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Treatment patterns of adjuvant interferon-α2b for high-risk melanoma

a retrospective study of the Grupo Español Multidisciplinar de Melanoma – Prima study

Espinosa, Enrique; Soriano, Virtudes; Malvehy, Josep; Berrocal, Alfonso; Martínez de Prado, Purificación; Quindós, María; Soria, Ainara; Márquez-Rodas, Iván; Palacio, Isabel; Cerezuela, Pablo; López-Vivanco, Guillermo; Alonso, Lorenzo; Samaniego, Elia; Ballesteros, Ana; Puértolas, Teresa; Díaz-Beveridge, Rodrigo; de la Cruz-Merino, Luis; López Castro, Rafael; López López, Rafael; Stevinson, Kendall; del Barrio, Patricia; Tornamira, Maria V.; Guillém, Vicente; Martín-Algarra, Salvador

doi: 10.1097/CMR.0000000000000254
ORIGINAL ARTICLES: Clinical research

Adjuvant interferon-α2b (IFN-α2b) has been studied extensively in clinical trials, but there have been few studies of real-world use. The aim of this study is to describe the IFN-α2b real-world patterns in patients with high-risk melanoma in Spain. This was a retrospective and multicentre chart review study of an unselected cohort of patients with melanoma at high risk for relapse (stage IIB/IIC/III) treated with IFN-α2b. Patterns were assessed in terms of dose and compliance to planned treatment. A survival analysis was carried out for the full population and according to Kirkwood scheme compliance and the presence of ulceration. Of 327 patients treated with IFN-α2b, 318 received a high-dose regimen following the standard Kirkwood scheme; thus, patterns are described for this regimen. A total of 121 (38%) and 88 (28%) patients had at least one dose reduction during the induction and maintenance phases, respectively. Dose delay was required in fewer than 10% of patients. A total of 78, 40 and 38% of the patients completed the induction phase, maintenance phase and completed treatment, respectively. The median progression-free and overall survival for the full population were 3.2 and 10.5 years, respectively. There were no differences in progression-free survival and overall survival according to Kirkwood scheme compliance and the presence of ulceration. The most frequent adverse events were neutropenia (31%) and fatigue (30%). High-dose IFN-α2b is the most frequently used regimen in Spain as an adjuvant systemic treatment for high-risk melanoma. Despite poor compliance, in this retrospective study, IFN-α2b treatment provided a benefit consistent with that described previously.

aMedical Oncology Service, Hospital Universitario La Paz

bMedical Oncology Service, Hospital Ramón y Cajal

cMedical Oncology Service, Instituto de Investigación Sanitaria Gregorio Marañon

dMedical Oncology Service, Hospital La Princesa

eMedical Affairs, Merck Sharp & Dohme, Madrid

fMedical Oncology Service, Instituto Valenciano de Oncología

gMedical Oncology Service, Hospital General Universitario de Valencia

hMedical Oncology Service, Hospital La Fe, Valencia

iMedical Oncology Service, Hospital Clinic de Barcelona, Barcelona

jMedical Oncology Service, Hospital de Basurto, Bilbao

kMedical Oncology Service, Hospital Teresa Herrera, La Coruña

lMedical Oncology Service, Hospital Central de Asturias, Oviedo

mMedical Oncology Service, Hospital General Universitario Santa Lucía, Cartagena

nMedical Oncology Service, Hospital de Cruces, San Vicente de Baracaldo

oMedical Oncology Service, Hospital Universitario Virgen de la Victoria, Málaga

pDermatology Service, Complejo Asistencial Universitario de León, León

qMedical Oncology Service, Hospital Miguel Servet, Zaragoza

rMedical Oncology Service, Hospital Virgen de la Macarena, Sevilla

sMedical Oncology Service, Hospital Clínico Universitario de Valladolid, Valladolid

tMedical Oncology Service, Hospital Clínico Universitario de Santiago, Santiago de Compostela

uMedical Oncology Service, Clínica Universitaria de Navarra, Pamplona, Spain

vGlobal Health Outcomes Research, Merck Sharp & Dohme, Kenilworth, New Jersey, USA

Correspondence to Enrique Espinosa, MD, Medical Oncology Service, Hospital Universitario La Paz, P de la Castellana 2, Madrid 28046, Spain Tel: +34 912 071 138; fax: +34 917 277 118; e-mail:

This is an open-access article distributed under the terms of the Creative Commons Attribution-Non Commercial-No Derivatives License 4.0 (CCBY-NC-ND), where it is permissible to download and share the work provided it is properly cited. The work cannot be changed in any way or used commercially.

