hydroquinone has been researched along with Innate Inflammatory Response in 16 studies
Excerpt | Relevance | Reference |
---|---|---|
"Hydroquinone (HQ) is an environmental contaminant which causes immune toxicity." | 5.37 | In vivo hydroquinone exposure alters circulating neutrophil activities and impairs LPS-induced lung inflammation in mice. ( de Lima, WT; de Melo Loureiro, AP; de Oliveira, TF; Farsky, SH; Filho, Wdos R; Hebeda, CB; Ribeiro, AL; Santos, AM; Shimada, AL, 2011) |
" This efficient route enabled to scale up the synthesis of an orally bioavailable glycine antagonist showing outstanding in vivo anti-hyperalgesic activity in different animal models of sustained inflammation and chronic neuropathic pain." | 3.74 | Chiral tetrahydroquinoline derivatives as potent anti-hyperalgesic agents in animal models of sustained inflammation and chronic neuropathic pain. ( Alvaro, G; Barnaby, RJ; Bertani, B; Corsi, M; Di Fabio, R; Donati, D; Gentile, G; Giacobbe, S; Pentassuglia, G; Pizzi, DM; Quartaroli, M; Ratti, E; Spada, S; Vitulli, G, 2007) |
"With proper treatment, melasma can be controlled, improved, and maintained; alternatively, PIH can be cured in most cases." | 2.53 | Melasma and Post Inflammatory Hyperpigmentation: Management Update and Expert Opinion. ( Emer, J; Prado, G; Sofen, B, 2016) |
"Hydroquinone treatment induced the membrane expression of cell adhesion molecules (CAMs) from the immunoglobulin superfamilies ICAM-1 (intercellular), VCAM-1(vascular) and PECAM-1 (platelet endothelial) and induced the secretion of cytokines interleukin-1β (IL-1β) and tumour necrosis factor-α (TNF-α)." | 1.37 | Hydroquinone stimulates inflammatory functions in microvascular endothelial cells via NF-κB nuclear activation. ( Curi, R; Farsky, SH; Hebeda, CB; Pinedo, FJ; Vinolo, MA, 2011) |
"Hydroquinone (HQ) is an environmental contaminant which causes immune toxicity." | 1.37 | In vivo hydroquinone exposure alters circulating neutrophil activities and impairs LPS-induced lung inflammation in mice. ( de Lima, WT; de Melo Loureiro, AP; de Oliveira, TF; Farsky, SH; Filho, Wdos R; Hebeda, CB; Ribeiro, AL; Santos, AM; Shimada, AL, 2011) |
Timeframe | Studies, this research(%) | All Research% |
---|---|---|
pre-1990 | 0 (0.00) | 18.7374 |
1990's | 0 (0.00) | 18.2507 |
2000's | 5 (31.25) | 29.6817 |
2010's | 10 (62.50) | 24.3611 |
2020's | 1 (6.25) | 2.80 |
Authors | Studies |
---|---|
Epifano, F | 1 |
Genovese, S | 1 |
Sosa, S | 1 |
Tubaro, A | 1 |
Curini, M | 1 |
Zheng, Y | 3 |
Du, X | 3 |
Zhang, L | 3 |
Jia, T | 3 |
Zhang, H | 3 |
Peng, B | 3 |
Hao, Y | 3 |
Tong, Z | 3 |
Che, D | 3 |
Geng, S | 3 |
Heluany, CS | 1 |
Kupa, LVK | 1 |
Viana, MN | 1 |
Fernandes, CM | 1 |
Farsky, SHP | 1 |
Zubair, R | 1 |
Lyons, AB | 1 |
Vellaichamy, G | 1 |
Peacock, A | 1 |
Hamzavi, I | 1 |
Eskandari, M | 1 |
Rembiesa, J | 1 |
Startaitė, L | 1 |
Holefors, A | 1 |
Valančiūtė, A | 1 |
Faridbod, F | 1 |
Ganjali, MR | 1 |
Engblom, J | 1 |
Ruzgas, T | 1 |
Yamada, S | 1 |
Koyama, T | 1 |
Noguchi, H | 1 |
Ueda, Y | 1 |
Kitsuyama, R | 1 |
Shimizu, H | 1 |
Tanimoto, A | 1 |
Wang, KY | 1 |
Nawata, A | 1 |
Nakayama, T | 1 |
Sasaguri, Y | 1 |
Satoh, T | 1 |
Shokeen, D | 1 |
Sofen, B | 1 |
Prado, G | 1 |
Emer, J | 1 |
Sarkar, R | 1 |
Parmar, NV | 1 |
Kapoor, S | 1 |
Hebeda, CB | 2 |
Pinedo, FJ | 1 |
Vinolo, MA | 1 |
Curi, R | 1 |
Farsky, SH | 3 |
Ribeiro, AL | 1 |
Shimada, AL | 1 |
de Oliveira, TF | 1 |
de Melo Loureiro, AP | 1 |
Filho, Wdos R | 1 |
Santos, AM | 1 |
de Lima, WT | 1 |
Byeon, SE | 1 |
Yu, T | 1 |
Yang, Y | 1 |
Lee, YG | 1 |
Kim, JH | 1 |
Oh, J | 1 |
Jeong, HY | 1 |
Hong, S | 2 |
Yoo, BC | 1 |
Cho, WJ | 1 |
Cho, JY | 1 |
Cayce, KA | 1 |
McMichael, AJ | 1 |
Feldman, SR | 1 |
Macedo, SM | 1 |
Lourenço, EL | 1 |
Borelli, P | 1 |
Fock, RA | 1 |
Ferreira, JM | 1 |
Lynde, CB | 1 |
Kraft, JN | 1 |
Lynde, CW | 1 |
Di Fabio, R | 1 |
Alvaro, G | 1 |
Bertani, B | 1 |
Donati, D | 1 |
Pizzi, DM | 1 |
Gentile, G | 1 |
Pentassuglia, G | 1 |
Giacobbe, S | 1 |
Spada, S | 1 |
Ratti, E | 1 |
Corsi, M | 1 |
Quartaroli, M | 1 |
Barnaby, RJ | 1 |
Vitulli, G | 1 |
5 reviews available for hydroquinone and Innate Inflammatory Response
Article | Year |
---|---|
What's New in Pigmentary Disorders.
