Abstract
Nowadays, the society looks with increasing interest in the diet, which is no longer simply a means by which to take the necessary nutrients but has become a means by which it is possible to preserve the health state. German philosopher Ludwig Feuerbach once said: “We are what we eat.” This statement is even truer today because of the hectic life, people often tend to eat frugal, fast, and often very fat and unhealthy meals. Today, there is a very high attention both from the social point of view and by the scientific community to the so-called functional foods. These foods, which contain several bioactive compounds, exert innumerable biological properties and therefore can help to preserve the health state. In addition, the use of nutraceuticals has taken the upper hand, unfortunately, often also to the detriment of functional foods, which unlike the former still remain foods and, as such, with a certainly better efficacy-safety profile. The term nutraceutical, indeed, does not refer to a food but rather to a formulation containing one or more compounds isolated from plant extracts or one or more titrated plant extracts. Moreover, some formulations (capsules, tablets, powders, etc.) are rarely studied before being commercialized, and their effectiveness remains rather doubtful in light of a very lax regulation in many countries worldwide.
This is a preview of subscription content, log in via an institution to check access.
References
Abdelhalim A, Aburjai T, Hanrahan J et al (2017) Medicinal plants used by traditional healers in Jordan, the Tafila Region. Pharmacogn Mag 13(1):S95–S101
Abreu OA, Barreto G, Prieto S (2014) Vaccinium (Ericaceae): ethnobotany and pharmacological potentials Emir. J Food Agric 26(7):577–591
Amor S, Châlons P, Aires V et al (2018) Polyphenol extracts from red wine and grapevine: potential effects on cancers. Diseases 6(4). pii: E106
Angeloni C, Malaguti M, Barbalace MC et al (2017) Bioactivity of olive oil phenols in neuroprotection. Int J Mol Sci 18(11). pii: E2230
Arun N, Singh DP (2012) Punica granatum: a review on pharmacological and therapeutic properties. IJPSR 3(5):1240–1245
Barba FJ, Nikmaram N, Roohinejad S et al (2016) Bioavailability of Glucosinolates and their breakdown products: impact of processing. Front Nutr 16:3–24
Bolling BW, Chen CY, McKay DL et al (2011) Tree nut phytochemicals: composition, antioxidant capacity, bioactivity, impact factors. A systematic review of almonds, Brazils, cashews, hazelnuts, macadamias, pecans, pine nuts, pistachios and walnuts. Nutr Res Rev 24(2):244–275
Bombardelli E, Morazzonni P (1995) Vitis vinifera L. Fitoterapia 66(4):291–317
Capuano E, Dekker M, Verkerk R et al (2017) Food as pharma? The case of Glucosinolates. Curr Pharm Des 23(19):2697–2721
Carlsen MH, Halvorsen BL, Holte K, Bøhn SK, Dragland S, Sampson L, Willey C, Senoo H, Umezono Y, Sanada C, Barikmo I, Berhe N, Willett WC, Phillips KM, Jacobs DR, Blomhoff R (2010) The total antioxidant content of more than 3100 foods, beverages, spices, herbs and supplements used worldwide. Nutrition Journal 9(1)
Cassidy A, Minihane AM (2017) The role of metabolism (and the microbiome) in defining the clinical efficacy of dietary flavonoids. Am J Clin Nutr 105(1):10–22
Chamorro MF, Ladio A, Molares S (2019) Patagonian berries – Chapter 4. In: Martinez JL, Munoz-Acevedo A, Rai M (eds) Ethnobotany: local knowledge and traditions. CRC Press, Boca Raton, 326 p
Colica C, Di Renzo L, Trombetta D et al (2017) Antioxidant effects of a Hydroxytyrosol-based pharmaceutical formulation on body composition, metabolic state, and gene expression: a randomized double-blinded, placebo-controlled crossover trial. Oxidative Med Cell Longev 2017:2473495
