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		Derechos	Preview	Fecha Public.	Título	Autor(es)	Tipo
	1	openAccess		2017	Polyphenol content, in vitro bioaccesibility and antioxidant capacity of widely consumed beverages	Baeza, Gema CSIC; Sarriá, Beatriz CSIC ORCID; Bravo, Laura CSIC ORCID; Mateos, Raquel CSIC ORCID	artículo
	2	openAccess		2018	Improved LC-MSn characterization of hydroxycinnamic acid derivatives and flavonols in different commercial mate (Ilex paraguariensis) brands. Quantification of polyphenols, methylxanthines, and antioxidant activity	Mateos, Raquel CSIC ORCID ; Baeza, Gema CSIC; Sarriá, Beatriz CSIC ORCID; Bravo, Laura CSIC ORCID	artículo
	3	openAccess		2017	LC-MSn characterization of saponins in mate (Ilex paraguariens, St. Hil) and their quantification by HPLC-DAD	Mateos, Raquel CSIC ORCID ; Baeza, Gema CSIC; Martínez López, Sara CSIC ORCID; Sarriá, Beatriz CSIC ORCID; Bravo, Laura CSIC ORCID	artículo
	4	openAccess		2018	Absorption and metabolism of yerba mate phenolic compounds in humans	Gómez Juaristi, Miren CSIC; Martínez López, Sara CSIC ORCID; Sarriá, Beatriz CSIC ORCID; Bravo, Laura CSIC ORCID; Mateos, Raquel CSIC ORCID	artículo
	5	closedAccess		2017	Endothelial protection of yerba mate and green coffee is associated to chlorogenic acid and the major colonic metabolite dihydrocaffeic acid	Bravo, Laura CSIC ORCID; Wang, Shenli CSIC; Sarriá, Beatriz CSIC ORCID; Mateos, Raquel CSIC ORCID ; Goya, Luis CSIC ORCID	póster de congreso
	6	openAccess		2017	Antiproliferative and cytotoxic effects of green coffee and yerba mate extracts, their main hydroxycinnamic acids, methylxanthine and metabolites in different human cell lines	Amigo-Benavent, Miryam; Wang, Shenli CSIC; Mateos, Raquel CSIC ORCID ; Sarriá, Beatriz CSIC ORCID; Bravo, Laura CSIC ORCID	artículo
	7	closedAccess		2016	Dihydrocaffeic acid, a major microbial metabolite of chlorogenic acids, shows similar protective effect than a yerba mate phenolic extract against oxidative stress in HepG2 cells	Baeza, Gema CSIC; Sarriá, Beatriz CSIC ORCID; Mateos, Raquel CSIC ORCID ; Bravo, Laura CSIC ORCID	artículo
	8	openAccess		2019	TNF-α-induced oxidative stress and endothelial dysfunction in EA.hy926 cells is prevented by mate and green coffee extracts, 5-caffeoylquinic acid and its microbial metabolite, dihydrocaffeic acid	Wang, Shenli CSIC; Sarriá, Beatriz CSIC ORCID; Mateos, Raquel CSIC ORCID ; Goya, Luis CSIC ORCID; Bravo, Laura CSIC ORCID	artículo