A B C D E F G H I J K L M N O P Q R S T U V W X Y Z All
Kavitha, K.
- In Vitro Antioxidant and Free Radical Scavenging Activities of Methanolic Extract of Ocimum sanctum Linn. Seed
Authors
1 Department of Foods & Nutrition, Vellalar College for Women, Erode, Tamilnadu, IN
Source
FoodSci: Indian Journal of Research in Food Science and Nutrition, Vol 2, No 1 (2015), Pagination: 33-39Abstract
In order to identify the potential sources of natural polyphenols and free radical scavenging activities, the edible seeds of methanolic extracts of Ocimum sanctum seed were studied for total phenolic and flavonoid contents, scavenging of free radicals of DPPH, Nitric oxide, super oxide, hydroxyl and hydrogen per oxide. Polyphenol and flavonoid content were observed sufficient amount in ocimum sanctum seed. The DPPH inhibitory and Nitric Oxide (NO) radical scavenging activities measured in-terms of their IC50 was 63.18μg/ml and 138.88μg/ml respectively. Other radicals like superoxide, hydroxyl and hydrogen peroxide scavenging activities were measured in-terms of IC50 value of 53.73μg/ml, 50.70μg/ml and 52.56μg/ml respectively.Keywords
DPPH , Free Radical Scavenging, Hydroxyl and Hydrogen Peroxide, Nitric Oxide (NO) Superoxide, Ocimum sanctum Seed, Polyphenols.References
- Verma A. R., Vijayakumar M., Mathela C. S., Rao C.V. “In vitro and in vivo antioxidant properties of different fractions of Moring oleifera leaf ”, Food and Chemical Toxicology, vol. 47, p. 2196–2201, 2009.
- Harman D., Free radical theory of aging. Current status, Amster-dam, Elsevier, 1998. p. 3–7.
- Govind P., “Medicinal plants against liver diseases”, IJPR, vol. 2, p. 115–121, 2011.
- Bannerman P. G. C., Mirsky R., Jessen K. R., Timpl R., and Duance V. C., “Light microscopic immunolocalization of laminin, type IV collagen, nidogen, heparansulfate proteoglycan and fibronectin in the enteric nervous system of rat and guinea pig”, Journal of Neurocytology, vol. 15, p. 432–443, 1986.
- Zengin G., Aktumsek A., Guler G. O., Cakmak Y. S., and Yildiztugay E., “Antioxidant properties of methanolic extract and fatty acid composition of CentaureaurvilleiDC. Subsp. HapekianaWagenitz”, Rec Nat Prod. vol. 5, p. 123– 132, 2011.
- Jha N. K., Pandey I. K., and Jha A. K., “Ocimum sanctum: Tulsi”, Phytopharm, vol. 6, p. 3–18, 2005.
- Uma D. P., “Radioprotective, Anticarcinogenic and Antioxidant Properties of the Indian HolyBasil,Ocimum sanctum( Tulasi)”, Ind J Exp Biol. vol. 39, p. 185–190, 2001.
- Varier N. V. K. “Ocimumtenuiflorum Linn. InIndian Medicinal Plants: A Compendium of 500 Species”, Collect, vol. 4, p. 168–196, 1997.
- Singh S., Majumdar D. K., Rehan H. M., “Evaluation of Anti-Inflammatory Potential of Fixed Oil Ocimum sanctum( Holy Basil) and Its Possible Mechanism of Action”, J Ethnopharmacol, vol. 54, p. 19–26, 1996.
- Maulik G., Maulik N., Bhandari V., Kagan V. E., Pakrashi S., Das D. K., “Evaluation of Antioxidant Effectiveness of Few Herbal Plants”, Free Radic Res, vol. 27, p. 221–228, 1997.
- Mediratta P. K., Sharma K. K., Singh S., “Evaluation of Immunomodulatory Potential of Ocimum sanctum Seed Oil and Its Possible Mechanism of Action”, J Ethnopharmacol, vol. 80, p. 15–20, 2002.
- Sen P., Maiti P. C., Puri S., Ray A., Audulov N. A., Valdman A. V., “Mechanism of Antistress Activity of Ocimum sanctum Linn, EugenolandTinosporamalabaricain Experimental Animals”, Ind J Exp Biol, vol. 30, p. 592–596, 1992.
