If you’ve ever had a surgery or even a minor procedure, you’ve probably benefited from the medical marvel of anesthesia—the treatment that doctors, called anesthesiologists, give to keep you from feeling pain. And it’s come a long way since the discovery of diethyl ether. Here we dive into the different types, its history, and the way it works.

The chemistry of anesthetics has advanced since the 1840s, producing different types of anesthesia depending on the compounds involved. See more chemistry infographics like this one in C&EN’s Periodic Graphics collection. Click to enlarge.

“I’m Pink Phoenix, leader of the Vetahumanz League of superheroes, and it’s the best job in the world.” The League of VetaHumanz is a superhero league for veterinarians, founded and led by Pink Phoenix, the alter ego of Sandra San Miguel, D.V.M., Ph.D. Through support from the NIGMS Science Education Partnership Award (SEPA) program, the league seeks to diversify the veterinary profession.

Members of the league work with elementary students across the country to give them a sense of belonging to the veterinary profession. “I’m most proud of bringing people together who share the mission and vision with all their heart,” Pink Phoenix remarks. “Nobody can just be a member of the league. You have to earn the cape.” The league has over 400 certified role models throughout the country who are either veterinarians—VetaHumanz—or veterinary school students—VetaHumanz in training.

“You’re doing something really important with people who are important to you,” Paul Worsley remarks when asked about having his younger brothers Caleb and Adam as lab mates. The trio are undergraduate students working in the lab of Santimukul Santra, Ph.D., at Pittsburg State University in Pittsburg, Kansas.

All three brothers are part of the Kansas IDeA Networks of Biomedical Research Excellence (K-INBRE). Paul is currently a junior majoring in biology and history. He plans to go to medical school when he graduates, but his time in the lab has given him a love for research—and has even led him to toy with the idea of going to graduate school instead. His twin brothers Caleb and Adam are only freshmen, but they both think they want to pursue scientific research when they graduate.

When Paul was a sophomore, he applied for a K-INBRE research spot in Dr. Santra’s lab and was immediately accepted. He quickly realized that organic chemistry in the lab was much different—and more exciting—than anything he’d seen in the classroom. “I like organic synthesis because it really tests your knowledge,” he says. “Answering exam questions is way different than actually doing it in a lab.” Despite the challenges that came with research, Paul was clearly doing great work because one day Dr. Santra joked, “Hey, you got any brothers?” Paul responded, “Actually, yes.”

Attention, educators! We’re announcing a new clearinghouse of free STEM education resources covering a wide range of health and biomedical research topics for students in grades K through 12. The STEM teaching resources website provides links to great content from various institutes and centers within NIH, as well as materials developed under the NIGMS Science Education Partnership Award program.

The resources are easy to navigate within the following subject areas:

• Being a Scientist
• The Brain & Mental Health
• Diseases & Conditions
• Drug Use & Addiction
• The Environment & Human Health
• Genetics
• Healthy Living
• The Human Body
• Molecules & Cells
• Scientific Tools & Methods

Have you ever wondered how research works? How scientists make discoveries about our health and the world around us? Whether they’re studying plants, animals, humans, or something else in our world, they follow the scientific method. But this method isn’t always—or even usually—a straight line, and often the answers are unexpected and lead to more questions. Let’s dive in to see how it all works.

Protein Data Bank's 50 years logo. Credit: PDB website.

The Protein Data Bank (PDB), established in 1971, is the single global repository for 3D structural data of proteins, DNA, RNA, and even complexes these biological molecules form with drugs or other small molecules. More than 1 million people—including researchers, medical professionals, educators, and students—use the PDB each year. NIGMS and other parts of NIH have helped fund this free digital resource since 1978.