SMARCA4 regulates the NK-mediated killing of senescent cells.

Induction of senescence by chemotherapeutic agents arrests cancer cells and activates immune surveillance responses to contribute to therapy outcomes. In this investigation, we searched for ways to enhance the NK-mediated elimination of senescent cells. We used a staggered screen approach, first identifying siRNAs potentiating the secretion of immunomodulatory cytokines to later test for their ability to enhance NK-mediated killing of senescent cells.

Reducing UVR Exposure in Pregnant Women and Infants: A Pilot Study.

Sun protection during pregnancy is critical for both maternal and infant skin cancer prevention, yet gaps remain in addressing this behavior in pre and postnatal settings. This pilot study aimed to evaluate the feasibility and acceptability of a peer-led intervention for expectant mothers' sun protection behaviors for themselves and their newborns and examine the preliminary effects on mothers' skin cancer knowledge, attitudes, and sun protection behaviors for themselves and their infants. Expectant mothers were recruited from medical clinics and community settings and were asked to complete surveys and interviews.

Preliminary effects of a rural skin cancer prevention intervention for youths.

Objectives: To pilot and assess the feasibility, acceptability, and preliminary effects of the Rural Adult and Youth Sun (RAYS) protection program, a multilevel skin cancer preventive intervention for young children living in rural U.S. communities, delivered through community-organized team sports.

The Family Lifestyles, Actions and Risk Education (FLARE) study: Protocol for a randomized controlled trial of a sun protection intervention for children of melanoma survivors.

Background: Children of parents who had melanoma are more likely to develop skin cancer themselves owing to shared familial risks. The prevention of sunburns and promotion of sun-protective behaviors are essential to control cancer among these children. The Family Lifestyles, Actions and Risk Education (FLARE) intervention will be delivered as part of a randomized controlled trial to support parent-child collaboration to improve sun safety outcomes among children of melanoma survivors.

Viral Disinfection of Porous Fomites Utilizing a Bacteriophage Model and Chlorine Dioxide Gas.

The pursuit of disinfecting porous materials or fomites to inactivate viral agents has special challenges. To address these challenges, a highly portable chlorine dioxide (ClO) gas generation system was used to ascertain the ability of a gaseous preparation to inactivate a viral agent, the MS2 bacteriophage, when associated with potentially porous fomites of cloth, paper towel, and wood. The MS2 bacteriophage is increasingly used as a model to identify means of inactivating infectious viral agents of significance to humans.