Treatment and predictive factors in patients with recurrent laryngeal carcinoma: A retrospective study

  • Authors:
    • Peijing Li
    • Weihan Hu
    • Yuan Zhu
    • Jianjiang Liu
  • View Affiliations

  • Published online on: August 25, 2015     https://doi.org/10.3892/ol.2015.3640
  • Pages: 3145-3152
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Abstract

The aim of the present retrospective analysis was to evaluate the treatment results for recurrent laryngeal cancer and to analyze the factors that may affect survival. A retrospective review was performed in 309 patients with recurrent laryngeal carcinoma, 224 of whom were treated between 1996 and 2009 at Sun Yat‑Sen University Cancer Center (Guangzhou, Guangdong, China) and 85 of whom were treated between 2006 and 2013 at Zhejiang Cancer Hospital (Hangzhou, Zhejiang, China). The Kaplan‑Meier method with the log‑rank computation was used for the analysis of survival. The Cox proportional hazards model was applied to identify covariates that were significantly associated with overall survival. The actuarial 3‑, 5‑ and 10‑year survival rates were 68.9, 53.6 and 35.7%, respectively. Univariate analysis indicated that the following factors were associated with survival: Age, smoking index, tumor grade, primary tumor site, nodal status of the primary tumor, initial T stage, initial Union for International Cancer Control stage, initial treatment (radiotherapy or chemotherapy), disease‑free interval, eligibility for surgery and extent of recurrence. Multivariate analysis of these factors indicated that the initial T stage, tumor grade, nodal status, disease‑free interval and eligibility for surgery were significantly associated with survival. Overall, these results indicate that initial tumor stage T1 or T2, a high differentiation rate, no initial cervical lymph node metastasis, a long disease‑free interval and a strong indication for salvage surgery are good prognostic factors for the survival of patients with recurrent laryngeal carcinoma.

Introduction

Head and neck cancer (HNC) includes several cancers that originate in the nasal cavity, salivary glands, paranasal sinuses, pharynx, oral cavity and larynx (1). Approximately 42,440 new HNC cases were diagnosed and 8,390 HNC-related fatalities were reported in the United States in 2014. Laryngeal carcinoma accounts for 33.9% of all HNCs (2). Laryngeal carcinoma typically affects middle-aged men, and squamous cell carcinomas (SCCs) account for 90% of laryngeal carcinomas. Recurrence is common in laryngeal cancer. The recurrence rate in patients with T1 stage laryngeal cancer varies from 5 to 13%, and with T2 stage cancer, it varies from 25 to 30% (3). As for patients with T3 and T4 stage disease, the recurrence rate is 30–50% (46). According to the tumor location, laryngeal carcinoma can be classified as supraglottic carcinoma, glottic carcinoma or subglottic carcinoma. Primary tumors in the subglottic area are relatively less common, and only account for 1–2% of all laryngeal cancers (7). The majority of subglottic carcinomas are found late in the course of the disease, at which point surgery is difficult. Furthermore, the metastasis rate of anterior cervical lymph nodes and paratracheal lymph nodes is high, which contributes to a poorer prognosis and a higher post-operative recurrence rate (8). The majority of the treatment failures in cases of supraglottic laryngeal cancer are due to difficulty in the eradication of locoregional disease, particularly regional disease in the cervical lymph nodes. Recurrence most frequently occurs in the larynx, including the peristomal area, followed by the regional lymph nodes and the less commonly affected distant sites (9,10).

The treatment options for recurrent laryngeal carcinoma are as follows: i) Repeated radiotherapy with or without chemotherapy, ii) salvage surgery, iii) supportive treatment or iv) palliative chemotherapy. The preferred method for the curative treatment of recurrent laryngeal cancer after failure of non-surgical (radiotherapy or chemoradiotherapy) treatment failure is surgery. Conservation surgery is feasible in approximately one-third of these recurrent cancers. Endoscopic resection using a CO2 laser or open partial laryngectomy (partial vertical, supracricoid or supraglottic laryngectomies) can also be used. A previous study showed that, compared with total laryngectomy, conservation surgery has a better prognosis, but it is possible that these results were caused by a selection bias, as more advanced patients had to receive a total laryngectomy (11). As for patients who have undergone surgery, a second or third surgery can also be the first choice as a radical treatment (12,13). Recurrent advanced-stage cancers and those with subglottic extension should generally be treated by total laryngectomy. The use of adjuvant therapy depends on the risk factors. Radiotherapy with concurrent systemic therapy is recommended when the recurrence sites are unresectable or when the patient has not previously undergone radiotherapy, providing the patient's general condition allows it. If a patient with tumor recurrence is neither eligible for surgery nor eligible for radiotherapy, then the treatment approach is the same as that for patients with metastatic disease. The overall 5-year survival rate of patients with local recurrence who undergo salvage surgery varies greatly from 22 to 66% (1417). One previous study has even shown the 5-year survival rate in this patient population to be as low as 2% (4).

