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Questions Remain After Machine Gun Arrest on Election Day

Police released this photo of a machine gun confiscated when two men were arrested at the Kingsbridge Road Station on Election Day November 5. -Photo courtesy of the NYPD By David Greene  Bronx Voice  November 18, 2024  Follow @Bronxvoice1 BRONX - Many questions remain after police announced that two men were arrested in the New York City Transit System on Election Day—One carrying a machine gun with 25 rounds of ammunition. According to police, the incident unfolded at the Kingsbridge Road Station along the Grand Concourse at 4:30 p.m. on November 5, when officers from the 52 nd Precinct observed a trespasser inside an unauthorized area of the system. A police source told the Bronx Voice, “Officers approached the male on the northbound platform and repeatedly requested his identification which the male refused to provide.” The source continued, “During a brief struggle, a loaded and defaced Palmetto State Armory PA-15 firearm fell out

Simple Antibacterial Treatment Solves a Severe Skin Problem Caused by Radiation Therapy

Researchers say a simple anitbacterial treatment can help with skin problems caused by one form of cancer treatement. -File Photo
 

Montefiore Einstein Cancer Center Study Shows that a Low-cost Antibacterial Regimen


Can Prevent Acute Radiation Dermatitis

 

BRONX - Acute radiation dermatitis (ARD)—characterized by red, sore, itchy or peeling skin—affects up to 95% of people undergoing radiation treatment for cancer. Severe cases can cause significant swelling and painful skin ulcers that can severely impair quality of life, yet little is known about why this condition occurs and no standardized treatments for preventing severe ARD have been widely adapted.




 

Researchers at Montefiore Einstein Cancer Center (MECC) have found that many cases of ARD involve a common skin bacterium and that a simple, low-cost treatment can prevent severe cases, potentially setting a new standard of care for people undergoing radiation therapy. Their findings were reported in two papers published today in JAMA Oncology. Each year, 10 million people are treated with radiation therapy to reduce the size of their tumors.




“Until now, ARD was assumed to result simply from the skin being burned by the radiation, which meant that not much could be done to prevent it,” said Beth N. McLellan, M.D. director, supportive oncodermatology at Montefiore Einstein Cancer Center, chief of the division of dermatology at Montefiore Health System and Albert Einstein College of Medicine, and senior author of the two studies. 




“The readily available treatment we’ve developed and clinically tested could potentially save hundreds of thousands of people each year in the U.S. from severe ARD and its excruciating side effects.”


 

Identifying the Source


Staphylococcus aureus (SA) bacteria, often shortened to “staph,” typically live harmlessly on the skin, often in the nose and armpits. But, they can cause infections if the skin is broken by a cut. Radiation weakens the skin’s structure at the treatment site and can result in infection by allowing SA to break through the skin’s outer layer. Courses of radiation therapy—routinely requiring daily treatments over several weeks—increase the risk for skin infection to occur.





Since SA is implicated in common skin disorders that lead to a breakdown in the skin such as eczema, Dr. McLellan and her colleagues reasoned that the bacteria might also play a role in ARD. In one of the JAMA Oncology studies, the MECC researchers enrolled 76 patients undergoing radiation therapy for cancer. Bacterial cultures were collected from patients before and after radiation treatment, from three different body sites: inside the nose, from skin in the radiated area, and from skin on the side of the body not exposed to radiation.


 

Before treatment, approximately 20% of patients tested positive for SA but did not have an active infection. Following treatment, 48% of those patients who developed severe ARD tested positive for the presence of SA, compared with only 17% of patients who developed the mildest form of the condition. Many patients with SA on their skin also tested positive for nasal SA, suggesting that SA from the nose might be infecting the skin.




 

“This study clearly showed that SA plays a major role in ARD,” said Dr. McLellan. “The good news is we have a lot of tools to fight this bacteria. In a second study, we tested a topical antibacterial drug combination we thought would be effective and easy for people to use.”

 

Preventing Severe ARD


The second study enrolled 77 patients undergoing radiation therapy, all but two of whom had breast cancer. Participants were randomized to receive either the standard of care at MECC (normal hygiene and moisturizing treatment such as Aquaphor), or the experimental antibacterial regimen. This treatment involved using the body cleanser chlorhexidine along with mupirocin 2% nasal ointment twice a day for five days, every other week, throughout their radiation treatment.

 

Although more than half the patients treated with the antibacterial regimen developed mild-to-moderate ARD, no patients developed moist desquamation—the most severe type of ARD that causes the skin to break down and develop sores—and no patients experienced adverse effects from the treatment. In contrast, severe ARD affected 23% of participants receiving the standard of care.

 

“Our regimen is simple, inexpensive, and easy so we believe it should be used for everyone undergoing radiation therapy, with no need to first test individuals for SA,” said Dr. McLellan. “I expect this will completely change protocols for people undergoing radiation therapy for breast cancer.”




 

Dr. McLellan also noted: “Like most of our trials at MECC, a majority of our participants were Black and Hispanic members of our community, meaning this protocol is generalizable and effective for people of different races and ethnicities. This is especially important because people with darker skin types are more likely to develop severe ARD.” 

 

The papers are titled “Staphylococcus aureus colonization predicts severity of acute radiation dermatitis” and “Bacterial decolonization for prevention of radiation dermatitis: a randomized clinical trial.” Co-authors on both papers include: Yana Kost, B.A., Alana Deutsch, M.D., Nitin Ohri, M.D., M.S., H. Dean Hosgood, Ph.D., Johanna P. Daily, M.D., M.S. and Kosaku Shinoda, Ph.D. Additionally, Alexandra K. Rzepecki, M.D., and Mathew R. Birnbaum contributed to the S. aureus paper. Karolina Mieczkowska, M.D., Roya Nazarian, Ahava Muskat, B.S., Juan Lin, Ph.D., and Rafi Kabaritti, M.D., also contributed to the bacterial decolonization paper.

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