Academic literature on the topic 'Oxalate and phytate'
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Journal articles on the topic "Oxalate and phytate"
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Aande, TM, IG Agbidye, and CA Adah. "Chemical Evaluation of Mumu Formulated from Pearl Millet, Irish Potato and Sesame Flour Blends." NIGERIAN ANNALS OF PURE AND APPLIED SCIENCES 4, no. 1 (2021): 35–42. http://dx.doi.org/10.46912/napas.222.
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An investigation into anti¬-nutrient compositionof mumu, a traditional dish in Benue State, Nigeria, was carried out. Formulation of blends was based on different levels of roasted pearl millet flour (RPMF), boiled Irish potato flour (BIPF), and roasted sesame seed flour (RSSF). The three ingredients were combined in the following ratios: RPMF 100 (control), 70:20:10, 65:25:10 and 65:20:15 of RPMF: BIPF: RSSF, respectively. Mineral bioavailability was evaluated by [Oxalate]/[Ca], [Phytate]/[Ca], [Phytate]/[Fe] and [Phytate]/[Zn] molar ratios of the different blends of mumu were investigated, to which only Fe showed limited absorption. The anti-nutritional constituents showed that concentration of phytates>alkaloids>oxalates>total phenols, with values ranging from 24.22-24.93 mg/100 g Phytates, 4.15-4.81 mg/100 g alkaloids; 0.39-0.78 mg/100g oxalates; 0.00-0.01 mg/100g total phenols. The consumption of mumu is encouraged as it contains minerals important to the body, nonetheless, Fe supplementation is suggested.
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OLANIYI, Musbau Bayonle, Aishat Adeola OLANIYI, Samsideen Olabiyi RUFAI, and Paul Oluwatimilehin OGUNBAMOWO. "Impacts of non-nutritive compounds on the bio-accessibility of critical mineral elements in red vine fruits." Agriculture, Food and Natural Resources Journal 3, no. 2 (2024): 190–97. https://doi.org/10.5281/zenodo.14030923.
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Red Vine Fruits (RVFs), a wild edible fruits, are sought as an alternative food source to prevent hunger and malnutrition. This study aimed to investigate the impact of the non-nutritive compounds on the bioaccessibility of critical minerals in pre-treated RVFs using standard analytical methods. The result of mineral composition of RVFs showed that magnesium had the highest (940.33 ± 0.01), followed by potassium (389 ± 0.01), calcium (215.80 ± 0.01), and copper (2.53 ± 0.01) as the least content in mg/100 g. The non-nutritive compounds found (mg/100 g) were phytates (8430.66), oxalates (140.52), and tannins (18.19). The ratios of critical elements (Ca:K, Na:K, and Fe:Zn) were 0.54, 0.56, and 1.47, all within the standard limits except Ca:Fe, which exceeded its limit. Additionally, the molar ratios of non-nutritive compounds to critical minerals were 2.36, 102.1, 150.2, 810.5, and 0.29 for phytate: Ca; phytate: Fe; phytate: Zn; phytate*Ca: Zn; and oxalate: Ca, respectively. These values exceeded the recommended limits, but oxalate: Ca is within the safe limit. The results also depicted a moderate value in phytate K (4.04), non-phytate K (10.29), and K proportion as phytate (28.19). These values are within the maximum standard (50%) critical for optimal K bioavailability. The findings showed that RVFs are high for critical minerals with a substantial amount of non-nutritive compounds, especially phytate content, which needs to be eliminated for optimum mineral bioaccessibility.
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Udousoro, Imaobong, and E. Akpan. "Changes in Anti-nutrients Contents of Edible Vegetables Under Varied Temperature and Heating Time." Current Research in Nutrition and Food Science Journal 2, no. 3 (2014): 146–52. http://dx.doi.org/10.12944/crnfsj.2.3.06.