The present retrospective review was performed in 309 patients with recurrent laryngeal carcinoma from two institutions, who were managed with the aforementioned four treatments. This study was performed to evaluate the treatment outcomes of patients with recurrent laryngeal carcinoma and to identify potential prognostic factors that may affect survival, so as to determine appropriate treatment strategies for these patients.

Materials and methods

Characteristics of the patients and enrollment criteria

A total of 2,091 laryngeal carcinoma patients, consisting of 1,621 patients treated between 1996 and 2009 at Sun Yat-Sen University Cancer Center (Guangzhou, Guangdong, China) and 470 patients treated between 2006 and 2013 at Zhejiang Cancer Hospital (Hangzhou, Zhejiang, China), were analyzed. Of these laryngeal carcinoma patients, 2,007 patients had biopsy-proven SCC of the larynx. Of these 2,007, 309 patients (15.4%) were diagnosed with recurrent disease. The median follow-up time was 49.5 months (range, 7–176 months). Only patients in whom the initial cancer was completely cured using radiation therapy or surgery, with or without chemotherapy, were included. Each patient's basal demographic and clinical characteristics were recorded, including smoking index, gender, age, blood type, alcohol consumption, cancer stage, histological differentiation and treatments. Patients were restaged according to the Union for International Cancer Control (UICC) 2002 cancer staging system (18), and patients with distant metastasis were excluded.

Finally, 309 patients (299 males, 96.8%; 10 females, 3.2%) were retrospectively analyzed. The complete clinical and pathological data are shown in Table I. Of these patients, 184 presented with supraglottic carcinoma (59.5%), 110 with glottic carcinoma (35.6%) and 15 with subglottic carcinoma (4.9%). With regard to tumor stage, 97 (31.4%) patients presented with T1 tumors, 110 (35.6%) with T2 tumors, 57 (18.4%) with T3 tumors and 45 (14.6%) with T4 tumors. The tumors of 122 patients (39.5%) exhibited good differentiation, 138 (44.7%) exhibited moderate differentiation and 49 patients (15.9%) exhibited poor differentiation. The median age of diagnosis was 59 years (range, 16–83 years).

Table I.

Univariate analysis of the prognostic factors for 5-year OS.

Table I.

Univariate analysis of the prognostic factors for 5-year OS.

Prognostic factorNo. of patients%5-year OSχ2P-valuea
Age, yearsb 7.520.006
  ≥6015148.945.0
  <6015851.164.5
Alcohol consumption 1.390.238
  Yes17542.749.7
  No13457.356.2
Grade 21.56<0.001
  Poor  4915.923.6
  Moderate13844.755.1
  Well12239.562.2
Smoking years 0.0060.939
  <20  7223.357.1
  ≥2023776.752.6
Smoking indexc 7.840.005
  ≥60013856.654.1
  <60012243.471.1
Gender 3.480.062
  Male29996.853.0
  Female  103.277.8
Blood type 0.670.880
  A  8928.857.4
  B  7724.950.0
  AB  309.749.5
  O11336.651.6
Initial tumor T stage 42.55<0.001
  1 and 220767.067.0
  3 and 410233.028.0
Initial tumor UICC stage 44.66<0.001
  I and II18158.668.9
  III and IV12841.431.5
Primary site 10.470.006
  Supraglottic18459.560.3
  Glottic11035.640.2
  Subglottic  154.949.0
Initial nodal status 40.56<0.001
  Negative23174.862.8
  Positive  7825.224.0
Chemotherapy for the initial tumor 14.6240.016
  Yes  3712.023.3
  No27288.057.8
Surgery for the initial tumor 0.1080.742
  Yes26786.450.5
  No  4213.654.5
Radiotherapy for the initial tumor 15.257<0.001
  Yes14647.240.0
  No16352.866.2
Initial treatment with radiotherapyd or surgery only 17.255<0.001
  Radiotherapy  4213.650.5
  Radiotherapy plus surgery10433.737.1
  Surgery16352.866.5
Mode of recurrence 36.54<0.001
  Local only17657.061.8
  Regional (± local)10433.752.1
  Distant (± regional ± local)  299.30
Disease-free interval, monthse 22.25<0.001
  ≥1216252.474.1
  <1214747.644.0
Eligibility for surgery 47.98<0.001
  Eligible21168.373.0
  Not eligible  9831.732.3

a Log-rank test.

