Meet The Microbiologist Podcast Por American Society for Microbiology arte de portada

Meet The Microbiologist

Meet The Microbiologist

De: American Society for Microbiology
Escúchala gratis

Acerca de esta escucha

 Who is microbiology? Meet the Microbiologist (MTM) introduces you to the people who discover, innovate and advance the field of microbiology. Go behind-the-scenes of the microbial sciences with experts in virology, bacteriology, mycology, parasitology and more! Share in their passion for microbes and hear about research successes and even a few setbacks in their field. MTM covers everything from genomics, antibiotic resistance, synthetic biology, emerging infectious diseases, microbial ecology, public health, social equity, host-microbe biology, drug discovery, artificial intelligence, the microbiome and more! From graduate students to working clinicians and emeritus professors, host, Ashley Hagen, Scientific and Digital Editor at the American Society for Microbiology, highlights professionals in all stages of their careers, gleaning wisdom, career advice and even a bit of mentorship along the way.American Society for Microbiology - Creative Commons Attribution-Noncommercial Ciencia Ciencias Biológicas Historia Natural Naturaleza y Ecología
Episodios
  • Agnostic Diagnostics and the Future of ASM Health With Dev Mittar

    Agnostic Diagnostics and the Future of ASM Health With Dev Mittar
    May 30 2025

    Dev Mittar, Ph.D., Scientific Director of the ASM Health Scientific Unit discusses the use of metagenomic next generation sequencing to develop agnostic diagnostic technology, giving scientists and clinicians alike, a tool to diagnose any infectious disease with one single test. He also discusses how the ASM Health Unit is empowering scientists and leveraging microbial science innovations to address critical global health challenges and improve lives worldwide.

    Ashley's Biggest Takeaways
    • The Division of Research, Innovation and Ventures is a small entrepreneurial arm of BARDA that takes on early-stage projects with high potential of turning into medical countermeasures.
    • Prior to his role as Scientific Director for ASM Health, Mittar worked as a health scientist and program officer at DRIVe, where he focused on advancing high-impact science.
    • He is particularly passionate about his work to develop agnostic diagnostics—a single test that uses metagenomic next generation sequencing to identify any pathogen from 1 clinical sample.
    • Mittar discusses applications for this technology in surveillance (pandemic preparedness), variant detection, AMR and clinical settings (diagnosing complicated infections where etiology is not clearly defined).
    • He also shares how a recent bout with illness emphasized the value and potential of this technology to save money, time, pain and suffering of the patient.
    • Agnostic diagnostics can also help prevent the overuse/misuse of antibiotics, which are key factors in the spread of antimicrobial resistance.
    • Furthermore, when this technology is coupled with the use of metatranscriptomics, it can provide information about the patient’s immune profile that can be helpful in developing personalized treatment strategies, as opposed to a one-size-fits-all approach.
    • ASM is organizing around 3 scientific units, ASM Health, ASM Mechanism Discovery and ASM Applied and Environmental Microbiology.
    • These units will empower researchers and scientists to use science make a difference in the world and provide a forum for them to come together to shape the future of the field.
    Links for This Episode
    • Learn More About ASM’s Scientific Units.
    • Join the Conversation on ASM Connect, our online community platform.
    • Browse Volunteer Opportunities.
    • Become an ASM Member.
    • Register for ASM Microbe 2025.
    Más Menos
    42 m
  • Implementing a National Action Plan to Combat AMR in Pakistan With Afreenish Amir

