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Hallab, Nadim

One or more keywords matched the following properties of Hallab, Nadim

Property	Value
overview	Adjunct Professor, Department of Immunity and Emerging Pathogen Overview: Dr. Hallab’s research involves the study of implant degradation and biologic reactivity to soluble and particulate implant debris with four areas of focus: 1) Immune reactivity to implant debris, from both an adaptive (T-cell) and innate (macrophage) perspective, 2) Implant connections (modular junctions) and implant fretting corrosion, metal release and metal-protein complex formation, 3) Peri-implant cell toxicity responses to implant degradation products such as metals, 4) Study of how material surfaces can be used to control immune and cell function such as bone deposition. Over the years his group has found different types of implant debris (ions vs particles) bind to different specific serum proteins in people with total joint replacements, these differences translate into quantifiable person- and material-specific immune responses that can be used as diagnostic measures of performance. His research has dealt with the engineering aspects of implant degradation (wear and corrosion) and innate/adaptive immune responses to implant debris. He has discovered how metal implant debris induces inflammasome danger signaling and how DTH responses to implants metal depend on both the innate and adaptive immune system. His group has been at the for front of discovery in this field of improving implant performance over the past 20 years and reported that implant metals induce person-dependent monocyte-macrophage activation, where metals such as Cobalt ions and Co-Cr-Mo alloy particles were found to consistently induced inflammasome dependent co-stimulatory molecule increases, lysosome destabilization, hypoxia type responses, and increased DTH immune responses in prospective THA cohorts. Additnionally, he has developed methods for diagnosing metal sensitivity that are being used clinically to help people with or receiving orthopedic implants. They have quantified toxicity responses of many implant metals (e.g. Al, Co, Cr, Cu, Fe, Mo Nb, Ni and Zr) to peri-implant cells. These areas are focused on the continuing mission of his lab to improve implant performance through increased knowledge of person-dependent immune-implant debris interactions. My ORCID is 0000-0001-6421-2836. My Scopus ID is 7004113864. MY NIH COMMONS name is nhallab. Education: PhD, Tulane University (Biomedical Engineering) MS, Texas A&M University (Mechanical Engineering) BS, Texas A&M University (Mechanical Engineering)

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overview

Adjunct Professor, Department of Immunity and Emerging Pathogen Overview: Dr. Hallab’s research involves the study of implant degradation and biologic reactivity to soluble and particulate implant debris with four areas of focus: 1) Immune reactivity to implant debris, from both an adaptive (T-cell) and innate (macrophage) perspective, 2) Implant connections (modular junctions) and implant fretting corrosion, metal release and metal-protein complex formation, 3) Peri-implant cell toxicity responses to implant degradation products such as metals, 4) Study of how material surfaces can be used to control immune and cell function such as bone deposition. Over the years his group has found different types of implant debris (ions vs particles) bind to different specific serum proteins in people with total joint replacements, these differences translate into quantifiable person- and material-specific immune responses that can be used as diagnostic measures of performance. His research has dealt with the engineering aspects of implant degradation (wear and corrosion) and innate/adaptive immune responses to implant debris. He has discovered how metal implant debris induces inflammasome danger signaling and how DTH responses to implants metal depend on both the innate and adaptive immune system. His group has been at the for front of discovery in this field of improving implant performance over the past 20 years and reported that implant metals induce person-dependent monocyte-macrophage activation, where metals such as Cobalt ions and Co-Cr-Mo alloy particles were found to consistently induced inflammasome dependent co-stimulatory molecule increases, lysosome destabilization, hypoxia type responses, and increased DTH immune responses in prospective THA cohorts. Additnionally, he has developed methods for diagnosing metal sensitivity that are being used clinically to help people with or receiving orthopedic implants. They have quantified toxicity responses of many implant metals (e.g. Al, Co, Cr, Cu, Fe, Mo Nb, Ni and Zr) to peri-implant cells. These areas are focused on the continuing mission of his lab to improve implant performance through increased knowledge of person-dependent immune-implant debris interactions. My ORCID is 0000-0001-6421-2836. My Scopus ID is 7004113864. MY NIH COMMONS name is nhallab. Education: PhD, Tulane University (Biomedical Engineering) MS, Texas A&M University (Mechanical Engineering) BS, Texas A&M University (Mechanical Engineering)

One or more keywords matched the following items that are connected to Hallab, Nadim

Item Type	Name
Concept	Corrosion
Academic Article	Fretting-corrosion behavior in hip implant modular junctions: The influence of friction energy and pH variation.
Academic Article	Differences in the fretting corrosion of metal-metal and ceramic-metal modular junctions of total hip replacements.
Academic Article	Evaluation and treatment of painful total hip arthroplasties with modular metal taper junctions.
Academic Article	Metal release in patients who have had a primary total hip arthroplasty. A prospective, controlled, longitudinal study.
Academic Article	Systemic metal-protein binding associated with total joint replacement arthroplasty.
Academic Article	The potential role of the osteoblast in the development of periprosthetic osteolysis: review of in vitro osteoblast responses to wear debris, corrosion products, and cytokines and growth factors.
Academic Article	Influence of pH on the tribocorrosion behavior of CpTi in the oral environment: synergistic interactions of wear and corrosion.
Academic Article	Design of a tribocorrosion bioreactor for the analysis of immune cell response to in situ generated wear products.
Academic Article	Biologic Responses to Orthopedic Implants: Innate and Adaptive Immune Responses to Implant Debris.
Academic Article	Fretting-corrosion in Hip Implant Modular Junctions: New Experimental Set-up and Initial Outcome.
Academic Article	In vitro simulation of fretting-corrosion in hip implant modular junctions: The influence of pH.
Academic Article	Material dependent fretting corrosion in spinal fusion devices: Evaluation of onset and long-term response.
Academic Article	Investigation of CoCrMo material loss in a novel bio-tribometer designed to study direct cell reaction to wear and corrosion products.
Academic Article	Trunnion Corrosion in Total Hip Arthroplasty-Basic Concepts.
Academic Article	Fretting-corrosion in hip taper modular junctions: The influence of topography and pH levels - An in-vitro study.
Academic Article	Translational Characterization of Macrophage Responses to Stable and Non-Stable CoCrMo Wear and Corrosion Debris Generated In-Situ for Total Hip Replacement.

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Corrosion