Carl E. Cerniglia Source Confirmed
Affiliation confirmed via AI analysis of OpenAlex, ORCID, and web sources.
Researcher
National Center for Toxicological Research
faculty
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Biography and Research Information
OverviewAI-generated summary
Carl E. Cerniglia's research investigates the impact of environmental exposures and pharmaceutical agents on microbial communities and host health. His work frequently examines the effects of specific chemicals, such as triclosan and tetracycline, on the human intestinal microbiota and rat microbiome, assessing changes in microbial populations, immune responses (IgA), and functional activities. Cerniglia also studies the capacity of diverse bacterial species, including those isolated from tattoo inks, to degrade environmental pollutants like polycyclic aromatic hydrocarbons (PAHs) and azo dyes.
Further research by Cerniglia explores adaptive responses of bacteria, such as Pseudomonas aeruginosa, to antimicrobial-impregnated medical devices and investigates practical strategies for biological specimen storage and diagnostic testing, including methods for Clostridioides difficile diagnosis. His scholarship is characterized by a high volume of publications (406) and significant citation impact (26,191 citations, h-index of 86), designating him as a highly cited researcher. He collaborates with researchers primarily within the National Center for Toxicological Research, including Ohgew Kweon, Sangeeta Khare, Kuppan Gokulan, and Jinshan Jin.
Metrics
- h-index: 86
- Publications: 406
- Citations: 26,191
Selected Publications
- Early Developmental Exposure to Triclosan Impacts Fecal Microbial Populations, IgA and Functional Activities of the Rat Microbiome (2024) DOI
- Phylogenetically diverse bacteria isolated from tattoo inks, an azo dye-rich environment, decoloize a wide range of azo dyes (2021) DOI
- Pragmatic Strategy for Fecal Specimen Storage and the Corresponding Test Methods for Clostridioides difficile Diagnosis (2021) DOI
- Impact of Chronic Tetracycline Exposure on Human Intestinal Microbiota in a Continuous Flow Bioreactor Model (2021) DOI
- Dynamic Adaptive Response of Pseudomonas aeruginosa to Clindamycin/Rifampicin-Impregnated Catheters (2021) DOI
- Phylogenetically diverse bacteria isolated from tattoo inks, an azo dye-rich environment, decolorize a wide range of azo dyes (2021) DOI
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