Association Between Prevalence of Peripheral Artery Disease and Radiation Exposure in the Atomic Bomb Survivors

doi:10.1161/JAHA.118.008921

. 2018 Dec 4;7(23):e008921.

doi: 10.1161/JAHA.118.008921.

Association Between Prevalence of Peripheral Artery Disease and Radiation Exposure in the Atomic Bomb Survivors

Affiliations

¹ 1 Department of Clinical Studies Radiation Effects Research Foundation (RERF) Hiroshima Japan.
² 2 Department of Statistics Radiation Effects Research Foundation (RERF) Hiroshima Japan.
³ 3 Department of Clinical Studies Radiation Effects Research Foundation (RERF) Nagasaki Japan.
⁴ 4 Department of Clinical Neuroscience and Therapeutics Hiroshima University Hiroshima Japan.
⁵ 6 Hiroshima Atomic-bomb Casualty Council Hiroshima Japan.
⁶ 7 Japan Community Health care Organization Hoshigaoka Medical Center Osaka Japan.
⁷ 5 Department of Cardiovascular Medicine Hiroshima University Hiroshima Japan.

PMID: 30486720
PMCID: PMC6405541
DOI: 10.1161/JAHA.118.008921

Association Between Prevalence of Peripheral Artery Disease and Radiation Exposure in the Atomic Bomb Survivors

Ikuno Takahashi et al. J Am Heart Assoc. 2018.

. 2018 Dec 4;7(23):e008921.

doi: 10.1161/JAHA.118.008921.

Authors

Affiliations

¹ 1 Department of Clinical Studies Radiation Effects Research Foundation (RERF) Hiroshima Japan.
² 2 Department of Statistics Radiation Effects Research Foundation (RERF) Hiroshima Japan.
³ 3 Department of Clinical Studies Radiation Effects Research Foundation (RERF) Nagasaki Japan.
⁴ 4 Department of Clinical Neuroscience and Therapeutics Hiroshima University Hiroshima Japan.
⁵ 6 Hiroshima Atomic-bomb Casualty Council Hiroshima Japan.
⁶ 7 Japan Community Health care Organization Hoshigaoka Medical Center Osaka Japan.
⁷ 5 Department of Cardiovascular Medicine Hiroshima University Hiroshima Japan.

PMID: 30486720
PMCID: PMC6405541
DOI: 10.1161/JAHA.118.008921

Abstract

Background Past reports suggested that total-body irradiation at 0.5 to 1.0 Gy could be responsible for atherosclerosis. Peripheral artery disease ( PAD ) is a manifestation of systematic atherosclerosis. Whether the consequences of a low-to-moderate dose of radiation include increased risk of PAD remains to be determined. The purpose of this study was to examine the association between radiation exposure and prevalence of PAD among Japanese atomic bomb survivors. Methods and Results Radiation exposure from the atomic bombing was assessed in 3476 participants (41.1% men, mean age 74.8 years with SD 6.4 years) with a cross-sectional survey in 2010 to 2014. Left- and right-side ankle-brachial indexes and upstroke time ( UT ) were obtained using oscillometric VP -2000. PAD was defined as an ankle-brachial index of 1.0 or less or a prior history related to revascularization. UT was considered a sensitive marker of early-stage PAD . Association between radiation exposure and PAD or UT was assessed using multivariable regression analyses with adjustment for potential confounding factors. Of 3476 participants, 79 (2.3%) were identified as having prevalent PAD . Multivariate logistic regression analysis indicated that radiation dose was unrelated to PAD prevalence (odds ratio, 0.83; 95% confidence interval [0.57-1.21]). UT appeared to increase with radiation dose, but the increase was not statistically significant (1.09 ms/Gy; 95% confidence interval [-0.17 to 2.36]). Conclusions We found no clear association of radiation dose with PAD , but it remains to be determined whether UT is associated with radiation dose.

Keywords: peripheral artery disease; radiation risk.

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Figures

**Figure 1**
Upstroke time (UT) by radiation dose—The Adult Health Study (n=3476).* A nonparametric dose–response curve based on fractional‐polynomial smoothing, with predicted mean values of UT obtained from the generalized estimating equation model using dose groups. Dose groups were defined by the cut points 0, 0.001, 0.01, 0.1, 0.2, 0.5, 1.0, and 2.0. Both the estimated dose response and its lower confidence band give the suggestion of a trend with increasing dose level, consistent with the regression term for continuous dose (Tables 2 and 3). Mean UT () and 95% confidence intervals (+) for dose group are illustrated. *Of 3476 participants, 3217 were available for analyses focusing on radiation effects because of missing radiation dose estimates.

formula image — **Figure 1**
Upstroke time (UT) by radiation dose—The Adult Health Study (n=3476).* A nonparametric dose–response curve based on fractional‐polynomial smoothing, with predicted mean values of UT obtained from the generalized estimating equation model using dose groups. Dose groups were defined by the cut points 0, 0.001, 0.01, 0.1, 0.2, 0.5, 1.0, and 2.0. Both the estimated dose response and its lower confidence band give the suggestion of a trend with increasing dose level, consistent with the regression term for continuous dose (Tables 2 and 3). Mean UT () and 95% confidence intervals (+) for dose group are illustrated. *Of 3476 participants, 3217 were available for analyses focusing on radiation effects because of missing radiation dose estimates.

