Antioxidants thiobarbituric acid reactive

Dopamine, a strong water-soluble antioxidant, was identified in banana fruit (Musa cavendishii) by Kanazawa and Sakakibara (2000). Banana fruit contained high levels in the pulp and peel 2.5-10 mg/100 g and 80-560 mg/100 g, respectively. A banana water extract was reported to suppress the autoxidation of linoleic acid by 65-70% after a 5-day incubation in an emulsion system, as determined from peroxide value and thiobarbituric acid reactivity (Kanazawa and Sakakibara 2000). 

The products formed during lipid peroxidation include unsaturated aldehydes, such as 4-hydroxynonenal. Their quantification is of great interest because of their extremely reactive and cytotoxic properties. This extreme reactivity and metabolic conversion, however, may make them unsuitable as test analytes for in vivo antioxidant activity studies except at high levels of oxidative stress. Furthermore, simple chemical tests such as the TBARS (thiobarbituric acid reactive substances) and LPO-586 (colorimetric... 

Overproduction of free radicals by erythrocytes and leukocytes and iron overload result in a sharp increase in free radical damage in T1 patients. Thus, Livrea et al. [385] found a twofold increase in the levels of conjugated dienes, MDA, and protein carbonyls with respect to control in serum from 42 (3-thalassemic patients. Simultaneously, there was a decrease in the content of antioxidant vitamins C (44%) and E (42%). It was suggested that the iron-induced liver damage in thalassemia may play a major role in the depletion of antioxidant vitamins. Plasma thiobarbituric acid-reactive substances (TBARS) and conjugated dienes were elevated in (3-thalassemic children compared to controls together with compensatory increase in SOD activity [386]. The development of lipid peroxidation in thalassemic erythrocytes probably depends on a decrease in reduced glutathione level and decreased catalase activity [387]. 

Antioxidative effect. Tea, administered orally to rats, decreased the thiobarbituric acid reactive substances (TEARS) contents... 

Antioxidant activity was also tested in a liver microsome system. In this study, mice were treated by oral intubation (2 times/wk) with 0.2 ml olive oil alone or containing CLA (0.1 ml), linoleic acid (0.1 ml), or dl-a-tocopherol (lOmg). Four weeks after the first treatment, liver microsomes were prepared and subsequently subjected to oxidative stress using a non-enzymatic iron-dependent lipid peroxidation system. Microsomal lipid peroxidation was measured as thiobarbituric acid-reactive substance (TBARS) production using malondialdehyde as the standard. It was found that pretreatment of mice with CLA or dl-a-tocopherol significantly decreased TBARS formation in mouse liver microsomes (p < 0.05) (Sword, J. T. and M. W. Pariza, University of Wisconsin, unpublished data). 

In an effort to investigate antioxidant constituents with antiproliferative effects in rat vascular smooth muscle cells (VSMC), broussoflavan A (36) [49], broussoflavonols F (45) [50] and G (46) [51], and broussoaurone A (48) [49] were found to inhibit the Fe2+-induced thiobarbituric acid-reactive substance formation in rat brain homogenate. Furthermore, broussoflavonols F (45) and G (46) inhibited fetal calf serum-, 5-hydroxytryptamine-, or ADP-induced [3H]thymidine incorporation into rat VSMC [45]. Antioxidant activities and inhibitory effects on proliferation of rat VSMC with potent antiplatelet activities of 45 and 46 may be useful for vascular diseases and atherosclerosis [43,45]. 

A 12-fold increase in plasma epicatechin concentration from 22 to 257 nmol/L was reported by Rein et al [105] after consumption of 80 g semisweet (procyanidin rich) chocolate within 2 h after ingestion. The total antioxidant capacity of plasma increases of 31% within the same time, and plasma 2-thiobarbituric acid reactive substances decreased up to 40%. These data support that consumption of chocolate increases plasma epicatechin concentrations and decreases plasma baseline oxidation products. These results have been confirmed in another study by Wang et al [106]. 

