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Meta-Analysis
. 2024 Mar 27;80(2):ujae038.
doi: 10.1093/biomtc/ujae038.

Bayesian meta-analysis of penetrance for cancer risk

Thanthirige Lakshika M Ruberu  1 Danielle Braun  2   3 Giovanni Parmigiani  2   3 Swati Biswas  1
Affiliations
Meta-Analysis

Bayesian meta-analysis of penetrance for cancer risk

Thanthirige Lakshika M Ruberu et al. Biometrics. .

Abstract

Multi-gene panel testing allows many cancer susceptibility genes to be tested quickly at a lower cost making such testing accessible to a broader population. Thus, more patients carrying pathogenic germline mutations in various cancer-susceptibility genes are being identified. This creates a great opportunity, as well as an urgent need, to counsel these patients about appropriate risk-reducing management strategies. Counseling hinges on accurate estimates of age-specific risks of developing various cancers associated with mutations in a specific gene, ie, penetrance estimation. We propose a meta-analysis approach based on a Bayesian hierarchical random-effects model to obtain penetrance estimates by integrating studies reporting different types of risk measures (eg, penetrance, relative risk, odds ratio) while accounting for the associated uncertainties. After estimating posterior distributions of the parameters via a Markov chain Monte Carlo algorithm, we estimate penetrance and credible intervals. We investigate the proposed method and compare with an existing approach via simulations based on studies reporting risks for two moderate-risk breast cancer susceptibility genes, ATM and PALB2. Our proposed method is far superior in terms of coverage probability of credible intervals and mean square error of estimates. Finally, we apply our method to estimate the penetrance of breast cancer among carriers of pathogenic mutations in the ATM gene.

Keywords: ATM gene; Bayesian hierarchical model; PALB2 gene; multi-gene panel testing; odds ratio; relative risk.

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Conflict of interest statement

None declared.

Figures

FIGURE 1
FIGURE 1
(a): Penetrance estimate for ATM-BC. (b): Comparison of the penetrance curves.
FIGURE 2
FIGURE 2
Approximate Weibull distributions for the risk estimates from 17 studies. The number in the legend corresponds to the study index in Table 3.
See this image and copyright information in PMC

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References

    1. Acevedo F., Deng Z., Armengol V. D., Hughes K. (2018). Managing patient with mutations in PALB2, CHEK2, or ATM. Current Breast Cancer Reports, 10, 74–82.
    1. Aloraifi F., McCartan D., McDevitt T., Green A. J., Bracken A., Geraghty J. (2015). Protein-truncating variants in moderate-risk breast cancer susceptibility genes: a meta-analysis of high-risk case-control screening studies. Cancer Genetics, 208, 455–463. - PubMed
    1. Andrieu N., Cavaciuti E., Laugé A., Ossian K., Janin N., Hall J. et al. (2005). Ataxia–telangiectasia genes and breast cancer risk in a French family study. Journal of Dairy Research, 72, 73–80. - PubMed
    1. Antoniou A. C., Casadei S., Heikkinen T., Barrowdale D., Pylkäs K., Roberts J. et al. (2014). Breast-cancer risk in families with mutations in PALB2. The New England Journal of Medicine, 371, 497–506. - PMC - PubMed
    1. Braun D., Yang J., Griffin M., Parmigiani G., Hughes K. S. (2018). A clinical decision support tool to predict cancer risk for commonly tested cancer-related germline mutations. Journal of Genetic Counselling, 27, 1187–1199. - PMC - PubMed

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