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References

1. Takahashi I, Shimizu Y, Grant EJJ, Cologne J, Ozasa K, Kodama K. Heart disease mortality in the life span study, 1950–2008. Radiat Res. 2017;187:319–332. - PubMed
1. Shimizu Y, Kodama K, Nishi N, Kasagi F, Suyama A, Soda M, Grant EJ, Sugiyama H, Sakata R, Moriwaki H, Hayashi M, Konda M, Shore RE. Radiation exposure and circulatory disease risk: Hiroshima and Nagasaki atomic bomb survivor data, 1950–2003. BMJ. 2010;340:b5349. - PMC - PubMed
1. Little MP, Azizova TV, Bazyka D, Bouffler SD, Cardis E, Chekin S, Chumak VV, Cucinotta FA, de Vathaire F, Hall P, Harrison JD, Hildebrandt G, Ivanov V, Kashcheev VV, Klymenko SV, Kreuzer M, Laurent O, Ozasa K, Schneider T, Tapio S, Taylor AM, Tzoulaki I, Vandoolaeghe WL, Wakeford R, Zablotska LB, Zhang W, Lipshultz SE. Systematic review and meta‐analysis of circulatory disease from exposure to low‐level ionizing radiation and estimates of potential population mortality risks. Env Health Perspect. 2012;120:1503–1511. - PMC - PubMed
1. Gillies M, Richardson DB, Cardis E, Daniels RD, O'Hagan JA, Haylock R, Laurier D, Leuraud K, Moissonnier M, Schubauer‐Berigan MK, Thierry‐Chef I, Kesminiene A. Mortality from circulatory diseases and other non‐cancer outcomes among nuclear workers in France, the United Kingdom and the United States (INWORKS). Radiat Res. 2017;188:276–290. - PMC - PubMed
1. Bhargavan M. Trends in the utilization of medical procedures that use ionizing radiation. Health Phys. 2008;95:612–627. - PubMed

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[1] Takahashi I, Shimizu Y, Grant EJJ, Cologne J, Ozasa K, Kodama K. Heart disease mortality in the life span study, 1950–2008. Radiat Res. 2017;187:319–332. - PubMed

[2] Takahashi I, Shimizu Y, Grant EJJ, Cologne J, Ozasa K, Kodama K. Heart disease mortality in the life span study, 1950–2008. Radiat Res. 2017;187:319–332. - PubMed

[3] Shimizu Y, Kodama K, Nishi N, Kasagi F, Suyama A, Soda M, Grant EJ, Sugiyama H, Sakata R, Moriwaki H, Hayashi M, Konda M, Shore RE. Radiation exposure and circulatory disease risk: Hiroshima and Nagasaki atomic bomb survivor data, 1950–2003. BMJ. 2010;340:b5349. - PMC - PubMed

[4] Shimizu Y, Kodama K, Nishi N, Kasagi F, Suyama A, Soda M, Grant EJ, Sugiyama H, Sakata R, Moriwaki H, Hayashi M, Konda M, Shore RE. Radiation exposure and circulatory disease risk: Hiroshima and Nagasaki atomic bomb survivor data, 1950–2003. BMJ. 2010;340:b5349. - PMC - PubMed

[5] Little MP, Azizova TV, Bazyka D, Bouffler SD, Cardis E, Chekin S, Chumak VV, Cucinotta FA, de Vathaire F, Hall P, Harrison JD, Hildebrandt G, Ivanov V, Kashcheev VV, Klymenko SV, Kreuzer M, Laurent O, Ozasa K, Schneider T, Tapio S, Taylor AM, Tzoulaki I, Vandoolaeghe WL, Wakeford R, Zablotska LB, Zhang W, Lipshultz SE. Systematic review and meta‐analysis of circulatory disease from exposure to low‐level ionizing radiation and estimates of potential population mortality risks. Env Health Perspect. 2012;120:1503–1511. - PMC - PubMed

[6] Little MP, Azizova TV, Bazyka D, Bouffler SD, Cardis E, Chekin S, Chumak VV, Cucinotta FA, de Vathaire F, Hall P, Harrison JD, Hildebrandt G, Ivanov V, Kashcheev VV, Klymenko SV, Kreuzer M, Laurent O, Ozasa K, Schneider T, Tapio S, Taylor AM, Tzoulaki I, Vandoolaeghe WL, Wakeford R, Zablotska LB, Zhang W, Lipshultz SE. Systematic review and meta‐analysis of circulatory disease from exposure to low‐level ionizing radiation and estimates of potential population mortality risks. Env Health Perspect. 2012;120:1503–1511. - PMC - PubMed

[7] Gillies M, Richardson DB, Cardis E, Daniels RD, O'Hagan JA, Haylock R, Laurier D, Leuraud K, Moissonnier M, Schubauer‐Berigan MK, Thierry‐Chef I, Kesminiene A. Mortality from circulatory diseases and other non‐cancer outcomes among nuclear workers in France, the United Kingdom and the United States (INWORKS). Radiat Res. 2017;188:276–290. - PMC - PubMed

[8] Gillies M, Richardson DB, Cardis E, Daniels RD, O'Hagan JA, Haylock R, Laurier D, Leuraud K, Moissonnier M, Schubauer‐Berigan MK, Thierry‐Chef I, Kesminiene A. Mortality from circulatory diseases and other non‐cancer outcomes among nuclear workers in France, the United Kingdom and the United States (INWORKS). Radiat Res. 2017;188:276–290. - PMC - PubMed

[9] Bhargavan M. Trends in the utilization of medical procedures that use ionizing radiation. Health Phys. 2008;95:612–627. - PubMed

[10] Bhargavan M. Trends in the utilization of medical procedures that use ionizing radiation. Health Phys. 2008;95:612–627. - PubMed

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Association Between Prevalence of Peripheral Artery Disease and Radiation Exposure in the Atomic Bomb Survivors

Affiliations

Association Between Prevalence of Peripheral Artery Disease and Radiation Exposure in the Atomic Bomb Survivors

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Abstract

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