Evaluation the relationship between oxidative stress parameters and lipidic profile in stable angina
December 5, 2012
Evaluation the relationship between oxidative stress parameters and lipidic profile in stable angina
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| Title: | Evaluation the relationship between oxidative stress parameters and lipidic profile in stable angina |
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| Article_Title: | Evaluation the relationship between oxidative stress parameters and lipidic profile in stable angina |
| Authors: | Diana Alina Bel, Barbu Cuparencu, Adriana Salajan, Annamaria Pallag |
| Affiliation: | University of Oradea, Faculty of Medicine and Phanmacy Departement of Pharmacology University of Oradea, Faculty of Medicine and Pharmacy Departement of Internal Medicine University of Oradea, Faculty of Medicine and Phanmacy Departement of Pharmacy |
| Abstract: | Oxidative stress can be considered an imbalance between generation of reactive oxygen species and antioxidant defense system. Cellular ROS fonmation is a physiologic process in the vasculature and oc:c:urs in endothelial and smooth muscle cells as well as fibroblasts. Although ROS are small, structurally simple molecules with high and random reactivity, they appear to be subtle physiologic modulators of biochemical processes involved in intracellular signaling. Stable angina as cardinal manifestation of ischemic heart disease, has attracted our attention, causing initiation of a study to track the benefits of phanmacological treatment in this condition. We investigated variations of antioxidant status and oxidative stress parameters in conrelation with modifications of lipidic profile under antianginal drugs treatment. The association of beta blockers with Ca antagonists reduced the oxidative stress and has a positive effect on the lipidic profile. |
| Keywords: | antioxidant status, oxidative stress, stable angina, antianginal drugs |
| References: | An1je R Weseler, Aalt Bast, Oxidative Stress and Vascular Function: Implications for Pharmacologic Treatments, am Hypertens Rep., 12:154161, DOl 10.1007/s11906-0I0-0103-9, 2010. Bobescu E., Oxidative stress and antioxidant systems evaluation in cardiovascular disease, Revista Romiinii de Medicinli de Laborator Vol. 8, No. 3, 14-19,2007. Bourasa MG, Tardif JC. – Antioxidants and cardiovascular disease, 2nd Edition, New York, Springer Science, Business Media, Inc, 131-165, 2006. Buege J.A., Aust S.D. – Diabetic Heart and Kidoey exhibit increased resistance to lipid peroxidation, Biochemical Biophysical Acta, 1047: 63-69, 1990. Chiorescu R, Blaga S., Vida Simiti L., CristeaA., Suciu S., Mure an A., Decea N., Comportamentul unor parametri de sires oxidativ, Ia bolnavii cu anginli pectorala, m funCie de factorii de rise traditionali asociaji, Clujul Mdical, no I, 66-70, 2008. Jones, D. P., Redox potential of GSH/GSSG couple: assay and biological significance. Methods Enzymol. 348:93112,2002. Macyntire, G., Gutfreund, K.S., Martin, W.R., Camiciolli, R. and Cox, D.W., Value of an enzymatic assay for the determioation of serum ceruloplasmin, J. Lab. Clin. Med.; Yol144 (6), pp 294-301′ 2004. Mihele, D., Biochimie Clinica- Metode de laborator; ll Ed., Ed. Med. Bucuresti, pp 123-26,2002. Muresan M., Muresan I., Burta L., Burta 0., Miele L., Miele 0., Dorofteiu, M., Stresul oxidativ!n holile medico-chiru!gicale, Editora Universitlijii din Oradea, 89-97 pp, 2003. Piiduraru I., Piiduraru 0., Jerca L., Patra canu S., Modifications Of Oxidative Stress Parameters In Relationship With Modifications Of Lipidic Profile In Arterial Hypertension, Farmacia, Vol.LVI, 3, 261-266,2008. Poli G, Leonarduzzi G, Biasi F, Chiarpotto E: Oxidative stress and cell signalling. am Med Chern, II:11631182,2004. Sies H., Oxidative stress: Oxidants and antioxidants, Experim. Physiol., 82:291-295,1997. Sies, H., Glutathione and its cellular functions. Free Radic. Bioi. Med. 27:916921, 1999. Townsend, D. M., Tew, K. D. & Tapiero, H., The importance of glutathione in human disease. Biomed. Pharmacother. 57:145155,2003. Vass L., Bud I., Effects of hydrogen peroxide on Compsopogon caeruleus (Rhodophycophyta) and two superior plants.AACLBioflux 3(5):367-372, 2010. Wolf G. – Free radical production and angiotensin, am. Hypertens.Rep.,2: 167-173,2000. |
| Read_full_article: | pdf/22-2012/22-3-2012/SU22-3-2012-Bei.pdf |
