Literature DB >> 21765397

Maltodextrin-based imaging probes detect bacteria in vivo with high sensitivity and specificity.

Xinghai Ning1, Seungjun Lee, Zhirui Wang, Dongin Kim, Bryan Stubblefield, Eric Gilbert, Niren Murthy.   

Abstract

The diagnosis of bacterial infections remains a major challenge in medicine. Although numerous contrast agents have been developed to image bacteria, their clinical impact has been minimal because they are unable to detect small numbers of bacteria in vivo, and cannot distinguish infections from other pathologies such as cancer and inflammation. Here, we present a family of contrast agents, termed maltodextrin-based imaging probes (MDPs), which can detect bacteria in vivo with a sensitivity two orders of magnitude higher than previously reported, and can detect bacteria using a bacteria-specific mechanism that is independent of host response and secondary pathologies. MDPs are composed of a fluorescent dye conjugated to maltohexaose, and are rapidly internalized through the bacteria-specific maltodextrin transport pathway, endowing the MDPs with a unique combination of high sensitivity and specificity for bacteria. Here, we show that MDPs selectively accumulate within bacteria at millimolar concentrations, and are a thousand-fold more specific for bacteria than mammalian cells. Furthermore, we demonstrate that MDPs can image as few as 10(5) colony-forming units in vivo and can discriminate between active bacteria and inflammation induced by either lipopolysaccharides or metabolically inactive bacteria.

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Year:  2011        PMID: 21765397      PMCID: PMC6443089          DOI: 10.1038/nmat3074

Source DB:  PubMed          Journal:  Nat Mater        ISSN: 1476-1122            Impact factor:   43.841


  29 in total

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9.  MRI detection of bacterial brain abscesses and monitoring of antibiotic treatment using bacCEST.

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Review 10.  Pathogen-Specific Bacterial Imaging in Nuclear Medicine.

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