--- title: '40 Years Without A New Antibiotic. Why?' source: 'https://youtube.com/watch?v=hItlmfXZBQU' video_id: 'hItlmfXZBQU' date: 2026-06-29 duration_sec: 235 --- # 40 Years Without A New Antibiotic. Why? > Source: [40 Years Without A New Antibiotic. Why?](https://youtube.com/watch?v=hItlmfXZBQU) ## Summary The video explains why no new type of antibiotic has been approved for patients in over 40 years, despite rapid progress in other medical fields. It highlights the limitations of traditional discovery methods and introduces innovative approaches that may finally break the drought. ### Key Points - **Antibiotic discovery gap** [00:00] — No new type of antibiotic has been ready for patients in over 40 years, while bacteria evolve resistance to existing ones. - **Traditional discovery method** [00:38] — Scientists grow soil microbes in petri dishes to find chemical weapons; this worked until the 1970s but then only yielded variations of known antibiotics. - **Limitations of lab growth** [01:19] — Only about 3% of microbes reproduce in petri dishes, and those that do may not produce their full arsenal of weapons without natural competitors. - **New search strategies** [02:25] — Researchers now use devices to grow bacteria in natural environments, sift through DNA for antibiotic-making genes, and explore oceans for unknown microbes. - **Recent breakthrough** [03:03] — In 2025, scientists identified a completely new type of antibiotic shaped like a molecular lasso, offering hope for future discoveries. ### Conclusion After decades of stagnation, innovative methods that bypass traditional petri-dish cultivation are finally yielding new antibiotics, offering a path to combat rising bacterial resistance. ## Transcript Most medical science moves at super speed. Researchers are constantly developing new medications, techniques, surgeries, you name it. Well, except for antibiotics, we haven't gotten a single new type of antibiotic ready to give to patients in over 40 years. Hi, I'm Cameron, and this is MinuteEarth. Almost 100 years ago, scientists figured out that microbes have evolved all sorts of chemical weapons for use against other microbes and that we humans can co-opt these weapons for our own use. Thus, antibiotics were born. And almost all of our antibiotics have been discovered in the exact same way. Scientists, they take a sample of soil which tends to contain tons of microbes and they grow those microbes on a petri dish in order to see if they produce any chemical weapons that could possibly be useful to us. Early on, this approach kept turning up new types of antibiotics. Some that attack bacteria sell walls, others that attack their protein production, and still others that attack their DNA. But in the 1970s, these discoveries stopped. Instead, researchers just kept finding new variations of the same old types of antibiotics that they already knew about. Now, the problem had to do with their basic discovery process. You see, growing microbes in a lab is a lot like breeding animals in a zoo, some animals, and some microbes they multiply and thrive just fine and human-made confines. But most microbes are like pandas, which are notoriously difficult to keep happy in captivity. Only about 3% of known microbes actually reproduce in petri dishes. Plus, like zoo animals, microbes don't necessarily behave the same way in captivity as they do in the wild. Like, if they aren't around a lot of competitors, they might not produce all of the chemical weapons that they're capable of making. So we might be missing out on potentially useful weapons. Scientists have tried other antibiotic search strategies, meaning they looked to human-produced chemicals in search of ones that might kill bacteria, and even tried to synthesize new antibiotic drugs. But most of them haven't worked as well as the chemical weapons that have evolved in nature over millennia. Because of this discovery drought, doctors haven't been able to prescribe a new type of antibiotic in nearly 40 years. And in the meantime, bacteria have been evolving resistance to the antibiotics we do have, leaving some of these weapons that were once great, powerless. So scientists are switching up their search strategies. They're going back to looking for microbes in the wild, but this time with fancier tools that don't require reading them in petri zoos. For example, some new devices allow researchers to grow and observe bacteria in their natural environments. In these days, researchers don't even have to grow microbes to see what they're capable of. They can simply sift through their DNA to identify potential antibiotic-making genes. Scientists are also looking for microbes in places other than soil, like in the ocean, which is full of unknown, and potentially useful microbial life. And these methods might be starting to pay off. In 2025, a group of scientists identified a completely new type of antibiotic, which just so happens to be shaped like a little molecular lasso. I hope that this means that we can round up many, many more new antibiotics in our future. This video was brought to you by the Science Awareness Project, which showcases a snapshot of today's scientific medical research from across the country, including the search for new antibiotics using the methods we talk about in this video. On the website for the Science Awareness Project, you can learn about some of the medicines and treatments scientists are currently working to discover. Check it out at www.scienceawarenessproject.org.