    Implementing a National Action Plan to Combat AMR in Pakistan With Afreenish Amir
    May 9 2025
    Episode Summary Afreenish Amir, Ph.D., Antimicrobial Resistance (AMR) Project Director at the National Institute of Health in Pakistan, highlights significant increases in extensively drug-resistant typhoid and cholera cases in Pakistan and discusses local factors driving AMR in Asia. She describes the development and implementation of a National Action Plan to combat AMR in a developing country, emphasizing the importance of rational antimicrobial use, surveillance and infection control practice. Ashley's Biggest Takeaways AMR is a global and One Health issue.Pakistan has a huge disease burden of AMR.Contributing factors include, but are not limited to, overcrowding, lack of infection control practices, poor waste management practices and over-the-counter prescription practices.Promoting the rational use of antimicrobials is imperative at all levels—from tertiary care to primary care practitioners.Typhoid and cholera are high-burden infections in Pakistan, with typhoid being a year-round issue and cholera being seasonal.A holistic approach, involving various sectors and disciplines, is necessary in order to address the global AMR threat.Amir highlights the need for better communication and collaboration to bridge gaps and build trust between different organizations. Featured Quotes: I've been working at the National Institutes of Health for the last 7 years now. So, I've been engaged in the development and the implementation of the national action plan on AMR, and that gave me the opportunity to explore the work in the field of antimicrobial resistance. Reality of AMR in Pakistan [Pakistan] is an LMIC, and we have a huge disease burden of antimicrobial resistance in the country right now. A few years back, there was a situational analysis conducted, and that has shown that there is presence of a large number of resistant pathogens within the country. And National Institutes of Health, they have started a very standardized surveillance program based upon the global antimicrobial use and surveillance system back in 2017. And [those datasets have] generated good evidence about the basic statistics of AMR within the country. So, for example, if I talk about the extensively drug-resistant typhoid, typhoid is very much prevalent in the country. Our data shows that in 2017 there were 18% MDR typhoid cases through the surveillance data. And in 2021 it was like 60%. So that has shown that how the resistance has increased a lot. A number of challenges are associated with this kind of a thing, overcrowded hospitals, poor infection prevention and control (IPC) measures. So, there is AMR within the country—there's a huge burden—and we are trying to look for the better solutions. Local Factors Driving AMR Bacteria, they do not know the borders. We have a close connection with the other Asian countries, and we have a long border connected with the 2 big countries, which are Afghanistan and India and Bangladesh and China. So, we see that it's not limited to 1 area. It's not regional. It’s also a history of travel. When the people travel from one area to the other, they carry the pathogen as a colonizer or as a carrier, and they can infect [other] people. So, it's really connected, and it's really alarming as well. You never know how the disease is transmitted, and we have the biggest example of COVID—how things have spread from 1 country to the other, and how it has resulted in a massive pandemic. AMR is similar. We have seen that it's not limited to 1 region. We are part of this global community, and we are contributing somehow to the problem. First, I'll talk about the health care infrastructure. We do have the capacities in the hospitals, but still, there's a huge population. Pakistan is a thickly populated country. It's a population of around 241 million. And with the increasing population, we see that the infrastructure has not developed this much. So now the existing hospitals are overcrowded, and this has led to poor infection control practices within the hospitals. The staff is not there. In fact, ID consultants are not available in all the hospitals. Infection control nurses are not available in all the hospitals. So, this is one of the main areas that we see, that there is a big challenge. The other thing that can contribute is the poor waste management practices. Some of the hospitals—private and public sectors—they are following the waste management guidelines—even the laboratories. But many of the hospitals are not following the guidelines. And you know that AMR is under one health. So, whatever waste comes from the hospital eventually goes to the environment, and then from there to the animal sector and to the human sector. [Another big] problem that we are seeing is the over-the-counter prescription of antimicrobials. There is no regulation available in the country right now to control the over-the-counter prescription of antibiotics. They are easily available. People are taking...
    Más Menos
    38 m
  • Discovering Fossilized Microbes in Antarctic Ice Cores With Manuel Martinez Garcia

