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Preferences for Immunotherapy in Melanoma: A Systematic Review

  • Melanoma
  • Published:
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Abstract

Background

Immunotherapy improves overall survival for patients with metatstatic melanoma and improves recurrence–free survival in the adjuvant setting, but is costly and has adverse effects. Little is known about the preferences of patients and clinicians regarding immunotherapy. This study aimed to identify factors important to patients and clinicians when deciding about immunotherapy for stages 2–4 melanoma.

Methods

This study searched the Medline, EMBASE, ECONLIT, PsychINFO, and COCHRANE Systematic Reviews databases from inception to June 2018 for immunotherapy choice and preference studies. Findings were tabulated and summarized, and study reporting was assessed against recommended checklists.

Results

This investigation identified eight studies assessing preferences for melanoma treatment; four studies regarding nivolumab, pembrolizumab, or ipilimumab; and four studies regarding interferon conducted in the United States, Germany, and Australia. The following 10 factors were important to decision-making: overall survival, recurrence-free survival, treatment side effects, dosing regimen, patient or payer cost, patient age, clinician or family/friend treatment recommendation, quality of life, and psychosocial effects. Overall survival was the most important factor for all respondents. The patients judged severe toxicities to be tolerable for small survival gains. The description of information about treatment harms and benefits was limited in most studies.

Conclusions

Overall survival was of primary importance to patients and clinicians considering immunotherapy. Impaired quality of life due to adverse effects appeared to be a second-order consideration. Future research is required to determine preferences for contemporary combination therapies, extended treatment durations, and avoidance of chronic side effects.

Systematic review registration

PROSPERO registration number CRD42018095899.

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Acknowledgement

Ann Livingstone is supported by an Australian NHMRC postgraduate scholarship (APP1168194), a Sydney Catalyst Postgraduate Research Supplementary Scholarship, and a Melanoma Institute Australia postgraduate research scholarship (top up award). Anupriya Agarwal is supported by a NHMRC Clinical Trials Centre non-award postgraduate scholarship. Alexander M. Menzies is supported by a Cancer Institute New South Wales Fellowship. Rachael L. Morton is supported by an Australian NHMRC Translating Research Into Practice (TRIP) Fellowship (APP1150989) and a University of Sydney Robinson Fellowship.

Author information

Authors and Affiliations

  1. NHMRC Clinical Trials Centre, The University of Sydney, Camperdown, NSW, Australia

    Ann Livingstone RN, MHSM, GradDipHlthEc, Anupriya Agarwal MBBS, FRACP, Martin R. Stockler MBBS(Hons), MSc(Clin Epi), FRACP & Rachael L. Morton MScMed(Clin Epi)(Hons), PhD

  2. School of Public Health, The University of Sydney, Camperdown, NSW, Australia

    Ann Livingstone RN, MHSM, GradDipHlthEc, Martin R. Stockler MBBS(Hons), MSc(Clin Epi), FRACP & Kirsten Howard BSc(Hons I), MAppSci(Biopharm), MPH, MHlthEc, PhD

  3. Central Clinical School, The University of Sydney, Camperdown, NSW, Australia

    Martin R. Stockler MBBS(Hons), MSc(Clin Epi), FRACP

  4. Medical Oncology, Royal North Shore and Mater Hospitals, Sydney, NSW, Australia

    Alexander M. Menzies BSc(Med), MBBS(Hons), FRACP, PhD

  5. Melanoma Institute Australia, The University of Sydney, Camperdown, NSW, Australia

    Alexander M. Menzies BSc(Med), MBBS(Hons), FRACP, PhD & Rachael L. Morton MScMed(Clin Epi)(Hons), PhD

Authors
  1. Ann Livingstone RN, MHSM, GradDipHlthEc
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  2. Anupriya Agarwal MBBS, FRACP
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  3. Martin R. Stockler MBBS(Hons), MSc(Clin Epi), FRACP
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  4. Alexander M. Menzies BSc(Med), MBBS(Hons), FRACP, PhD
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  5. Kirsten Howard BSc(Hons I), MAppSci(Biopharm), MPH, MHlthEc, PhD
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  6. Rachael L. Morton MScMed(Clin Epi)(Hons), PhD
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Corresponding author

Correspondence to Ann Livingstone RN, MHSM, GradDipHlthEc.

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Disclosure

Martin R. Stockler has served on advisory boards for Amgen, Astra Zeneca, BMS, MSD, Pfizer, and Roche. Alexander M. Menzies has served on advisory boards for BMS, MSD, Novartis, Roche, and Pierre-Fabre. Ann Livingstone, Anupriya Agarwal, Kirsten Howard, and Rachael L. Morton have no conflicts of interest to declare.

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Appendices

Appendix 1: MEDLINE search strategy with MeSH terms and text words

1

exp MELANOMA/

2

melano*.tw,kf.

3

(skin* adj4 cancer*).tw,kf.

4

1 or 2 or 3

5

adadjuvant*.tw,kf.

6

immunotherapy/ or radioimmunotherapy/

7

(immunotherap* or radioimmunotherap*).tw,kf.

