.

Survival

The 5-year disease-free survival was 55.8% in the S group and 52.8% in the DCF group, with no statistically significant difference (P=0.789) (Fig. 1A). The 5-year overall survival was 57.3% in the S group and 63.0% in the DCF group, also without a statistically significant difference (P=0.479) (Fig. 1B).

Treatment efficacy and clinicopathological factors in N1 and N2 cases

The efficacy of DCF treatment was investigated in patients divided according to the number of metastatic lymph nodes (N1, 1–2 nodes; and N2, 3–6 nodes) based on the TNM classification of UICC. There were 70 N1 cases and 69 N2 cases and their clinicopathological characteristics are summarized in Tables IV and V, respectively. A significant difference between the S and DCF groups was only observed regarding the presence or absence of intramural metastases in both N1 and N2 cases.

Table IV

Clinicopathological factors in N1 cases (n=70).

Table IV

Clinicopathological factors in N1 cases (n=70).

FactorsS group (n=59)DCF group (n=11)P-value
Mean age, years (range)65.4 (44–82)62.2 (52–72)0.273
Gender
 Male5010
 Female910.830
Tobacco use
 Yes519
 No820.846
Alcohol use
 Yes5411
 No500.542
Main tumor location
 Upper thoracic53
 Middle thoracic286
 Lower thoracic262
 Abdominal esophagus000.105
Histological differentiation (SCC)
 High265
 Moderate335
 Poor010.062
Lymph vessel invasion
 ly0100
 ly1335
 ly21660.118
Venous invasion
 v0192
 v1325
 v2840.169
Depth of pathological tumor invasion
 pT1b212
 pT2181
 pT32080.111
Intramural metastasis
 IM 0569
 IM 1320.040

[i] DCF, docetaxel + cisplatin + 5-fluorouracil; S, surgery alone; SCC, squamous cell carcinoma.

Table V

Clinicopathological factors in N2 cases (n=69).

Table V

Clinicopathological factors in N2 cases (n=69).

FactorsS group (n=29)DCF group (n=40)P-value
Mean age, years (range)65.2 (52–83)62.4 (51–76)0.301
Gender
 Male2234
 Female760.258
Tobacco use
 Yes2538
 No420.198
Alcohol use
 Yes2636
 No340.632
Main tumor location
 Upper thoracic31
 Middle thoracic1530
 Lower thoracic119
 Abdominal esophagus000.102
Histological differentiation (SCC)
 High1121
 Moderate1518
 Poor310.256
Lymph vessel invasion
 ly024
 ly1810
 ly219260.891
Venous invasion
 v049
 v11417
 v211140.657
Depth of pathological tumor invasion
 pT1b57
 pT246
 pT320270.987
Intramural metastasis
 IM 02831
 IM 1190.026

[i] DCF, docetaxel + cisplatin + 5-fluorouracil; S, surgery alone; SCC, squamous cell carcinoma.

N1 cases

The 5-year disease-free survival was 69.2% in the S group and 49.1% in the DCF group; the difference was not considered significant (P=0.422) (Fig. 2A). The 5-year overall survival was 71.1% in the S group and 70.7% in the DCF group; the difference was also not significant (P=0.624) (Fig. 2B).

N2 cases

The 5-year disease-free survival was 29.6% in the S group and 54.2% in the DCF group, with a significantly better prognosis in the DCF group (P=0.029) (Fig. 3A). The 5-year overall survival was 28.8% in the S group and 61.4% in the DCF group, with a significantly better prognosis in the DCF group (P=0.020) (Fig. 3A).

Therefore, postoperative adjuvant therapy with DCF was shown to be beneficial in N2 cases.

Discussion

Surgical resection is the international standard treatment for resectable stage II/III thoracic esophageal cancer and certain results have been achieved with various surgical procedures and perioperative management modifications (812). In Japan, satisfactory outcomes with 5-year survival rates >50% have been reported with radical surgery using thorough three-field lymph node dissection (2). However, postoperative hematogenous or lymphogenous metastasis occurs in several patients and there are limitations to the curative effect with surgical treatment alone. A multimodal approach, including postoperative adjuvant therapy, is essential to further improve treatment outcomes for patients with esophageal cancer (13,14).