b Patients were divided into two groups according to the median age.

c Smoking index is defined as the number of cigarettes smoked per day × the total smoking time (years).

d Chemotherapy and the order of treatment were not considered in the grouping, and concurrent chemoradiotherapy was regarded as radiotherapy alone.

e Patients were divided into two groups according to the median duration of the disease-free interval. OS, overall survival; UICC, Union for Internation Cancer Control.

Treatment approaches for the initial tumors

With the aid of a multidisciplinary team discussion, each patient's treatment preferences and economic status were comprehensively analyzed in order to determine the preferable treatment approach. A total of 267 patients (86.4%) initially underwent surgery, 37 (12.0%) underwent chemotherapy and 146 (47.2%) underwent radiotherapy. The patients who underwent radiotherapy were divided into two groups, the radiotherapy and radiotherapy plus surgery groups (Table II). Chemotherapy and the order of treatment were not considered in the grouping, and concurrent chemoradiotherapy was regarded as radiotherapy alone. For each group, univariate analysis was used to determine whether there was a correlation between radiotherapy dose and the 5-year overall survival (OS) of patients with recurrence who underwent radiotherapy initially. The patients who underwent radiotherapy were divided again into two groups according to the median radiotherapy dose. The details of the total treatment for the primary site and the neck are as follows: i) 154 patients underwent surgery alone; ii) 95 patients underwent surgery plus 38–72 Gy of post-operative radiotherapy with or without concurrent chemotherapy; iii) 33 patients underwent radiotherapy alone with 36–74 Gy of radiation; iv) 1 patient underwent 66 Gy of radiotherapy plus surgery; and v) 26 patients were treated with combined cisplatin-based chemotherapy, including 8 who underwent surgery plus adjuvant chemotherapy, 6 who underwent neoadjuvant chemotherapy plus radiotherapy, 6 who underwent neoadjuvant chemotherapy plus surgery and 34–64 Gy of post-operative radiotherapy, 4 who underwent radiotherapy plus adjuvant chemotherapy and 2 who underwent surgery plus adjuvant chemotherapy with 68–70 Gy of post-operative radiotherapy.

Table II.

Univariate analysis of radiotherapy dosea as a prognostic factor for the 5-year OS of patients with recurrent tumors who underwent radiotherapy for the initial tumor.

Table II.

Univariate analysis of radiotherapy dosea as a prognostic factor for the 5-year OS of patients with recurrent tumors who underwent radiotherapy for the initial tumor.

FactorNo. of patients5-year OS P-valueb
Initial treatmentc 0.223
Radiotherapy alone, Gy  4250.50.772
  <60  1648.2
  ≥60  2651.8
Surgery plus radiotherapy, Gy10437.10.956
  <60  4136.7
  ≥60  6337.4

a Patients were divided into two groups according to the median radiotherapy dose.

b Log-rank test.

c Chemotherapy and the order of the treatment were not considered in the grouping, and concurrent chemoradiotherapy was regarded as radiotherapy alone.

Follow-up time and method

Outpatient check-ups were the main means of follow-up. Clinical examination, magnetic resonance imaging, intensive computed tomography (CT), abdominal sonography or fiberoptic endoscopy was performed every 2–3 months for the first 2 years after treatment and then every 6 months thereafter until mortality. Positron emission tomography-CT was performed if recurrent disease could not be identified or if it was suspected on routine CT. Bone scans were employed when bone metastasis was suspected. Other tests were performed at the discretion of the treating physician. The median follow-up time was 47 months (range, 7–176 months).

Statistical analysis

The Kaplan-Meier method and proportional hazards regression model were used to estimate OS and its correlation with relevant variables. Differences between groups were calculated using the log-rank test. SPSS software (version 19.0; IBM SPSS, Armonk, NY, USA) was used to calculate OS and its correlation with relevant variables. Tests of significance were performed using a two-sided value of P<0.05. Date of recurrence was defined as the time-point at which the imaging examination suggested recurrence. Survival of recurrent patients was calculated from the date of recurrence to the date of mortality or to the last date when the patients were known to be alive.

