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Computational fluid dynamics (CFD), which uses numerical analysis to predict and model complex flow behaviors and transport processes, has become a mainstream tool in engineering process research and development. Complex chemical processes often involve coupling between dynamics at vastly different length and time scales, as well as coupling of different physical models. The multiscale and multiphysics nature of those problems calls for delicate modeling approaches. This book showcases recent contributions in this field, from the development of modeling methodology to its application in supporting the design, development, and optimization of engineering processes.
Technology: general issues --- wood dust --- nasal epithelia --- VOCs --- M1dG --- reactive oxygen species (ROS) --- nucleotide excision repair (NER) --- base excision repair (BER) --- oxidative DNA damage --- DNA damage response and repair network --- immune response --- autoimmunity --- systemic lupus erythematosus --- systemic sclerosis --- rheumatoid arthritis --- oxidative stress --- abasic sites --- chromatin organization --- apoptosis --- DNA damage --- general anesthesia --- neuraxial anesthesia --- comet assay --- chronic myeloid leukemia --- genetic instability --- DNA double-strand breaks --- DNA damage response --- benzo[a]pyrene --- BPDE-DNA adduct --- silymarin --- detoxification --- Nrf2 --- PXR --- DNA repair --- base excision repair (BER)glycosylases --- colorectal cancer --- reactive oxygen species --- metabolic adaptation --- drug resistance --- cancer --- thyroid --- thyroid cancer --- volcano --- metals --- metallome --- carcinogens --- hormesis --- environment pollution --- metal biocontamination --- Diamond-Blackfan anemia --- 8-oxoguanine --- inflammatory cytokines --- erythrocyte lifespan --- wood dust --- nasal epithelia --- VOCs --- M1dG --- reactive oxygen species (ROS) --- nucleotide excision repair (NER) --- base excision repair (BER) --- oxidative DNA damage --- DNA damage response and repair network --- immune response --- autoimmunity --- systemic lupus erythematosus --- systemic sclerosis --- rheumatoid arthritis --- oxidative stress --- abasic sites --- chromatin organization --- apoptosis --- DNA damage --- general anesthesia --- neuraxial anesthesia --- comet assay --- chronic myeloid leukemia --- genetic instability --- DNA double-strand breaks --- DNA damage response --- benzo[a]pyrene --- BPDE-DNA adduct --- silymarin --- detoxification --- Nrf2 --- PXR --- DNA repair --- base excision repair (BER)glycosylases --- colorectal cancer --- reactive oxygen species --- metabolic adaptation --- drug resistance --- cancer --- thyroid --- thyroid cancer --- volcano --- metals --- metallome --- carcinogens --- hormesis --- environment pollution --- metal biocontamination --- Diamond-Blackfan anemia --- 8-oxoguanine --- inflammatory cytokines --- erythrocyte lifespan
Choose an application
Computational fluid dynamics (CFD), which uses numerical analysis to predict and model complex flow behaviors and transport processes, has become a mainstream tool in engineering process research and development. Complex chemical processes often involve coupling between dynamics at vastly different length and time scales, as well as coupling of different physical models. The multiscale and multiphysics nature of those problems calls for delicate modeling approaches. This book showcases recent contributions in this field, from the development of modeling methodology to its application in supporting the design, development, and optimization of engineering processes.
Technology: general issues --- wood dust --- nasal epithelia --- VOCs --- M1dG --- reactive oxygen species (ROS) --- nucleotide excision repair (NER) --- base excision repair (BER) --- oxidative DNA damage --- DNA damage response and repair network --- immune response --- autoimmunity --- systemic lupus erythematosus --- systemic sclerosis --- rheumatoid arthritis --- oxidative stress --- abasic sites --- chromatin organization --- apoptosis --- DNA damage --- general anesthesia --- neuraxial anesthesia --- comet assay --- chronic myeloid leukemia --- genetic instability --- DNA double-strand breaks --- DNA damage response --- benzo[a]pyrene --- BPDE-DNA adduct --- silymarin --- detoxification --- Nrf2 --- PXR --- DNA repair --- base excision repair (BER)glycosylases --- colorectal cancer --- reactive oxygen species --- metabolic adaptation --- drug resistance --- cancer --- thyroid --- thyroid cancer --- volcano --- metals --- metallome --- carcinogens --- hormesis --- environment pollution --- metal biocontamination --- n/a --- Diamond-Blackfan anemia --- 8-oxoguanine --- inflammatory cytokines --- erythrocyte lifespan
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This book “Oxidative Stress Modulators and Functional Foods” is focused on the antioxidant role of natural products, involving their ability to modulate oxidative stress and/or reverse disease studied both in vitro and in animal models. Additionally, the molecular mechanisms of these actions and the modulation of signalling pathways related to inflammation, apoptosis, and survival response in the redox system by natural products are included.