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Three edible vegetables, Pterocarpus mildbraedii (mkpafere), Lasianthera africanum (editan) and Piper guineense (odusa) consumed by people of Akwa Ibom State, Nigeria were purchased from Akpan Andem market in Uyo, the State capital. The vegetables were analysed for the presence of anti-nutrients (HCN, tannin, phytate and oxalate), and the effect of heating at 50 °C for 5 minutes, 90 °C for 5 minutes and 90 °C for 15 minutes in water. Tannins among the anti-nutrients, recorded highest level for all vegetables. At 50 °C for 5 minutes, HCN, tannin, phytate, total oxalate and soluble oxalate respectively, reduced by 17.6%, 9.1%, 11.0%, 9.5% and 23.8% (Pterocarpus mildbraedii), 13.9%, 6.1%, 1.4%, 13.8% and 13.0% (Lasianthera africanum), and 14.1%, 35.1%, 5.8%, 15.4% and 22.2% (Piper guineense). The percentage reductions for HCN, tannin, phytate, total oxalate and soluble oxalate were 23.6%, 53.4%, 25.5%, 56.2% and 52.4% (Pterocarpus mildbraedii), 43.5%, 25.0%, 51.8%, 37.9% and 52.2% (Lasianthera africanum), 50.0%, 51.9%, 40.2%, 23.0% and 33.3% (Piper guineense) respectively, after heating at 90 °C for 15 minutes. The study revealed reduction of anti-nutrients on heating; and 90 °C as optimum temperature, with heating time of not less than 15 minutes for processing the vegetables.
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Shitta, Ndenum Suzzy, Abush Tesfaye Abebe, Happiness O. Oselebe, et al. "Evaluation of 93 Accessions of African Yam Bean (Sphenostylis stenocarpa) Grown in Ethiopia for Physical, Nutritional, Antinutritional, and Cooking Properties." Journal of Food Quality 2022 (May 31, 2022): 1–11. http://dx.doi.org/10.1155/2022/8386258.
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African yam bean has immense food and nutrition potential and is resilient to adverse environmental conditions. Despite its potential, the crop is underutilized, which could be attributed to seed hardness (requiring about 6–24 hours of cooking time); and the abundance of antinutrient factors (tannin, phytate, and oxalate). This study evaluated the physical (seed hardness, cooking time) and chemical compositions (crude protein, tannin, phytate, and oxalate) of 93 AYB accessions grown in Ethiopia. The seed hardness of each accession was determined by the compression force and compression time using Texture Analyzer, whereas cooking time was ascertained using Mattson Bean Cooker. The accession’s crude protein level, tannin, oxalate, and phytate were investigated from flour samples using standard laboratory procedures. Highly significant ( P < 0.01 ) differences were observed for cluster means of compression force, cooking time, and oxalate. The accessions were grouped into three clusters: cluster-II was prominent with 42 accessions, while cluster-I had the least (25). The mean values for compression force ranged from 50.05 N ± 10.25 (TSs-423) to 278.05 N ± 13.42 (TSs-378) whereas compression time varied from 0.35 secs ± 0.02 (TSs-334) to 5.57 secs ± 6.12 (TSs-62B). Cooking time ranged from 127.50 mins ± 2.12 (TSs-82A) to 199.50 mins ± 10.61 (TSs-138B); crude protein ranged from 15.41% ± 0.11 (TSs-269) to 24.51% ± 0.22 (TSs-446). Tannin ranged from 0.61 mg/g ± 0.02 (TSs-47) to 9.62 mg/g ± 0.03 (TSs-334) likewise, phytate ranged from 0.28 ± 0.01 (TSs-137) to 7.01 ± 0.10 (TSs-3). Accessions TSs-55; TSs-82 showed the lowest oxalate content of 0.21% ± 0.01; 0.21% ± 0.00, respectively. Similarly, TSs-352; TSs-47 revealed the most abundant tannin content of 0.70 ± 0.00 and 0.70 ± 0.07. The correlation analysis revealed a low positive and significant ( P < 0.05 ) association (r = 0.24) between protein and phytate content.
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Auwal, Musa M., Jibrin M. Yelwa, Ibrahim Abubakar, Jamilu B. Umar, Hussaina G. Anchau, and Fatima B. Tanimu. "The Levels of Antinutritional Factors in Moringa Oleifera and Vernomia Amygdalina Leaves Found in Some Part of Plateau State, Nigeria." Oriental Journal of Physical Sciences 4, no. 2 (2020): 65–69. http://dx.doi.org/10.13005/ojps04.02.06.