Study approval

The study was approved by the Research Ethics Committee of Zhejiang Cancer Hospital and the Research Ethics Committee of the Sun Yat Sen University Cancer Center. The present study was retrospective.

Results

Sites of recurrence and relevant treatment

The median disease-free interval for the patients was 12 months (range, 3–124 months). A total of 176 patients (57.0%) experienced local recurrence only and 21 patients (6.8%) experienced additional regional recurrence. In 83 patients (26.9%), the treatment for the initial tumor had failed in the regional lymph nodes only, and 22 patients (7.1%) had isolated distant metastases. A total of 4 patients (1.3%) developed metastases and distant regional lymph node recurrence, and 3 patients (0.9%) developed recurrence in all of the aforementioned sites. Treatments for the recurrent tumor are indicated in Table III. The details of the treatments administered for the recurrent tumor are as follows: i) 168 patients underwent surgery alone; ii) 14 patients underwent radiotherapy alone and 34 patients underwent radiotherapy plus postoperative radiotherapy; iii) 47 patients underwent chemotherapy alone, 3 patients underwent radiotherapy plus adjuvant chemotherapy, 12 patients underwent surgery plus adjuvant chemotherapy and 2 patients underwent surgery plus postoperative radiotherapy plus adjuvant chemotherapy; iv) 29 patients underwent no active therapy.

Table III.

Treatment for the recurrent tumor.

Table III.

Treatment for the recurrent tumor.

TreatmentNo. of patients%
Surgery alone16854.4
Radiation  4815.5
  Radiation alone  14   4.5
  Surgery plus postoperative radiotherapy  3411.0
Chemotherapy  6420.7
  Chemotherapy alone  4715.2
  Radiotherapy plus adjuvant chemotherapy     3   1.0
  Surgery plus adjuvant chemotherapy  12   3.9
  Surgery plus postoperative radiotherapy plus adjuvant chemotherapy     2   0.6
No active therapy  29   9.4
Predictive factors for survival

Univariate analysis showed that the following factors were indicators of good survival following recurrence: Age <60 years (P=0.006), smoking index <600 (P=0.005), high differentiation rate (P<0.001), subglottic cancer (P=0.005), initial cancer T stages T1 and T2 (P<0.001), initial cancer UICC stages I and II (P<0.001), negative nodal status of the initial cancer (P<0.001), no radiotherapy for the initial cancer (P<0.001), no chemotherapy for the initial cancer (P=0.016), disease-free interval ≥12 months (P<0.001), only local recurrence (P<0.001) and eligibility for salvage surgery (P<0.001) (Table I). These significant factors identified by univariate analysis were analyzed by multivariate analysis using the Cox regression model (Table IV and V). Model A was composed of variables associated with the initial and recurrent cancer, while model B included only the former and model C included only the latter. The initial nodal status and T stage were omitted in this analysis, as the initial UICC stage is based on these variables and can absolutely represent them. Model A indicated that the initial T stage, nodal status, disease-free interval and eligibility for salvage surgery were strong predictors of survival in the recurrent cancer patients. With regard to model B, initial T stage and nodal status were the only factors that predicted survival. According to model C, all the variables included were prognostic factors.

Table IV.

Multivariate analysis of the clinicopathological factors associated with OS in recurrent laryngeal carcinoma patients.

Table IV.

Multivariate analysis of the clinicopathological factors associated with OS in recurrent laryngeal carcinoma patients.

OS

VariablesOdds ratio95% CIP-values
Model Aa
  Grade1.2950.997–1.6820.053
  Smoking index1.1520.804–1.6490.441
  Age, years1.2470.882–1.7630.211
  Initial T stage1.7551.217–2.5290.003
  Nodal status1.4960.998–2.2430.051
  Primary site1.1340.849–1.5160.395
  Chemotherapy or no chemotherapy for the initial tumor1.1300.964–1.3260.132
  Radiotherapy or no radiotherapy for the initial tumor1.1490.965–1.3700.120
  Mode of recurrence1.1450.885–1.4810.303
  Eligibility for surgery0.4600.323–0.655<0.001
  Disease-free interval0.4540.319–0.646<0.001
Model Ba
  Age, years1.3550.963–1.9050.081
  Smoking index1.3420.944–1.9070.101
  Grade1.2070.935–1.5590.149
  Primary site1.1900.892–1.5880.236
  Initial T stage2.1261.501–3.013<0.001
  Nodal status1.8931.261–2.8410.002
  Chemotherapy or no chemotherapy for the initial tumor1.0630.904–1.2500.460
  Radiotherapy or no radiotherapy for the initial tumor1.1670.980–1.3890.083
Model Ca
  Disease-free interval0.4390.308–0.613<0.001
  Eligibility for surgery0.4070.291–0.579<0.001
  Mode of recurrence1.5561.223–1.977<0.001

[i] OS, overall survival; CI, confidence interval.