In the 5th trial of the Japan Clinical Oncology Group (JCOG9204) (15), the efficacy of postoperative adjuvant chemotherapy with CDDP 80 mg/m2 on day 1 and 5-FU 800 mg/m2 on days 1–5 (FP therapy, 2 courses) was prospectively investigated in patients with esophageal squamous cell carcinoma diagnosed as stage II/III on postoperative pathological examination. Comparing the postoperative chemotherapy group of 122 patients and the surgery alone group of 120 patients, the 5-year overall survival was 61 and 52%, respectively, with no significant difference between the groups (P=0.13). However, the disease-free survival was significantly better in the postoperative chemotherapy compared to that in the surgery alone group (55 vs. 45%, respectively; P=0.037) and a recurrence prevention effect was observed (15). This effect was particularly significant in patients with pathologically confirmed metastasis-positive lymph nodes (P=0.041); no recurrence prevention effect was observed in patients with pathologically confirmed metastasis-negative lymph nodes (15).

From those results, it was hypothesized that postoperative adjuvant chemotherapy is a meaningful approach to preventing recurrence in patients with lymph node metastasis, with FP therapy recommended for preventing postoperative metastasis (16).

FP therapy was previously reported to exert a stable effect, with response rates of 30–40% in previous phase II trials (17,18) and is currently widely used as the standard treatment (19,20). Additional phase II trials using various combination treatments centered on CDDP and 5-FU have been conducted in other countries as well (2127), although no regimen exceeding FP in efficacy has yet been established (28).

In our department, we focused on DCF therapy, which is reported to have treatment outcomes exceeding those of FP therapy in the head and neck and gastric cancer fields (29,30), and have used it since 2004. From the analysis of survival by number of metastatic lymph nodes, we also investigated which cases may still benefit from three-field lymph node dissection and have concluded that a positive effect from three-field lymph node dissection may be expected in cases with ≤5 metastatic lymph nodes (3,4). Therefore, we conducted the present study with the aim of determining i) whether DCF therapy is beneficial and ii) which patient subgroups among patients with lymph node metastasis may benefit from DCF as postoperative adjuvant chemotherapy.

No significant difference was observed in the 5-year disease-free or overall survival between the S and DCF groups when considering the entire patient sample. In addition, when patients were grouped by the number of metastatic lymph nodes, no significant difference was observed in the 5-year disease-free or overall survival between the S and DCF groups in N1 cases, which may be attributed to the good effect of surgical dissection, leaving little room for postoperative adjuvant chemotherapy to display any benefit.

However, in the N2 cases, the treatment outcomes regarding both disease-free and overall survival were significantly better in the postoperative DCF therapy group compared to the S group, with a disease-free survival of 54.2 vs. 29.6% and an overall survival of 61.4 vs. 28.8%, respectively (P=0.029 and 0.020, respectively). The efficacy of postoperative DCF therapy was thus shown in these patients. Among the underlying factors, intramural metastases, which are considered to be an indicator of malignancy, were present at a significantly higher rate in the DCF group; however, the recurrence prevention effect of DCF therapy is considered to extend beyond the results expected solely based on this malignancy factor.

Massive fluid loading and diuresis are required to protect the kidneys in patients receiving DCF or FP and hospitalization for treatment is essential. The toxicity profile is considered to be acceptable and the treatment completion rate is high, with a completion rate for FP therapy in the JCOG9204 trial of 75% (15) and a DCF completion rate in this study of 90.3%. From the abovementioned findings it may be concluded that DCF therapy is useful as postoperative adjuvant chemotherapy for moderate lymph node metastasis-positive patients, suggesting its value as postoperative adjuvant chemotherapy for patients with intramural metastasis.

The development of novel multimodal therapies is essential to further improve the prognosis of esophageal cancer patients and DCF therapy is considered to be a viable option in the postoperative adjuvant chemotherapy setting for patients with lymph node metastasis from esophageal cancer.

References

1 

Kajiyama Y and Tsurumaru M: Esophagectomy with lymph node dissection through right thoracotomy. Nihon Geka Gakkai Zasshi. 103:343–347. 2002.(In Japanese).

2 

Akiyama H, Tsurumaru M, Udagawa H and Kajiyama Y: Radical lymph node dissection for cancer of the thoracic esophagus. Ann Surg. 220:364–373. 1994. View Article : Google Scholar : PubMed/NCBI

3 

Kajiyama Y, Iwanuma Y, Tomita N, et al: Indication and limitation of 3-field lymph node dissection surgery for esophageal cancer from survival analysis. J Jpn Surg Assoc. 68:795–804. 2007. View Article : Google Scholar

4 

Kajiyama Y, Iwanuma Y, Tomita N, et al: Current surgical treatment for esophageal cancer: Indication and limitation of 3-field lymph node dissection surgery based on survival analysis. Juntendo Med J. 53:542–551. 2007.(In Japanese).