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In this research work, various materials were used and they include; apparatus such as fume cupboard, measuring cylinder, spatula, centrifuge, pipette and reagent such as Na2CO3, CaCl2, H2SO4, HCl, AgNO3. The nutrient composition of V. Amydalina are: Phytate 11.9 ± 0.01 (mg/100g), oxalate 244.02 ± 0.57 (mg/100g), tannins 1.28 ± 0.50 (mg/100g), alkaloid 1.66 ± 0.01%, HCN 2036.00 ± 0.58 (mg/100g) and M. oleifera are: phytate 10.58 ± 0.01 (mg/100g), oxalate 334.33 ± 0.67 (mg/100g), tannin 8.19 ± 0.01 (mg/100g), alkaloid 1.72 ± 0.01% and HCN 3998.30 ± 0.49 (mg/100g). These results showed that V. Amydalina leaves could be a bioresources for Zn as a result of the low level of phytate. But they are not Cu bioavailable resources due to the high level of oxalate. Hence, people are encouraged to utilize V. amydalina and M. oleifera leaves as a good source of micronutrient particularly those prove to be bioavailable.
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Hsu, Yu-Chao, Li-Cheng Pan, and Lie-Ding Shiau. "A Photomicroscopic Study on the Growth Rates of Calcium Oxalate Crystals in a New Synthetic Urine without Inhibitors and with Various Inhibitors." Crystals 11, no. 3 (2021): 223. http://dx.doi.org/10.3390/cryst11030223.
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A photomicroscopic growth apparatus was used to study the growth rates of calcium oxalate crystals in a new synthetic urine without inhibitors and with various inhibitors, including magnesium ions, citrate ions, chondroitin sulfate ions, and phytate ions. The dependence of growth rates on supersaturation at different temperatures without inhibitors was investigated using a power law model in terms of the Arrhenius form. The effects of various inhibitors on the growth rates of calcium oxalate indicated that the inhibition of growth rates increases in the order magnesium ions < citrate ions < chondroitin sulfate ions < phytate ions. The polymorphic forms of calcium oxalate crystals without inhibitors and with various inhibitors were examined by scanning electron microscopy.
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Al-Wahsh, Ismail A., Harry T. Horner, Reid G. Palmer, Manju B. Reddy, and Linda K. Massey. "Oxalate and Phytate of Soy Foods." Journal of Agricultural and Food Chemistry 53, no. 14 (2005): 5670–74. http://dx.doi.org/10.1021/jf0506378.
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Grases, Felix, Antonia Costa-Bauzá, Paula Calvó, et al. "Phytate Dephosphorylation Products Also Act as PotentInhibitors of Calcium Oxalate Crystallization." Molecules 27, no. 17 (2022): 5463. http://dx.doi.org/10.3390/molecules27175463.
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Phytate has been classified as an anti-nutrient, but there are no adverse effects from the consumption of a balanced diet with 1 to 2 g of daily phytate (inositol-hexaphosphate, InsP6) as a calcium magnesium salt, the form naturally present in grains. Furthermore, recent research has shown that phytate consumption may prevent pathological calcifications, such as kidney stones and cardiovascular calcifications. However, many endogenous and exogenous enzymes can hydrolyze phytate to lower inositol phosphates (InsPs) that also have biological activity. We performed a controlled hydrolysis of phytate and identified the products (InsPs) using tandem mass spectrometry (MS/MS). The total level of all InsPs was measured using a non-specific methodology. In addition, we evaluated the effects of the InsP6 hydrolysates on calcium oxalate crystallization using scanning electron microscopy and measuring the time needed for the induction of crystallization. Our results indicate that InsP6 and its hydrolysis products functioned as effective inhibitors of calcium oxalate crystallization. Thus, even though InsP6 is hydrolyzed after consumption, the enzymatic products also have the potential to reduce pathological calcifications. Finally, although it is useful to measure the overall level of InsPs in biological fluids, such as urine, there is a need to develop simple analytical methods to quantify the level of individual InsPs.
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Kim, Ki-Chan, In-Guk Hwang, Gun-Mook Yoon, et al. "Minerals, Oxalate and Phytate Contents of Recommended Soybean Cultivars in Korea." Journal of the Korean Society of Food Science and Nutrition 38, no. 7 (2009): 870–78. http://dx.doi.org/10.3746/jkfn.2009.38.7.870.
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Muhammad, Aminu, Ibrahim Mohammed Ibrahim, and Salisu Abubakar. "ASSESSMENT OF ANTI-NUTRIENT AND TOXIC SUBSTANCES LEVEL IN SELECTED ROOT CROPS OF DOKO, NIGER STATE, NIGERIA." Food and Agri Economics Review 4, no. 2 (2024): 88–91. https://doi.org/10.26480/faer.02.2024.88.91.
