Add to ORKG. It is commonly stated that “any radiation dose, no matter how small, can cause cancer”. The basis for that statement is the linear-no threshold theory (LNT) of radiation carcinogenesis. According to LNT, if 1 Gy (100 rads) of exposure gives a cancer risk R, the risk from 0.01 G
When evaluating cancer risk of low-dose radiation, it is difficult to distinguish the actual effect ...
The “Linear No Threshold” hypothesis, used in all radiation protection practices, assumes that all d...
The current system of radiation protection for humans is based on the linear-no-threshold (LNT) risk...
The public fear of radiation is in part driven by the Linear No Threshold Hypothesis (LNTH), or the ...
The Linear No Threshold (LNT) hypothesis states that ionizing radiation risk is directly proportiona...
International audienceThe linear no-threshold (LNT) model was introduced into the radiological prote...
Current guidelines for limiting exposure of humans to ionizing radiation are based on the linear-no-...
Abstract—There is strong evidence that ionizing radiation increases cancer risks at high doses (e.g....
Absorption of energy from ionizing radiation by the genetic material in the cell leads to damage to ...
Ionizing radiation is considered a non-threshold carcinogen. However, quantifying the risk of the mo...
The Linear No Threshold (LNT) hypothesis states that ionizing radiation risk is directly proportiona...
Recent years there have been a number of discussions about the magnitude of the health risks resulti...
The Linear No Threshold (LNT) hypothesis states that ionizing radiation risk is direct-ly proportion...
Of the important health effects of ionizing radiation, three important late effects - carcinogenesis...
International audienceThe aim of the Joint Report of the two French Academies is to discuss the vali...
When evaluating cancer risk of low-dose radiation, it is difficult to distinguish the actual effect ...
The “Linear No Threshold” hypothesis, used in all radiation protection practices, assumes that all d...
The current system of radiation protection for humans is based on the linear-no-threshold (LNT) risk...
The public fear of radiation is in part driven by the Linear No Threshold Hypothesis (LNTH), or the ...
The Linear No Threshold (LNT) hypothesis states that ionizing radiation risk is directly proportiona...
International audienceThe linear no-threshold (LNT) model was introduced into the radiological prote...
Current guidelines for limiting exposure of humans to ionizing radiation are based on the linear-no-...
Abstract—There is strong evidence that ionizing radiation increases cancer risks at high doses (e.g....
Absorption of energy from ionizing radiation by the genetic material in the cell leads to damage to ...
Ionizing radiation is considered a non-threshold carcinogen. However, quantifying the risk of the mo...
The Linear No Threshold (LNT) hypothesis states that ionizing radiation risk is directly proportiona...
Recent years there have been a number of discussions about the magnitude of the health risks resulti...
The Linear No Threshold (LNT) hypothesis states that ionizing radiation risk is direct-ly proportion...
Of the important health effects of ionizing radiation, three important late effects - carcinogenesis...
International audienceThe aim of the Joint Report of the two French Academies is to discuss the vali...
When evaluating cancer risk of low-dose radiation, it is difficult to distinguish the actual effect ...
The “Linear No Threshold” hypothesis, used in all radiation protection practices, assumes that all d...
The current system of radiation protection for humans is based on the linear-no-threshold (LNT) risk...