- Devi P. U., Ganasoundari A., Vrinda B., Srinivasan K. K., Unnikrishnan M. K., “Radiation Protection by Ocimum Flavonoids Orientin and Vicenin: Mechanism of Action”, Radiat Res. vol. 154, p. 455–460, 2000.
- Aruoma O. I., Halliwell B., Aeschbach R., Loliger J., “Antioxidant and Pro-Oxidant Properties of Active Rosemary Constituents: Carnosol and CarnosicAcid”, Xenobiotica, vol. 22, p. 257–268, 1992.
- Baritaux O., Amiot M. J., Richard H., Nicolas J., “Enzymatic browning of basil studies on phenolic compounds and polyphenoloxidase”, Sciences des Aliments, vol. 11, p. 49–62, 1991.
- Chipault J. R., Mizuno G. R., Lundberg W. O., “The antioxidant properties of spices in foods”, Food Technology, vol. 10, p. 209–212, 1956.
- Patil D. D., Mhaske D. K., Wadhawa G. C., “Antibacterial and antioxidant study of Ocimum bailicumLabiatae(sweet basil)”, Journal of Advanced Pharmacy Education and Research, vol. 2, p. 104–112, 2011.
- Singleton V. L., Rossi Jr J. A., “Colorimetry of total phenolics with phosphomolybdic- phosphotungstic acid reagents”, American Society for Enology and Viticulture, vol. 16(3), p. 144–158, 1965.
- Rajanandh M. G., and Kavitha J., “Quantitative Estimation of β-Sitosterol, Total Phenolic and Flavonoid Compounds in the Leaves of MoringaOleifera”, International Journal of PharmTech Research, vol. 2(2), p. 1409–1414, 2010.
- Mensor L.I., Menezes F. S., Leitao G. G., Reis A. S., Dos santos T., Coube C. S., Leitao S. G., “Screening of Brazilian plants extracts for antioxidants activity by the use of DPPH free radical method”, Phytother Res, vol. 15, p. 127–130, 2001.
- Green M. J., and Hill H. A. O., Enzymol, vol. 105, 1984.
- Misra H. P., and Fridovich I., J Biol Chem, vol. 247, p. 3170, 1972.
- Elizabeth K., and Rao M. W. A., “Oxygen radical scavengingactivity of Curcumin”, Int J Pharmaceu, vol. 58, p. 237–240, 1990.
- Ruch R. T., Cheng S. J., and Klaunig J. E, Methods in enzymology, vol. 105, p. 198–209, 1984.
- Kähkönen M. P., Hopia A. I., Vuorela H. J., Rauha J. P., Pihlaja K., Kujala T. S., and Heinonen M. “Antioxidant activity of plant extracts containing phenolic compounds”, J Agri Food Chem, vol. 47, p. 3954–3962, 1999.
- Di Carlo G., Mascolo N., Izzo A. A., Capasso F., “Flavonoids: old and new aspects of a class of natural therapeutic drugs”, Life Sci, vol. 65, p. 337–353, 1999.
- Bravo L., “Polyphenols: chemistry, dietary sources, metabolism and nutritional significance”, Nutr Reviews, vol. 56, p. 317–333, 1998.
- Arouma O. I., Halliwell B., Williamson G., Antioxidant Methodology, AOCS Press, IL, USA, 1997. p. 173–204.
- Kris-Etherton P. M., Hecker K. D., Bonanome A., Cival S. M., Binkasi A. E., Hilpert K. F., “Bioactive compounds in foods: their role in the prevention of cardiovascular disease and cancer”, Am J Med, vol. 113, p. 71s-88s, 2002.
- Di Malteo V., Esposito E., “Biochemical and therapeutic effects of antioxidants in the treatment of Alzheimers disease, Parkinson disease and amyotrophic lateral sclerosis”, Current Drug Target - CNS and Neurological Disorders, vol. 2, p. 95–107, 2003.
- Moncada S., Palmer R. M., and Higgs E. A., Pharmacol Rev, vol. 43, p. 109–142, 1991.