Table V.

Association between smoking index and initial T stage.

Table V.

Association between smoking index and initial T stage.

GroupNumber of patients%
Smoking index ≥600175
  T1 and T2 stage tumor11264.0
  T3 and T4 stage tumor  6336.0
Smoking index <600134
  T1 and T2 stage tumor  9570.9
  T3 and T4 stage tumor  3929.1

Discussion

The present study reveals the significance of various prognostic factors for primary and recurrent laryngeal cancer, and the corresponding treatments. The 3-, 5- and 10-year survival rates of the entire patient sample were estimated to be 68.9, 53.6 and 35.7%, respectively. The patients who developed local recurrence had 5-year survival rates of 61.8%, which is better than the rate of 52.1% in the patients who developed regional recurrence and 0% in the patients who developed distant metastasis. These figures are in line with the results reported by Brenner et al, in which the 2- and 5-year survival rates were estimated to be 67 and 56%, respectively (13).

Due to the natural barriers that stop the spread of cancer cells in the body and the relatively early symptoms associated with recurrence, the possibility of successfully performing salvage surgery in patients with local recurrence without damaging vital function is quite high (19). In the present study, salvage surgery resulted in a better prognosis in cases of local recurrence. Salvage surgery was performed in 68.3% of the cases of local recurrence and resulted in a 5-year survival rate of 73.0%, which was much better than the 32.3% survival rate in local recurrence cases in which salvage surgery was not performed. This is similar to the results of the aforementioned study by Brenner et al (13), where 69% of the local recurrence cases received salvage surgery, with a 5-year survival rate of 76%. However, Lacy and Piccirillo (20) reported that for 64.5% of the patients with recurrence who underwent salvage surgery, the 2-year survival rate was only 55%. The reason that the present study had a better survival rate was possibly due to the fact that there were more initial early-stage patients (58.6 vs. 50.8%). Moreover, in the study by Yuen et al (12), only 21% of the patients with local recurrence underwent salvage surgery, and the 5-year tumor-free survival rate was just 42%. The reason that so few patients were suitable for salvage surgery in this study was as 97.9% patients presented with initial T3 or T4 tumors and 100% patients underwent total laryngectomy prior to recurrence.

Patients with a disease-free interval of ≥12 months exhibited a 74.1% 5-year survival rate, which was significantly better than those with an interval of <12 months. This was also in somewhat good agreement with the figures reported by Lacy and Piccirillo (20), where the 2-year OS rate for the group with a disease-free interval of ≤12 months, 2 years and >2 years was 33, 37 and 53%, respectively, and Brenner et al, where the 5-year OS rate for the group with a disease-free interval of ≤6 and >6 months was was 44 and 70%, respectively (9).

The present univariate analysis revealed that the following factors are negatively correlated with the 5-year OS rate: Age ≥60 years, smoking index ≥600, poor tumor grade, supraglottic and subglottic tumors, initial tumor T stages T3 and T4, initial tumor UICC stages III and IV, positive nodal status of the initial tumor, disease-free interval <12 months, distant metastatic disease and non-eligibility of the recurrent tumor for surgery. In addition, chemotherapy and radiotherapy for the initial tumor were found to be significant poor prognostic factors. There could be several reasons for this association. Firstly and most importantly, the effect of selection bias cannot be ruled out. Patients who initially had poor prognostic factors (poorly-differentiated cancer and more advanced UICC stage) would be more likely to receive surgery plus radiotherapy or chemotherapy with other treatment; recurrent tumors in the case of such patients would have a poorer prognosis. This probably also explains why patients who underwent surgery plus radiotherapy or chemotherapy with other treatments had a poorer 5-year OS rate than those who received surgery or radiotherapy alone (Table I). Similar results have been reported by Lacy and Piccirillo (20): The groups that received only surgery and radiotherapy for the initial tumor had a 2-year OS rate of 60 and 57%, respectively, while the group that received surgery plus radiotherapy had a 2-year OS rate of only 15%. Secondly, repeating the chemotherapy protocol for recurrent tumors cannot ensure effectiveness of the chemotherapy, as certain cancer cells may have drug resistance. Thirdly, if radiotherapy was already used for the initial tumor, repeat irradiation for the recurrent tumor is not feasible and at the same time, salvage surgery may also not be possible due to the acute side-effect of the radiation, particularly in patients who experienced a shorter disease-free interval.