Cornara L, La Rocca A, Terrizzano L et al (2014) Ethnobotanical and phytomedical knowledge in the North-Western Ligurian Alps. J Ethnopharmacol 155:463–484
Costa C, Tsatsakis A, Mamoulakis C et al (2017) Current evidence on the effect of dietary polyphenols intake on chronic diseases. Food Chem Toxicol 110:286–299
D’Antuono I, Garbetta A, Ciasca B et al (2016) Biophenols from table Olive cv Bella di Cerignola: chemical characterization, bioaccessibility, and intestinal absorption. J Agric Food Chem 64(28):5671–5678
D’Archivio M, Filesi C, Varì R et al (2010) Bioavailability of the polyphenols: status and controversies. Int J Mol Sci 11(4):1321–1342
de la Torre R (2008) Bioavailability of olive oil phenolic compounds in humans. Inflammopharmacology 16(5):245–247
de la Torre R, Corella D, Castañer O et al (2017) Protective effect of homovanillyl alcohol on cardiovascular disease and total mortality: virgin olive oil, wine, and catechol-methylation. Am J Clin Nutr 105(6):1297–1304
de Souza RGM, Schincaglia RM, Pimentel GD et al (2017) Nuts and human health outcomes: a systematic review. Nutrients 9(12). pii: E1311
Degu A, Ayenew B, Cramer GR et al (2016) Polyphenolic responses of grapevine berries to light, temperature, oxidative stress, abscisic acid and jasmonic acid show specific developmental-dependent degrees of metabolic resilience to perturbation. Food Chem 212:828–836
Deiana M, Serra G, Corona G (2018) Modulation of intestinal epithelium homeostasis by extra virgin olive oil phenolic compounds. Food Funct 9(8):4085–4099
Dvorakova M, Landa P (2017) Anti-inflammatory activity of natural stilbenoids: a review. Pharmacol Res 124:126–145
Espín JC, Larrosa M, García-Conesa MT (2013) Biological significance of Urolithins, the gut microbial Ellagic acid-derived metabolites: the evidence so far. Evid Based Complement Alternat Med 2013:270418
Fatima T, Showkat U, Hussain S et al (2018) Nutritional and health benefits of walnuts. J Pharmacogn. Phytochemistry 7(2):1269–1271
Favre G, González-Neves G, Piccardo D et al (2018) New acylated flavonols identified in Vitis vinifera grapes and wines. Food Res Int 112:98–107
Feliciano RP, Boeres A, Massacessi L et al (2016) Identification and quantification of novel cranberry-derived plasma and urinary (poly)phenols. Arch Biochem Biophys 599:31–41
Georgiev V, Ananga A, Tsolova V (2014) Recent advances and uses of grape flavonoids as nutraceuticals. Nutrients 6:391–415
Giovinazzo G, Grieco F (2015) Functional properties of grape and wine polyphenols. Plant Foods Hum Nutr 70(4):454–462
Gorzynik-Debicka M, Przychodzen P, Cappello F et al (2018) Potential health benefits of olive oil and plant polyphenols. Int J Mol Sci 19(3):686. pii: E686
Gul K, Singh AK, Jabeen R (2016) Nutraceuticals and functional foods: the foods for the future world. Crit Rev Food Sci Nutr 56(16):2617–2627
Guldiken B, Ozkan G, Catalkaya G et al (2018) Phytochemicals of herbs and spices: health versus toxicological effects. Food Chem Toxicol 119:37–49
Hahn M, Baierle M, Charão MF et al (2017) Polyphenol-rich food general and on pregnancy effects: a review. Drug Chem Toxicol 40(3):368–374
Hashmi MA, Khan A, Hanif M et al (2015) Traditional uses, Phytochemistry, and pharmacology of Olea europaea (Olive). Evid Based Complement Alternat Med 2015:541591
Herr I, Büchler MW (2010) Dietary constituents of broccoli and other cruciferous vegetables: implications for prevention and therapy of cancer. Cancer Treat Rev 36:377–383
