This JAMA Oncology Patient Page discusses benefits and risks of local consolidative therapy for metastatic lung cancer and which patients might be considered for this treatment.

When a person coughs or sneezes, they expel a cloud of microscopic particles capable of carrying viruses and bacteria that act as vectors for respiratory diseases such as flu, COVID-19 or tuberculosis. Understanding how these aerosols disperse in the air is crucial for minimizing the transmission of pathogens in indoor spaces, but their dynamics are complex and depend on many factors: the force of the exhalation, the morphology of the respiratory system, the characteristics of the space, etc. Now, a new study led by researchers from the Universitat Rovira i Virgili has shown that temperature also plays an important role.

Their findings, published in Physics of Fluids, indicate that the difference between the temperature of exhaled air and that of the ambient air causes the cloud of particles to remain more concentrated and travel farther. The greater this difference, the more noticeable the effects are.

The research continues a line of work initiated by the URV’s ECoMMFiT research group, which developed a simulator capable of reproducing coughs and sneezes to study how respiratory aerosols disperse. As a result of that study, the team demonstrated that the nasal cavity significantly alters the trajectory of expelled particles. Now, the researchers have incorporated a new factor into the analysis: temperature.

A pioneering clinical trial has successfully enabled two patients with end-stage kidney disease to receive previously improbable kidney transplants. These individuals were considered among the most difficult in the nation to match with a compatible donor kidney due to harmful antibodies they had developed (“sensitized”).

Researchers at the University of Pennsylvania (Penn) used chimeric antigen receptor (CAR) T-cell therapy, originally developed at Penn for treatment of blood cancer, to significantly reduce the level of harmful immune antibodies in these two highly sensitized patients, making kidney transplantation possible after years of waiting. The study’s findings appear in the New England Journal of Medicine.

“This is the first demonstration that CAR T cells can be used not only to treat cancer, but also to help patients who previously had no opportunity to receive a compatible donor kidney,” said Ali Naji, MD, Ph.D., the Jonathan E. Rhoads Professor of Surgery and principal investigator of the study. “For patients who have spent years on the kidney transplant waiting list, this approach could be transformative.”