In the current international situation, there is the possibility of nuclear war and nuclear terrorism. The nuclear and radiological emergency in the event of an accident should be enhanced. The World Health Organization (WHO) issued a publication on January 27, 2023, updating the list of drugs recommended for stockpiling in response to radiation and nuclear emergencies, which was the first update since 2007. The list of recommended drug stocks in the publication includes drugs to prevent or reduce the effects of radiation, as well as drugs used to treat injuries after exposure. Based on the list of drugs, this article reviews the emergency response to nuclear and radiological accidents, the general situation of emergency drug stockpiles, drug reserves in some countries, and current considerations, with a view to providing references for emergency medical rescue in nuclear and radiological accidents in China.

Objective:To summarize the research progress on tissue damage, poisoning mechanism and treatment measures for the injury caused by liquid rocket propellant nitrogen tetroxide (N 2O 4) in China and foreign copuntries. Literature resource and selection The literatures published in the related fields at home and abroad. Literature quotation Fifty-one references were cited. Literature synthesis N 2O 4 is currently a commonly used liquid rocket propellant, which is a colorless gas or liquid and easy decomposition into nitrogen dioxide. It has the characteristics of flammability, explosive, strong oxidation and toxicity. In the process of propellant transportation and usage, poisoning and explosion accidents caused by N 2O 4 leakage occurred from time to time, which seriously threatened the physical and mental health of employees. Early inhalation of N 2O 4 may cause eye and respiratory tract irritation, and severe ones included pulmonary edema and acute respiratory distress syndrome. Long-term exposure may lead to idiopathic pulmonary fibrosis, and the difficulty of treatment N 2O 4 for poisoning patients was increasedwheninjured by the blast of the explosion at the same time. A large number of experimental studies have shown that vitamins E and radix salviaemiltiorrhizae (RSM) can reduce oxidative stress and inflammatory responses induced by N 2O 4. However, due to the lack of specific antidotes in actual treatment, symptomatic treatments such as oxygen administration and correction of pulmonary edema were often used. Conclusions:N 2O 4 poisoning can cause acute respiratory system damage, such as respiratory tract inflammation and pulmonary edema and also lead to chronic diseases, such as fibrosis or other organ damages. Symptomatic and supported treatment is often used in the process of treatment. It indicated that further study of N 2O 4is needed to clarify the molecular mechanism of its action, so as to provide help for clinical treatment.

Objective:To summarize the research progress on tissue damage, poisoning mechanism and treatment measures for the injury caused by liquid rocket propellant nitrogen tetroxide (N 2O 4) in China and foreign copuntries. Literature resource and selection The literatures published in the related fields at home and abroad. Literature quotation Fifty-one references were cited. Literature synthesis N 2O 4 is currently a commonly used liquid rocket propellant, which is a colorless gas or liquid and easy decomposition into nitrogen dioxide. It has the characteristics of flammability, explosive, strong oxidation and toxicity. In the process of propellant transportation and usage, poisoning and explosion accidents caused by N 2O 4 leakage occurred from time to time, which seriously threatened the physical and mental health of employees. Early inhalation of N 2O 4 may cause eye and respiratory tract irritation, and severe ones included pulmonary edema and acute respiratory distress syndrome. Long-term exposure may lead to idiopathic pulmonary fibrosis, and the difficulty of treatment N 2O 4 for poisoning patients was increasedwheninjured by the blast of the explosion at the same time. A large number of experimental studies have shown that vitamins E and radix salviaemiltiorrhizae (RSM) can reduce oxidative stress and inflammatory responses induced by N 2O 4. However, due to the lack of specific antidotes in actual treatment, symptomatic treatments such as oxygen administration and correction of pulmonary edema were often used. Conclusions:N 2O 4 poisoning can cause acute respiratory system damage, such as respiratory tract inflammation and pulmonary edema and also lead to chronic diseases, such as fibrosis or other organ damages. Symptomatic and supported treatment is often used in the process of treatment. It indicated that further study of N 2O 4is needed to clarify the molecular mechanism of its action, so as to provide help for clinical treatment.