Received October 9, 2015

Accepted February 17, 2016

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Melanoma causes almost 80% of all skin cancer deaths and its incidence is increasing worldwide 1,2. In Spain, both melanoma incidence (5.2 cases per 100 000 inhabitants/year) and lethality are increasing 3,4. Little has changed in the last 20 years in the adjuvant treatment of completely resected melanoma. Patients with and without high-risk features are treated with radical surgery with safety margins, but the former, particularly those with lymph node metastases, are also eligible to receive adjuvant systemic treatment with interferon-α2b (IFN-α2b) 3. The Eastern Cooperative Oncology Group (ECOG) 1684 trial, which compared adjuvant high-dose IFN-α2b with no adjuvant treatment in patients with melanoma and high-risk features, showed improved outcomes in both progression-free survival (PFS) and overall survival (OS) 5 but, in the long term, the effect in OS was no longer statistically significant 6. The most recent meta-analysis of adjuvant interferon in melanoma confirmed a longer disease-free interval (hazard ratio 0.83) in 17 trials and improved OS (hazard ratio 0.91) in 15 trials 2.

However, adverse IFN-α2b tolerability, mainly flu-like symptoms, mood changes and mental alterations, may lead to patient refusal, discontinuation or poor compliance 1,7. Impairments in compliance may theoretically impact outcomes. Hence, an accurate assessment of practice patterns is warranted to ascertain whether the trial results can be reproduced in the real-world setting.

Little is known about the prescribing patterns and the compliance to IFN-α2b in Europe. Therefore, the Grupo Español Multidisciplinar de Melanoma (GEM) (Spanish Melanoma Multidisciplinary Group) sought to analyse the pattern of treatment, compliance and outcomes of patients with completely resected melanoma and at high risk for recurrence treated with adjuvant IFN-α2b.

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Twenty centres participated in this retrospective study. Data were collected from May 2013 to January 2014. The Institutional Review Board(s) of all centres approved the study protocol. All nondeceased patients provided written consent. The protocol was carried out in accordance with the Declaration of Helsinki (Seoul 2008 version) and local laws and regulations.

Adult patients who fulfilled the following criteria were included: diagnosed, histologically confirmed, with primary cutaneous melanoma (January 2000–December 2009); completely resected stage IIB/IIC/III disease (American Joint Committee on Cancer 2009) or any resected metastasis; treated with at least one dose of IFN-α2b; no previous history noncutaneous malignancy; and nondeceased patients with more than 2 years of follow-up.

The high-dose regimen followed the Kirkwood scheme 5: 20 MU/m2/day intravenous in the induction phase (20 doses: 5 days/week during 4 weeks) and 10 MU/m2/day subcutaneous in the maintenance phase (3 days/week during 48 weeks). The intermediate dose consisted of 10 MU/m2/day intravenously in the induction phase (5 days/week over 4 weeks) and 5–10 MU/m2/day subcutaneously in the maintenance phase (3 days/week for varying durations) 8 and low-dose regimens consisted of 3 MU/m2/day subcutaneous, 3 days per week for varying lengths of time 9. The treatment was complete if the patient received at least 18 doses in the induction phase and was treated for at least 45 weeks in the maintenance phase.

The sample size was calculated with a 95% confidence interval (CI) and a 0.05 α error assuming that 67% of patients will complete induction and 41% will complete the entire treatment 1. Thus, 325 patients should be included.

Quantitative variables were characterized using means (SD) and median (range), whereas qualitative variables were characterized using frequencies and percentages. Quantitative variables were compared using the Student–Fisher t-test. Kaplan–Meier analysis was used to estimate survival times for the overall population and stratified according to patient compliance to the Kirkwood scheme (i.e. with no doses reduction nor delays) and the presence of ulceration; comparison was performed using the log-rank test. The Cox regression model was used to calculate multivariate predictive models.

