Notes:

Volume 4

Journal of Pediatric Care

ISSN: 2471-805X

Page 16

JOINT EVENT

May 07-08, 2018 Frankfurt, Germany

&

3

rd

International Conference on

Pediatrics and Pediatric Surgery

22

nd

Edition of International Conference on

Neonatology and Perinatology

Inge Schmitz Feuerhake et al., J Pediatr Care, Volume 4

DOI: 10.21767/2471-805X-C2-008

The evidence of congenital malformations and Down´s syndrome after Chernobyl: who cares for

radiation protection of the unborn?

Inge Schmitz Feuerhake

and

Sebastian Pflugbeil

Society for Radiation Protection, Germany

I

n former times of radiation research the genetically significant dose was regarded as the main measure for protection in

diagnostic radiology, because the hereditary effects were considered to be the most dangerous sequelae and also the effects

in embryos and foetuses. There was also establishment of the 10 days rule in order to exclude exposure in the period of possible

pregnancy. The International Commission on Radiological Protection (ICRP), however, who is the leading expert board for

radiation protection in the developed countries, claims that the genetic radiation risk is nearly negligible and radiation-induced

effects after exposure in utero will not occur below doses of 100 mSv. They refer to reportedly absent effects in the acute

exposed Japanese A-bomb survivors and leave out the conditions in cases of low dose chronical exposure as for example by

radioactive contaminations. We review findings about increases of stillbirths, congenital malformations and Down´s syndrome

in a variety of European regions affected by Chernobyl fallout. They confirm former and later observations after occupational

exposure and diagnostic x-rays, which show high radiation risks for the descendants of exposed parents. Our conclusion is

that medical diagnostic radiation exposure in Germany has contributed to the rising rates of congenital malformations in this

country. Minimization of gonadal doses must become again a central aim in radiation diagnostics for children and patients in

reproductive ages. Current dose limits for occupational exposure and in pregnancy must be lowered considerably.

Biography

Inge Schmitz Feuerhake has completed her Doctorate in Physics in 1966 at the University of Hannover, Germany. She did research in Nuclear Medicine for seven

years at the Medical University of Hannover where she also was the Manager of a Nuclear Reactor for research. Since 1973, she is Professor of Medical Physics

at the University of Bremen, Germany, now in the status of retirement. She works in the field of Radiation Dosimetry and Radiation Effects. She has published more

than 50 papers in reputed journals.

ingesf@uni-bremen.de