Mineral Composition of Lentils: Physiological Functions, Antinutritional Effects, and Bioavailability Enhancement

Lentil (Lens culinaris) is an important nutritious crop, grown and consumed throughout the world due to its high macroand micronutrients contents, including minerals. Minerals have several beneficial influences on human health. 'us, lentils play a major role in food security, particularly among low-income countries.'e current review aims to highlight the present knowledge on the mineral composition of lentils, compare it with the recommended dietary allowance and adequate intake of minerals, investigate the literature regarding its physiological role, give detailed information on different antinutritional factors preventing its bioavailability, and present adopted solutions to enhance the bioavailability of minerals in lentil seeds. 'ereby, a literature search was conducted using reliable sources: Elsevier, Springer, PubMed, and CrossRef. Based on the previous studies, 100 g of cooked lentils, for example, may be enough to cover the recommended dietary allowance/adequate intake of iron in infants under six months and children aged one to three years. One hundred grams of cooked lentils may also cover the recommended dietary allowance/adequate intake of zinc and magnesium in infants and children aged one to three years. Hence, it is imperative that the scientists continue to show the significance of pulses as a mineral source and their effects on human health. Indeed, lentils should be exploited for a variety of purposes, mainly towards eliminating malnutrition, on the condition of being well-balanced. Lentils should be incorporated either in snacks or while preparing household, school, or hospital meals, particularly in developing countries.


Introduction
Pulses are often recommended in sustainable diets because of their nutritional and environmental benefits [1]. eir environmental importance is linked to their ability to restore soil nitrogen without the addition of fertilizers. Hence, diversifying crop rotations with pulses is a green solution to increase system productivity [2]. e nutritional interest of pulses is related to their ability to fulfill the essential nutrients requirements of the human diet. Lentil, belonging to the Lens culinaris species and the Leguminosae family, is a small edible pulse [3]. It is one of the oldest and most appreciated food crops that has been grown in the world and originated from southwestern Asia as early as 7000 BC [4]. Legumes, including lentils, are considered as poor man's meat [5]. Indeed, whole grains, at the base of all food pyramids, are known for giving more taste and offering widely perceived health properties; they are linked to a lower risk of heart disease, diabetes, certain cancers, and other health problems [6]. In addition, many studies have described pulses, including lentils, as a potential whole food source for people suffering from micronutrients malnutrition [7]. In addition to the macronutrients, many micronutrients and phytochemicals in lentils may also be important contributors to human health [8]. In fact, lentil presents an excellent source of minerals, intervening in the insurance of food and nutritional security of millions of people, mainly in developing countries. However, this pulse is well-known for containing some natural chelating agents that can exhibit ambivalent nutritional value depending on their amount in the diet [9], such as phytic acid, trypsin inhibitors, and tannins. Phytic acid, for instance, reduces the bioavailability of minerals [10]. is adverse impact could be minimized by heat treatment, fermentation, and germination of lentils before ingestion [11].
Due to the lack of scientific literature reviews which, at the same time, encompass the maximum information on lentil minerals contents, the present study made a comparison with their recommended dietary allowance and adequate intake, their physiological functions, the antinutritional factors that may be involved, and the solutions allowing their bioavailability in the prepared lentil-based foods. It comprehensively aims to surround all of these aspects in a single work, based on the precedent researches.

Methodology
is review included, in a first step, the selection of the topic to be addressed. For this, a previous search was conducted on the literature to evaluate whether such a review had already been undertaken, which demonstrated that this was a field in which it would be appropriate to gather in a review paper the information available scattered around the scientific literature. After establishing the study subjects, a search was carried out using reliable scientific database such as Elsevier, Springer, PubMed, and CrossRef. e articles were selected, based on the objectives of the review, by examining their titles, abstracts, and reference list and focusing on the publication date being as recent as possible.
en, after selecting suitable keywords, the review was structured into different sections as follows [12][13][14]: (1) A brief introduction for contextualization (2) e methodology section explaining the followed steps (3) e body of the review, which is structured into sections as follows:  Figure 1 shows a sector which highlights the number of the adopted documents by the journal's title (journal occurrence) for the used sources in the review; the most frequent journals were Nutrients, Trends in Food Science & Technology, and Food Chemistry. ey were followed by Journal of Food Composition and Analysis, LWT-Food Science and Technology, and British Journal of Nutrition.

General Facts about Lentils.
Lentils have different names depending on the countries. e most common names are lentil (English), Adas (Arabic), Mercimek (Turkish), Messer (Ethiopia), Heramame (Japanese) [15], and Daal or Dahl (Hindi). e taxonomic classification of lentils is shown in Figure 2 [16]. Lentils are growing worldwide and their production has markedly increased over the last few decades [17]. According to FAO (2019) statistics (Table 1), average annual global production of lentil was reported to be 5734201 tons; Canada, India, and USA are the major lentilproducing countries [18].