Institute of Medicine (2000) Dietary reference intakes for vitamin C, vitamin E, selenium, and carotenoids. The National Academies Press, Washington, DC
Kamiloglu S, Grootaert C, Capanoglu E et al (2017) Anti-inflammatory potential of black carrot (Daucus carota L.) polyphenols in a co-culture model of intestinal Caco-2 and endothelial EA.hy926 cells. Mol Nutr Food Res 61(2). Epub 2016 Dec 13
Khan NH, Ying ALT, Tian CGZ et al (2017) Screening of Punica Granatum seeds for antibacterial and antioxidant activity with various extracts. J Gastroenterol. Dig Dis 1(1):1–7
Lee Y, Kim S, Yang B et al (2018) Anti-inflammatory effects of Brassica oleracea Var. capitata L. (cabbage) methanol extract in mice with contact dermatitis. Pharmacogn Mag 14(54): 174–179
Leporatti ML, Ghedira K (2009) Comparative analysis of medicinal plants used in traditional medicine in Italy and Tunisia. J Ethnobiol Ethnomed 5:31
Lopez de las Hazas M-C, Pinol C, Macia A et al (2016) Differential absorption and metabolism of hydroxytyrosol and its precursors oleuropein and secoiridoids. J Funct Foods 22:52–63
Ma Q, Zhang X-M, Jiang J-G et al (2017) Apigenin-7-O-b-D-glucuronide inhibits modified low-density lipoprotein uptake and foam cell formation in macrophages. J Funct Foods 35:615–621
Ma Q, Jiang J-G, Zhang X-M et al (2018) Identification of luteolin 7-O-D-glucuronide from Cirsium japonicum and its anti-inflammatory mechanism. J Funct Foods 46:521–528
Maggioni L, von Bothmer R, Poulsen G, Lipman E (2018) Domestication, diversity and use of Brassica L. oleracea L., based on ancient Greek and Latin texts. Genet Resour Crop Evol 65(1):137–159
Mandalari G, Vardakou M, Faulks R et al (2016) Food matrix effects of polyphenol bioaccessibility from almond skin during simulated human digestion. Nutrients 8(9). pii: E568
Mansour R, Haouas N, Ben Kahla-Nakbi A et al (2013) The effect of Vitis vinifera L. leaves extract on Leishmania infantum. Iran J Pharm Res 12(3):349–355
Mcvetty PBE, Duncan RW (2016) Canola/rapeseed: genetics and breeding. In: Encyclopedia of food grains, vol 4. Elsevier, Amsterdam, pp 311–316
Monforte MT, Smeriglio A, Germanò MP et al (2018) Evaluation of antioxidant, antiinflammatory, and gastroprotective properties of Rubus fruticosus L. fruit juice. Phytother Res 32(7): 1404–1414
Mosele JI, Macià A, Motilva MJ (2015) Metabolic and microbial modulation of the large intestine ecosystem by non-absorbed diet phenolic compounds: a review. Molecules 20(9):17429–17468
Motohashi N, Gallagher R, Anuradha V et al (2017) Functional foods and their importance in geriatric nutrition. J Clin Nutr Metab 1:1
Nile SH, Park SW (2014) Edible berries: bioactive components and their effect on human health. Nutrition 30(2):134–144
Nobili V, Alisi A, Mosca A, Crudele A, Zaffina S, Denaro M, Smeriglio A, Trombetta D (2019) The antioxidant effects of Hydroxytyrosol and vitamin E on pediatric nonalcoholic fatty liver disease, in a clinical trial: a new treatment? Antioxid Redox Signal 31:127. https://doi.org/10.1089/ars.2018.7704. [Epub ahead of print]
Nunes S, Madureira AR, Campos D et al (2017) Therapeutic and nutraceutical potential of rosmarinic acid-Cytoprotective properties and pharmacokinetic profile. Crit Rev Food Sci Nutr 57(9):1799–1806
Nuñez-Sánchez MA, García-Villalba R, Monedero-Saiz T et al (2014) Targeted metabolic profiling of pomegranate polyphenols and urolithins in plasma, urine and colon tissues from colorectal cancer patients. Mol Nutr Food Res 58:1199–1211
Obi RK, Nwanebu FC, Ndubuisi UU et al (2009) Antibacterial qualities and phytochemical screening of the oils of circuit pepom and Brassica nigra. J Med Plants Res 3:429–432