The present study found that smoking years was not a significant prognostic factor, which is similar to the result reported by Brenner et al (13). However, the present study found that smoking index was a significant prognostic factor. This is different from the finding of Lacy and Piccirillo (20), according to which, smokers and non-smokers had a similar 2-year OS rate of 40%. A thorough search of other relevant literature did not reveal any more findings with regard to the association between smoking and recurrent laryngeal carcinoma; however, a study on passive smoking and the incidence of laryngeal carcinoma (21) revealed that patients with advanced tumors were mostly in the environmental tobacco smoking exposure group. Therefore, the present study attempted to determine the association between smoking and initial T stage and tumor grade. It was found that the group with a smoking index of ≥600 had a higher proportion of T3 and T4 tumors than the group with smoking index of <600; moreover, the former group also had a higher proportion of patients with poorly- and moderately-differentiated tumors than the latter. These values may explain why patients with recurrent tumors who had a smoking index of ≥600 had poor prognostic factors.

In total, 122 (39.5%) patients presented with well-differentiated tumors, 138 (44.7%) with moderately-differentiated tumors and 49 (15.9%) with moderately-differentiated tumors. The 5-year OS values were 62.2, 55.1 and 23.6%, respectively. These were quite different from the values reported by Brenner et al (13), where the proportion of well-differentiated and moderately- and poorly-differentiated tumors was 23.2 and 76.8%, respectively, with corresponding 5-year OS rates of 61 and 65%, respectively. These are different from the values reported by Lacy and Piccirillo (20) too, in which the proportion of well-differentiated, moderately-differentiated, and poorly-differentiated cancer was 66.1, 25.8 and 7.3%, respectively, and the corresponding 2-year OS rates were 44, 34 and 22%, respectively.

Multivariate analysis showed that the 5-year OS rate was significantly associated with the initial T stage, grade, nodal status, disease-free interval and eligibility for surgery. This is in agreement with the results of the studies by Lacy and Piccirillo (20) and Marshak et al (9). The study by Lacy and Piccirillo revealed that initial treatment, initial TNM stage and extent of recurrence were independent prognostic factors for recurrence in laryngeal cancer. The study by Brenner et al showed that the initial tumor site, the nodal status, the extent of recurrence and its operability were the only factors that predicted survival.

The major limitation of retrospective studies is that the data collected are not originally designed for application in research. Therefore, certain factors responsible for the ultimate treatment outcome may be missing in the analysis and contribute to a bias. Thus, the conclusions from the present study should be validated in future prospective studies.

In summary, the present study found five factors to be predictors of good survival in patients with recurrent laryngeal cancer: Initial tumor T stages T1 and T2, a high differentiation rate, no cervical lymph node metastasis of the initial tumor, a disease-free interval of ≥12 months and eligibility for surgery.

Acknowledgements

The authors would like to thank Dr H. Z. Wang, and Dr H. Lin for collecting data.

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Li P, Hu W, Zhu Y and Liu J: Treatment and predictive factors in patients with recurrent laryngeal carcinoma: A retrospective study. Oncol Lett 10: 3145-3152, 2015
APA
Li, P., Hu, W., Zhu, Y., & Liu, J. (2015). Treatment and predictive factors in patients with recurrent laryngeal carcinoma: A retrospective study. Oncology Letters, 10, 3145-3152. https://doi.org/10.3892/ol.2015.3640
MLA
Li, P., Hu, W., Zhu, Y., Liu, J."Treatment and predictive factors in patients with recurrent laryngeal carcinoma: A retrospective study". Oncology Letters 10.5 (2015): 3145-3152.
Chicago
Li, P., Hu, W., Zhu, Y., Liu, J."Treatment and predictive factors in patients with recurrent laryngeal carcinoma: A retrospective study". Oncology Letters 10, no. 5 (2015): 3145-3152. https://doi.org/10.3892/ol.2015.3640