Nutritional Quality and Effect on Disease Prevention of Vegetables

Vegetables have remarkable nutritional and health benefits. There are good reasons to include vegetables in human diet since they are enriched in bioactive compounds and by this reason they may help reduce the risk of some diseases. In this chapter, the nutrition quality and the effect on disease prevention of vegetables were analyzed. Each vegetable family and each vegetable contain a unique combination of bioactive compounds. The health benefit of vegetables should not be linked to one type of vegetable. Some experimental research evidences that vegetables exert antioxidative, anticarcinogenic, antidiabetic, and cardiovascular disease lowering effects are presented. The mechanism by which vegetable bioactive compounds decrease the risk of some of these diseases is complex and sometimes unknown.


Introduction
Vegetables are important for nutritional balanced diets since they supply bioactive compounds such as dietary fiber, vitamins, minerals, and phytochemicals [1] [2] [3].They are also associated with disease prevention by improvement of gastrointestinal health, good vision, and reduced risk of chronic and degenerative diseases such as cardiovascular diseases, certain cancers, diabetes, rheumatoid arthritis and obesity [3]- [8].
In recent years consumers began to be more aware of the relation of eating patterns with nutrition and human disease prevention and there is a general agreement among scientists, nutritionists and dieticians that the promotion of a tioned some vegetable's phytochemicals are robust antioxidants and are believed to reduce the risk of some chronic and degenerative diseases [2] [3] [4].
With the exclusion of the organosulfur compounds (OSCs) glucosinolates and thiosulfates (which are distinct phytochemicals of Brassicaceae and Alliaceae families, respectively), the phytochemicals, vitamins, and minerals content of many vegetables lie principally in dietary fiber, polyphenols (carotenoids, flavonoids), vitamin C, folate, calcium and selenium [2] [3].The principal dissimilarity is that each vegetable family incorporates a distinct amalgam and amount of these bioactive compounds, which differentiate them from other vegetables [2] [13].
Vegetables of the Asteraceae or Compositae family (lettuce, endive and escarole chicories, stem lettuce, globe artichoke, etc.) are rich in flavonoids, tocopherols and conjugated quercetin.Crozier et al. [18] observed sizeable variations in flavonol content within lettuce cultivars.The outer leaves of "Lollo Rosso", a red cultivar, contained 911 µg/g fresh weight of quercetin, in contrast with the common head lettuce that contained only 11 µg/g.And the levels in iceberg lettuce were even lower than in the head lettuce.The red color of "Lollo Rosso" lettuce is due to high levels of anthocyanins, which like quercetin, are products of the phenylpropanoid pathway.As one end-product of the pathway has been elevated, it may well be that other related compounds, including the flavonols, are also found in higher concentrations.Roman lettuce is richer in lutein than head lettuces; and leafy and roman lettuces are richer in quercetin [3] [13].
The Chenopodiaceae family vegetables (Swiss chard, spinach, garden beet, quinoa, etc.) are among those that are rich in oxalates [19] [20], but also excellent sources of dietary fiber, vitamins, calcium, manganese, flavonoids and carotenoids.When oxalates become too concentrated in body fluids, they can crystallize and cause health problems such as kidney calcium oxalate stones.and fermentability characteristics of ten legumes mature seeds (mungbean, soyabean, peanut, pole sitao, cowpea, chickpea, green pea, lima bean, kidney bean and pigeon pea).They concluded that the dietary fiber content in these 10 legumes ranged from 20.9 to 46.9 g/100 g and that the best sources after in vitro fermentation using human faecal inoculum stimulating conditions in the human collon (as mmol/g/fibre isolate of acetate, propinate, and butyrate produced after fibre fermentation), were pole sitao and mungbean (acetate), kidney bean and pigeon pea (propinate), and peanut and cowpea (butyrate).High-flavonol legumes include sugar snap peas and mange-tout, which were found to contain 98 and 145 µg quercetin/g respectively [2].As mentioned some legumes are also rich in iron.Trinidad et al. [26] studied the mineral availability in vitro of iron, zinc and calcium in ten local legumes (cowpeas, mung beans, pole sitao, chickpeas, green peas, groundnuts, pigeon peas, kidney beans, lima beans and soyabeans).They found that the highest iron availability among these legumes was for lima beans and mung bean; while for zinc and calcium, the highest availability was for kidney beans and pigeon peas.Groundnuts have the lowest iron, zinc and calcium availability.They concluded that mineral availability of iron, zinc, and calcium from legumes differs and may be attributed to their mineral content, mineral-mineral interaction and from their phytic and tannic acid content.Mung bean either eaten as whole pod grains or grown to produce bean sprouts, is an important source of iron for women and children throughout South Asia [1] [27].