Patients could have received high-dose, intermediate-dose or low-dose IFN-α2b. However, because there were very few patients with low and intermediate doses (n=5), only high-dose regimen patients (322; 99%) who fulfilled the selection criteria were included in the analysis.

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A total of 330 and 323 individuals were included in the safety and analysis population, respectively. For the high-dose interferon-based regimen, the evaluable population included 322 patients for the safety analysis and 318 patients for the outcome analysis. All the patients included provided their written informed consent. In all, 98% of the patients were white, 54% were men, and the median age was 51 years (19–81) (Table 1). The most common locations of primary lesion were the extremities (43%) or the trunk (39%).

Table 1

Table 1

A total of 249 (78%), 127 (40%) and 121 (38%) patients completed the induction phase, the maintenance phase and the entire treatment, respectively. The median treatment duration was 45.4 (range=0.6–98.4) weeks. Forty out of 56 patients (71%) who discontinued the induction phase later continued to the maintenance phase. Thus, treatment was discontinued in 16 patients (5%) during the induction phase and in 176 (55%) during the maintenance phase (Fig. 1).

Fig. 1

Fig. 1

In total, 121 patients (38%) had at least one dose reduction during the induction phase, the most common being a single reduction (66% of these patients); in 46% of patients, the dose after the first reduction ranged between 12.5 and 15 MU/m2 (Table 2). The mean duration from treatment initiation to the first dose reduction was 15.2 (8.2) days. In the maintenance phase, 88 patients (28%) had at least one dose reduction, and nearly half of these patients reported a single reduction; in 44% of patients, the dose after the first reduction ranged between 6 and 7.5 MU/m2. A dose delay was required in 19 (6%) and 28 (8%) patients during the induction and maintenance phase, respectively. The most common reason to delay or modify the dose in the induction and maintenance phase was patients’ symptoms [not fulfilling the criteria of a grade 3 or 4 adverse event (AE), 53 and 55%], followed by grade 3 AEs (48 and 45%), respectively.

Table 2

Table 2

The Cox regression analysis showed that patients with a diagnosis at 60–69 years of age and older than 69 years of age remained in the treatment 1.8 times more often (95% CI: 1.2–2.6; P=0.0052) and 3.1 times more often (95% CI: 1.9–5.1; P<0.00001), respectively, than patients who were diagnosed at younger than 40 years of age. The analysis also showed that dose reduction during the induction phase did not affect the duration of treatment (data not shown). In contrast, the number of days until the first dose reduction during the induction phase affected the duration of treatment negatively; thus, the longer the time until the first dose reduction, the shorter the duration of treatment [hazard ratio: 0.97 (95% CI: 0.95–0.99); P=0.0108].

In all, 134 patients (42%) died and 177 patients (56%) experienced relapse. The median PFS and OS times (95% CI) for the overall population were 3.2 (2.1–4.5) and 10.5 years [6.4–not reached (NR)], respectively (Fig. 2). Excluding 66 patients (21%) who discontinued because of disease recurrence, 52 patients (16%) followed the Kirkwood scheme, whereas the remaining 200 patients (63%) had at least one dose modification. There were no statistically significant differences in the median times of PFS and OS between patients who received 100% or lower dose intensity: NR vs. 9.1 (4.5–NR) years for the PFS (P=0.8668); the OS medians were NR (P=0.6703). Similarly, the median PFS and OS were similar between patients with and without ulceration: 2.1 (1.5–3.6) vs. 4.2 years (2.3–NR) (P=0.1723) and 6.8 (4.5–NR) vs. NR years (P=0.2872), respectively.

Fig. 2

Fig. 2

Overall, 71% of the patients (n=254) experienced at least one AE. However, none of the patients developed life-threatening AEs. The most frequently reported AEs of any grade were neutropenia in 100 patients (31%) and fatigue in 97 patients (30%) (Table 3).

Table 3

Table 3

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Few adjuvant IFN-α2b clinical practice studies have been carried out in Europe 10. This retrospective study, which describes the treatment patterns as well as the outcomes of a large, unselected and multi-institutional series of patients with high-risk melanoma treated with adjuvant IFN-α2b within the routine clinical practice in Spain, is one of the largest studies in the European real-world practice setting.