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Evaluation of anti-nutrient and toxic substances in tuber crops is crucial for nutritional studies, establishing baseline concentrations of cyanide, nitrate, phytate, and oxalate in human foods. Quantitative analysis was conducted on selected tuber crops namely Dioscorea alata (Cassava), Manihot esculenta (Yam), Xanthosoma sagittifolium (coco yam), Solanum tuberosum (Irish potato), and Ipomoea batatas (Sweet potato), commonly consumed in Doko, Niger State, Nigeria. Cyanide and nitrate concentrations were determined using colorimetric methods, while phytate and oxalate were measured using titrimetric methods. Results indicate that cyanide levels in most tuber crops were within the permissible limit of 200 mg/kg fresh weight, except for Manihot esculenta and Ipomoea batatas, which exceeded this limit. Nitrate concentrations across all samples were within tolerable levels. Phytate content ranged from 1.27±0.02 to 2.17±0.13 mg/100g, with yam and cocoyam showing the lowest and highest concentrations, respectively. Oxalate mean values varied among Dioscorea alata, Manihot esculenta, Xanthosoma sagittifolium, Solanum tuberosum, and Ipomoea batatas. The study underscores the nutritional benefits of tuber crops while highlighting the presence of inherent antinutrients and toxic substances. Proper processing methods are essential to mitigate potential health risks associated with their consumption.
Dissertations / Theses on the topic "Oxalate and phytate"
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Krome, Carsten Alexander. "Studies on the suitability of Jatropha curcas kernel meal as an alternative protein source in diets for carp (Cyprinus carpio) and tilapia (Oreochromis niloticus)." Thesis, University of Stirling, 2014. http://hdl.handle.net/1893/21265.
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Aquaculture production is increasing annualy and wild fisheries for fishmeal production remain stagnant. As a consequence, extensive research has been deployed to reduce dietary fishmeal inclusion in feeds of farmed species. Usage of alternative protein sources derived from plants continues to increase with the most popular sources being oilseeds, legumes and cereal grains. The downside of these sources is that most of them could directly be used for human consumption arising legitimate criticism from voices referring to countries where protein shortages lead to malnutrition among the population. Jatropha curcas is a tropical oilseed with upcoming popularity for sustainable fuel sourcing. The plant is thought to thrive in semi-arid and arid areas, not just producing oil, but at the same time reclaiming previously eroded land for the local population. For these reasons, annual cultivation of Jatropha curcas is thought to rise over the next decades. After oil is extracted from the seed, the remaining press cake, is currently used as a fertilizer or energy source. This is mostly due to toxic phorbol esters that until recent- ly limited any nutritional applications. In 2011, a method to detoxify Jatropha press cake was developed and paved the way for nutritional research on the resulting detoxified Jatropha curcas kernel meal (JKM) to be launched. JKM offers very high protein content with a balanced amino acid composition suggesting opportunities for usage as a feedstuff in aquaculture diets. JKM further has higher mineral content than comparable oilseeds. However, potential anti-nutritional factors (ANFs) present in the meal could lead to impairment of nutrient availability or other adverse effects. Previous research has already started to evaluate JKM as a protein source for a variety of aquaculture species. This thesis attempts to further identify the potential of JKM as a protein source and assess the effects of JKM on the development of two model cultured teleost species, common carp (Cyprinus carpio) and Nile tilapia (Oreochromis niloticus), as they represent two of the most farmed species, particularly in the tropics. The work comprises growth trials on both species using fishmeal as a subject of replacement in solely fishmeal protein-based diets and on more practical fishmeal/plant protein-based diets. It engages with the effects of phytate, a prominent component of JKM with potential anti-nutritional attributes and commercially available phytase feed supplements to diminish these attributes, as well as oxalate, another plant-specific component with high concentrations in JKM and with limited attention in aquaculture nutrition research. Carp and tilapia showed varying results with different inclusion levels of JKM. For carp 50% fishmeal replacement was possible without losses in growth in diets where fishmeal was the only bulk protein source (Chapter 3.1), Tilapia showed slightly worse growth at a 30% replacement level (Chapter 3.2). A steep decline in growth could be observed when replacing 100% fishmeal with JKM in carp (Chapter 3.1), while tilapia showed no difference at that level compared to 30% replacement (Chapter 3.2). In practical diets, 100% of fishmeal could be replaced by JKM without any adverse effects on growth of carp (Chapter 3.3), while tilapia showed a slight, but significant linear negative correlation with higher inclusion levels of JKM (Chapter 3.4). Phytase addition in tilapia feeds was identified as having no obvious impact on growth in JKM based diets where enough available phosphorus was provided through mineral supplementation (Chapter 4.1). In JKM based diets where available phosphate was not added, phytase addition showed a tendency to increase growth and significantly increased mineral retention and decreased phosphorus effluent contamination (Chapter 4.2). Phytase application through pre-incubating JKM along with citric acid exerted a positive effect of growth on carp when fishmeal protein was replaced by 50% (Chapter 3.1). Phytase was further shown to completely hydrolyze phytate in vitro; however, incomplete hydrolysis was observed in vivo in tilapia (Chapter 4.3). Dietary soluble oxalate added to fishmeal based diets for carp showed better growth parameters, nutrient and mineral retention at inclusion levels 1.5% and higher (Chapter 5.1). For tilapia, a trial could demonstrate adverse effects of oxalate on potassium, calcium, manganese and zinc digestibilities, in this case without negative effects on growth (Chapter 5.2). For both, carp and tilapia, an impact of oxalate on lipid metabolism was evident, lowering body lipid content and blood cholesterol in inclusion levels from 1.5% or higher. JKM can become a valuable alternative to present dietary protein sources in aquaculture feeds. The nutritional attributes of JKM need further research, especially longer-term testing in a commercial scenario and application in commercially produced feeds. Results of this thesis pose a useful addition to previous research and can be referred to for realizing these next steps.