5 

Guide line for the clinical and pathologic studies on carcinoma of the esophagus. 9th edition. Japan Esophageal Society. 8:23. 1999.

6 

Sobin LH, Gospodarowicz MK and Wittekind C: TNM Classification of Malignant Tumours. 7th edition. International Union Against Cancer (UICC). Wiley-Blackwell; West Sussex: 2009

7 

Japanese translation of common terminology criteria for adverse events (CTCAE) version 4.0. JCOG; 2009

8 

Kajiyama Y and Tsurumaru M: Preservation of right and left bronchial arteries. Gastroentrological Surg. 30:151–157. 2007.

9 

Kajiyama Y and Tsurumaru M: Treatment of esophageal cancer: open vs. thoracoscopic surgery. Nihon Geka Gakkai Zasshi. 106:357–360. 2005.(In Japanese).

10 

Kajiyama Y, Iwanuma Y, Tomita N, et al: Lymph node dissection along the recurrent laryngeal nerve and preservation of bronchial artery in esophageal cancer surgery. Gastroentrological Surg. 34:1–9. 2011.

11 

Tsurumaru M, Kajiyama Y, Iwanuma Y, et al: Surgical and anatomical problems of the vagus nerve (recurrent laryngeal nerve) in patients with cancer of the thoracic esophagus: View of open surgery. In: 8th Japanese Research Society of Clinical Anatomy Meeting; 5. 2005

12 

Kajiyama Y, Iwanuma Y, Tomita N, et al: Progress and perspective of trans-thoracic esophageal cancer surgery. Gastroentrological Surg. 35:1079–1085. 2012.

13 

Kajiyama Y, Tsurumaru M, Iwanuma Y, et al: Controversies in esophageal cancer surgery. Jpn J Cancer Chemother. 30:1225–1229. 2003.(In Japanese).

14 

Matsubara H: New strategy for esophageal cancer. Chiba Igaku Zasshi. 84:69–74. 2008.(In Japanese).

15 

Ando N, Iizuka T, Ide H, et al: Surgery plus chemotherapy compared with surgery alone for localized squamous cell carcinoma of the thoracic esophagus: A Japan Clinical Oncology group study - JCOG 9204. J Clin Oncol. 21:4592–4596. 2003. View Article : Google Scholar : PubMed/NCBI

16 

Guide line on diagnosis and treatment for esophageal cancer. 2th edition. Japan Esophageal Society; 2007

17 

Ajani JA, Ryan B, Rich TA, McMurtey M, Roth JA, DeCaro L, Levin B and Mountain C: Prolonged chemothrerapy for localized squamous carcinoma of the oesophagus. Eur J Cancer. 28A. pp. 880–884. 1992, View Article : Google Scholar : PubMed/NCBI

18 

Hilgenberg AD, Carey RW, Wilkins EW Jr, Choi NC, Mathisen DJ and Grillo HC: Preoperative chemotherapy, surgical resection, and selective postoperative therapy for squamous cell carcinoma of the esophagus. Ann Thorac Surg. 45:357–363. 1988. View Article : Google Scholar : PubMed/NCBI

19 

Kelsen D: Chemothrapy of esophageal cancer. Semin Oncol. 11:159–168. 1984.PubMed/NCBI

20 

Iizuka T, Kakegawa T, Ide H, et al: Phase II evaluation of cisplatin and 5-fluorouracil in advanced squamous cell carcinoma of the esophagus:a Japanese Esophageal Oncology Group Trial. Jpn J Clin Oncol. 22:172–176. 1992.PubMed/NCBI

21 

Kok TC, Van der Gaast A, Dees J, Eykenboom WM, Van Overhagen H, Stoter G, Tilanus HW and Splinter TA: Cisplatin and etoposide in oesophageal cancer: a phase II study. Rotterdam Oesophageal Tumour Study Group. Br J Cancer. 74:980–984. 1996. View Article : Google Scholar : PubMed/NCBI

22 

Ilson DH, Saltz L, Enzinger P, Huang Y, Kornblith A, Gollub M, ‘Reilly E, Schwartz G, DeGroff J, Gonzalez G and Kelsen DP: Phase II trial of weekly irinotecan plus cisplatin in advanced esophageal cancer. J Clin Oncol. 17:3270–3275. 1999.PubMed/NCBI