- Wang B. S., Chen J. H., Liang Y. C., Duh P. D., “Effects of Welsh onion on oxidation of low density lipoprotein and nitric oxide production in macrophage cell line RAW 264.7”, Food Chem, vol. 91, p. 147, 2005.
- Joseph N. M., Sabharwal M., Shashi A., Mahor A., and Rawal S., Int J Pharm Res Sci, vol. 1(1), p. 1–11, 2010.
- Alves C. Q., David J. M., David J. P., Bahia M. V., and Aguiar R. M., “Methods for determination of in vitro antioxidant activity for extracts and organic compounds”, Química Nova, vol. 33, p. 2202–2210, 2010.
- Van W. R., Van W. E. P., Wiegant F. A., Ives J., “Free radicals and low-level photon emission in human pathogenesis: State of the art”, Indian J ExpBiol, vol. 46, p. 273–309, 2008.
- Nutrient Analysis and Formulation of Antioxidant Enriched Wheat Flour and Formulation of Wheat based Recipes from COFA Flour
Authors
1 Department of Foods and Nutrition, Vellalar College for Women, Erode – 638012, Tamil Nadu, IN
Source
FoodSci: Indian Journal of Research in Food Science and Nutrition, Vol 6, No 1 (2019), Pagination: 21-25Abstract
Among the varieties of fruits and vegetables, carrot and orange have colorful flesh and antioxidant property. Nuts like almond have been increasingly paid attention on the basis of their nutritional aspects and powerful natural antioxidants, which provide various beneficial health effects. As a consequence, a successful combination of Carrot, Orange Flesh and Almond (COFA) were processed in to COFA flour. The prepared COFA flour was incorporated into wheat flour for enriching its nutritional quality. The antioxidant enriched wheat flour was used for recipe preparation. The physico-chemical analysis of flour and sensory evaluation were done to know the acceptability of developed wheat based recipes. The antioxidants vitamins like A, C and E had increased when compared with normal wheat flour. From the results it was found that the developed flour and recipes have not only improved in terms of nutritional value and health benefits, but also have high potential of being accepted by consumers.Keywords
Antioxidant Vitamins, COFA Flour, Formulated Wheat Flour, Nutritional Value, Physico-Chemical Analysis, Sensory Evaluation.References
- Ahlberg. Health benefits of vegetables. Annual Review of Nutrition. 2010; 23:171.
- Bone RA. Benefits of colored fruits. Journals of Plant Science. 2003; 42:58.
- Bowden. Health benefits of almonds. Journal of Food Biochemistry. 2010; 33:38–9.
- Benzie I. Evaluation of dietary antioxidants. Comparative Biochemistry and Physiology. 2010; 36:113–26. https://doi.org/10.1016/S1095-6433(02)00368-9
- Hannon, Lund, Ruxton. The impact of voluntary fortification of foods on micronutrients. Public Health Nutrition. 2007; 11(8):807–21.
- Official Methods of Analysis of AOAC International. 16th ed. Edited by Patricia Cuniff, Published by AoAC Int. Virginia.USA.Test; 1995. p. 3–4.
- Bacteriological Analytical Manual. 6th ed. Arlington,V. A. Association of Official Analytical Chemists for FDA, Washington D.C; 1992. p 17–21.
- Srilakshmi B. Food Science. New Delhi: New Age International Publishers. 6th ed. 2015. p 321.
- Physical Status, Dietary Pattern and Nutrient Intake of the Female Adolescent Garment Workers in Tirupur District
Authors
1 Department of Foods and Nutrition, Vellalar College for Women, Thindal, Erode- 638012, Tamil Nadu, IN
Source
FoodSci: Indian Journal of Research in Food Science and Nutrition, Vol 7, No 1 (2020), Pagination: 1-5Abstract
Adolescence is the period of development that begins at puberty and ends at adulthood. The World Health Organization (WHO) defines adolescence as between 10 and 19 years. The present study is aimed to explore socio-economic status, anthropometric measurement and clinical signs of female adolescent garment workers in Tirupur district. Data was collected from 200 female adolescent garment workers using questionnaire. The data regarding socio economic status, anthropometric measurement, dietary practices, nutrient intake and biochemical profile of the selected female adolescent subjects were collected. From the results it shows that the overall health and nutritional status of all the selected adolescent female subjects are not satisfactory.Keywords
Biochemical Profile, Dietary Practices and Impact of Nutrition Knowledge, Female Adolescents, Garment Workers, Health and Nutritional Status, Nutrient Intake.References
- Keane J and Velde D W, “The role of clothing and textile industries in growth and development strategies”, Investment and Growth Programme. London, United Kingdom: Overseas Development Institute, 2008; 7; 71.