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Lesotho, Ntlama. "Investigation of the role of dietary myo-inositol hexakisphosphate (phytate) on the relative risk of calcium oxalate kidney stone formation in black and white male South African subjects." Master's thesis, University of Cape Town, 2005. http://hdl.handle.net/11427/9279.
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Includes bibliographical references.<br>Previous studies have shown that caJclum oxalate (CaOx) stone-formers have lower urinary concentrations of myo-inositol hexakisphosphate (phytate or IPe) than healthy individuals, that dietary intake of this substance leads to its increased urinary excretion and that it is an inhibitor of CaOx nucleation and growth In South Africa it has been reported that the black population has a higher dietary phytate intake than whites. The present study was undertaken to test the hypothesis that South African black subjects have higher urinary phytate levels than their white cOLlflterparts and that this contributes to the relative rarity of caOx kidney stone disease in this population group A modified indirect extraction/photometry method to measure urinary IPe was designed, developed and tested in the present study. This assay was then used to measure IPo in the urine of rural black and urban white subjects while on their free unrestricted diets In addition, urban black and white subjects each followed IPo-restricted followed by lPG-rich dietary protocols for a period of three days Urines were collected after administration of each protocol and were again analysed for IPe using the newly developed assay. Urines were then used in several crystallization experiments to measure the CaOx metastable limit, "C-oxalate deposition kinetics and inhiOition of CaOx crystal aggregation. The results showed that while on their free diets, rural blacks excreted significantly less IPs than urban whites despite their previously reported higher dietary intake of this substance This suggests that the renal handling of dietary IP
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Isern, Amengual Bernat. "Estudios sobre factores cinéticos implicados en la litiasis renal oxalocálcica: nucleación heterogénea e inhibidors de la cristalización." Doctoral thesis, Universitat de les Illes Balears, 2008. http://hdl.handle.net/10803/9454.
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La tesi realitzada planteja un estudi en profunditat de diferents factors que poden estar implicats en la formació dels càlculs renals, especialment els oxalo-càlcics que representen aproximadament un 70 % del total. <br/>S'ha demostrat experimentalment que els fragments residuals de càlculs renals càlcics obtinguts a partir del tractament amb litotrícia extracorpòrea per ones de xoc, sofrien un recreixement, podent donar lloc a la formació de nous càlculs. <br/>També s'han efectuat estudis in vitro de la nucleació heterogènia de l'oxalat càlcic induït per diferents substàncies (fluorur càlcic, mucina i detritus cel·lulars), les quals han mostrat una elevada acció nucleant. <br/>Per a cadascun dels casos i condicions, s'ha estudiat l'efecte de diferents substàncies que podrien actuar com a inhibidores de la cristal·lització. En tots els casos el fitat ha estat qui provocà una major reducció del creixements dels càlculs.<br/>Finalment, s'ha demostrat l'absorció del fitat a través de la pell en animals d'experimentació i humans.
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Fakier, Saajidah. "The effect of inositol-hexakisphosphate (phytate) on urinary risk factors for calcium oxalate urolithiasis in South African population groups with different kidney stone risk profiles : theoretical modelling, in vitro crystallisation experiments and in vivo human studies." Doctoral thesis, University of Cape Town, 2015. http://hdl.handle.net/11427/19975.