Vegetables of the Brassicaceae or Cruciferae family, which include kales, collards, cabbages, Brussels sprouts, cauliflower, broccoli, kailan, pak-choi, Chinese cabbage, turnip, broccoletti, swede, watercress, radish, horseradish, rocket, mustards, etc. are high sources of glucosinolates, as well as vitamin C, carotenoids, folates, calcium, and can accumulate selenium.Comparative studies of glucosinolate profiles within each Cruciferae, and among accessions and plant parts, indicate significant quantitative and qualitative differences [28]- [39].Kushad et al. [34] observed in sixty-five brocolli cultivars, that glucoraphanin was the pre- dominant glucosinolate and that there was more than 27-fold difference between the highest concentration in "Brigadier" and the lowest in "EV6-1".Hansen et al. [40] also observed in twenty-one red cabbage and six white cabbage cultivars, a considerable variation in the concentration of glucosinolates.Red cabbages were J. S. Dias DOI: 10.4236/fns.2019.104029373 Food and Nutrition Sciences found to contain significantly higher concentrations of glucoraphanin compared to white ones.There were also significant differences within the red cabbages examined: "Rodima" had the highest level of glucoraphanin (7.4 mg/g) whereas "Primero" has the lowest (0.6 mg/g).The white cabbages presented significantly higher levels of glucoiberin compared to red ones: white cabbage "Bartolo" had the highest concentration of glucoiberin (7.4 mg/g), whereas "Candela" has the lowest (1.7 mg/g) and red cabbages ranged from 3 to 0.3 mg/g.The red cabbages were also found to contain significantly higher levels of gluconasturtiin compared to white: "Amager Garo" had the highest level of gluconasturtin (1 mg/g) whereas "Primero" had the lowest (0.1 mg/g).In turnip and rutabagas were also observed similar differences between accessions [30].Fahey et al. [41]  [40] [44].In turnip and rutabagas, the major glucosinolates are glucoerucin, glucoraphanin, and glucobrassicin [30] [33].In radish, the most significant glucosinolates are glucoerucin, glucoraphanin, and glucobrassicin [31] [35].Each of these Cruciferae also contain smaller amounts of other glucosinolates.Cao el al. [45] observed that in Brassicaceae vegetables vitamin C is the most abundant vitamin in coles (cabbage, broccoli, cauliflower, Brussels sprouts, tronchuda, and kale), and that kale rated as the second highest vitamins content, and the second highest among twenty-two vegetables.They are also excellent sources of folate.Brussels sprouts and broccoli rank among the highest vegetable sources for folate [46] [47].Most of the Cruciferae are also good sources of calcium.Kales, tronchudas and collards contain the highest content in fiber and calcium when compared to other Brassicaceae.Vegetables of the Cruciferae family are able of accumulating selenium when grown on selenium enriched soils.
Banuelos and Meek [48] stated that broccoli grown soils with high-selenium levels accumulated 7-fold more selenium than cabbage, collards and Swiss chard.
The second most important group of bioactive compounds in Alliums are flavonoids.Miean and Mohamed [56] mentioned that onion leaves had the highest total flavonoid content among sixty-two different vegetables.About 55% of this total of flavonoids is quercetin, 31% kaempferol, and 14% luteolin.Two flavonoids are found in onion bulbs: anthocyanins in red onions, and flavonols like quercetin (more than 95%) and kaempferol in most yellow onion varieties [57].White onion cultivars have significantly less quercetin than the red ones [2] [3] [58].In garlic cloves, 72% of the total flavonoids is myricetin, 23% apigenin, and 5% quercetin [56].In chive, garlic chive, and leek the predominant flavonoid is kaempferol [58].
Onion and garlic are excellent sources of calcium, potassium and manganese providing up to 10% of the human daily requirements.Most of the onions and garlics contain very low concentrations of selenium but can accumulate selenium when grown on selenium enriched soils.Ip and Lisk [59] reported that garlic fertilized with a high selenium and low sulfur fertilizer accumulated between 110 and 150 ppm selenium, while onion accumulated up to 28 ppm.
Onions also contain chromium [2].Two hundred grams of onions contain up to 20% of the daily requirements in chromium.Onions are a rich source of dietary fibers and especially of inulin, a polyfructosan that has prebiotic properties [2] [3].
Vegetables of the Solanaceae family that includes tomato, potato, sweet and hot peppers, eggplant, etc. are very diverse, in their contribution to bioactive compounds.
Tomato contains also significant amounts of α-, β-, γ-, δ-carotene (0.6 to 2.0 mg/kg) which make it for consumers a top contributor of provitamin A and vitamin A [66] [67].Tomatoes are also an excellent source of vitamin C [68].Tomato contains small amounts of lutein, α-, β-, and γ-tocopherols, and conjugated flavonoids (quercetin and kaempferol) [66] [69] [70] [71].About 98% of these flavonoids are present in the peel [72].Cherry tomatoes cultivars have higher flavonoids content than beef ones, and field-grown tomatoes have higher flavonoids content than greenhouse-grown ones [18] [72].Tomatoes are also an excellent source of potassium.Potato is usually only associated as a source of carbohydrates.But it is also an excellent source of essential amino acids (such as lysine) and other bioactive compounds [2].In addition to superior quality proteins, potato tubers also have significant amounts of vitamins and minerals, as well as phytochemicals (phenolics, phytoalexins, etc.), and protease inhibitors [73] [74].There are yellow, red, and purple fleshed potato cultivars with high content of phytochemicals, nevertheless some cultivars are known to have lower [2].Other bioactive antioxidants presented in potato tubers include α-tocopherol, lutein, β-carotene, folates and selenium [73] [74].
