Innate Immune Dysfunction Following Burn Inhalation Injury in Humans.

  • Jones, Samuel Wayne (PI)

Project Details

Description

DESCRIPTION (provided by applicant): The candidate is a Burn Critical Care Surgeon with a clinical expertise in pediatric and adult Burn care. His previous background in basic sciences research and an established commitment to apply these skills to the study immune dysfunction in burn patients. The objective of this K08 proposal is to obtain the advanced mechanistic training required to achieve the candidate's long-term career goal of becoming an independently funded physician-scientist, leading a laboratory focused on developing novel therapeutics for inhalation injury and novel biomarker discovery. Specifically the candidate's short-term career goals of this proposal are: 1. Gain knowledge and skills that are currently outside his field of expertise that are relevant to establish a translational research project studying the role of innate immune activation by inhaled acute toxins; 2. Improve his abilities in the analysis and design of both observational and interventional clinical research through formal coursework, establishing collaborations with researchers, and mentoring (formal and informal) from experienced investigators; 3. Continue to collect data and further refine a hypothesis driven proposal for future, in depth studies with the goal of developing potential therapeutic strategies to mitigate these effects, along with presentations and publications that will allow him to apply for a R01 in 2017. The candidate's overall research goal is to understand the mechanism of increased susceptibility to bacterial infections in patients with inhalation injuries. The candidat hypothesizes, in Aim 1 the Innate immune cells in patients' lungs undergo differential polarization early (M2) and late (M1) after inhalation injury and / or cutaneous burn that can be reversed therapeutically. In Aim 2 specific innate signaling profiles, increased concentrations of DAMPs and specific cytokine profiles over time will be predictive of poor clinical outcome after inhalation injury and / or cutaneous burn. These aims support the candidate's career development by providing training in mechanistic aspects of lung biology, as well as the study of innate immune dysfunction. Additional key elements of the candidate's training plan include: 1) advanced coursework in computational biology and statistical modeling; 2) a mentorship and advising team, which includes internationally-recognized, independently-funded investigators with expertise in host-microbial interactions, lung biology, and immunology; and 3) scholarly activities designed to foster independence and national recognition. Finally, the candidate's research environment is based in a pre- eminent academic research institution (the University of North Carolina at Chapel Hill) with access to NIH- funded centers (including the Center for Environmental Medicine Asthma and Lung Biology) that are tailored to support the proposed studies. This environment will provide a productive and collaborative atmosphere in which to accomplish the described research and training goals.
StatusFinished
Effective start/end date1/5/1430/4/18

Funding

  • National Institute of General Medical Sciences: US$196,102.00
  • National Institute of General Medical Sciences: US$196,102.00
  • National Institute of General Medical Sciences: US$196,102.00
  • National Institute of General Medical Sciences: US$196,102.00

ASJC Scopus Subject Areas

  • Pulmonary and Respiratory Medicine

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