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The principal aims of this thesis were to establish whether soluble calcium-phytate complexes inhibit calcium oxalate crystallisation and whether a higher dietary intake of phytate in South African black subjects compared to white subjects may contribute to the relative rarity of urolithiasis in this group. Potentiometric titrations were conducted to determine thermodynamic binding constants of soluble calcium-phytate complexes. Binding constants of seven complexes were identified. These were included in the data base of the Joint Experts Speciation System computer program to model the effect of phytate on the urinary supersaturation of calcium salts. Physiological concentrations of phytate failed to decrease ionized calcium and hence the urinary supersaturation of calcium salts. These theoretical predictions were then tested in an in vitro model. Calcium oxalate crystallisation experiments were conducted in simple salt solutions, artificial urine and real urine of the respective groups. The following parameters were measured: ionized calcium; calcium oxalate metastable limit; calcium oxalate particle volume-size distribution; calcium oxalate crystal nucleation, aggregation and growth kinetics. Deposited crystals were examined by scanning electron microscopy. The results confirmed those of the theoretical modelling. Furthermore, the results demonstrated that the inhibitory capacity of phytate is of a kinetic nature rather than a thermodynamic one. Phytate inhibited calcium oxalate crystal aggregation and the inhibition of calcium oxalate crystal growth was found to be independent of the physiological concentration of phytate. In vivo studies were conducted in which phytate-deficient, phytate-rich diets and a phytate supplement were administered in healthy black and white male volunteers. The baseline intake of phytate was assessed using food frequency questionnaires; urinary phytate was determined using a novel assay; biochemical and physiochemical urinary risk factors were measured. The black group had a significantly higher baseline intake of phytate culminating in a significantly higher urinary phytate excretion. No significant difference in urinary crystallisation kinetics was observed as being due to phytate per se. The findings of this thesis contribute to the pool of knowledge on urolithiasis and provide insight on the relative rarity of this disease in South Africa's black population.
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Toledo, Nataly Maria Viva de. "Use of fruit processing by-products for the development of cookies: physicochemical, nutritional, technological and sensory aspects." Universidade de São Paulo, 2018. http://www.teses.usp.br/teses/disponiveis/11/11141/tde-13032019-181241/.
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The present study aimed at characterizing pineapple, apple and melon by-products and evaluating their potential as an ingredient for the partial substitution of wheat flour in cookie formulations. The addition of fruit by-products contributed to rise the cookies fiber content. Melon by-product was prominent for its mineral content, whereas apple by-product presented more relevant results for phenolic compounds and antioxidant capacity (DPPH and ABTS). Such behaviors reflected in the cookie formulations. Eight phenolic compounds (vanillic acid, gallic acid, sinapic acid, salicylic acid, p-coumaric acid, catechin, epicatechin and rutin) were identified and quantified by HPLC in both the by-products and cookies. Regarding the antinutritional factors and mineral bioavailability, it was observed that the addition of fruit by-products in cookies reduced the contents of phytate and oxalate and promoted changes in calcium, iron and zinc bioavailability. Facing the technological aspects, it was observed that the use of by-products interfered in the color of the cookies, making them slightly darker and also weakened the gluten formed, promoting variations in diameter and expansion factor. On the other hand, it was observed that increasing concentrations of by-products led to higher values of hardness, making the cookies firmer and crunchier. In the sensory point of view, it was verified that the cookie with 15% of pineapple by-product demonstrated the highest acceptance, followed by cookies with 15% of apple by-product, control and 15% of melon by-product. By quantitative descriptive analysis (QDA), it was found that the addition of fruit by-products altered the sensory profile of the cookies. From the results obtained, it can be concluded that the fruit by-products are potential ingredients for cookie formulation, attributing to them specific physicochemical, technological, nutritional and sensory properties which can vary according to the by-products employed.