Oliviero T, Verkerk R, Dekker M (2018) Isothiocyanates from Brassica vegetables-effects of processing, cooking, mastication, and digestion. Mol Nutr Food Res 62(18):e1701069
Opara EI, Chohan M (2014) Culinary herbs and spices: their bioactive properties, the contribution of polyphenols and the challenges in deducing their true health benefits. Int J Mol Sci 15(10): 19183–19202
Passamonti S, Vrhovsek U, Vanzo A et al (2003) The stomach as a site for anthocyanins absorption from food. FEBS Lett 544(1–3):210–213
Paur I, Carlsen MH, Halvorsen BL et al (2011) Roles in oxidative stress and redox signaling Chapter 2. Antioxidants in herbs and spices. In: Benzie IFF, Wachtel-Galor S (eds) Herbal medicine: biomolecular and clinical aspects, 2nd edn. CRC Press/Taylor & Francis, Boca Raton
Peyrol J, Meyer G, Obert P et al (2018) Involvement of bilitranslocase and beta-glucuronidase in the vascular protection by hydroxytyrosol and its glucuronide metabolites in oxidative stress conditions. J Nutr Biochem 51:8–15
Raiola A, Errico A, Petruk G et al (2017) Bioactive Compounds in Brassicaceae Vegetables with a Role in the Prevention of Chronic Diseases. Molecules 23(1). pii: E15
Rajamurugan R, Suyavaran A, Selvaganabathy N et al (2012) Brassica nigra plays a remedy role in hepatic and renal damage. Pharm Biol 50(12):1488–1497
Rigacci S, Stefani M (2016) Nutraceutical properties of olive oil polyphenols. An itinerary from cultured cells through animal models to humans. Int J Mol Sci 17(6). pii: E843
Rodriguez-Morato J, Boronat A, Kotronoulas A et al (2016) Metabolic disposition and biological significance of simple phenols of dietary origin: hydroxytyrosol and tyrosol. Drug Metab Rev 48:218–236
Rokayya S, Li CJ, Zhao Y et al (2014) Cabbage (Brassica oleracea L. var. capitata) phytochemicals with antioxidant and anti-inflammatory potential. Asian Pac J Cancer Prev 14(11):6657–6662
Sabatini N, Perri E, Rongai D (2018) Olive oil antioxidants and aging. Chapter 4. In: Food quality: balancing health and disease. Handbook of food bioengineering. Elsevier, San Diego, pp 145–157
Sachan AKR, Kumar S, Kumari K et al (2018) Medicinal uses of spices used in our traditional culture: worldwide. J Med Plants Stud 6(3):116–122
Serreli G, Deiana M (2018) Biological relevance of extra virgin olive oil polyphenols metabolites. Antioxidants (Basel) 7(12). pii: E170
Shaygannia E, Bahmani M, Zamanzad B et al (2016) A review study on Punica granatum L. J Evid Based Complement Altern Med 21(3):221–227
Silva S, Garcia-Aloy M, Figueira ME et al (2018) High resolution mass spectrometric analysis of secoiridoids and metabolites as biomarkers of acute olive oil intake – an approach to study interindividual variability in humans. Mol Nutr Food Res 62(2). Epub 2017 Dec 19
Skrovankova S, Sumczynski D, Mlcek J et al (2015) Bioactive compounds and antioxidant activity in different types of berries. Int J Mol Sci 16(10):24673–24706
Smeriglio A, Monteleone D, Trombetta D (2014) Health effects of Vaccinium myrtillus L.: evaluation of efficacy and technological strategies for preservation of active ingredients. Mini Rev Med Chem 14(7):567–584
Smeriglio A, Barreca D, Bellocco E et al (2016) Chemistry, pharmacology and health benefits of anthocyanins. Phytother Res 30(8):1265–1286
Smeriglio A, Barreca D, Bellocco E et al (2017) Proanthocyanidins and hydrolysable tannins: occurrence, dietary intake and pharmacological effects. Br J Pharmacol 174(11):1244–1262
