Multimodal imaging guides surgical management in a preclinical spinal implant infection model

Stephen D. Zoller; Howard Y. Park; Tove Olafsen; Charles Zamilpa; Zachary D.C. Burke; Gideon Blumstein; William L. Sheppard; Christopher D. Hamad; Kellyn R. Hori; Jen Chieh Tseng; Julie Czupryna; Craig McMannus; Jason T. Lee; Mafalda Bispo; Francisco Romero Pastrana; Elisa J.M. Raineri; Jeffery F. Miller; Lloyd S. Miller; Jan Maarten Van Dijl; Kevin P. Francis; Nicholas M. Bernthal

doi:10.1172/jci.insight.124813

Multimodal imaging guides surgical management in a preclinical spinal implant infection model

Stephen D. Zoller, Howard Y. Park, Tove Olafsen, Charles Zamilpa, Zachary D.C. Burke, Gideon Blumstein, William L. Sheppard, Christopher D. Hamad, Kellyn R. Hori, Jen Chieh Tseng, Julie Czupryna, Craig McMannus, Jason T. Lee, Mafalda Bispo, Francisco Romero Pastrana, Elisa J.M. Raineri, Jeffery F. Miller, Lloyd S. Miller, Jan Maarten Van Dijl, Kevin P. FrancisNicholas M. Bernthal

School of Medicine

Research output: Contribution to journal › Article › peer-review

9 Scopus citations

Abstract

Spine implant infections portend disastrous outcomes, as diagnosis is challenging and surgical eradication is at odds with mechanical spinal stability. Current imaging modalities can detect anatomical alterations and anomalies but cannot differentiate between infection and aseptic loosening, diagnose specific pathogens, or delineate the extent of an infection. Herein, a fully human monoclonal antibody 1D9, recognizing the immunodominant staphylococcal antigen A on the surface of Staphylococcus aureus, was assessed as a nuclear and fluorescent imaging probe in a preclinical model of S. aureus spinal implant infection, utilizing bioluminescently labeled bacteria to confirm the specificity and sensitivity of this targeting. Postoperative mice were administered 1D9 probe dual labeled with 89-zirconium (⁸⁹Zr) and a bars represent SEM dye (NIR680) (⁸⁹Zr-NIR680-1D9), and PET-CT and in vivo fluorescence and bioluminescence imaging were performed. The ⁸⁹Zr-NIR680-1D9 probe accurately diagnosed both acute and subacute implant infection and permitted fluorescent image-guided surgery for selective debridement of infected tissue. Therefore, a single probe could noninvasively diagnose an infection and facilitate image-guided surgery to improve the clinical management of implant infections.

Original language	English (US)
Article number	Y
Journal	JCI Insight
Volume	4
Issue number	3
DOIs	https://doi.org/10.1172/jci.insight.124813
State	Published - Feb 7 2019

ASJC Scopus subject areas

Medicine(all)

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10.1172/jci.insight.124813

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Zoller, S. D., Park, H. Y., Olafsen, T., Zamilpa, C., Burke, Z. D. C., Blumstein, G., Sheppard, W. L., Hamad, C. D., Hori, K. R., Tseng, J. C., Czupryna, J., McMannus, C., Lee, J. T., Bispo, M., Pastrana, F. R., Raineri, E. J. M., Miller, J. F., Miller, L. S., Van Dijl, J. M., ... Bernthal, N. M. (2019). Multimodal imaging guides surgical management in a preclinical spinal implant infection model. JCI Insight, 4(3), [Y]. https://doi.org/10.1172/jci.insight.124813

Zoller, SD, Park, HY, Olafsen, T, Zamilpa, C, Burke, ZDC, Blumstein, G, Sheppard, WL, Hamad, CD, Hori, KR, Tseng, JC, Czupryna, J, McMannus, C, Lee, JT, Bispo, M, Pastrana, FR, Raineri, EJM, Miller, JF, Miller, LS, Van Dijl, JM, Francis, KP & Bernthal, NM 2019, 'Multimodal imaging guides surgical management in a preclinical spinal implant infection model', JCI Insight, vol. 4, no. 3, Y. https://doi.org/10.1172/jci.insight.124813