- Roy S (2009), “Garments industry in India”, some reflections on size distribution of firms, [Internet]. Available from: http://www.ihdindia.org/Formal-andInformal-Employment/Paper-5-GarmentIndustry-in-India-Some-Reflections-onSizeDistribution-of-Firms.pdf.
- Chand A,“Physical and psychological health problems of garment workers in the Fiji”,2006; E 13(2):65–70.
- Conners O, Blovin K S and Murphy S K, “Nutritional effects on behaviour of Children”, J Psychiatr Res.2008; 38(2):285– 292.
- National Nutrition Monitoring Bureau (NNMB), “Diet and nutritional status of population and prevalence of hypertension amongst adults in rural areas”, Tech Report No: 24. 2000.
- Proximate Composition, Phytochemical Analysis and Invitro Antioxidant Potentials of Aqueous Extract of Coconut Sugar
Authors
1 Assistant Professor, Department of Food Science and Nutrition, Vellalar College for Women, Erode – 638012, Tamil Nadu, IN
2 Student, Department of Food Science and Nutrition, Vellalar College for Women, Erode – 638012, Tamil Nadu, IN
Source
FoodSci: Indian Journal of Research in Food Science and Nutrition, Vol 8, No 2 (2021), Pagination: 20-28Abstract
Coconut sugar is produced by heating freshly collected coconut sap. The brown color of sugar is derived from non-enzymatic browning reaction. It is strongly influenced by pH and temperature. In this study, the proximate composition of coconut sugar, phytochemical screening and antioxidant activity of coconut sugar were examined. The proximate composition of coconut sugar was high in sucrose content (49.41) than the glucose (15.60) and fructose content (14.15%). The phytochemicals present mainly are alkaloids, phenols, steroids and phytosterols. Coconut sugar is rich in vitamin C (110mg), phosphorous (54.7mg), magnesium (23.13mg), calcium (5.6mg), iron (5mg) and protein (0.42g). It has an excellent antioxidant activity with DPPH radical scavenging activity than superoxide and hydrogen peroxide radical scavenging activity. The organoleptic evaluation of coconut sugar was compared with cane sugar among beverages such as black tea, black coffee, milk tea, milk coffee and milk to show their acceptance. Among all the beverages the overall acceptability of appearance, taste, flavor and color was superior to that of cane sugar. It can be concluded that in addition to their good mineral and phenolic content, coconut sugar could be useful as an antimicrobial substance to prevent various diseases. Future investigation is needed for the assessment of medicinal properties of coconut sugar.
Keywords
Antioxidant Activity, Coconut Sugar, Phytochemical Analysis, Physico-Chemical Parameters, Organoleptic EvaluationReferences
- Ghosh DK, Bandyopadhyay A, Das S, Hebbar KB, Biswas, B. Coconut Sap (Neera) - Untapped Opportunity of Spinoff Gains in West Bengal, India. International Journal of Current Microbiology and Applied Sciences. 2018; 7(9): 2319-7706.
- Purnomo H, Surjoseputro S. Traditional Coconut Sugar Production in Indonesia: A Comparative Study on the Technology and Physic-Chemical Properties of Coconut Sugar from four Villages in East Java and Bali. The 11th Biennial International Congress of Asian Regional Association for Home Economics (ARAHE), Taiwan: Taipei; 2001. p. 1-6.
- Jasmin Wrage, Stephanie Burmester, Jürgen Kuballaa, Sascha Rohn. Coconut sugar (Cocos nucifera L.): Production process, chemical characterization, and sensory properties. 2019. https://doi.org/10.1016/j.lwt.2019.05.125.
- Abdullah WG, Rianse U, Iswandi RM, Taridala SAA, Widayati W, Rianse I S, Baka WK. Potency of natural sweetener: Brown sugar. Advances in Environmental Biology. 2014; 8(21): 374-386.