Peppers are excellent sources of vitamins C, K, carotenoids, and flavonoids [75].They provide also a respectable amount of dietary fiber.Peppers contain in average 1 to 2 g/kg vitamin C, which is equivalent to 200 to 300% of the recommended daily allowance [76].Their content of provitamin A carotenoids (αand β-carotene) depends in the cultivar.Some cultivars of hot pepper have 12 mg/kg total carotenoids, while others have trace amounts [76] [77].In pepper major conjugated flavonoids are quercetin and luteolin.Their content varies among cultivars ranging from not detectable to 800 mg/kg [78].Red bell peppers have significantly higher levels of bioactive compounds than green ones.Red bell peppers also contain lycopene [74].
In hot peppers or chilies the major phytochemicals are capsaicinoids [2] [74].More than 20 capsaicinoids, belonging to capsaicin and dihydrocapsaicin groups, have been identified.Capsaicin contributes about 70% for the pungent/hot fire flavour in chili peppers, while dihydrocapsaicin represents 30% [79].Significant variations in capsaicinoids are found between and within peppers, ranging from about 220 ppm in Capsicum annum (sweet pepper) to 20,000 ppm in Capsicum chinense (hot pepper) [80].Fresh chili peppers have high levels of vitamins and minerals.Just 100g of hot peppers, red or green, provides 240% of vitamin C, 39% of vitamin B6-complex group, 32% of vitamin A, 13% of iron, 14% of copper, 7% of potassium, of the recommended daily allowance [81].Chilli peppers contain a good amount of manganese and magnesium [2].
Eggplant besides vitamins (C, K, B6-complex group, folate, and niacin) and minerals (magnesium, copper, manganese, molybdenium, potassium) also contains important phytochemicals like flavonoids, such as nasunin, and phenolic compounds, such caffeic and chlorogenic acid [2] [74].Nasusin is the major phytochemical in purple eggplant cultivars.Nasunin is part of the anthocyanin purple pigment found in the skin of eggplant [82] [83] [84].Matsuzoe et al. [85] examined the profile of anthocyanins in several eggplants and found that nasunin represents between 70% to 90% of the total anthocyanins in the skin.Nasunin is an antioxidant that effectively scavenges reactive oxygen species, such as hydrogen peroxide, hydroxyl and superoxide, as well as inhibits the formation of hydroxyl radicals, probably by chelating ferrous ions in the Fenton reaction [82] [84].The predominant phenolic compound found in all cultivars of eggplant tested by Matsuzoe et al. [85] is chlorogenic acid, which is one of the most potent free radical scavengers found in plant tissues.Benefits attributed to Food and Nutrition Sciences chlorogenic acid include anti-mutagenic (anti-cancer), anti-microbial, anti-low density lipoproteins, and anti-viral activities.In addition to chlorogenic acid, Whitaker and Stommel [86] found 13 other phenolic acids present in seven eggplant cultivars."Black Magic" was found by these authors to have nearly three times the amount of antioxidant phenolics as the other eggplant cultivars studied.Eggplant fruits also contain several other antioxidants including flavonoids myricetin and kaempferol as well as carotenoids lycopene, lutein, and α-carotene [56] [87].Eggplant is richer in nicotine than any other edible vegetable and contains measurable amounts of oxalates [2] [74].Due to oxalates individuals with already existing and untreated kidney or gallbladder problems may avoid eating eggplant [74] [88].
Looking generally for the nutrition quality of vegetables groups we can say.In the leafy and stalk vegetables they are fiber sources, rich in important minerals such as calcium, magnesium and iron, and vitamins C, A and riboflavin.In this group young fresh leaves contain more vitamin C than mature plants.The thinner and greener leaves are more nutritious respecting vitamins and minerals but less nutritious respecting dietary fiber.The green outer leaves of head or pseudo-head leafy vegetables such as cabbage, lettuce, and endive chicory, are usually richer in calcium, magnesium, iron, and vitamins than the inner leaves.Stalk vegetables like tronchuda cabbage, pak-choy, celery and asparagus are rich in dietary fiber.