<br>O presente estudo visou caracterizar subprodutos de abacaxi, maçã e melão e avaliar seu potencial como ingrediente para substituição parcial de farinha de trigo em formulações de biscoitos. A adição de subprodutos de frutas contribuiu para elevar o teor de fibras dos biscoitos. O subproduto de melão se destacou por seu conteúdo mineral, enquanto que o subproduto de maçã apresentou resultados mais relevantes para compostos fenólicos e capacidade antioxidante (DPPH e ABTS). Tais comportamentos se refletiram nas formulações de biscoitos. Oito compostos fenólicos (ácido vanílico, ácido gálico, ácido sinápico, ácido salicílico, ácido p-cumárico, catequina, epicatequina e rutina) foram identificados e quantificados por HPLC tanto nos subprodutos como nos biscoitos. Com relação aos fatores antinutricionais e biodisponibilidade mineral, observou-se que a adição de subprodutos de frutas em biscoitos diminuiu os teores de fitato e oxalato e promoveu mudanças na biodisponibilidade de cálcio, ferro e zinco. Frente aos aspectos tecnológicos, observou-se que o uso de subprodutos interferiu na cor dos biscoitos, tornando-os levemente mais escuros e também enfraqueceu a rede de glúten formada, promovendo variações do diâmetro e fator de expansão. Por outro lado, observou-se que quanto maior a concentração de subprodutos, maiores foram os valores de dureza (textura), sendo as amostras consideradas mais firmes e crocantes. Do ponto de vista sensorial, verificou-se que o biscoito com 15% de subproduto de abacaxi foi o que demonstrou maior aceitação, seguido pelos cookies com 15% de subproduto de maçã, controle e 15% de subproduto de melão. Por meio de análise descritiva quantitativa (ADQ), observou-se que a adição de subprodutos de frutas alterou o perfil sensorial dos biscoitos. A partir dos resultados obtidos, concluiu-se que os subprodutos de frutas se apresentam como potenciais ingredientes para formulações de cookies, atribuindo-lhes propriedades físico-químicas, tecnológicas, nutricionais e sensoriais específicas as quais podem variar de acordo com o subproduto empregado.
Book chapters on the topic "Oxalate and phytate"
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Garba Bala, Aminu, and Mohammed Rabiu Hassan. "Feeding Forage Cowpea: Goats Performed Well with High Nutrient Digestibility and Nitrogen Retention." In Goat Science - From Keeping to Precision Production [Working Title]. IntechOpen, 2023. http://dx.doi.org/10.5772/intechopen.1001085.
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This chapter deals with the utilization and performance of Red Sokoto goats fed varieties of forage cowpea (Vigna unguiculata). It contains information for use right from keeping to precision production of goats. Background information is given on cowpea history and distribution, cowpea varieties and forage yields of cowpea (mainly in Africa and precisely Nigeria). Cowpea haulm nutritional value, mineral contents as well as anti-nutritional factors like Tannins, Saponins, Oxalate, Phytate, and Phenols are then detailed. The final sections highlight the performance of Red Sokoto goats in terms of nutrient digestibility and nitrogen retention when fed with two cowpea haulm varieties for optimum performance under smallholder production system.
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Deupa, Hema, and Priyanka Shankar. "NUTRITIONAL COMPOSITION, TECHNOLOGY AND PROCESSING TECHNIQUE OF FINGER MILLET (ELEUSINE CORACANA L)." In Futuristic Trends in Agriculture Engineering & Food Sciences Volume 3 Book 12. Iterative International Publisher, Selfypage Developers Pvt Ltd, 2024. http://dx.doi.org/10.58532/v3bcag12p2ch7.
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Finger millet, commonly known as ragi, is an ancient millet of India (approx. 2300BC). In compared to other cereals and millets, finger millets contain higher amount of calcium, potassium, dietary fiber, and traces of micronutrients. Despite having a rich nutritional profile, studies reveal that urban populations consume less finger millet. The presence of antinutritional factors (tannins, phytate, oxalate, and phenols) inhibit maximum utilization of finger millet, however, their negative impact can be reduced by processing techniques such as malting, milling, germination/fermentation, popping, and decortication, which are used in the preparation of culinary food products. Pasta, noodles, vermicelli, and bread are some of the new products made out of millet that are gluten-free and safe for celiac disease patients. Therefore, this book chapter emphasizes the nutritive composition of finger millet and its anti-nutritional properties, post-harvesting, and processing technique.
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Ifon, Honor, and Philomena Asuquo. "Insects such as Termites Hold a Promising Future for the African Catfish (Clarias gariepinus)." In Catfish - Advances, Technology, Experiments [Working Title]. IntechOpen, 2022. http://dx.doi.org/10.5772/intechopen.107674.