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abstract = "Spine implant infections portend disastrous outcomes, as diagnosis is challenging and surgical eradication is at odds with mechanical spinal stability. Current imaging modalities can detect anatomical alterations and anomalies but cannot differentiate between infection and aseptic loosening, diagnose specific pathogens, or delineate the extent of an infection. Herein, a fully human monoclonal antibody 1D9, recognizing the immunodominant staphylococcal antigen A on the surface of Staphylococcus aureus, was assessed as a nuclear and fluorescent imaging probe in a preclinical model of S. aureus spinal implant infection, utilizing bioluminescently labeled bacteria to confirm the specificity and sensitivity of this targeting. Postoperative mice were administered 1D9 probe dual labeled with 89-zirconium (89Zr) and a bars represent SEM dye (NIR680) (89Zr-NIR680-1D9), and PET-CT and in vivo fluorescence and bioluminescence imaging were performed. The 89Zr-NIR680-1D9 probe accurately diagnosed both acute and subacute implant infection and permitted fluorescent image-guided surgery for selective debridement of infected tissue. Therefore, a single probe could noninvasively diagnose an infection and facilitate image-guided surgery to improve the clinical management of implant infections.",

author = "Zoller, {Stephen D.} and Park, {Howard Y.} and Tove Olafsen and Charles Zamilpa and Burke, {Zachary D.C.} and Gideon Blumstein and Sheppard, {William L.} and Hamad, {Christopher D.} and Hori, {Kellyn R.} and Tseng, {Jen Chieh} and Julie Czupryna and Craig McMannus and Lee, {Jason T.} and Mafalda Bispo and Pastrana, {Francisco Romero} and Raineri, {Elisa J.M.} and Miller, {Jeffery F.} and Miller, {Lloyd S.} and {Van Dijl}, {Jan Maarten} and Francis, {Kevin P.} and Bernthal, {Nicholas M.}",

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doi = "10.1172/jci.insight.124813",

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AU - Park, Howard Y.

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AU - Zamilpa, Charles

AU - Burke, Zachary D.C.

AU - Blumstein, Gideon

AU - Sheppard, William L.

AU - Hamad, Christopher D.

AU - Hori, Kellyn R.

AU - Tseng, Jen Chieh

AU - Czupryna, Julie

AU - McMannus, Craig

AU - Lee, Jason T.

AU - Bispo, Mafalda

AU - Pastrana, Francisco Romero

AU - Raineri, Elisa J.M.

AU - Miller, Jeffery F.

AU - Miller, Lloyd S.

AU - Van Dijl, Jan Maarten

AU - Francis, Kevin P.

AU - Bernthal, Nicholas M.

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N2 - Spine implant infections portend disastrous outcomes, as diagnosis is challenging and surgical eradication is at odds with mechanical spinal stability. Current imaging modalities can detect anatomical alterations and anomalies but cannot differentiate between infection and aseptic loosening, diagnose specific pathogens, or delineate the extent of an infection. Herein, a fully human monoclonal antibody 1D9, recognizing the immunodominant staphylococcal antigen A on the surface of Staphylococcus aureus, was assessed as a nuclear and fluorescent imaging probe in a preclinical model of S. aureus spinal implant infection, utilizing bioluminescently labeled bacteria to confirm the specificity and sensitivity of this targeting. Postoperative mice were administered 1D9 probe dual labeled with 89-zirconium (89Zr) and a bars represent SEM dye (NIR680) (89Zr-NIR680-1D9), and PET-CT and in vivo fluorescence and bioluminescence imaging were performed. The 89Zr-NIR680-1D9 probe accurately diagnosed both acute and subacute implant infection and permitted fluorescent image-guided surgery for selective debridement of infected tissue. Therefore, a single probe could noninvasively diagnose an infection and facilitate image-guided surgery to improve the clinical management of implant infections.

AB - Spine implant infections portend disastrous outcomes, as diagnosis is challenging and surgical eradication is at odds with mechanical spinal stability. Current imaging modalities can detect anatomical alterations and anomalies but cannot differentiate between infection and aseptic loosening, diagnose specific pathogens, or delineate the extent of an infection. Herein, a fully human monoclonal antibody 1D9, recognizing the immunodominant staphylococcal antigen A on the surface of Staphylococcus aureus, was assessed as a nuclear and fluorescent imaging probe in a preclinical model of S. aureus spinal implant infection, utilizing bioluminescently labeled bacteria to confirm the specificity and sensitivity of this targeting. Postoperative mice were administered 1D9 probe dual labeled with 89-zirconium (89Zr) and a bars represent SEM dye (NIR680) (89Zr-NIR680-1D9), and PET-CT and in vivo fluorescence and bioluminescence imaging were performed. The 89Zr-NIR680-1D9 probe accurately diagnosed both acute and subacute implant infection and permitted fluorescent image-guided surgery for selective debridement of infected tissue. Therefore, a single probe could noninvasively diagnose an infection and facilitate image-guided surgery to improve the clinical management of implant infections.

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Multimodal imaging guides surgical management in a preclinical spinal implant infection model

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