This study showed that the high-dose adjuvant ECOG scheme is the most frequently used IFN-α2b regimen in Spain for patients with high-risk melanoma. However, this regimen required dose modifications in most patients because of AEs. The entire two-phase treatment was completed by 38% of patients and 16% of the patients completed the two-phase following the planned high-dose scheme. One-third of the patients required dose reduction from the planned treatment, and the fact that more patients had reduced the dose during the induction phase than during the maintenance phase (38 vs. 28%) suggests that during the maintenance phase, both doctors and patients were less likely to attempt a dose reduction to complete the 12-month treatment regimen.

Despite the issues of tolerability, the efficacy results are remarkably favourable. Indeed, the median PFS and OS (3.2 and 10.5 years, respectively) compare favourably with the previous clinical trials with high-dose IFN-α2b (1.7 and 3.8 years, respectively) 5 and with pegylated IFN-α2b (2.9 years and NR, respectively) 11, and with a German retrospective study with high-dose IFN-α2b (1.7 and 6.1 years, respectively) 12. These improved outcomes are unquestionable on PFS, but have been largely debated in terms of OS 13. The results of the most recent meta-analysis also showed a benefit in OS 14. Although these better outcomes are statistically significant, the frequency and severity of toxicity and drug acquisition costs have limited broad acceptance of adjuvant high-dose IFN-α2b in practice 7 Some trials have attempted to use an intermediate/low dose to avoid disabling AEs while seeking to improve tolerability 8,9. In terms of the tolerability, on comparing our data with the ECOG 1684 trial 5, we observed lower numbers of patients with dose reduction in the maintenance phase (28 vs. 35%) and with dose delay in the induction phase (6 vs. 34%) and the maintenance phase (8 vs. 41%), whereas the number of patients with dose reduction in the induction was similar (38 vs. 36%). Similarly, the number of patients who continued was similar after 4 months of treatment in the current study and 3 months in the ECOG 1684 trial (80 vs. 77%, respectively). Thus, in clinical practice, doctors were less likely to delay doses or reduce doses in the maintenance phase and this practice does not seem to affect the continuation rate in the first few months of the maintenance phase.

The feasibility in terms of tolerability and duration in treatment as the ECOG 1684 trial 5 has also been investigated in a small Italian study with 26 patients. In this series, 83% of the patients completed the full 52-week expected treatment 15; other larger studies reported figures similar to those reported here. A Canadian study with 225 patients showed that 41% completed the full therapy 1. In the present study, a Cox regression analysis showed that age was a strong predictive factor. Indeed, younger patients discontinued the treatment more frequently than older patients. To our knowledge, this is the first study to report a possible association between age and duration of IFN-α2b treatment in patients with high-risk melanoma. The observation that in our series patients older than 59 years of age remained in the treatment more often than patients younger than 40 years of age raises the question of the relevance of how low-grade but chronic IFN-α2b-related AEs affect the quality of life of the employed and economically productive population. Paradoxically, in this group of patients, a younger age makes them less tolerant to the prevalence of symptoms, which reduces their working productivity or general capabilities to maintain a productive life. Other studies of adjuvant treatments in oncology have also reported that younger patients were more likely to discontinue the treatment than older patients 16,17, reinforcing the idea that occupational status is a plausible factor to consider.

Another feature of our analysis that deserves special consideration is the fact that the time until the first dose reduction in the induction period determines the duration of the therapy. This observation suggests that dose adjustment is particularly relevant for treatment tolerance and should be considered as soon as side effects appear. This has also been observed elsewhere 1.

Treatment compliance and ulceration did not show statistical differences in the PFS and OS in our series. Also, the German–French–UK study did not find differences in the comparison of patients who received at least 90% and less than 90% of the projected interferon dose 12. Because of the reversible nature of most IFN-α2b AEs, although studies on quality of life show a clear detrimental impact 18, when patient preferences are considered, PFS is more valued than toxicity in patients with melanoma 19,20.

Although the data of the current retrospective study were collected carefully, some bias and confounders cannot be overlooked. A possible bias is an excess death rate as all deceased patients were screened, whereas living patients had to provide written consent to be included. Similarly, relapse was not histologically confirmed, but was assessed according to clinical and radiological standard procedures by the participating investigators. However, the documented follow-up after the end of treatment, in some cases over 10 years, is a clear strength of the current study.