8

(adjuvan* adj4 immunotherap*).mp.

9

5 or 6 or 7 or 8

10

Patient preference/

11

Decision-making/ or choice behavior/

12

exp “Patient acceptance of health care”/

13

((patient* or doctor* or clinician*) adj4 (preference* or accept* or participat*)).tw,kf.

14

((decision* or choice* or choose*) adj4 (treat* or therap* or mak* or behavio?r*)).tw,kf.

15

(“discrete choice*” or dce or “stated preference*” or “conjoint analys*” or “choice experiment*” or “discrete rank*” or “best worst” or “best best”).tw,kf.

16

10 or 11 or 12 or 13 or 14 or 15

17

4 and 9 and 16

Appendix 2: ISPOR Statement: a checklist for conjoint analysis applications in health care

1 Was a well-defined research question stated and is a conjoint analysis an appropriate method for answering it?

1.1 Were a well-defined research question and a testable hypothesis articulated?

1.2 Was the study perspective described, and was the study placed in a particular decision-making or policy context?

1.3 What is the rationale for using conjoint analysis to answer the research question?

2 Was the choice of attributes and levels supported by evidence?

2.1 Was attribute identification supported by evidence (literature reviews, focus groups, or other scientific methods)?

2.2 Was attribute selection justified and consistent with theory?

2.3 Was level selection for each attribute justified by the evidence and consistent with the study perspective and hypothesis?

3 Was the construction of tasks appropriate?

3.1Was the number of attributes in each conjoint task justified (i.e., full or partial profile)?

3.2 Was the number of profiles in each conjoint task justified?

3.3 Was (should) an opt out or status-quo alternative (be) included?

4 Was the choice of experimental design justified and evaluated?

4.1 Was the choice of experimental design justified? Were alternative experimental designs considered?

4.2 Were the properties of the experimental design evaluated?

4.3 Was the number of conjoint tasks included in the data-collection instrument appropriate?

5 Were preferences elicited appropriately given the research question?

5.1 Was there sufficient motivation and explanation of conjoint tasks?

5.2 Was an appropriate elicitation format (i.e., rating, ranking, or choice) used? Did (should) the elicitation format allow for indifference?

5.3 In addition to preference elicitation, did the conjoint tasks include other qualifying questions (e.g., strength of preference, confidence in response, and other methods)?

6 Was the data-collection instrument designed appropriately?

6.1 Was appropriate respondent information collected (e.g., sociodemographic, attitudinal, health history or status, and treatment experience)?

6.2 Were the attributes and levels defined, and was any contextual information provided?

6.3 Was the level of burden of the data-collection instrument appropriate? Were respondents encouraged and motivated?

7 Was the data-collection plan appropriate?

7.1 Was the sampling strategy justified (e.g., sample size, stratification, and recruitment)?

7.2 Was the mode of administration justified and appropriate (e.g., face-to-face, pen-and-paper, web-based)?

7.3 Were ethical considerations addressed (e.g., recruitment, information, and/or consent, compensation)?

8 Were statistical analyses and model estimations appropriate?

8.1 Were respondent characteristics examined and tested?

8.2 Was the quality of the responses examined (e.g., rationality, validity, reliability)?

8.3 Was model estimation conducted appropriately? Were issues of clustering and subgroups handled appropriately?

9. Were the results and conclusions valid?

9.1 Did study results reflect testable hypotheses and account for statistical uncertainty?

9.2 Were study conclusions supported by the evidence and compared with existing findings in the literature?

9.3 Were study limitations and generalizability adequately discussed?

10. Was the study presentation clear, concise, and complete?

10.1 Was study importance and research context adequately motivated?

10.2 Were the study data-collection instrument and methods described?

10.3 Were the study implications clearly stated and understandable to a wide audience?

Appendix 3: STROBE statement: a checklist of items that should be included in reports of cross-sectional studies

 

Item no.

Recommendation

Title and abstract

1

(a) Indicate the study’s design with a commonly used term in the title or the abstract

(b) Provide in the abstract an informative and balanced summary of what was done and what was found

Introduction

Background/rationale

2

Explain the scientific background and rationale for the investigation being reported

Objectives

3

State specific objectives, including any pre-specified hypotheses

Methods

Study design

4

Present key elements of study design early in the paper

Setting

5

Describe the setting, locations, and relevant dates, including periods of recruitment, exposure, follow-up, and data collection

Participants

6

(a) Give the eligibility criteria, and the sources and methods of selection of participants

Variables

7

Clearly define all outcomes, exposures, predictors, potential confounders, and effect modifiers. Give diagnostic criteria, if applicable

Data sources/measurement

8a

For each variable of interest, give sources of data and details of methods of assessment (measurement). Describe comparability of assessment methods if there is more than one group

Bias

9

Describe any efforts to address potential sources of bias

Study size

10

Explain how the study size was determined

Quantitative variables

11

Explain how quantitative variables were handled in the analyses. If applicable, describe which groupings were chosen and why

Statistical methods

12

(a) Describe all statistical methods, including those used to control for confounding

(b) Describe any methods used to examine subgroups and interactions

(c) Explain how missing data were addressed

(d) If applicable, describe analytical methods taking account of sampling strategy