Medicine --- Pharmaceutical industries --- high sugar-fat diet --- obesity --- β-adrenergic system --- cardiac dysfunction --- lycopene --- tomato-oleoresin --- coumarin --- pteryxin --- HO-1 --- Nrf2 --- oxidative stress --- Peucedanum japonicum Thunb --- RAW264.7 cells --- polysaccharide --- jujube pomace --- structural analysis --- antioxidant activity --- epigallocatechin-gallate --- liposomes --- diabetes mellitus --- antioxidant --- dendrimer --- electronic effect --- hydrogen atom transfer (HAT) --- single electron transfer-proton transfer (SET-PT) --- sequential proton loss electron transfer (SPLET) --- DPPH --- ultraviolet B --- gradient ethanol precipitation --- fucoidan --- HaCaT keratinocyte --- heme oxygenase-1 --- nutricosmetic --- folic acid --- nitric oxide --- neural tube defects --- NOR3 --- ESR --- LC/MS --- Benzo[a]pyrene --- myricetin --- BPDE-DNA adduct --- phase detoxifying enzyme --- Quamoclit angulata --- type 2 diabetes --- kidney damage --- inflammation --- apoptosis --- fibrosis --- Sargassum horneri --- (–)-loliolide --- fine dust --- HaCaT --- bilberry --- lingonberry --- polyphenols --- antioxidant compounds --- antimicrobial activity --- antimutagenicity --- altitude variations --- mitochondria --- neurodegeneration --- nutrient --- QM-ORSA --- antioxidative mechanisms --- reaction rate constants --- physiological conditions --- zebrafish embryo --- in vivo model --- antioxidant effect --- cudratrixanthone O --- reactive oxygen species --- nuclear transcription factor erythroid-2-like factor 2 --- hemeoxygenase-1 --- n/a --- (-)-loliolide
Choose an application
Computational fluid dynamics (CFD), which uses numerical analysis to predict and model complex flow behaviors and transport processes, has become a mainstream tool in engineering process research and development. Complex chemical processes often involve coupling between dynamics at vastly different length and time scales, as well as coupling of different physical models. The multiscale and multiphysics nature of those problems calls for delicate modeling approaches. This book showcases recent contributions in this field, from the development of modeling methodology to its application in supporting the design, development, and optimization of engineering processes.
wood dust --- nasal epithelia --- VOCs --- M1dG --- reactive oxygen species (ROS) --- nucleotide excision repair (NER) --- base excision repair (BER) --- oxidative DNA damage --- DNA damage response and repair network --- immune response --- autoimmunity --- systemic lupus erythematosus --- systemic sclerosis --- rheumatoid arthritis --- oxidative stress --- abasic sites --- chromatin organization --- apoptosis --- DNA damage --- general anesthesia --- neuraxial anesthesia --- comet assay --- chronic myeloid leukemia --- genetic instability --- DNA double-strand breaks --- DNA damage response --- benzo[a]pyrene --- BPDE-DNA adduct --- silymarin --- detoxification --- Nrf2 --- PXR --- DNA repair --- base excision repair (BER)glycosylases --- colorectal cancer --- reactive oxygen species --- metabolic adaptation --- drug resistance --- cancer --- thyroid --- thyroid cancer --- volcano --- metals --- metallome --- carcinogens --- hormesis --- environment pollution --- metal biocontamination --- n/a --- Diamond-Blackfan anemia --- 8-oxoguanine --- inflammatory cytokines --- erythrocyte lifespan
Choose an application
This book “Oxidative Stress Modulators and Functional Foods” is focused on the antioxidant role of natural products, involving their ability to modulate oxidative stress and/or reverse disease studied both in vitro and in animal models. Additionally, the molecular mechanisms of these actions and the modulation of signalling pathways related to inflammation, apoptosis, and survival response in the redox system by natural products are included.