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This study shows that an IFN-α2b high-dose regimen is the most frequently used treatment approach in Spain for patients with high-risk melanoma. Despite poor compliance because of AEs and the need to focus future clinical trials on selected patients 21, an IFN-α2b high-dose regimen is a valid reference to consider in our setting until the advent of the newest adjuvant trials currently underway 22, with targeted therapies and immune check point inhibitors.

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GEM and the promoter (Merck Sharp & Dohme) thank Andrew Shala (TFS Develop) for his assistance with the manuscript and Juani Zamora (TFS Develop) for statistical analysis.

The research has been funded by Merck Sharp & Dohme (MSD). Merck Sharp & Dohme Spain – a subsidiary of Merck & Co. Inc., Whitehouse Station, New Jersey, USA – provided financial support to carry out the study.

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Conflicts of interest

Maria V. Tornamira, Patricia del Barrio and Kendal Stevinson are full-time employees at Merck Sharp & Dohme (MSD). The authors were also study investigators, and their institutions received financial compensation for the enrolment of patients in the study.

Alfonso Berrocal has received honoraria as a consultant and as a speaker, as part of the advisory board and has given expert testimony for BMS, Roche and MSD. Luis de la Cruz-Merino has received honoraria as a consultant for Roche, BMS and MSD and as a speaker for Roche and MSD. Enrique Espinosa has received honoraria as a consultant and a speaker from MSD, BMS, GSK and Roche and for the educational presentations development for MSD, BMS, GSK and Roche. Josep Malvehy has received honoraria as a consultant and a speaker for Roche, BMS, GSK and AMGEN and for the educational presentation development for Roche, BMS, GSK and AMGEN. Iván Márquez-Rodas has received honoraria as a consultant and a speaker for Roche, BMS, AMGEN, GSK and Celgene and honoraria for travel/accommodation from BMS, Roche and GSK. Salvador Martín-Algarra has received honoraria as part of the MSD, GSK and Novartis advisory board. Elia Samaniego has received honoraria for travel/accommodation from Almirall, Ife, BMS, Roche, Leo Pharma, Italfamarco, Wyeth and La Roche Posay and for the educational presentations development for Leo Pharma and Avene. Ainara Soria has received honoraria as a consultant and a speaker for BMS, Roche, Celgene and GSK, for travel/accommodation from GSK and BMS and for the educational presentations development for BMS, Roche, Celgene and GSK. Isabel Palacio has received honoraria for travel/accommodation from BMS and payment for lectures from GSK and BMS.

