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to further design, build and validate a compact, automated instrument capable of quantifying specific pathogens in air in near real-time. Biological particles will be collected from a continuous air flow
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of hip implants, as it can lead to particle-induced inflammation and implant loosening. Understanding the mechanisms and patterns of wear at the microscopic and molecular levels is therefore critical
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of hip implants, as it can lead to particle-induced inflammation and implant loosening. Understanding the mechanisms and patterns of wear at the microscopic and molecular levels is therefore critical
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, build and validate a compact, automated instrument capable of quantifying specific pathogens in air in near real-time. Biological particles will be collected from a continuous air flow, selectively
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to further design, build and validate a compact, automated instrument capable of quantifying specific pathogens in air in near real-time. Biological particles will be collected from a continuous air flow
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that enable accurate and real-time diagnosis and therapies. Project background Polyethylene wear is a major factor affecting the long-term performance of hip implants, as it can lead to particle-induced