high sugar-fat diet --- obesity --- β-adrenergic system --- cardiac dysfunction --- lycopene --- tomato-oleoresin --- coumarin --- pteryxin --- HO-1 --- Nrf2 --- oxidative stress --- Peucedanum japonicum Thunb --- RAW264.7 cells --- polysaccharide --- jujube pomace --- structural analysis --- antioxidant activity --- epigallocatechin-gallate --- liposomes --- diabetes mellitus --- antioxidant --- dendrimer --- electronic effect --- hydrogen atom transfer (HAT) --- single electron transfer-proton transfer (SET-PT) --- sequential proton loss electron transfer (SPLET) --- DPPH --- ultraviolet B --- gradient ethanol precipitation --- fucoidan --- HaCaT keratinocyte --- heme oxygenase-1 --- nutricosmetic --- folic acid --- nitric oxide --- neural tube defects --- NOR3 --- ESR --- LC/MS --- Benzo[a]pyrene --- myricetin --- BPDE-DNA adduct --- phase detoxifying enzyme --- Quamoclit angulata --- type 2 diabetes --- kidney damage --- inflammation --- apoptosis --- fibrosis --- Sargassum horneri --- (–)-loliolide --- fine dust --- HaCaT --- bilberry --- lingonberry --- polyphenols --- antioxidant compounds --- antimicrobial activity --- antimutagenicity --- altitude variations --- mitochondria --- neurodegeneration --- nutrient --- QM-ORSA --- antioxidative mechanisms --- reaction rate constants --- physiological conditions --- zebrafish embryo --- in vivo model --- antioxidant effect --- cudratrixanthone O --- reactive oxygen species --- nuclear transcription factor erythroid-2-like factor 2 --- hemeoxygenase-1 --- n/a --- (-)-loliolide
Choose an application
This book “Oxidative Stress Modulators and Functional Foods” is focused on the antioxidant role of natural products, involving their ability to modulate oxidative stress and/or reverse disease studied both in vitro and in animal models. Additionally, the molecular mechanisms of these actions and the modulation of signalling pathways related to inflammation, apoptosis, and survival response in the redox system by natural products are included.
Medicine --- Pharmaceutical industries --- high sugar-fat diet --- obesity --- β-adrenergic system --- cardiac dysfunction --- lycopene --- tomato-oleoresin --- coumarin --- pteryxin --- HO-1 --- Nrf2 --- oxidative stress --- Peucedanum japonicum Thunb --- RAW264.7 cells --- polysaccharide --- jujube pomace --- structural analysis --- antioxidant activity --- epigallocatechin-gallate --- liposomes --- diabetes mellitus --- antioxidant --- dendrimer --- electronic effect --- hydrogen atom transfer (HAT) --- single electron transfer-proton transfer (SET-PT) --- sequential proton loss electron transfer (SPLET) --- DPPH --- ultraviolet B --- gradient ethanol precipitation --- fucoidan --- HaCaT keratinocyte --- heme oxygenase-1 --- nutricosmetic --- folic acid --- nitric oxide --- neural tube defects --- NOR3 --- ESR --- LC/MS --- Benzo[a]pyrene --- myricetin --- BPDE-DNA adduct --- phase detoxifying enzyme --- Quamoclit angulata --- type 2 diabetes --- kidney damage --- inflammation --- apoptosis --- fibrosis --- Sargassum horneri --- (-)-loliolide --- fine dust --- HaCaT --- bilberry --- lingonberry --- polyphenols --- antioxidant compounds --- antimicrobial activity --- antimutagenicity --- altitude variations --- mitochondria --- neurodegeneration --- nutrient --- QM-ORSA --- antioxidative mechanisms --- reaction rate constants --- physiological conditions --- zebrafish embryo --- in vivo model --- antioxidant effect --- cudratrixanthone O --- reactive oxygen species --- nuclear transcription factor erythroid-2-like factor 2 --- hemeoxygenase-1 --- high sugar-fat diet --- obesity --- β-adrenergic system --- cardiac dysfunction --- lycopene --- tomato-oleoresin --- coumarin --- pteryxin --- HO-1 --- Nrf2 --- oxidative stress --- Peucedanum japonicum Thunb --- RAW264.7 cells --- polysaccharide --- jujube pomace --- structural analysis --- antioxidant activity --- epigallocatechin-gallate --- liposomes --- diabetes mellitus --- antioxidant --- dendrimer --- electronic effect --- hydrogen atom transfer (HAT) --- single electron transfer-proton transfer (SET-PT) --- sequential proton loss electron transfer (SPLET) --- DPPH --- ultraviolet B --- gradient ethanol precipitation --- fucoidan --- HaCaT keratinocyte --- heme oxygenase-1 --- nutricosmetic --- folic acid --- nitric oxide --- neural tube defects --- NOR3 --- ESR --- LC/MS --- Benzo[a]pyrene --- myricetin --- BPDE-DNA adduct --- phase detoxifying enzyme --- Quamoclit angulata --- type 2 diabetes --- kidney damage --- inflammation --- apoptosis --- fibrosis --- Sargassum horneri --- (-)-loliolide --- fine dust --- HaCaT --- bilberry --- lingonberry --- polyphenols --- antioxidant compounds --- antimicrobial activity --- antimutagenicity --- altitude variations --- mitochondria --- neurodegeneration --- nutrient --- QM-ORSA --- antioxidative mechanisms --- reaction rate constants --- physiological conditions --- zebrafish embryo --- in vivo model --- antioxidant effect --- cudratrixanthone O --- reactive oxygen species --- nuclear transcription factor erythroid-2-like factor 2 --- hemeoxygenase-1
Listing 1 - 6 of 6 |
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