(e) Describe any sensitivity analyses

Results

Participants

13a

(a) Report numbers of individuals at each stage of study (e.g., numbers potentially eligible, examined for eligibility, confirmed eligible, included in the study, completing follow-up, and analyzed)

(b) Give reasons for nonparticipation at each stage

(c) Consider use of a flow diagram

Descriptive data

14a

(a) Give characteristics of study participants (e.g., demographic, clinical, social) and information on exposures and potential confounders

(b) Indicate number of participants with missing data for each variable of interest

Outcome data

15a

Report numbers of outcome events or summary measures

Main results

16

(a) Give unadjusted estimates and, if applicable, confounder-adjusted estimates and their precision (e.g., 95% CI). Make clear which confounders were adjusted for and why they were included

(b) Report category boundaries when continuous variables were categorized

(c) If relevant, consider translating estimates of relative risk into absolute risk for a meaningful time period

Other analyses

17

Report other analyses done (e.g., analyses of subgroups and interactions, and sensitivity analyses)

Discussion

Key results

18

Summarize key results with reference to study objectives.

Limitations

19

Discuss limitations of the study, taking into account sources of potential bias or imprecision. Discuss both direction and magnitude of any potential bias

Interpretation

20

Give a cautious overall interpretation of results considering objectives, limitations, multiplicity of analyses, results from similar studies, and other relevant evidence

Generalizability

21

Discuss the generalizability (external validity) of the study results

Other information

Funding

22

Give the source of funding and the role of the funders for the current study and, if applicable, for the original study on which the present article is based

  1. aGive information separately for exposed and unexposed groups
  2. An Explanation and Elaboration article discusses each checklist item and gives methodologic background and published examples of transparent reporting. The STROBE checklist is best used in conjunction with this article (freely available on the websites of PLoS Medicine at http://www.plosmedicine.org/, Annals of Internal Medicine at http://www.annals.org/, and Epidemiology at http://www.epidem.com/)
  3. Information on the STROBE initiative is available at www.strobe-statement.org

Appendix 4: Methodologic considerations of studies

Presentation of risk information

Choice survey designs

Analytical methods

Text only 1921,23

Opt-out alternative included (if unable to chose between treatments) 17,24

Conditional and multinomial logit models 17,24

Pictorial aids plus % of risk 24

Treatment alternatives identified as unlabeled 17,22,24

Mixed logit models and hierarchical Bayesian model 22

Visual bars showing number out of 100 experiencing side effects 22

 

Text plus risk (%) of side effects 17

Appendix 5: Quality assessment of included studies using ISPOR toola

Author

Well-defined research question

Choice of attributes/levels evidence based

Task construction appropriate

Choice of design justified and evaluated

Preferences elicited appropriate

Data collection design appropriate

Data collection plan appropriate

Statistical analysis and model estimations appropriate

Results and conclusions valid

Study presentation clear concise complete

Beusterien et al. 17

Partial

Partial

Partial

Partial

Partial

Partial

Huynh et al. 22b

Partial

Unknown

Unknown

Unknown

Unknown

Unknown

Partial

Unknown

Unknown

Unknown

Stenehjem et al. 24

Partial

Partial

Partial

Partial

  1. ISPOR International Society for Pharmacoeconomics and Outcomes Research
  2. aISPOR statement: a checklist for conjoint analysis applications in health care
  3. bHuynh study available only as an abstract, not as a full article

Appendix 6: Quality assessment of included studies using STROBE toola

First author surname, initials, publication year

Title and abstract

Introduction

Methods

Background

Objectives

Study design

Setting

Participants

Variables

Data sources

Bias

Study size

Quan variables

Stat methods

Bramlette et al. 18

Partial

Partial

X

Partial

Kaehler et al. 19

Partial

Partial

Partial

Partial

X

X

Partial

Kahler et al. 20

Partial

Partial

Partial

Partial

X

X

Partial

Kilbridge et al. 21

Partial

Partial

Krammer and Heinzerling 23

Partial

Partial

X

X

X

Partial

First author surname, initials, publication year

Title and abstract

Results

Discussion

Other info

Participants

Descrip data

Outcome data

Main results

Other analyses

Key results

Limit

Interpret

General

Funding

Bramlette et al. 18

Partial

Partial

Kaehler et al. 19

Partial

Partial

Partial

Partial

Kahler et al. 20

Partial

Partial

X

Kilbridge et al. 21

Partial

Partial

Partial

X

Krammer and Heinzerling 23

Partial

Partial

Partial

X

Partial

  1. STROBE statement—A checklist of items that should be included in reports of cross-sectional studies
  2. aSTROBE Strengthening the Reporting of Observational Studies in Epidemiology, Quan quantitative, Stat statistical, Descrip descriptive; Limit limitations, Interpret interpretation, General generalizability, Info information

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Livingstone, A., Agarwal, A., Stockler, M.R. et al. Preferences for Immunotherapy in Melanoma: A Systematic Review. Ann Surg Oncol 27, 571–584 (2020). https://doi.org/10.1245/s10434-019-07963-y

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