In the fruit and below ground organ vegetables the skin and inside color reflect different bioactive compounds/pigment present.Anthocyanins (flavonoid) give vegetable leaves, below ground organs and fruits their purple and purple-red colour appearance, such as in red anthocyanin lettuce and endive chicory, red cabbage, Swiss chard, rhubarb, etc. (leafy and stalk vegetables), garden beet, purple carrot, red onion, purple and purple-red skinned potato, purple sweet potato, etc. (below ground vegetables) and purple eggplant, purple tomato, purple pepper, purple and black broccoli, purple corn, etc. (fruit and flowering vegetables).The most abundant carotenoids in vegetables are α-carotene, β-carotene and lycopene (carotenes), and lutein, zeaxanthin, and β-cryptoxanthin (xanthophylls) [2] [74] [89].The most common carotenes are β-carotene and lycopene.β-carotene (as well as α-carotene) can be found in orange and yellow skin fruits, below ground organs and leafy vegetables [2] [74].As a rule of thumb, the greater the intensity of the orange colour the more β-carotene the vegetable contains [2] [74].Lycopene can be found in red fruits (e.g.tomato), red below ground organs (e.g.red carrot) and red leafy vegetables.Lutein is the most abundant xanthophyll [2] [74].Xanthophylls are responsible for the yellow colour of vegetables.

ANDI and Nutritional Quality of Vegetables
ANDI (Aggregate Nutrient Density Index) is a scoring system based on nutrient content, rated on a 1 -1000 scale that was established by Dr. Fuhrman [90].This index are scores attributed to a variety of vegetables (and other foods) based on Another important family is Chenopodiaceae.A recent research has shown that Swiss chard leaves contain at least thirteen distinct polyphenol antioxidants [91] comprising the flavonoids kaempferol and syringic acid [91] [92] [93].Swiss chard and garden beet leaves have are a unique source of the bioactive antioxidants named betalains [2] [74].Nine betacyanin pigments were identified in the reddish-purple stems and veins of the leaves of Swiss chard and beet [94].In the Swiss chard's yellowish stems and veins were identified nineteen betaxanthin pigments, including histamine-betaxanthin, alanine-betaxanthin, tyramine-betaxanthin, and 3-methoxytyramine-betaxanthin [94].
In Asteracea, lettuces and chicories are the main vegetables used in raw salads.
Leaf and Romain lettuces have higher ANDI scores (585 and 510 respectively) than iceberg lettuce.Besides the nutritive value of leaf and Romaine lettuce are higher than head lettuces (butter and batavia types).They have more dietary fiber, minerals, vitamins, and phytochemicals.Raw vegetables are the healthiest food we can eat since some phytochemicals are only available if we eat the vegetables raw [95].
In the non-leafy vegetables we have after radish and turnip (both Brassicaceae) the carrots.They are high in fiber and nutrient rich.Carrots have different colors.Orange carrots have αand β-carotene (vitamin A-rich carotenoids) and purple carrots are rich in anthocyanins (flavonoids) and low in carotenoids [96] [97].Winter squash "Acorn" has a high β-carotene content.Kohlrabi, cauliflower and rutabaga are also Brassicacea and so they are good sources of vitamins, minerals and healthy glucosinolates.Kohlrabi (stem) and rutabaga (roots) besides having high vitamin C and anti-oxidant content due to glucosinolates, are good alternative to potatoes since they are not starchy as potato and can be eaten raw and when sliced they do not produce discoloration.The nutritional value of the outer leaves of cauliflower is much higher than the flower buds.Artichoke is rich in fiber and a good source of minerals, namely calcium, potassium and phosphorus.It contains also many bioactive compounds such as glycosides and phenolics, mainly caffeicinic acid [98].Asparagus besides rich in fiber is a very rich source of folic acid.

Effect on Cancers
The International Agency for Research on Cancer (IARC) estimates that the percentage of cancers due to unbalanced diets with low vegetable intake and low consumption of complex carbohydrates and dietary fiber, ranges from 5% to 12% for all cancers, and 20% to 30% for upper gastrointestinal tract cancers [ Leafy vegetables have protective effects against cancers, specially gastrointestinal carcinomas, mainly due to dietary fiber, but also to phytochemicals, vitamins (C, E, K, and A) and minerals they contain [113].Tewani el al. [114] states that spinach shows protective effects against gastrointestinal cancer by reducing oxidative stress thanks to vitamins (C and E), carotenes (mainly β-carotene), lutein, and flavonoids (mainly flavones) it contains.
Intact glucosinolates have no biological activity against cancer.However their breakdown products have been shown to stimulate mixed-function oxidases involved in detoxification of carcinogens, reducing the risk of certain cancers [28] [125] [126].Not all glucosinolate breakdown products have anticancer activity [127].The glucosinolates glucoraphanin, glucoiberin, glucobrassicin and gluconasturtiin are involved in the anti-carcinogenic activity, and glucoraphanin is known to bolster the defenses of cells against carcinogens through an up-regulation of enzymes of carcinogen defense.
Epidemiological data show that a diet rich in Cruciferous can reduce the risk from several cancers by an intake of at least 10 g per day [115] [116] [118].Epidemiological studies have suggested that diets rich in broccoli, may reduce the risk of prostate cancer, and consumption of one or more portions of broccoli per week can reduce the incidence and the progression from localized to aggressive forms of prostate cancer [118] [119].There is also strong evidence that isothiocyanates (an important group of breakdown products of glucosinolates) from Cruciferous prevent bladder cancer, namely transitional cell carcinoma of the Food and Nutrition Sciences urinary bladder [128].