- Somawiharja Y, Wonohadidjojo DM, Kartikawati M, Suniati FRT, Purnomo H. Indigenous technology of tapping, collecting and processing of coconut (Cocos Nucifera) sap and its quality. 2018. https://doi.org/10.26656/fr.2017.2(4).075.
- Okoma D, Muriel J, Assa Rebecca R, Konan K, Jean-Louis, Konan. N, Ysidor. Physico-chemical Characterization of Granulated Sugar from Coconut (Cocos nucifera L.) Inflorescence Sap Cultivars and Sugar Cane in Côte d’Ivoire. Current Journal of Applied Science and Technology. 2019; 37(3): 1-13, ISSN: 2457-1024. https://doi.org/10.9734/cjast/2019/v37i330287.
- Standardization, Sensory Evaluation and Physico Chemical Analysis of Grape Seed Powder Incorporated Home Made Noodles
Authors
1 Assistant Professor Department of Foods and Nutrition, Vellalar College for Women, Erode – 638 012, Tamil Nadu, IN
2 PG Student, Vellalar College for Women, Erode – 638 012, Tamil Nadu, IN
Source
FoodSci: Indian Journal of Research in Food Science and Nutrition, Vol 9, No 2 (2022), Pagination: 58-65Abstract
As grape seed is the waste material in grape processing, these waste material is generally utilized as cattle feed in many countries, while grape seed has been shown to contain high amount of antioxidant compounds and is a good source of polyphenols a wide variety of proanthocyanidins. For the current study, grape seeds were collected, dried and powdered separately and incorporated in different variety of noodles such as tomato, mint and beetroot at 10%, 20% and 30% levels. Among the three varieties, 20% grape seed powder incorporated beetroot noodles was highly accepted. Grape seed powder incorporated noodles were found to be rich in protein, vitamins like carotene, vitamins C and Vitamin E and minerals like iron and calcium. The microbial load was assessed for highly accepted grape seed powder incorporated homemade noodles and it was found to be safe level.Keywords
Antioxidant, Grape Seed Powder, Homemade Noodles, Microbial Load, PolyphenolsReferences
- Ashwell M. ILSI Europe concise monograph on con¬cepts of functional foods. The International Life Sciences Institute, Washington, DC. 2003.
- Adams KC, Jessica K, Susan Z, Elizabeth HJ and John WE. Tomato as a functional foods. American Society for Nutritional Sciences. 2011; 5:1226–9.
- Shivashankar. Sensory evaluation of food quality. Food Processing and Preservation; Prantice Hall of India (p) Ltd. 2005; pp. 285–6.
- Manay NS and Shadaharaswamy M. Cereals and Cereal Products. Food Facts and Principle (4th edition). New Age International (P) Ltd. 2002; pp. 247.
- Wasker B. Upgrading of grape skins:Significance of plant cell-wall structural components and extraction tech¬niques for phenol release. Trends Foods Sci. Technol. 1998; 17:579–90. https://doi.org/10.1016/j.tifs.2006.05.003
- Bhuvaneswari S, Noordhoff MG and Sigman J. Quantitative analysis of iron and ascorbic acid contents in locally consumed fruits and vegetables. International Research Journal and Biological Science. 2015; 4(7):42–7.
- Srilakshmi B. Evaluation of food quality. Food Science (5th edition); New Age International Publisher, New Delhi. 2005; pp. 54–264.
- Wadell O, Peter l andEradman J. Lycopene and risk of cardiovascular disease. Carotenoids and Retinoids. Biological Actions and Human Health. 1985; 45:204–17.
- Bismark A, Askargorta I, Agranberri S, Jurgen L, Thomas W, Bernhard S and Aretmis SL. Surface characterization of flax, hump and cellulose fibers:surface properties and the water uptake behavior, polymer composition. 2002. https://doi.org/10.1002/pc.10485
- Shukla Y and Srivastava E. The effect of different process¬ing methods on phenolic acid contents and anti-oxidant activity of red beet. Food Research International. 2014; 48:16–20. https://doi.org/10.1016/j.foodres.2012.01.011
- Kang, et al. Physicochemical and textural properties of noodles prepared from different potato varieties. Prev Nutr Food Sci. 2017; 22(3):246–50.