23 

Ilson DH, Ajani J, Bhalla K, Forastiere A, Huang Y, Patel P, Martin L, Donegan J, Pazdur R, Reed C and Kelsen DP: Phase II trial of paclitaxel, fluorouracil, and cisplatin in patients with advanced carcinoma of the esophagus. J Clin Oncol. 16:1826–1834. 1998.PubMed/NCBI

24 

Kroep JR, Pinedo HM, Giaccone G, Van Bochove A, Peters GJ and Van Groeningen CJ: Phase II study of cisplatin preceding gemcitabine in patients with advanced oesophaeal cancer. Ann Oncol. 15:230–235. 2004. View Article : Google Scholar : PubMed/NCBI

25 

Millar J, Scullin P, Morrison A, McClory B, Wall L, Cameron D, Philips H, Price A, Dunlop D and Eatok M: Phase II study of gemcitabine and cisplatin in locally advanced/metastatic oesophageal cancer. Br J Cancer. 93:1112–1116. 2005. View Article : Google Scholar : PubMed/NCBI

26 

Mauer AM, Kraut EH, Krauss SA, Ansari RH, Kasza K, Szeto L and Vokes EE: Phase II trial of oxaliplatin, leucovorin and fluorouracil in patients with advanced carcinoma of the esophagus. Ann Oncol. 16:1320–1325. 2005. View Article : Google Scholar : PubMed/NCBI

27 

van Meerten E, Eskens FA, van Gameren EC, Doorn L and van der Gaast A: First-line treatment with oxaliplatin and capecitabine in patients with advanced or metastatic oesophageal cancer: a phase II study. Br J Cancer. 96:1348–1352. 2007.PubMed/NCBI

28 

Tsuda T and Boku N: Current realities and problems of chemotherapy for esophageal cancer. Gastroentrological Surg. 35:1117–1122. 2012.

29 

Van Cutsem E, Moiseyenko VM, Tjulandin S, et al; V325 Study Group. Phase III study of docetaxel and cisplatin plus fluorouracil compared with cisplatin and fluorouracil as first-line therapy for advanced gastric cancer: a report of the V325 Study Group. J Clin Oncol. 24:4991–4997. 2006.PubMed/NCBI

30 

Posner MR, Hershock DM, Blajman CR, et al: Cisplatin and fluorouracil alone or with docetaxel in head and neck cancer. N Engl J Med. 357:1705–1715. 2007. View Article : Google Scholar : PubMed/NCBI

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Spandidos Publications style
Hashiguchi T, Nasu M, Hashimoto T, Kuniyasu T, Inoue H, Sakai N, Ouchi K, Amano T, Isayama F, Tomita N, Tomita N, et al: Docetaxel, cisplatin and 5-fluorouracil adjuvant chemotherapy following three-field lymph node dissection for stage II/III N1, 2 esophageal cancer. Mol Clin Oncol 2: 719-724, 2014
APA
Hashiguchi, T., Nasu, M., Hashimoto, T., Kuniyasu, T., Inoue, H., Sakai, N. ... Kajiyama, Y. (2014). Docetaxel, cisplatin and 5-fluorouracil adjuvant chemotherapy following three-field lymph node dissection for stage II/III N1, 2 esophageal cancer. Molecular and Clinical Oncology, 2, 719-724. https://doi.org/10.3892/mco.2014.320
MLA
Hashiguchi, T., Nasu, M., Hashimoto, T., Kuniyasu, T., Inoue, H., Sakai, N., Ouchi, K., Amano, T., Isayama, F., Tomita, N., Iwanuma, Y., Tsurumaru, M., Kajiyama, Y."Docetaxel, cisplatin and 5-fluorouracil adjuvant chemotherapy following three-field lymph node dissection for stage II/III N1, 2 esophageal cancer". Molecular and Clinical Oncology 2.5 (2014): 719-724.
Chicago
Hashiguchi, T., Nasu, M., Hashimoto, T., Kuniyasu, T., Inoue, H., Sakai, N., Ouchi, K., Amano, T., Isayama, F., Tomita, N., Iwanuma, Y., Tsurumaru, M., Kajiyama, Y."Docetaxel, cisplatin and 5-fluorouracil adjuvant chemotherapy following three-field lymph node dissection for stage II/III N1, 2 esophageal cancer". Molecular and Clinical Oncology 2, no. 5 (2014): 719-724. https://doi.org/10.3892/mco.2014.320