Consumption of Allium vegetables has been also found to retard growth of several types of cancers.A number of epidemiological studies show inverse correlations between the consumption of Allium vegetables, mainly onions and garlics, and the reduced incidence of cancers.
There is strong link between the consumption of onions and the reduced incidence of stomach and intestine cancers [129] [130].Control studies reveal that consumption of 1 to 7 portions of onions per week reduces the risks of colon, ovary, larynx, and mouth cancers [131].Mortality due to prostate cancer also appears to be reduced by a diet making a large consumption of onions [132].
Onion extracts prevent tumors by inhibiting the mutation process [133] and reducing the proliferation of cancer cells [134].
Epidemiological researches show the correlation between moderate garlic intake and a low esophageal and stomach tract cancers incidence [131] [135] [136].Garlic extracts prevent tumor initiation by inhibiting the activation of pro-carcinogens and by stimulating their elimination [137] [138].A regular consumption of garlic has been associated also with the reduction in the incidence of preneoplastic lesions occurring in the gastric mucosa of individuals infected by Helicobacter pylori [139].Other studies analyzing the preventive effect of garlic have evidenced their suppressive potential on the development and progression of colorectal adenomas [110] [140].A reduced cancer risk by regular consumption of garlic has been widely documented also for colorectal and prostate cancers [131] [136] [141] [142].The impact of a diet rich in Allium vegetables in anti-prostate cancer is higher in men presenting localized rather than advanced forms [142].
The impact of a regular intake of Allium vegetables on the incidence of cancers affecting breast, endometrium and lungs have been studied in a limited number of investigations [143] [144] [145].The risk of breast cancer was shown to decrease as consumption of Allium increased [143].Onion extracts has apoptosis-inducing effects in epithelial MDA-MB-231 cells that cause breast cancer [146].
In tomato several investigations have shown an inverse relationship between plasma/serum lycopene concentrations and the risk of some cancers [147]- [153].Reports on thirteen cancer types were identified in literature, of which breast, colorectal, gastric-gastrointestinal, and prostate cancers.For breast, colorectal, and gastric cancers, the existing data support a potential protective association between tomato and lycopene intake and cancer risk.People consuming diets rich in tomato/lycopene and tomato based products were found to be less likely to develop stomach and rectal cancers than those who consume lesser amounts [154].Among the cancers investigated prostate cancer is the most widely researched.Tomato and lycopene intake is preventive against prostate cancer [13] [155].Hadley et al. [156].In an epidemiological study found that consuming tomato and tomato products was associated with a lower incidence of prostate cancer [156].A prostate cancer risk reduction of nearly 35% was observed when the test subjects consumed ten or more servings of tomato per week [157]; and the effect was much stronger for patients with more aggressive and advanced stages of cancer [157].
Other Solanaceae associated with cancer prevention are chili peppers and eggplant.Chili peppers are tough to prevent cancer cells from growing, developing and spreading due to it capsaicin content [158].A study of Nagase et al. [159] showed that eggplant extract inhibited human fibrosarcoma HT-180 cell invasiveness.
Consumption of legumes like soybean, chickpea, and lentil rich in isoflavonoids daidzen, genistein and gycitein, have been suggested to have multiple beneficial effects in a number of diseases, including certain types of cancer [160] [161].Ziegler et al. [162] observed that Asian-American women who consumed a diet rich in soy had low risk of breast cancer incidence.Later studies of soy rich diets confirmed that the main anti-breast cancer ingredient is genistein [163] [164] [165].Dong et al. [166] in a meta-analysis of prospective studies pointed out that soybean isoflavonoids intake is associated with a significantly reduced risk of breast cancer incidence in Asian populations, but not in Western populations.Epidemiological indications jointly with clinical data from animal and in vitro studies highly supported a positive correlation between soybean isoflavo- noids consumption and protection towards prostate cancers [164] [167].Besides breast and prostate cancer, soy isoflavonoids also exhibit inhibitory effects on ovarian cancer, leukemia and lung cancer [168].Anti-carcinogenic effect of carrot juice extracts on myeloid and lymphoid leukemia cell lines was investigated by Zaini et al. [169].Carrot juice extracts owned the ability to "kill" leukemia cells and inhibit their progression.Those researchers believed that β-carotene and falcarinol present in the carrot juice extract may have been responsible for this positive effect.As a complement of this study Larsen et al. [170] examined the impact of carrot and falcarinol feeding toward the development of azoxymethane-induced colon preneoplastic lesions in the rat colon.The results of this study demonstrated that diets with carrot and falcarinol have the potential to delay the development of large aberrant crypt foci and colon tumors on rats.Purup et al. [171] observed also that carrot extracts which contain falcarinol and related aliphatic C17-polyacetyenes (falcarindiol and falcarindiol 3-acetate), had significant inhibithory effect on intestinal cancer cell proliferation.Pisani et al. [172] in a case-control study show that smokers who eat carrots more than once a week have a smaller risk of lung cancer.

