Identifying victims after a disaster can offer closure to loved ones. AP Photo/Jae C. HongFire devastates communities and families, and it makes identification of victims challenging. In the aftermath of the wildfire that swept through Lahaina, Hawaii, officials are collecting DNA samples from relatives of missing persons in the hope that this can aid in identifying those who died in the fire. But how well does DNA hold up under such extreme conditions, and what is the best way to recover DNA fr
Diffusing alpha-emitters radiation Therapy (DaRT) is an interstitial brachytherapy technique using 224Ra seeds. For accurate treatment planning a good understanding of the early DNA damage due to α-particles is required. Geant4-DNA was used to calculate the initial DNA damage and radiobiological effectiveness due to α-particles with linear energy transfer (LET) values in the range 57.5–225.9 keV/μm from the 224Ra decay chain. The impact of DNA base pair density on DNA damage has been modelled, as this parameter varies between human cell lines. Results show that the quantity and complexity of DNA damage changes with LET as expected. Indirect damage, due to water radical reactions with the DNA, decreases and becomes less significant at higher LET values as shown in previous studies. As expected, the yield of complex double strand breaks (DSBs), which are harder for a cell to repair, increases approximately linearly with LET. The level of complexity of DSBs and radiobiological effect
The National Cancer Institute (NCI) has awarded a 5-year, $2.7 million grant to researchers at Sanford Burnham Prebys to investigate and elucidate the underlying cellular mechanisms that drive the most common form of breast cancer.