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1. Levesque N, Mitchinson K, Lawrie D, Fedorak L, Macdonald D, Normand C, Pouliot JF. Health management program: factors influencing completion of therapy with high-dose interferon alfa-2b for high-risk melanoma. Curr Oncol 2008; 15:36–41.
2. Mocellin S, Lens MB, Pasquali S, Pilati P, Chiarion Sileni V. The Cochrane Collaboration. Interferon alpha for the adjuvant treatment of cutaneous melanoma. Cochrane database of systematic reviews. Chichester, UK: John Wiley & Sons Ltd; 2013. 1–75.
3. Berrocal A, Cabañas L, Espinosa E, Fernández-de-Misa R, Martín-Algarra S, Martínez-Cedres JC, et al.. Melanoma: diagnosis, staging, and treatment. Consensus group recommendations. Adv Ther 2014; 31:945–960.
4. Chirlaque MD, Salmerón D, Ardanaz E, Galceran J, Martínez R, Marcos-Gragera R, et al.. Cancer survival in Spain: estimate for nine major cancers. Ann Oncol 2010; 21 (Suppl 3):iii21–iii29.
5. Kirkwood JM, Strawderman MH, Ernstoff MS, Smith TJ, Borden EC, Blum RH. Interferon alfa-2b adjuvant therapy of high-risk resected cutaneous melanoma: the Eastern Cooperative Oncology Group Trial EST 1684. J Clin Oncol 1996; 14:7–17.
6. Kirkwood JM, Manola J, Ibrahim J, Sondak V, Ernstoff MS, Rao U. A pooled analysis of eastern cooperative oncology group and intergroup trials of adjuvant high-dose interferon for melanoma. Clin Cancer Res 2004; 10:1670–1677.
7. Kefford RF. Adjuvant therapy of cutaneous melanoma: the interferon debate. Ann Oncol 2003; 14:358–365.
8. Eggermont AM, Suciu S, MacKie R, Ruka W, Testori A, Kruit W, et al.. Post-surgery adjuvant therapy with intermediate doses of interferon alfa 2b versus observation in patients with stage IIb/III melanoma (EORTC 18952): randomised controlled trial. Lancet 2005; 366:1189–1196.
9. Inman JL, Russell GB, Savage P, Levine EA. Low-dose adjuvant interferon for stage III malignant melanoma. Am Surg 2003; 69:127–130.
10. Mohr P, Harries M, Grange F, Ehness R, Benjamin L, Siakpere O, et al.. 1124P treatment patterns and disease burden of stage IIIB/IIIC melanoma in France, Germany and the UK. Ann Oncol 2014; 25:iv389.
11. Eggermont AM, Suciu S, Santinami M, Testori A, Kruit WH, Marsden J, et al.. EORTC Melanoma Group. Adjuvant therapy with pegylated interferon alfa-2b versus observation alone in resected stage III melanoma: final results of EORTC 18991, a randomised phase III trial. Lancet 2008; 372:117–126.
12. Fluck M, Kamanabrou D, Lippold A, Reitz M, Atzpodien J. Dose-dependent treatment benefit in high-risk melanoma patients receiving adjuvant high-dose interferon alfa-2b. Cancer Biother Radiopharm 2005; 20:280–289.
13. Wheatley K, Ives N, Hancock B, Gore M, Eggermont A, Suciu S. Does adjuvant interferon-alpha for high-risk melanoma provide a worthwhile benefit? A meta-analysis of the randomised trials. Cancer Treat Rev 2003; 29:241–252.
14. Mocellin S, Pasquali S, Rossi CR, Nitti D. Interferon alpha adjuvant therapy in patients with high-risk melanoma: a systematic review and meta-analysis. J Natl Cancer Inst 2010; 102:493–501.
15. Muggiano A, Mulas C, Fiori B, Liciardi G, Pintus M, Tanca L, et al.. Feasibility of high-dose interferon-alpha2b adjuvant therapy for high-risk resected cutaneous melanoma. Melanoma Res 2004; 14:S1–S7.
16. Hershman DL, Kushi LH, Shao T, Buono D, Kershenbaum A, Tsai WY, et al.. Early discontinuation and nonadherence to adjuvant hormonal therapy in a cohort of 8,769 early-stage breast cancer patients. J Clin Oncol 2010; 28:4120–4128.
17. Partridge AH, Wang PS, Winer EP, Avorn J. Nonadherence to adjuvant tamoxifen therapy in women with primary breast cancer. J Clin Oncol 2003; 21:602–606.
18. Brandberg Y, Aamdal S, Bastholt L, Hernberg M, Stierner U, von der Maase H, Hansson J. Health-related quality of life in patients with high-risk melanoma randomised in the Nordic phase 3 trial with adjuvant intermediate-dose interferon alfa-2b. Eur J Cancer 2012; 48:2012–2019.
19. Kilbridge KL, Cole BF, Kirkwood JM, Haluska FG, Atkins MA, Ruckdeschel JC, et al.. Quality-of-life-adjusted survival analysis of high-dose adjuvant interferon alpha-2b for high-risk melanoma patients using intergroup clinical trial data. J Clin Oncol 2002; 20:1311–1318.
20. Kilbridge KL, Weeks JC, Sober AJ, Haluska FG, Slingluff CL, Atkins MB, et al.. Patient preferences for adjuvant interferon alfa-2b treatment. J Clin Oncol 2001; 19:812–823.
21. Janku F, Kurzrock R. Adjuvant interferon in high-risk melanoma: end of the era? J Clin Oncol 2010; 28:e15–e16.
22. Rotte A, Bhandaru M, Zhou Y, McElwee KJ. Immunotherapy of melanoma: present options and future promises. Cancer Metastasis Rev 2015; 34:115–128.

adjuvant treatment; compliance; interferon-α2b; melanoma; tolerability

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