Smeriglio A, Denaro M, Trombetta D (2018a) Dietary phytochemicals and Endrocrine-related activities: an update. Mini Rev Med Chem 18(16):1382–1397
Smeriglio A, Calderaro A, Denaro M et al (2018b) Effects of isolated isoflavones intake on health. Curr Med Chem 26:5094. https://doi.org/10.2174/0929867324666171006143047. [Epub ahead of print]
Smeriglio A, Denaro M, Mastracci L, Grillo F, Cornara L, Shirooie S, Nabavi SM, Trombetta D (2019a) Safety and efficacy of hydroxytyrosol-based formulation on skin inflammation: in vitro evaluation on reconstructed human epidermis model. DARU Journal of Pharmaceutical Sciences 27(1):283–293
Smeriglio A, Toscano G, Denaro M, De Francesco C, Agozzino S, Trombetta D, (2019b) Nitrogen Headspace Improves the Extra Virgin Olive Oil Shelf-Life, Preserving Its Functional Properties. Antioxidants 8(9):331
Sreekumar S, Sithul H, Muraleedharan P et al (2014) Pomegranate fruit as a rich source of biologically active compounds. Biomed Res Int 2014:686921
Sultana N (2018) Plants of genus Rubus as a source of pharmaceuticals. CPQ Nutrition 3(1):1–71
Trombetta D, Smeriglio A, Marcoccia D et al (2017) Analytical evaluation and antioxidant properties of some secondary metabolites in Northern Italian mono- and multi-varietal Extra Virgin Olive Oils (EVOOs) from early and late harvested olives. Int J Mol Sci. 18(4). pii: E797
US Department of Agriculture (USDA), Agricultural Research Service, Nutrient Data Laboratory. USDA national nutrient database for standard reference, legacy. Version current: April 2018. Internet: http://www.ars.usda.gov/nutrientdata
Vadivel V, Kunyanga CN, Biesalski HK (2012) Health benefits of nut consumption with special reference to body weight control. Nutrition 28(11–12):1089–1097
Vanga SK, Raghavan V (2017) Processing effects on tree nut allergens: a review. Crit Rev Food Sci Nutr 57(17):3794–3806
Velderrain-Rodríguez GR, Palafox-Carlos H, Wall-Medrano A et al (2014) Phenolic compounds: their journey after intake. Food Funct 5:189–197
Wagner AE, Terschluesen AM, Rimbach G (2013) Health promoting effects of brassica-derived phytochemicals: from chemopreventive and anti-inflammatory activities to epigenetic regulation. Oxidative Med Cell Longev 2013:964539
Wu S, Tian L (2017) Diverse phytochemicals and bioactivities in the ancient fruit and modern functional food pomegranate (Punica granatum). Molecules 22(10). pii: E1606
Wu X, Beecher GR, Holden JM et al (2004) Lipophilic and hydrophilic antioxidant capacities of common foods in the United States. J Agric Food Chem 52(12):4026–4037
Yubero-Serrano EM, Lopez-Moreno J, Gomez-Delgado F, Lopez-Miranda J (2019) Extra virgin olive oil: More than a healthy fat. European Journal of Clinical Nutrition 72(S1):8–17
Zhao Z, Moghadasian MH (2008) Chemistry, natural sources, dietary intake and pharmacokinetic properties of ferulic acid: a review. Food Chem 109:691–702
Author information
Authors and Affiliations
Corresponding author
Editor information
Editors and Affiliations
Rights and permissions
Copyright information
© 2020 Springer Nature Singapore Pte Ltd.
About this entry
Cite this entry
Smeriglio, A., Cornara, L., Trombetta, D. (2020). Antioxidants in Diets and Food. In: Xiao, J., Sarker, S., Asakawa, Y. (eds) Handbook of Dietary Phytochemicals. Springer, Singapore. https://doi.org/10.1007/978-981-13-1745-3_3-1
Download citation
DOI: https://doi.org/10.1007/978-981-13-1745-3_3-1
Received:
Accepted:
Published:
Publisher Name: Springer, Singapore
Print ISBN: 978-981-13-1745-3
Online ISBN: 978-981-13-1745-3
eBook Packages: Springer Reference Biomedicine and Life SciencesReference Module Biomedical and Life Sciences