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Due to the high cost of fishmeal, it has been desirous to search for alternative sources of protein which are cheap and can replace fishmeal without compromising the growth and well-being of cultured fish. The use of insects such as termites to totally or partially replace fish meal is indeed innovative since most insect-based diets are known to inhibit the growth of cultured fish species due to some underlying factors. However, termite meal has been applauded for its good nutritional quality (crude protein and lipids, mineral composition, fatty, and amino acids) comparable to fishmeal. The concentration of phytate and tannin which could otherwise inhibit nutrient digestibility and growth of fish can be eliminated through proper processing techniques. Interestingly, concentrations of other anti-nutrients such as oxalate, trypsin inhibitor, lectin, and hydrocyanic acid in termites are known to be negligible and as such may not affect the digestibility and absorbance of essential nutrients.
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Nikalje, Ganesh Chandrakant, Apurva Chonde, Sudhakar Srivastava, and Penna Suprasanna. "Wild Vegetables of the Family Cucurbitaceae." In Wild Vegetables: Morphology, Phytochemistry and Utility Part 1. BENTHAM SCIENCE PUBLISHERS, 2025. https://doi.org/10.2174/9789815313116125010025.
Full textAbstract:
The Cucurbitaceae family, is commonly known as the gourd family or cucurbits. It is the second largest fruit and vegetable family. This family encompasses approximately 122 genera and 940 species. Cucurbits are rich in vitamins (Vit. A, C, E, and K), minerals (Potassium, Manganese, and Magnesium), antioxidants (flavonoids, carotenoids, etc.), and dietary fibers. However, they also contain some antinutritional compounds like cucurbitacins, oxalates, phytates, etc. (Schaefer and Renner 2011).
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Nikalje, Ganesh Chandrakant, Apurva Chonde, Sudhakar Srivastava, and Penna Suprasanna. "Wild Vegetables of the Family Basellaceae." In Wild Vegetables: Morphology, Phytochemistry and Utility Part 1. BENTHAM SCIENCE PUBLISHERS, 2025. https://doi.org/10.2174/9789815313116125010015.
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The Basellaceae family, also known as the Madeira vine family, is a small group of flowering plants with 4 genera and 19 species. Basella is a great choice for weight management or healthy eating plans. A 100-gram serving of raw Basella leaves contains only about 19 calories and negligible fat. The members are rich in beta-carotene, Vitamin C, iron, calcium, magnesium, potassium, manganese, folate, dietary fiber, and flavonoids. They also contain anti-nutritional compounds like oxalates and phytates (Kumar et al., 2015).
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Nikalje, Ganesh Chandrakant, Apurva Chonde, Sudhakar Srivastava, and Penna Suprasanna. "Wild Vegetables of the Family Amaranthaceae." In Wild Vegetables: Morphology, Phytochemistry and Utility Part 1. BENTHAM SCIENCE PUBLISHERS, 2025. https://doi.org/10.2174/9789815313116125010008.
Full textAbstract:
The Amaranthaceae family comprises nearly 175 genera and more than 2,500 species. The plants are found nearly worldwide, with some species thriving in tropical regions and others adapted to cool temperate climates. Several species of this family are important food crops, including Amaranth, Quinoa, Beet, etc. and some species are ornamental including cocks comb, globe amaranth, etc. Amaranthaceae members are rich in nutrients, essential amino acids, dietary fibers, vitamins A, B complex (particularly B6), C, E, and minerals like calcium, iron, magnesium, phosphorus, and potassium. In addition, some members contain antinutritional compounds including, phytates, oxalates, and nitrates which may cause health issues in humans (Umar et al., 2011).
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Nikalje, Ganesh Chandrakant, Apurva Chonde, Sudhakar Srivastava, and Penna Suprasanna. "Wild Vegetables of the Family Anacardiaceae." In Wild Vegetables: Morphology, Phytochemistry and Utility Part 1. BENTHAM SCIENCE PUBLISHERS, 2025. https://doi.org/10.2174/9789815313116125010009.
Full textAbstract:
The Amaranthaceae family comprises nearly 175 genera and more than 2,500 species. The plants are found nearly worldwide, with some species thriving in tropical regions and others adapted to cool temperate climates. Several species of this family are important food crops, including Amaranth, Quinoa, Beet, etc. and some species are ornamental including cocks comb, globe amaranth, etc. Amaranthaceae members are rich in nutrients, essential amino acids, dietary fibers, vitamins A, B complex (particularly B6), C, E, and minerals like calcium, iron, magnesium, phosphorus, and potassium. In addition, some members contain antinutritional compounds including, phytates, oxalates, and nitrates which may cause health issues in humans (Umar et al., 2011).