Effect on Cardiovascular Diseases
Vegetables offer protection against cardiovascular diseases since they are free of saturated fat, trans fat and cholesterol and rich in bioactive compounds such as dietary fibers, OSCs, flavonoids, carotenoids, phytoestrogens, monoterpenes and sterols.Unbalanced diets with low vegetable intake, has been estimated to cause about 31% of ischaemic heart disease and 11% of stroke worldwide [3].An healthy diet with high vegetable consumption has been associated with lower risk of cardiovascular disease in humans [173] [174].Liu et al. [175] test the influence of vegetable intake on the incidence of cardiovascular disease among 15,220 male physicians without a history of heart disease or stroke.The results of this investigation show that the participators who consumed more than two servings of vegetables per day had 25% less cardiovascular disease than those who consumed less than one serving.Based on this and other researches, the American Heart Association (AHA) has concluded that a diet high in vegetables and fruits may reduce the risk of cardiovascular disease in humans [176].
Prevention of cardiovascular diseases has been attributed to regular garlic consumption.Epidemiological studies demonstrate that there is an inverse correlation between garlic consumption and incidence of cardiovascular diseases [3] [74].Yeh and Liu [177] show that garlic extracts and their OSCs have cholesterol and lipid lowering effects by inhibiting monooxygenase and HMG-CoA reductase two key enzymes involved in cholesterol and fatty acid syntesis.Moriguchi et al. [178] reported that garlic extracts have fibrinolytic effect by inhibiting lipid peroxidation and hemolysis of erythrocytes.Chang et al. [179] in their studies reported also the anti-platelet effect of sodium 2-propenyl thiosulfate from garlic, by inhibiting cyclooxygenase enzyme activity.
Similar to garlic, onions also contain a number of OSCs and flavonoids, such as quercetin, that can reduce the risks for cardiovascular diseases by increasing antioxidant capacity [3] [74] [180].Hubbard et al. [181] in a pilot study in humans showed that the consumption of the equivalent of 3 onions in a soup was sufficient to significantly reduce the blood platelet aggregation.Platelet aggregation is an important risk for the development of coronary thrombosis and atherosclerosis.Briggs et al. [182] observed that by cutting raw onions S-alkenyl-L-cysteine sulfoxides are converted by enzyme alliinase into thiosulfinates and copaenes and these compounds inhibit platelet aggregation.Ried et al. [183] report also that onion and garlic had a blood pressure lowering effect by inhibiting angiotensin-converting enzyme activity and inducing intracellular nitric oxide and hydrogen sulfide production.
The consumption of leafy vegetables, due to bioactive compounds, increase antioxidant capacity and protect against oxidative stress which play an important role in the pathogenesis of cardiovascular diseases.Another reason is their low sodium, and high calcium and magnesium content [3] [74].Furthermore that consumption also reduces blood pressure, inhibit platelet aggregation and improve endothelial dysfunction due to their rich inorganic nitrate content [184].In diets where the consumption of leafy vegetables is high the rate of cardiovascular diseases is lower comparing with diets with less consumption [3] [74] [185].Rastogi et al. [186] observed that individuals with consumption of more than three portions of leafy vegetables a day have an incidence of about 60% less of ischemic heart disease than those consuming less than one portion.
Saluk et al. [187] report that anthocyanin extracted from red cabbage have protective effect on blood platelets.In broccoli, indole-3-carbinol and sulforaphane, which are hydrolysis breakdown products of glucosinolate glucoraphanin, are thought to be the major bioactive compounds protective against cardiovascular diseases [188] [189].Jeffery and Araya [189] report that indole-3-carbinol and sulforaphane besides protecting against ischemic damage of the heart also protect against inflammation by inhibiting cytokine production [189].Murashima et al. [190] reported in a study, with multiple biomarkers for metabolism and oxidative stress, that broccoli sprouts decrease levels of total cholesterol and low-density lipoprotein cholesterol and increase levels of high-density lipoprotein cholesterol.
Jorge et al. [191] show in their studies that eggplant is effective in the treatment of high blood cholesterol.Guimarães et al. [192] showed a significant decrease in blood levels of total cholesterol and low-density lipoprotein cholesterol in human volunteers who were fed with eggplant powder.Kwon et al. [193] presented eggplant phenolics as inhibitors of key enzymes relevant for type 2 diabetes and hypertension.
Legumes are also protective against cardiovascular diseases due to their high saponin and soluble fiber content [2] [3] [74].Soluble fiber delays gastric emptying, slows glucose absorption and lowers serum cholesterol levels [194].In several epidemiologic studies it was observed a positive correlation between increased legume consumption and reduced mortality due to cardiovascular disease [195] [196].Consumption of legumes reduce the levels of total cholesterol and low-density lipoprotein cholesterol by inhibiting the absorption of bile acid from intestines and by promoting the formation of propionic acid and other short chain fatty acids that inhibit the synthesis of cholesterol [197].
