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CDC Advanced Molecular Detection
@CDC_AMD
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Joined March 2015
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4K Followers
5.9K Posts
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Read more: https://t.co/yRynyxMoSW
💡CDC's Pathogen Genomics Centers of Excellence develop groundbreaking tools for early detection, analysis, and identification of pathogens. The centers integrate advancements in science into state & local public health activities to provide earlier warnings.
CDC scientists used a lab method called whole-genome sequencing to identify an antimicrobial-resistance gene in strains of the toxin-producing bacteria that causes infant botulism. See methods and results described in this study:
https://t.co/2Jsq9J9MsP
Who to follow
Torsten Seemann
@torstenseemann
Microbial genomics, bioinformatics software, training. A/Prof
ORCID: 0000-0001-6046-610X
Retro 8-bit computers; VIC=20, C=64, C=128.
Public Health Alliance for Genomic Epidemiology
@pha4ge
🌍🧬
Tim Dallman
@TimDallman
Senior Technical Officer @WHO - Pathogen Genomics & Bioinformatics
A new study in @JAMA_current details CDC's investigation into 10 locally acquired malaria cases in the US in 2023—the first in 20 years. Molecular testing showed 7 cases in one state shared similar genes, while cases across 3 other states were each unique. https://t.co/YBzggbvAZx
An outbreak of fungal meningitis led to 50% of affected patients dying. CDC’s AMD technology was able to confirm a common link between the patients and helped stop further infections.
https://t.co/Nplp82f6o8 #FungalMeningitis
CDC scientists validated that the whole genome sequence-based allele schemes in the PulseNet 2.0 Escherichia national database provide ideal resolution for detecting outbreak clusters, ensuring high quality data of E. coli outbreaks in the U.S. https://t.co/yDAtD8kNWM
CDC’s Advanced Molecular Detection (AMD) program is revolutionizing public health and disease detection via focused fellowships, strategic partnerships, and advanced training https://t.co/29fQDg7VBQ
We found pumpkin spice… in wastewater?! 😱 (Just kidding.) But wastewater does show us what viruses are rising — like Flu, COVID & RSV. As fall approaches, stay cozy and informed: https://t.co/I4JNwv7TeR
CDC uses WGS to identify and describe the emergence of azole-resistant Aspergillus strains linked to fungicide use in agriculture. #FungalWeek25 https://t.co/wXchWLvAyu
With WGS, CDC scientists found the epidemic of sporotrichosis, driven by S. brasiliensis, represents several independent emergence events followed by cat-to-cat & cat-to human transmission within & between Brazilian states. Read more #FungalWeek25 https://t.co/HCl8KVPZDF
Salmonella Outbreak UPDATE: More Deep brand frozen food products have been recalled.
Do not eat these products. Throw them away.
See the notice for new details: https://t.co/EL24XK07xd
Something mysterious is appearing in wastewater monitoring as fall approaches. Can you guess what it is? Here’s a hint: 🎃
Swipe to find out!
To see what’s really appearing in your community’s wastewater, check out https://t.co/rYt1ekUIF0
Fungal Disease Awareness week is next week (Sept 15- 19). AMD revolutionized fungal disease research, surveillance, and outbreak response. Learn about fungal diseases and AMD’s role in understanding the factors driving the emergence of fungi.
https://t.co/8lwtHCvIDB
CDC scientists analyzed the DNA from malaria-causing parasites to track malaria transmission patterns across three states. Analysis revealed multiple geographic origins, data that can guide public health efforts. For more: https://t.co/qMiEMjFd3l
On #WFED, we celebrate field epidemiology in action. Krisandra Allen’s work in genomic surveillance shows how innovation helps detect and stop outbreaks faster — making a lasting impact on public health. Read more on the role of genomics in epidemiology https://t.co/FJsyxy2POl
Advanced molecular detection (AMD) technologies play key roles in helping CDC quickly investigate & respond to infectious disease threats. These technologies are used to identify & study the unique DNA or RNA of harmful bacteria, viruses, fungi, & parasites.
For more: https://t.co/tK0mIPKmHl
Advanced molecular detection help scientists identify new, rare, and drug-resistant infections. Using analytical tools, they track threats like drug-resistant C. auris. Early detection leads to faster action to stop the spread & protect public health. https://t.co/awUIJI1PEN
New advanced molecular detection technologies rapidly identify pathogens => quicker end to outbreaks. We are eliminating the need to culture samples by developing innovative tools to extract bacterial DNA directly from them. How? https://t.co/o6bje4eMiH
Advanced molecular detection is speeding up how we fight infections. With cutting-edge tools, public health experts can find pathogens faster & more accurately—helping determine effective treatments sooner. This means quicker care & better health outcomes. https://t.co/4elc2ysBAr
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