    Discovering Fossilized Microbes in Antarctic Ice Cores With Manuel Martinez Garcia
    Mar 14 2025
    Manuel Martinez Garcia, Ph.D., a professor of microbiology in the Physiology, Genetics and Microbiology Department at the University of Alicante in Spain, paints a picture of what microbial life looked like thousands of years ago by analyzing microbial genomic signatures within ice cores collected from the Antarctic ice shelves in the 1990s. Links for the Episode New avenues for potentially seeking microbial responses to climate change beneath Antarctic ice shelves – mSphere paper. Viruses under the Antarctic Ice Shelf are active and potentially involved in global nutrient cycles – Nature communications article. Manuel Martinez Garcia’s Lab website. How stable is the West Antarctic Ice Shelf? – Press Release from Alfred Wegener Institute.Take the MTM listener survey! Watch this episode: https://youtu.be/CHCMO74_gIY Ashley’s Biggest Takeaways There is a unique habitat beneath Antarctic ice shelves, where microbes live without light and rely on unusual energy sources. Ice cores from these Antarctic ice shelves can preserve fossilized genomic records of microbial life from long ago. Comparing past and present samples can help us understand how microbial life is responding to environmental stressors, like temperature changes and acidification, over time.It can also provide key insights to changes in biodiversity. Featured Quotes: Motivation for the Research Ice shelves are like massive floating ice that are in Antarctica, mainly. They can be as big as, for example, France, the country. So, they are super big—they are enormous. And they can be as thick as, let's say, 1000 meters. So, this is a massive [piece of] ice that we have in our planet. And beneath that massive ice, we can have a very peculiar and a special habitat in which microbes live without light. They have to manage, to thrive and reproduce, without using a standard energy like we have on the surface of the sea or in the forest, where we have light that is driving and providing the energy for the ecosystem. But in this case, these ecosystems are totally different. [The ice shelves] are deep and interconnected. Basically, there are different oceanic currents, for example, there is one Circumpolar Current that surrounds Antarctica, and there are also other currents that basically go from the bottom to the surface, moving, you know, all the water masses. The interesting part of this story is that every single second in our lives, this sea that is beneath the platform, the ice shelf, is frozen over and over, and then we have different layers of antiquity that preserve the microbes that are living in the ocean. So, for example, let's say, 1000 years ago, the sea water was frozen, and then we can find a layer beneath the Antarctica ice shelf, where these microbes are preserved and frozen. Basically, it's like a record—a library of microbes, fossil records of microbes—from the past ocean, from 1000 years ago until present, more or less. And then we can go to these records, to these layers of frozen sea water, and pick these samples to somehow recover the genetic material of the microbes that were preserved and frozen 1000 years ago or 500 years ago, in the way that we can somehow reconstruct or build the genetic story of the microbes from the past, for example, pre-industrial revolution to present. We need to think that microbes sustain the rest of the food web. So, they sustain of the rest of life in the ocean. They provide carbon for the rest of organisms, the fishes, whales [and other] big animals that we have in our oceans. And if the microbes are responding in a way that is not satisfactory, or in the way that we think can maintain the food web, this is kind of scary. And this is what we are trying to do: we are trying to go back to the past and see how the microbes are changing [genetically]. Sample Collection We didn't collect the samples. [They were collected] back in the 90s, so, 40 years ago, by a German group led by the Alfred Wegener Institute, which is probably one of the most famous polar institutes in the world. They, basically, led an expedition, I think it was in 92, and they decided to go to this ice shelf in Antarctica, in the Filchner–Ronne Ice Shelf to collect these ice cores. And then the surprise was when they were progressing in the drilling, they realized that on the top part of the ice core was fresh water, meteoric snow that was compacted forming the ice. But they realized that below that part, there was a sea water that was frozen. And then they thought that these samples were very interesting, because they somehow store material from the past, and they shipped these samples to Alfred Werner Institute in Bremerhaven in Germany. And half of the samples were stored for 40 years until I decided to contact the Institute and to propose this research. And I basically contacted the director of the Institute, and also the group of Frank Wilhelm, to propose the idea. And basically...
    Más Menos
    49 m
adbl_web_global_use_to_activate_T1_webcro805_stickypopup
Todavía no hay opiniones