Recommended Dietary Allowance and Adequate Intake of Minerals.
e recommended dietary allowance (RDA) is defined as the average daily dietary intake level that is enough to meet the nutrient requirements of nearly all (97%-98%) healthy persons of a determined age, sex, life stage, or physiological state (pregnancy or lactation). By definition, the RDA exceeds the actual needs of all but about 2%-3% of the population. us, many individuals who are under the RDA may still be getting sufficient amounts of the nutrient in question to be above their requirement level [19]. According to the Institute of Medicine (US), setting the RDA requires the determination of the estimated average requirement (EAR), defined as the daily intake value of a nutrient that is estimated to meet the nutrient needs of half the healthy individuals in a gender group and life stage. Moreover, setting the EAR requires the selection of a specific criterion of adequacy, based on a good review of the literature. When selecting the criterion, reduction of disease risk is taken into account with other health parameters. e RDA is set at the EAR plus twice the standard deviation (SD) if available as follows: RDA � EAR + 2 SD. If data about variability in requirements are insufficient to calculate an SD, a coefficient of variation for the EAR of 10% is supposed (RDA � 1.2 × EAR). Setting RDA is not possible for some nutrients, because data on the requirement EAR for the function of health significance that are considered being the most important are not available.

Mineral Composition of Raw, Dehulled, and Cooked Lentil
Seeds. Lentil grain is a plentiful source of minerals. Mineral content of raw, dehulled, and cooked lentils was determined in many previous studies that were carried out in different countries including USA [32], Egypt [33], Pakistan [34], and Canada [35,36] as presented in Table 3. Generally, the traditional preparation of lentil requires two steps: soaking (18 h to 24 h) and cooking (15 min to 2 h at 85-95°C).

Physiological Functions of Lentil Minerals.
Notwithstanding that pulses have been consumed for thousands of years for their nutritional features [37], it is only during the past decades that interest in their potential effects on human health has been revived [38]. Pulse minerals, including those of lentils, play physiological roles in the body. Iron (Fe) is vital for almost all living organisms; it is involved in a wide variety of metabolic processes, including oxygen transport, DNA synthesis, and electron transport [39]. Zinc (Zn) is an important element for humans and is extensively implicated in protein, lipid, nucleic acid metabolism, and gene transcription. Its function within the human body is extensive in reproduction, wound repair, Number of documents by journal title (journal  occurrence) immune function, and, on the microcellular level, macrophage, neutrophil, natural killer cell, and complement activity [40]. Copper (Cu) is an essential catalyst for heme synthesis and Fe absorption; it is in its many form the third most common mineral in the body [41]. It is a necessary element essential for the neurologic and haematologic system [42]. Manganese (Mn) is an important component that is implicated in the synthesis and activation of several enzymes and in the regulation of the metabolism of glucose and lipids in humans [43]. Calcium (Ca) is an important nutrient that is necessary for several functions in human health; it is the most prevalent mineral in the body with 99% found in bone and teeth. Ca metabolism includes other nutrients such as protein, vitamin D, and P [44]. Potassium (K) is an essential nutrient; it is the most abundant cation in intracellular fluid, where it plays an important role in maintaining cell function. Its gradient across the cell membrane determines cellular membrane potential, which is maintained in large part by the ubiquitous ion channel the Na-K (Na+-K+) ATPase pump [45]. Magnesium (Mg) is an essential constituent needed as a cofactor for over 300 enzymatic reactions and is thus important for the biochemical functioning of many metabolic pathways [46]. Mg is necessary for regulation of muscle contraction (including that of the heart), blood pressure, and insulin metabolism and is needed for the synthesis of DNA, RNA, and proteins [47]. Phosphorus (P) is an important element needed for vital biological reactions that maintain the normal homoeostatic control of the cell. is nutrient is an essential component of many cellular structures, including nucleic acids and cell membranes. Adequate P balance is critical for maintaining basic cellular functions, ranging from energy metabolism to cell signaling. Furthermore, many intracellular pathways utilize phosphate ions for essential cellular reactions; therefore, homoeostatic control of phosphate is considered as one of the most precise biological regulations [48]. Sodium (Na) is an essential mineral for human health to maintain plasma volume, regulating body water content and electrolyte balance, transmission of nerve impulses, and normal cell function; however, its excess in human diet leads to high blood pressure. is problem is often correlated with high consumption of sugar and fat, besides salt [49]. Selenium (Se) is an essential trace mineral of fundamental importance to human health. As a component of selenoproteins, Se has enzymic and structural functions, and it is best known as an antioxidant and catalyst for the production of active thyroid hormone. Se is required for the proper functioning of the immune system and seems to be a key nutrient in counteracting the development of virulence and inhibiting HIV progression to AIDS [50].

