A semi-automated cell tracking protocol for quantitative analyses of neutrophil swarming to sterile and S. aureus contaminated bone implants in a mouse femur model
Sashank Lekkala, Youliang Ren, Jason Weeks, Kevin Lee, Allie Jia Hui Tay, Bei Liu, Thomas Xue, Joshua Rainbolt, Chao Xie, Edward M. Schwarz, Shu-Chi A. Yeh, Shigao Huang, Shigao Huang, Shigao Huang

TL;DR
This paper introduces a semi-automated cell tracking protocol to study neutrophil swarming in bone implants infected with S. aureus in mice.
Contribution
The novel contribution is a reliable and reproducible protocol for tracking neutrophil dynamics in a mouse model of implant infection.
Findings
The protocol showed high inter-user reliability (ICC > 0.96) for quantifying neutrophil movement parameters.
Neutrophils in infected mice showed increased speed, velocity, and displacement compared to uninfected mice.
Neutrophils and bacteria exhibited directional migration in infected mice.
Abstract
Implant-associated osteomyelitis remains a major orthopaedic problem. As neutrophil swarming to the surgical site is a critical host response to prevent infection, visualization and quantification of this dynamic behavior at the native microenvironment of infection will elucidate previously unrecognized mechanisms central to understanding the host response. We recently developed longitudinal intravital imaging of the bone marrow (LIMB) to visualize host cells and fluorescent S. aureus on a contaminated transfemoral implant in live mice, which allows for direct visualization of bacteria colonization of the implant and host cellular responses using two-photon laser scanning microscopy. To the end of rigorous and reproducible quantitative outcomes of neutrophil swarming kinetics in this model, we developed a protocol for robust segmentation, tracking, and quantifications of neutrophil…
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Taxonomy
TopicsOrthopedic Infections and Treatments · Neutrophil, Myeloperoxidase and Oxidative Mechanisms · Immune Response and Inflammation