The effect of PJ consumption by patients with CAS on their serum oxidative state was measured also as serum concentration of antibodies against Ox-LDL.31 A significant (p < 0.01) reduction in the concentration of antibodies against Ox-LDL by 24 and 19% was observed after 1 and 3 months of PJ consumption, respectively (from 2070 61 EU/mL before treatment to 1563 69 and 1670 52 F.lI/mL after 1 and 3 months of PJ consumption, respectively). Total antioxidant status (TAS) in serum from these patients was substantially increased by 2.3-fold (from 0.95 0.12 nmol/L at baseline up to 2.20 0.25 nmol/L after 12 months of PJ consumption). These results indicate that PJ administration to patients with CAS substantially reduced their serum oxidative status and could thus inhibit plasma lipid peroxidation. The susceptibility of the patient s plasma to free radical-induced oxidation decreased after 12 months of PJ consumption by 62% (from 209 18 at baseline to 79 6 nmol of peroxides/milliliter). The effect of PJ consumption on serum oxidative state was recently measured also in patients with non-insulin-dependent diabetes mellitus (NIDDM). Consumption of 50 mL of PJ per day for a period of 3 months resulted in a significant reduction in serum lipid peroxides and thiobarbituric acid reactive substance (TBAR) levels by 56 and 28%, respectively.32... 

Shelf Storage Test The test material is stored under similar conditions as in retail and is evaluated for the effectiveness of antioxidants in prolonging the premium quality of the product. Periodic evaluation of the hpid oxidation products (primary or secondary) by chemical tests (e.g., peroxide value, conjugated diene value, 2-thiobarbituric acid reactive substances, hexanal content) or sensory evaluation will be used to find out the onset of oxidation. The main drawback of this kind of evaluation is the time taken therefore, rapid evaluation or accelerated methods are often preferred (19, 51). 

Halliwell et al. (55) have described a model that uses hydroxyl radicals generated from Fenton reaction to degrade 2-deoxy-D-ribose. The decomposed products of deoxyribose are 2-thiobarbituric acid-reactive substances (TEARS). If the antioxidant present in the system scavenges hydroxyl radicals generated, deoxyribose is protected and the amount of TEARS produced is less. 

The assays most widely employed are the measurement of thiobarbituric acid-reactive species (TBARS) and the formation of conjugated dienes, markers of lipid peroxidation [31-33] the determination of advanced oxidation protein products (AOPP), a marker of protein oxidation, and of advanced glycation end-products (AGE) [34-37] the measurement of erythrocyte antioxidant potential [38]. Of particular importance is the isoprostanes determination, since these compounds are formed by the free radical catalysed peroxidation of arachidonic acid, which is independent of the cyclooxygenase enzyme, giving rise to stable compounds, measurable in urine [39]. As recently assessed in a Workshop on markers of oxidative damage and antioxidant protection [40], currently available methods for the determination of antioxidant and redox status are not yet generally suitable for routine clinical applications, essentially for the lack of standardized tests. 

Table 2. Antioxidant Activity of Argentine Aqueous Plant Extracts IC50 and 95% Confidence Interval for Inhibition of Hydroperoxide-initiated Chemiluminescence (CL) and the Production of Thiobarbituric Acid-reactive Substances (TBARS) in Rat Liver Homogenates...

Figure 51.1 Antioxidant enzyme activities and LP levels in thyroid tissues of iodine- and selenium-deficient rats. Source Giray ef a/., 2004, with kind permission from Wiley-Liss. Superscripts of different letters differ significantly Ip < 0.05) from each other. Abbreviations C, control group ID, iodine-deficient group SeD, selenium-deficient group cGPx, glutathione peroxidase SOD, superoxide dismutase CAT, catalase TEARS, thiobarbituric acid reactive substances LP, lipid peroxidation.

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