| Correspondence: | Bei Diana Alina, Universitatea din Oradea, Facultatea de Medicina si Farmacie Oradea, str 1 Decembrie Nr. 10, Phone: 0259415680, E-mail: diana_bei@yahoo.oom |
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Read full article |
| Article Title: | Evaluation the relationship between oxidative stress parameters and lipidic profile in stable angina |
| Authors: | Diana Alina Bel, Barbu Cuparencu, Adriana Salajan, Annamaria Pallag |
| Affiliation: | University of Oradea, Faculty of Medicine and Phanmacy Departement of Pharmacology University of Oradea, Faculty of Medicine and Pharmacy Departement of Internal Medicine University of Oradea, Faculty of Medicine and Phanmacy Departement of Pharmacy |
| Abstract: | Oxidative stress can be considered an imbalance between generation of reactive oxygen species and antioxidant defense system. Cellular ROS fonmation is a physiologic process in the vasculature and oc:c:urs in endothelial and smooth muscle cells as well as fibroblasts. Although ROS are small, structurally simple molecules with high and random reactivity, they appear to be subtle physiologic modulators of biochemical processes involved in intracellular signaling. Stable angina as cardinal manifestation of ischemic heart disease, has attracted our attention, causing initiation of a study to track the benefits of phanmacological treatment in this condition. We investigated variations of antioxidant status and oxidative stress parameters in conrelation with modifications of lipidic profile under antianginal drugs treatment. The association of beta blockers with Ca antagonists reduced the oxidative stress and has a positive effect on the lipidic profile. |
| Keywords: | antioxidant status, oxidative stress, stable angina, antianginal drugs |
| References: | An1je R Weseler, Aalt Bast, Oxidative Stress and Vascular Function: Implications for Pharmacologic Treatments, am Hypertens Rep., 12:154161, DOl 10.1007/s11906-0I0-0103-9, 2010. Bobescu E., Oxidative stress and antioxidant systems evaluation in cardiovascular disease, Revista Romiinii de Medicinli de Laborator Vol. 8, No. 3, 14-19,2007. Bourasa MG, Tardif JC. – Antioxidants and cardiovascular disease, 2nd Edition, New York, Springer Science, Business Media, Inc, 131-165, 2006. Buege J.A., Aust S.D. – Diabetic Heart and Kidoey exhibit increased resistance to lipid peroxidation, Biochemical Biophysical Acta, 1047: 63-69, 1990. Chiorescu R, Blaga S., Vida Simiti L., CristeaA., Suciu S., Mure an A., Decea N., Comportamentul unor parametri de sires oxidativ, Ia bolnavii cu anginli pectorala, m funCie de factorii de rise traditionali asociaji, Clujul Mdical, no I, 66-70, 2008. Jones, D. P., Redox potential of GSH/GSSG couple: assay and biological significance. Methods Enzymol. 348:93112,2002. Macyntire, G., Gutfreund, K.S., Martin, W.R., Camiciolli, R. and Cox, D.W., Value of an enzymatic assay for the determioation of serum ceruloplasmin, J. Lab. Clin. Med.; Yol144 (6), pp 294-301′ 2004. Mihele, D., Biochimie Clinica- Metode de laborator; ll Ed., Ed. Med. Bucuresti, pp 123-26,2002. Muresan M., Muresan I., Burta L., Burta 0., Miele L., Miele 0., Dorofteiu, M., Stresul oxidativ!n holile medico-chiru!gicale, Editora Universitlijii din Oradea, 89-97 pp, 2003. Piiduraru I., Piiduraru 0., Jerca L., Patra canu S., Modifications Of Oxidative Stress Parameters In Relationship With Modifications Of Lipidic Profile In Arterial Hypertension, Farmacia, Vol.LVI, 3, 261-266,2008. Poli G, Leonarduzzi G, Biasi F, Chiarpotto E: Oxidative stress and cell signalling. am Med Chern, II:11631182,2004. Sies H., Oxidative stress: Oxidants and antioxidants, Experim. Physiol., 82:291-295,1997. Sies, H., Glutathione and its cellular functions. Free Radic. Bioi. Med. 27:916921, 1999. Townsend, D. M., Tew, K. D. & Tapiero, H., The importance of glutathione in human disease. Biomed. Pharmacother. 57:145155,2003. Vass L., Bud I., Effects of hydrogen peroxide on Compsopogon caeruleus (Rhodophycophyta) and two superior plants.AACLBioflux 3(5):367-372, 2010. Wolf G. – Free radical production and angiotensin, am. Hypertens.Rep.,2: 167-173,2000. |
| *Correspondence: | Bei Diana Alina, Universitatea din Oradea, Facultatea de Medicina si Farmacie Oradea, str 1 Decembrie Nr. 10, Phone: 0259415680, E-mail: diana_bei@yahoo.oom |
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