https://www.selleckchem.com/products/tolebrutinib-sar442168.html We calculated the rectal temperature, water loss, and exposure time limit by PHS, PHS , and PHS and compared the results. CF and CF were almost similar in terms of V and walking speed, while CF and CF were larger than CF when V was more than 1.0 m·s . Intrinsic clothing insulation (I ) diminished the effects of V on CF , CF , CF , and CF . However, CF was not influenced by I . The predicted rectal temperature and water loss difference were larger between PHS and PHS as CF difference got larger. The duration time when limit of rectal temperature of 38 °C was reached (D ) calculated by PHS was significantly longer than PHS , PHS at higher V . Precise correction factors for evaporative resistance are required to predict rectal temperature, water loss, and work-time limits. Precise correction factors for evaporative resistance are required to predict rectal temperature, water loss, and work-time limits. Infection prevention and control (IPC) is one of the most cost-effective interventions against antimicrobial resistance (AMR). Yet, IPC knowledge gaps often receive little prominence in AMR research agendas. In this article, we construct IPC research priorities, in order to draw attention to these critical research needs. We developed a 4-step framework to identify IPC knowledge gaps from literature (narrative review). These gaps were then translated into research priorities and sent to two groups of European IPC experts for validation and critique through an online survey. Seventy-nine publications were retrieved from the literature review, identifying fifteen IPC research gaps. Forty-four IPC experts, clustered in two groups, vetted them. The experts classified all research gaps as medium or high priority. Overall agreement between both groups was average (Kendall's τ = 0.43), with strong alignment on the highest priorities (i) the assessment of organizational, socio-economic, and behavioural barriers/fac