Nicolle et al. [198] suggest that carrot intake may exert a protective effect against cardiovascular disease and that this protective effect may be due to the synergistic action of dietary fiber and antioxidant polyphenols in carrot.Gramenzi et al. [199] states that the consumption of carrots is associated with smaller risk of acute myocardial infarction in women.Gilani et al. [200] examined in rats the anti-hypertensive effect of DC-2 and DC-3, two cumarin glycosides from carrot.Their results showed that these glycoside compounds caused a decrease in arterial blood pressure in the rats.Further in vitro studies by the same researchers, demonstrate that the decreased blood pressure observed may be due to the calcium channel blocking action of cumarin glycosides DC-2 and DC-3 from carrots.

Effect on Diabetes
Dias and Imai [95] highlight the nutritional and health benefits of different vegetables and their dietary fiber, vitamin C, vitamin E, carotenoids, flavonoids, thiosulfates, magnesium, selenium, zinc, and chromium contents, to prevent and reverse diabetes.Besides they also analyzed when we should eat the vegetables, and mainly the effect of eating vegetables before carbohydrates on postprandial blood glucose levels, and glycemic control.Data of these authors shows that eating vegetables before carbohydrates is effective to reduce postprandial hypergly-cemia in type 2 diabetes patients, as well as in healthy people.So vegetables should be eaten before carbohydrates at every meal [95].
Carter et al. [201] in a systematic review and meta-analysis found that greater leafy vegetables consumption was colligated with 14% decrease in risk of type 2 diabetes.Another previous research reported that each daily serving of leafy-green vegetables generates a 9% decrease in risk of type 2 diabetes [202].Khan et al. [203] saw that oral feeding of regular rats for 60 days with a mustard (Brassica juncea) diet (10% w/w) led to significant hypoglycemic effect.This result was associated to the positive stimulation of glycogen synthetase and to the suppression of glycogen phosphorylase and some other gluconeogenic enzymes.As menthioned Swiss chard leaves contain syringic acid that have blood sugar regulating properties [91] [92] [93].Syringic acid was demonstrated to inhibit the activity of α-glucosidase enzyme.When α-glucosidase gets inhibited, fewer carbohydrates are converted to sugars and blood sugar is able to remain more steady [204].Garden beet leaves have the same properties, since beet and Swiss chard are both from the Chenopodiaceae family [3] [74].Yoshikawa et al. [205], in a oral glucose tolerance test (OGTT) conducted in rats, that measures the body's ability to metabolize glucose [206], observed that several glycosides isolated from the root extract of beet increase glucose tolerance.Gu et al. [207] report that purslane had hypoglycemic effects in a study comparing the hypoglycemic and antioxidant activities of the fresh and dried purslane in insulin-resistant HepG2 cells and streptozotocin-induced diabetic mice.In another study in adult patients with type 2 diabetes it was found that consumption of purslane extract significantly reduced HbA1c levels and post-prandial blood glucose [208].
Alliaceae vegetables are necessary ingredients of a diabetes prevention diet.
Garlic lowers blood sugar levels in diabetic patients [209] and administration of S-methyl cysteine sulfoxide isolated from onion restrained blood glucose and showed significant hypoglycemic effect in rats [2] [74].El-Demerdash et al. [210] in a biochemical study on the hypoglycemic effects of onion and garlic in alloxan-induced diabetic rats report that these vegetables had a hypoglycemic effect.Other investigations evaluating the hypoglycemic, antioxidant and hepatoprotective potentials of onion show that onion consumption increased the levels of enzymes superoxide dismutase, catalase and glutathione peroxidase [211] and reduce insuline resistance [212].Onions and other Alliaceae also contain chromium that is linked to diabetes prevention by enhancing insulin receptor kinases [213].Clinical surveys on diabetic patients showed that chromium can decrease fasting glucose, ameliorate glucose tolerance and bring down insulin levels.Swamy et al. [209] observed that 200 g of some cultivars of onions contain chromium up to 20% of the daily requirements.
Nutritionists and dieticians commonly recommend diabetic eating carrots in moderation because they say that carrots contain more sugar than other vegetables.Although carrots are not a negative vegetable for the diabetic since they have fiber-rich fractions that transports a significant amount of polyphenols and carotenoids linked to the fiber matrix; they are relatively low in calories and the J. S. Dias DOI: 10.4236/fns.2019.104029385 Food and Nutrition Sciences glycemic load is only 3 [97].Carrots when are eaten raw their glycemic effect is lessened further as the body does not absorb all of the calories in raw aliments [3] [74].Chau et al. [214] comparing the characteristics, functional properties, and in vitro hypoglycemic effects of various carrot insoluble fiber-rich fractions confirmed the great relationship between dietary fiber intake and lower risk of type 2 diabetes since those authors concluded, from their study, that the enhanced glucose absorbance capacity and reduction of amylase activity of dietary fiber of carrot help control pos-prandial serum glucose level.Recent research advocates that orange carrot with αand β-carotene might help diabetics to succeed in their illness [97] [215].Purple carrots, rich in anthocyanins and low in carotenoids, were also recently associated with reduction in impaired glucose tolerance [96].
