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» Authors » Hans Marquardt

Hans Marquardt

Explore the profile of Hans Marquardt including associated specialties, affiliations and a list of published articles. Areas
Snapshot
Articles 21
Citations 153
Followers 0
Related Specialties
Toxicology
Pharmacology
Biochemistry
Top 10 Co-Authors
Gio Batta Gori
Wolfgang Dekant
Kai Savolainen
Olavi Pelkonen
Jan Hengstler
Frank A Barile
Jose L Domingo
Sam Kacew
Daniel Dietrich
Nico P Vermeulen
Published In
Toxicol Lett
Food Chem Toxicol
Toxicol In Vitro
Toxicon
Chem Biol Interact
Affiliations
Soon will be listed here.
Recent Articles
1.
The EU chemicals strategy for sustainability: in support of the BfR position
Barile F, Colin Berry S, Blaauboer B, Boobis A, Bolt H, Borgert C, et al.
Arch Toxicol . 2021 Aug; 95(9):3133-3136. PMID: 34363510
The EU chemicals strategy for sustainability (CSS) asserts that both human health and the environment are presently threatened and that further regulation is necessary. In a recent Guest Editorial, members...
2.
Corrigendum to "Critique of the "Comment" etitled "Pyrethroid exposure: not so harmless after all" by Demeneix et al. (2020) published in the lancet diabetes endocrinology"
Barile F, Colin Berry S, Blaauboer B, Boobis A, Bolt H, Borgert C, et al.
Toxicol Lett . 2021 Apr; 346:57. PMID: 33902962
No abstract available.
3.
Critique of the "Comment" etitled "Pyrethroid exposure: Not so harmless after all" by Demeneix et al. (2020) published in the lancet diabetes endocrinology
Barile F, Colin Berry S, Blaauboer B, Boobis A, Bolt H, Borgert C, et al.
Toxicol Lett . 2021 Jan; 340:1-3. PMID: 33412252
No abstract available.
4.
Human exposure to synthetic endocrine disrupting chemicals (S-EDCs) is generally negligible as compared to natural compounds with higher or comparable endocrine activity. How to evaluate the risk of the S-EDCs?
Autrup H, Barile F, Colin Berry S, Blaauboer B, Boobis A, Bolt H, et al.
J Toxicol Environ Health A . 2020 Jun; 83(13-14):485-494. PMID: 32552445
Theoretically, both synthetic endocrine-disrupting chemicals (S-EDCs) and natural (exogenous and endogenous) endocrine-disrupting chemicals (N-EDCs) can interact with endocrine receptors and disturb hormonal balance. However, compared to endogenous hormones, S-EDCs are...
5.
Human exposure to synthetic endocrine disrupting chemicals (S-EDCs) is generally negligible as compared to natural compounds with higher or comparable endocrine activity: how to evaluate the risk of the S-EDCs?
Autrup H, Barile F, Colin Berry S, Blaauboer B, Boobis A, Bolt H, et al.
Arch Toxicol . 2020 Jun; 94(7):2549-2557. PMID: 32514609
Theoretically, both synthetic endocrine disrupting chemicals (S-EDCs) and natural (exogenous and endogenous) endocrine disrupting chemicals (N-EDCs) can interact with endocrine receptors and disturb hormonal balance. However, compared to endogenous hormones,...
6.
Human exposure to synthetic endocrine disrupting chemicals (S-EDCs) is generally negligible as compared to natural compounds with higher or comparable endocrine activity. How to evaluate the risk of the S-EDCs?
Autrup H, Barile F, Colin Berry S, Blaauboer B, Boobis A, Bolt H, et al.
Environ Toxicol Pharmacol . 2020 May; 78:103396. PMID: 32391796
Theoretically, both synthetic endocrine disrupting chemicals (S-EDCs) and natural (exogenous and endogenous) endocrine disrupting chemicals (N-EDCs) can interact with endocrine receptors and disturb hormonal balance. However, compared to endogenous hormones,...
7.
Human exposure to synthetic endocrine disrupting chemicals (S-EDCs) is generally negligible as compared to natural compounds with higher or comparable endocrine activity. How to evaluate the risk of the S-EDCs?
Autrup H, Barile F, Colin Berry S, Blaauboer B, Boobis A, Bolt H, et al.
Chem Biol Interact . 2020 May; 326:109099. PMID: 32370863
Theoretically, both synthetic endocrine disrupting chemicals (S-EDCs) and natural (exogenous and endogenous) endocrine disrupting chemicals (N-EDCs) can interact with endocrine receptors and disturb hormonal balance. However, compared to endogenous hormones,...
8.
Human exposure to synthetic endocrine disrupting chemicals (S-EDCs) is generally negligible as compared to natural compounds with higher or comparable endocrine activity. How to evaluate the risk of the S-EDCs?
Autrup H, Barile F, Colin Berry S, Blaauboer B, Boobis A, Bolt H, et al.
Food Chem Toxicol . 2020 May; 142:111349. PMID: 32360905
Theoretically, both synthetic endocrine disrupting chemicals (S-EDCs) and natural (exogenous and endogenous) endocrine disrupting chemicals (N-EDCs) can interact with endocrine receptors and disturb hormonal balance. However, compared to endogenous hormones,...
9.
Human exposure to synthetic endocrine disrupting chemicals (S-EDCs) is generally negligible as compared to natural compounds with higher or comparable endocrine activity. How to evaluate the risk of the S-EDCs?
Autrup H, Barile F, Colin Berry S, Blaauboer B, Boobis A, Bolt H, et al.
Toxicol Lett . 2020 May; 331:259-264. PMID: 32360654
No abstract available.
10.
Human exposure to synthetic endocrine disrupting chemicals (S-EDCs) is generally negligible as compared to natural compounds with higher or comparable endocrine activity. How to evaluate the risk of the S-EDCs?
Autrup H, Barile F, Colin Berry S, Blaauboer B, Boobis A, Bolt H, et al.
Toxicol In Vitro . 2020 May; 67:104861. PMID: 32360643
Theoretically, both synthetic endocrine disrupting chemicals (S-EDCs) and natural (exogenous and endogenous) endocrine disrupting chemicals (N-EDCs) can interact with endocrine receptors and disturb hormonal balance. However, compared to endogenous hormones,...