Topics: alpha-MSH; Antifibrinolytic Agents; Bimatoprost; Dermatologic Agents; Humans; Hydroquinones; Inflamm | 2019 |
Postinflammatory hyperpigmentation in patients with skin of color.
Topics: Chemexfoliation; Dermatitis; Dermatologic Agents; Dicarboxylic Acids; Drug Combinations; Ethanol; Gl | 2016 |
Melasma and Post Inflammatory Hyperpigmentation: Management Update and Expert Opinion.
Topics: Dermatologic Agents; Humans; Hydroquinones; Hyperpigmentation; Inflammation; Melanosis; Phototherapy | 2016 |
Hyperpigmentation: an overview of the common afflictions.
Topics: Chemexfoliation; Cryotherapy; Dermatologic Agents; Dicarboxylic Acids; Humans; Hydroquinones; Hyperp | 2004 |
Topical treatments for melasma and postinflammatory hyperpigmentation.
Topics: Administration, Topical; Dermatologic Agents; Female; Humans; Hydroquinones; Hyperpigmentation; Infl | 2006 |
1 trial available for hydroquinone and Innate Inflammatory Response
Article | Year |
---|---|
Treatment of Postinflammatory Hyperpigmentation With a Combination of Glycolic Acid Peels and a Topical Regimen in Dark-Skinned Patients: A Comparative Study.
Topics: Administration, Cutaneous; Adult; Anti-Inflammatory Agents; Chemexfoliation; Drug Combinations; Faci | 2017 |
10 other studies available for hydroquinone and Innate Inflammatory Response
Article | Year |
---|---|
Synthesis and anti-inflammatory activity of 3-(4'-geranyloxy-3'-methoxyphenyl)-2-trans propenoic acid and its ester derivatives.
Topics: Animals; Anti-Inflammatory Agents; Diterpenes; Esters; Inflammation; Magnetic Resonance Spectroscopy | 2007 |
Hydroquinone-induced skin irritant reaction could be achieved by activating mast cells via mas-related G protein-coupled receptor X2.
Topics: Animals; Cell Degranulation; Dermatitis, Atopic; Humans; Hydroquinones; Hypersensitivity; Inflammati | 2023 |
Hydroquinone-induced skin irritant reaction could be achieved by activating mast cells via mas-related G protein-coupled receptor X2.
Topics: Animals; Cell Degranulation; Dermatitis, Atopic; Humans; Hydroquinones; Hypersensitivity; Inflammati | 2023 |
Hydroquinone-induced skin irritant reaction could be achieved by activating mast cells via mas-related G protein-coupled receptor X2.
Topics: Animals; Cell Degranulation; Dermatitis, Atopic; Humans; Hydroquinones; Hypersensitivity; Inflammati | 2023 |
Hydroquinone-induced skin irritant reaction could be achieved by activating mast cells via mas-related G protein-coupled receptor X2.
Topics: Animals; Cell Degranulation; Dermatitis, Atopic; Humans; Hydroquinones; Hypersensitivity; Inflammati | 2023 |
Hydroquinone exposure worsens the symptomatology of rheumatoid arthritis.
Topics: Animals; Anti-Citrullinated Protein Antibodies; Arthritis, Experimental; Arthritis, Rheumatoid; Catt | 2018 |
Polyphenol-hydrogen peroxide reactions in skin: In vitro model relevant to study ROS reactions at inflammation.
Topics: Animals; Antioxidants; Biosensing Techniques; Catalase; Electrochemical Techniques; Electrodes; Hydr | 2019 |
Marine hydroquinone zonarol prevents inflammation and apoptosis in dextran sulfate sodium-induced mice ulcerative colitis.
Topics: Administration, Oral; Animals; Anti-Inflammatory Agents; Apoptosis; Cell Line; Colitis, Ulcerative; | 2014 |
Hydroquinone stimulates inflammatory functions in microvascular endothelial cells via NF-κB nuclear activation.
Topics: Animals; Benzoquinones; Cell Adhesion Molecules; Cells, Cultured; Cytochrome P-450 CYP2E1; Endotheli | 2011 |
In vivo hydroquinone exposure alters circulating neutrophil activities and impairs LPS-induced lung inflammation in mice.
Topics: Animals; Bronchoalveolar Lavage Fluid; Cell Adhesion Molecules; Cell Movement; Disease Models, Anima | 2011 |
Hydroquinone regulates hemeoxygenase-1 expression via modulation of Src kinase activity through thiolation of cysteine residues.
Topics: Animals; Antioxidants; Cell Line; Cysteine; HEK293 Cells; Heme Oxygenase-1; Humans; Hydroquinones; I | 2013 |
Effect of in vivo phenol or hydroquinone exposure on events related to neutrophil delivery during an inflammatory response.
Topics: Animals; Glycogen; Hydroquinones; Inflammation; Leukocyte Count; Leukocyte Rolling; Leukocytes; Male | 2006 |
Chiral tetrahydroquinoline derivatives as potent anti-hyperalgesic agents in animal models of sustained inflammation and chronic neuropathic pain.
Topics: Animals; Biological Availability; Disease Models, Animal; Glycine; Hydroquinones; Hyperalgesia; Infl | 2007 |