Curcubitaceae is a very important family for diabetics since includes several vegetables with anti-diabetic properties.Bitter gourd (Momordica charantia) have been intensively studied for its anti-diabetic attributes.Different studies reported hypoglycemic and anti-hyperglycemic properties of bitter gourd [209] [216] [217] [218].Clinical surveys on diabetic patients using pulp and juice extracts of bitter gourd were reported to bring down serum insulin levels, to lower fasting blood glucose levels, and to ameliorate glucose tolerance [219].Vicine, charantin and polypeptide-p are the principal hypoglycemic bioactive compounds from bitter gourd [220].But there are also carotenoids (β-carotene, lutein, and zeaxanthin), triterpenoids (momordicin), alkaloids and saponins, responsible for their side effect on glycemic control [221].Momordicin possess insulin-like activity [222].
Besides bitter gourd other non-sweet Curcubitaceae that have anti-diabetic properties are ivy gourd (Coccinia grandis), snake gourd (Trichosantes cucumerina), and ridge gourd (Luffa acutangula).In ivy gourd immature fruits have anti-hyperglycemic properties since they help regulate blood sugar levels [223].In India they are used to prevent or treat diabetes [223].Bioactive compounds in the ivy gourd inhibit glucose-6-phosphatase [211], a liver enzyme involved in the regulation of sugar metabolism.Snake gourd is also considered to be useful in treating type 2 diabetes [209].Ridge gourd contains insulin like peptides, and alkaloids that help to lower fasting blood glucose levels [209] [217].
Legumes consumption is also colligated with reduced risk of type 2 diabetes since they are the ideal carbohydrate source [3] [90] [224].They are low in glycemic load due to their moderate protein and abundant dietary fiber and resistant starch (that is fermented by bacteria in the colon).This chemical composition of legumes decreases the number of calories that can be absorbed which contribute to the control of blood sugar levels.Kwon et al. [193] presented eggplant phenolics as inhibitors of key enzymes relevant for type 2 diabetes and hypertension.

Conclusions
Consumption of a vegetable rich diet has unquestionable positive effects on nu-Food and Nutrition Sciences trition and health since vegetables are rich in bioactive compounds such as dietary fiber, vitamins, minerals, and phytochemicals that can protect the human body from several types of chronic and degenerative diseases.
Leafy vegetables have the highest ANDI scores compared to other vegetables.
The three leafy vegetables families with high ANDI scores are Brassicaceae Chenopodiaceae, and Asteraceae.Leafy and stalk vegetables are fiber sources, rich in important minerals such as calcium, magnesium and iron, and vitamins C, A and riboflavin.Fruit and below ground organ vegetables, the skin and inside color reflect different bioactive compounds/pigment present.
In this article it was presented some experimental research evidences that the bioactive compounds are responsible for mitigating some human diseases.Anti-oxidative, anti-carcinogenic, anti-diabetic and cardiovascular disease lowering effects of bioactive compounds of vegetables have been reported.The mechanism by which vegetable bioactive compounds decrease the risk of some of these diseases is complex and sometimes unknown.All the different bioactive compounds may contribute to the overall health benefit since each vegetable family and each vegetable contain a unique combination of bioactive compounds.So the health benefit of vegetables should not be linked to only one bioactive compound or one type of vegetable, but rather with a balanced diet that includes more than one type of vegetable.

Table 2 .
how many nutrients they deliver to our body in each calorie consumed.It was calculated by evaluating the content of dietary fiber, vitamins, minerals, phytochemicals, antioxidant capacities, etc.It is an index that estimates the nutritional quality of vegetables.Table1presents the highest ANDI scores in leafy vegeta-Table2also shows other Brassicaceae like radish, turnip, kohlrabi, cauliflower, and rutabaga.Different vegetables from various families are also shown as well as differences among the peppers, where orange pepper is better than the red and red better than the green pepper.
Leafy vegetables thus have the highest ANDI scores compared to other vegetables.They are rich in dietary fiber, carotenoids, vitamin C, vitamin E, flavonoids, calcium, magnesium, etc.All the leafy vegetables are good sources of magnesium because they have chlorophyll.The leafy vegetables with high ANDI scores are Brassicaceae.They have dietary fiber and are a rich source of glucosinolates and other bioactive nutrients, and have a very high content in calcium and β-carotene.They are excellent sources of lutein and can also accumulate selenium.

Table 1 .
List of identified leafy vegetables with the highest ANDI scores.

Table 2 .
List of identified non-leafy vegetables with the highest ANDI scores.