Antinutritional Factors (Mineral Chelating Agents).
Although lentils are rich in minerals, their bioavailability is limited due to the existence of multiple antinutritive factors, such as phytates, phenolic compounds, and oxalic acid. is can lead to many health problems, among which is anemia. According to [51], negative correlations were found between mineral chelating agents and nutrients bioavailability and digestibility. According to [52]      minerals such as calcium to form complexes and precipitate as insoluble salts accumulating in the renal glomeruli and lead to the development of renal problems, such as kidney stone formation [53]. In fact, while these antinutrients negatively affect nutrient absorption, they are also considered to play a beneficial role in preventing coronary heart disease and cancer [54]. Phytic acid (myo-inositol-1, 2, 3, 4, 5, 6, hexabisphosphates, IP6) is an ubiquitous component that represents 1% to 5% by weight of most pulses [55], and it is the main source of phosphorous in their seeds [56]. In adults, phytic acid inhibits the absorption of Fe, Zn, Ca, and Mn, but not Cu. It is a strong inhibitor of Fe absorption in both infants and adults, but its impact on Zn absorption in infants sounds to be modest and maybe most significant in children recovering from infection. Phytic acid slightly influences Ca and Mg absorption. In fact, Fe and Zn deficiencies are common in infants and young children, especially in developing countries; thus, their bioavailability from complementary food is a major concern [57]. Phytic acid concentration in lentil seeds depends to genotypic variation, climatic conditions, soil nature, and other unexplained factors [7].

Bioavailability Enhancement of Minerals in Lentils.
Different methods have been developed to decrease the phytic acid content in food and improve its nutritional quality, which becomes poor due to such antinutrients factors. ese include genetic improvement and several pretreatment methods, such as soaking, fermentation, germination, and enzymatic treatment of grains with phytase enzyme [58]. Germination combined with dehulling process also improves the legumes quality by increasing the bioavailability and digestibility of nutrients and decreasing the amounts of the antinutrients [51]. e method of processing, such as cooking, results in significant decrease in tannins and phytic acid in pulses [59]. In addition, food preparation methods and other dish components [60] also influence the phytic acid concentration and other antinutritional factors.

Storage of Food Legumes.
Food legumes storage is done at all steps from farmer to trader in different types of storage units until the next season's yield. Farmers generally keep a part of their harvest for family utilization and animal feed. In developing countries, legumes are stored at the trader and government levels as insurance against future crops of low harvest or poor quality and against change in market demand and price. Compared with other crops, losses of legume seeds due to storage are quite high. ese losses are due to many physical, biological, and engineering factors; physical factors, such as moisture, temperature, and oxygen concentration; biological factors, such as insects, birds, and microorganisms; engineering factors, such as process-handling equipment and utilized storage structures [23].  Journal of Food Quality

Consumption of Lentil Seeds.
Soaking legumes for up to 24 h in water is generally the first step to prepare the seeds for consumption. Sometimes, sprouts are formed due to food legumes germination. is leads to the improvement of flavor and nutritional quality of the seeds through the breakdown of antinutrients factors. However, soaking for long periods of time has an impact on nutritional value of legumes. Fermentation is another method of food processing; it plays a very significant function in the diet in many regions of the world. Fermented legume products are rapidly gaining popularity due to their organoleptic properties and texture. In fact, fermentation of legumes allows the elimination of undesirable flavor, prolongation of shelf-life, and improvement of digestibility and safety of the food. Another legume process traditionally utilized in Asia and Africa is milling. First, the legume seeds are often pretreated adopting dry and wet methods to help outer part (hull) removal. Both methods cause shrinkage of the endosperm, hence loosening the coat for easy removal by milling. e wet method is done by mixing legume seeds with some water, followed by draining and sun drying. e dry method, generally used in India, involves sun-drying the legume seeds after treatment with oil and a very small amount of water [23].

Conclusion
A crucial challenge today is to make our food habits healthier and more sustainable. us, utilizing pulse-based products, including lentils, is much recommended over the world. e nutritional importance of lentils is unquestionable due to the massive existence of minerals, polyphenols, and other required components, whose consumption plays a significant role in human health. Based on the previously recommended, 100 g of cooked lentils, for example, may be enough to cover the RDA/AI of Fe in infants under six months and children aged one to three years old. One hundred grams of cooked lentils may also cover the RDA/AI of Zn and Mg in infants and children aged one to three years old. Hence, it is imperative that the scientists continue to show the significance of pulses as a mineral source and their effects on human health. Indeed, lentils should be exploited for a variety of purposes, mainly towards eliminating malnutrition, on the condition of being well-balanced. Lentils should be incorporated either in snacks or while preparing household, school, or hospital meals, particularly in developing countries.

Conflicts of Interest
e authors declare that they have no conflicts of interest.