Calculating the Rate of Senescence From Mortality Data: An Analysis of Data From the ERA-EDTA Registry

Jacob J E Koopman; Maarten P Rozing; Anneke Kramer; José M Abad; Patrik Finne; James G Heaf; Andries J Hoitsma; Johan M J De Meester; Runolfur Palsson; Maurizio Postorino; Pietro Ravani; Christoph Wanner; Kitty J Jager; David van Bodegom; Rudi G J Westendorp

doi:10.1093/gerona/glv042

Calculating the Rate of Senescence From Mortality Data: An Analysis of Data From the ERA-EDTA Registry

Jacob J E Koopman, Maarten P Rozing, Anneke Kramer, José M Abad, Patrik Finne, James G Heaf, Andries J Hoitsma, Johan M J De Meester, Runolfur Palsson, Maurizio Postorino, Pietro Ravani, Christoph Wanner, Kitty J Jager, David van Bodegom, Rudi G J Westendorp

4 Citations (Scopus)

Abstract

The rate of senescence can be inferred from the acceleration by which mortality rates increase over age. Such a senescence rate is generally estimated from parameters of a mathematical model fitted to these mortality rates. However, such models have limitations and underlying assumptions. Notably, they do not fit mortality rates at young and old ages. Therefore, we developed a method to calculate senescence rates from the acceleration of mortality directly without modeling the mortality rates. We applied the different methods to age group-specific mortality data from the European Renal Association-European Dialysis and Transplant Association Registry, including patients with end-stage renal disease on dialysis, who are known to suffer from increased senescence rates (n = 302,455), and patients with a functioning kidney transplant (n = 74,490). From age 20 to 70, senescence rates were comparable when calculated with or without a model. However, when using non-modeled mortality rates, senescence rates were yielded at young and old ages that remained concealed when using modeled mortality rates. At young ages senescence rates were negative, while senescence rates declined at old ages. In conclusion, the rate of senescence can be calculated directly from non-modeled mortality rates, overcoming the disadvantages of an indirect estimation based on modeled mortality rates.

Original language	English
Journal	Journals of Gerontology. Series A: Biological Sciences & Medical Sciences
Volume	71
Issue number	4
Pages (from-to)	468-474
Number of pages	7
ISSN	1079-5006
DOIs	https://doi.org/10.1093/gerona/glv042
Publication status	Published - 1 Apr 2016

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Koopman, J. J. E., Rozing, M. P., Kramer, A., Abad, J. M., Finne, P., Heaf, J. G., Hoitsma, A. J., De Meester, J. M. J., Palsson, R., Postorino, M., Ravani, P., Wanner, C., Jager, K. J., van Bodegom, D., & Westendorp, R. G. J. (2016). Calculating the Rate of Senescence From Mortality Data: An Analysis of Data From the ERA-EDTA Registry. Journals of Gerontology. Series A: Biological Sciences & Medical Sciences, 71(4), 468-474. https://doi.org/10.1093/gerona/glv042

Calculating the Rate of Senescence From Mortality Data : An Analysis of Data From the ERA-EDTA Registry. / Koopman, Jacob J E; Rozing, Maarten P; Kramer, Anneke et al.

In: Journals of Gerontology. Series A: Biological Sciences & Medical Sciences, Vol. 71, No. 4, 01.04.2016, p. 468-474.

Research output: Contribution to journal › Journal article › Research › peer-review

Koopman, JJE, Rozing, MP, Kramer, A, Abad, JM, Finne, P, Heaf, JG, Hoitsma, AJ, De Meester, JMJ, Palsson, R, Postorino, M, Ravani, P, Wanner, C, Jager, KJ, van Bodegom, D & Westendorp, RGJ 2016, 'Calculating the Rate of Senescence From Mortality Data: An Analysis of Data From the ERA-EDTA Registry', Journals of Gerontology. Series A: Biological Sciences & Medical Sciences, vol. 71, no. 4, pp. 468-474. https://doi.org/10.1093/gerona/glv042

