Hong Wang scite author profile

Opportunistic pathogens occurring in premise (i.e., building) plumbing systems, including strains of Legionella, Mycobacterium, Acanthamoeba, and Pseudomonas, are now frequently cited agents of waterborne disease outbreaks. Unlike traditional fecal pathogens, opportunistic pathogens are part of the drinking water microbial ecology and therefore require new paradigms for their control. With the onset of the "microbiome era", notions of eradicating all microbes in drinking water have proven unrealistic, making a probiotic concept worthy of consideration. Research is needed to better understand how engineering controls may individually, or in combination, select for a desirable microbiome, and how the microbiome itself may mediate proliferation of opportunistic pathogens. Ecological interactions such as competition, antagonism, and obligate parasite-host relationships offer potential targets for probiotic control of opportunistic pathogens. A probiotic approach may be defined as intentional inoculation of beneficial microbes or choosing conditions that select for a desirable microbiome. This critical review synthesizes the state of the knowledge of the factors governing opportunistic pathogen control in premise plumbing and potential opportunities for and barriers to implementation of a probiotic approach. Future effort is recommended to demonstrate the feasibility of the probiotic concept; to develop effective, practical, and safe protocols; and to engage relevant stakeholders in evaluating options and assessing corresponding risks.

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Pretreatment of exosomes derived from hUCMSCs with TNF-α ameliorates acute liver failure by inhibiting the activation of NLRP3 in macrophage

Zhang

Jiang

et al. 2020

Life Sciences

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Mettl3 Deficiency Sustains Long-Chain Fatty Acid Absorption through Suppressing Traf6-Dependent Inflammation Response

Zong

Zhao

Wang

et al. 2019

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TFT Channel Materials for Display Applications: From Amorphous Silicon to Transition Metal Dichalcogenides

et al. 2020

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As the need for super‐high‐resolution displays with various form factors has increased, it has become necessary to produce high‐performance thin‐film transistors (TFTs) that enable faster switching and higher current driving of each pixel in the display. Over the past few decades, hydrogenated amorphous silicon (a‐Si:H) has been widely utilized as a TFT channel material. More recently, to meet the requirement of new types of displays such as organic light‐emitting diode displays, and also to overcome the performance and reliability issues of a‐Si:H, low‐temperature polycrystalline silicon and amorphous oxide semiconductors have partly replaced a‐Si:H channel materials. Basic material properties and device structures of TFTs in commercial displays are explored, and then the potential of atomically thin layered transition metal dichalcogenides as next‐generation channel materials is discussed.

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Human Babesiosis Caused by a Babesia crassa–Like Pathogen: A Case Series

Jia

Zheng²,

Jiang

et al. 2018

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Hong Wang

Probiotic Approach to Pathogen Control in Premise Plumbing Systems? A Review

Pretreatment of exosomes derived from hUCMSCs with TNF-α ameliorates acute liver failure by inhibiting the activation of NLRP3 in macrophage

Mettl3 Deficiency Sustains Long-Chain Fatty Acid Absorption through Suppressing Traf6-Dependent Inflammation Response

TFT Channel Materials for Display Applications: From Amorphous Silicon to Transition Metal Dichalcogenides

Human Babesiosis Caused by a Babesia crassa–Like Pathogen: A Case Series

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