Real-time in vivo imaging of invasive- and biomaterial-associated bacterial infections using fluorescently labelled vancomycin

Invasive and biomaterial-associated infections in humans are often difficult to diagnose and treat. Here, guided by recent advances in clinically relevant optical imaging technologies, we explore the use of fluorescently labelled vancomycin (vanco-800CW) to specifically target and detect infections...

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Veröffentlicht in:	Nature communications 2013-10, Vol.4 (1), p.2584-2584, Article 2584
Hauptverfasser:	van Oosten, Marleen, Schäfer, Tina, Gazendam, Joost A. C., Ohlsen, Knut, Tsompanidou, Eleni, de Goffau, Marcus C., Harmsen, Hermie J. M., Crane, Lucia M. A., Lim, Ed, Francis, Kevin P., Cheung, Lael, Olive, Michael, Ntziachristos, Vasilis, van Dijl, Jan Maarten, van Dam, Gooitzen M.
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Sprache:	eng
Schlagworte:	631/1647/245 692/308 692/699/255/1318 692/700/139 Animals Anti-Bacterial Agents - chemistry Benzenesulfonates - chemistry Biocompatible Materials - adverse effects Cadaver Diagnostic Imaging - methods Disease Models, Animal Fluorescent Dyes - chemistry Gram-Positive Bacteria - growth & development Gram-Positive Bacterial Infections - diagnosis Gram-Positive Bacterial Infections - microbiology Humanities and Social Sciences Humans Image Interpretation, Computer-Assisted Indoles - chemistry Mice multidisciplinary Myositis - diagnosis Myositis - microbiology Science Science (multidisciplinary) Time Factors Vancomycin - chemistry
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creator	van Oosten, Marleen Schäfer, Tina Gazendam, Joost A. C. Ohlsen, Knut Tsompanidou, Eleni de Goffau, Marcus C. Harmsen, Hermie J. M. Crane, Lucia M. A. Lim, Ed Francis, Kevin P. Cheung, Lael Olive, Michael Ntziachristos, Vasilis van Dijl, Jan Maarten van Dam, Gooitzen M.
description	Invasive and biomaterial-associated infections in humans are often difficult to diagnose and treat. Here, guided by recent advances in clinically relevant optical imaging technologies, we explore the use of fluorescently labelled vancomycin (vanco-800CW) to specifically target and detect infections caused by Gram-positive bacteria. The application potential of vanco-800CW for real-time in vivo imaging of bacterial infections is assessed in a mouse myositis model and a human post-mortem implant model. We show that vanco-800CW can specifically detect Gram-positive bacterial infections in our mouse myositis model, discriminate bacterial infections from sterile inflammation in vivo and detect biomaterial-associated infections in the lower leg of a human cadaver. We conclude that vanco-800CW has a high potential for enhanced non-invasive diagnosis of infections with Gram-positive bacteria and is a promising candidate for early-phase clinical trials. Invasive and biomaterial-associated infections in humans are often difficult to diagnose and treat. Here, the authors demonstrate that real-time in vivo detection and imaging of these bacterial infections can be successfully performed with fluorescently labelled vancomycin.
doi_str_mv	10.1038/ncomms3584
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C. ; Ohlsen, Knut ; Tsompanidou, Eleni ; de Goffau, Marcus C. ; Harmsen, Hermie J. M. ; Crane, Lucia M. A. ; Lim, Ed ; Francis, Kevin P. ; Cheung, Lael ; Olive, Michael ; Ntziachristos, Vasilis ; van Dijl, Jan Maarten ; van Dam, Gooitzen M.</creator><creatorcontrib>van Oosten, Marleen ; Schäfer, Tina ; Gazendam, Joost A. C. ; Ohlsen, Knut ; Tsompanidou, Eleni ; de Goffau, Marcus C. ; Harmsen, Hermie J. M. ; Crane, Lucia M. A. ; Lim, Ed ; Francis, Kevin P. ; Cheung, Lael ; Olive, Michael ; Ntziachristos, Vasilis ; van Dijl, Jan Maarten ; van Dam, Gooitzen M.</creatorcontrib><description>Invasive and biomaterial-associated infections in humans are often difficult to diagnose and treat. Here, guided by recent advances in clinically relevant optical imaging technologies, we explore the use of fluorescently labelled vancomycin (vanco-800CW) to specifically target and detect infections caused by Gram-positive bacteria. The application potential of vanco-800CW for real-time in vivo imaging of bacterial infections is assessed in a mouse myositis model and a human post-mortem implant model. We show that vanco-800CW can specifically detect Gram-positive bacterial infections in our mouse myositis model, discriminate bacterial infections from sterile inflammation in vivo and detect biomaterial-associated infections in the lower leg of a human cadaver. We conclude that vanco-800CW has a high potential for enhanced non-invasive diagnosis of infections with Gram-positive bacteria and is a promising candidate for early-phase clinical trials. Invasive and biomaterial-associated infections in humans are often difficult to diagnose and treat. 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Here, guided by recent advances in clinically relevant optical imaging technologies, we explore the use of fluorescently labelled vancomycin (vanco-800CW) to specifically target and detect infections caused by Gram-positive bacteria. The application potential of vanco-800CW for real-time in vivo imaging of bacterial infections is assessed in a mouse myositis model and a human post-mortem implant model. We show that vanco-800CW can specifically detect Gram-positive bacterial infections in our mouse myositis model, discriminate bacterial infections from sterile inflammation in vivo and detect biomaterial-associated infections in the lower leg of a human cadaver. We conclude that vanco-800CW has a high potential for enhanced non-invasive diagnosis of infections with Gram-positive bacteria and is a promising candidate for early-phase clinical trials. Invasive and biomaterial-associated infections in humans are often difficult to diagnose and treat. 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title	Real-time in vivo imaging of invasive- and biomaterial-associated bacterial infections using fluorescently labelled vancomycin
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