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title = "Calculating the Rate of Senescence From Mortality Data: An Analysis of Data From the ERA-EDTA Registry",

abstract = "The rate of senescence can be inferred from the acceleration by which mortality rates increase over age. Such a senescence rate is generally estimated from parameters of a mathematical model fitted to these mortality rates. However, such models have limitations and underlying assumptions. Notably, they do not fit mortality rates at young and old ages. Therefore, we developed a method to calculate senescence rates from the acceleration of mortality directly without modeling the mortality rates. We applied the different methods to age group-specific mortality data from the European Renal Association-European Dialysis and Transplant Association Registry, including patients with end-stage renal disease on dialysis, who are known to suffer from increased senescence rates (n = 302,455), and patients with a functioning kidney transplant (n = 74,490). From age 20 to 70, senescence rates were comparable when calculated with or without a model. However, when using non-modeled mortality rates, senescence rates were yielded at young and old ages that remained concealed when using modeled mortality rates. At young ages senescence rates were negative, while senescence rates declined at old ages. In conclusion, the rate of senescence can be calculated directly from non-modeled mortality rates, overcoming the disadvantages of an indirect estimation based on modeled mortality rates.",

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AU - Koopman, Jacob J E

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AU - Kramer, Anneke

AU - Abad, José M

AU - Finne, Patrik

AU - Heaf, James G

AU - Hoitsma, Andries J

AU - De Meester, Johan M J

AU - Palsson, Runolfur

AU - Postorino, Maurizio

AU - Ravani, Pietro

AU - Wanner, Christoph

AU - Jager, Kitty J

AU - van Bodegom, David

AU - Westendorp, Rudi G J

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N2 - The rate of senescence can be inferred from the acceleration by which mortality rates increase over age. Such a senescence rate is generally estimated from parameters of a mathematical model fitted to these mortality rates. However, such models have limitations and underlying assumptions. Notably, they do not fit mortality rates at young and old ages. Therefore, we developed a method to calculate senescence rates from the acceleration of mortality directly without modeling the mortality rates. We applied the different methods to age group-specific mortality data from the European Renal Association-European Dialysis and Transplant Association Registry, including patients with end-stage renal disease on dialysis, who are known to suffer from increased senescence rates (n = 302,455), and patients with a functioning kidney transplant (n = 74,490). From age 20 to 70, senescence rates were comparable when calculated with or without a model. However, when using non-modeled mortality rates, senescence rates were yielded at young and old ages that remained concealed when using modeled mortality rates. At young ages senescence rates were negative, while senescence rates declined at old ages. In conclusion, the rate of senescence can be calculated directly from non-modeled mortality rates, overcoming the disadvantages of an indirect estimation based on modeled mortality rates.

AB - The rate of senescence can be inferred from the acceleration by which mortality rates increase over age. Such a senescence rate is generally estimated from parameters of a mathematical model fitted to these mortality rates. However, such models have limitations and underlying assumptions. Notably, they do not fit mortality rates at young and old ages. Therefore, we developed a method to calculate senescence rates from the acceleration of mortality directly without modeling the mortality rates. We applied the different methods to age group-specific mortality data from the European Renal Association-European Dialysis and Transplant Association Registry, including patients with end-stage renal disease on dialysis, who are known to suffer from increased senescence rates (n = 302,455), and patients with a functioning kidney transplant (n = 74,490). From age 20 to 70, senescence rates were comparable when calculated with or without a model. However, when using non-modeled mortality rates, senescence rates were yielded at young and old ages that remained concealed when using modeled mortality rates. At young ages senescence rates were negative, while senescence rates declined at old ages. In conclusion, the rate of senescence can be calculated directly from non-modeled mortality rates, overcoming the disadvantages of an indirect estimation based on modeled mortality rates.

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Calculating the Rate of Senescence From Mortality Data: An Analysis of Data From the ERA-EDTA Registry

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