Vitamin D3-Loaded Nanostructured Lipid Carriers as a Potential Approach for Fortifying Food Beverages; in Vitro and in Vivo Evaluation

Mohammadi, Maryam; Pezeshki, Akram; Abbasi, Mehran Mesgari; Ghanbarzadeh, Babak; Hamishehkar, Hamed

doi:10.15171/apb.2017.008

Cited by 72 publications

(46 citation statements)

References 36 publications

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“…In another similar study with VD 3 encapsulated by soy protein isolate‐carboxymethyl chitosan complexes, an EE of 84.46% and an LC of 6.06% were reported (Teng et al., 2013). Much higher EE of VD 3 was reported in other systems including fish oil nanoemulsion (EE% = 96.95%) (Walia, Dasgupta, Ranjan, Chen, & Ramalingam, 2017), nanostructured lipid carrier (EE% = 93%) (Mohammadi, Pezeshki, Abbasi, Ghanbarzadeh, & Hamishehkar, 2017), niosomes (EE% = 95.9%) (Wagner, Spoth, Kourkoutis, & Rizvi, 2016), and carboxymethyl chitosan hydrogel beads (EE% = 96.9%) (Luo et al., 2013). However, some studies may have limitations such as the aggregation of proteins in acidic beverages (Pedersen, Frislev, Pedersen, & Otzen, 2016), turbidity caused by emulsion droplets (Walia et al., 2017), decreased bioaccessibility after encapsulation (Tan et al., 2020), and label‐unfriendliness due to use of synthetic emulsifiers (Patel & San Martin‐Gonzalez, 2012).…”

Section: Resultsmentioning

confidence: 82%

Encapsulation of vitamin D₃ in gum arabic to enhance bioavailability and stability for beverage applications

Lamsen

Wang

D’Souza

et al. 2020

Journal of Food Science

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Delivery of vitamin D3 (VD3) in foods should exhibit desirable physicochemical characteristics and improves absorption. In this study, gum arabic (GA) was investigated as a VD3 carrier to encapsulate VD3. VD3 dissolved in 5 mL ethanol corresponding to 0.3 to 6.0% mass of GA, was blended in 5.0% w/v GA solution, followed by freeze drying. The encapsulation efficiency decreased while loading capacity increased with an increased amount of VD3. At the highest VD3 level, the loading capacity (3.47%) was the highest, and the encapsulation efficiency (61.24%) was satisfactory, and the treatment was further studied. The magnitude of negative zeta‐potential increased from 3.1 to 31.0 mV at pH 2.0 to 7.4. During the 100‐day storage at 3 °C of capsules reconstituted at pH 2.0 to 7.4, the hydrodynamic diameter decreased at all pH conditions, most evident for reduction to 81.3 nm at pH 7.4, and no precipitation was observed, indicating the significance of steric repulsion on capsule stability. Bioaccessibility of VD3 in capsules (95.76%) was significantly higher than the nonencapsulated VD3 (68.98%). The in vivo pharmacokinetic study in Sprague–Dawley rats after a single‐dose of 300 µg VD3 showed the area‐under‐curve of serum 25(OHD) level in 48 hr of the encapsulation treatment was 4.32‐fold of the nonencapsulated VD3 and more than twice higher than the VD3‐GA physical mixture. During 2‐week supplementation of 60 µg VD3/d, rats receiving capsules or physical mixture had 25(OH)D levels of at least 81 ng/mL higher than that of the nonencapsulated VD3 group. The studied encapsulation system holds great potential as a value‐added ingredient to supplement VD3 in beverages with a wide pH range. Practical Application The findings of this study demonstrated the improved dispersion stability and absorption of vitamin D3 after encapsulation in gum arabic. The capsules exhibited good dispersion stability across a pH range between 2.0 and 7.4, showing potential application in beverages. Furthermore, the enhanced absorption of VD3 after encapsulation highlights the nutritional benefits of the studied encapsulation system.

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Section: Resultsmentioning

confidence: 82%

Encapsulation of vitamin D₃ in gum arabic to enhance bioavailability and stability for beverage applications

Lamsen

Wang

D’Souza

et al. 2020

Journal of Food Science

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“…The main fatty acid is behenic acid (C 22 ) (>85%), but other fatty acids (C 16 –C 20 ) are also present [38]. Miglyol 812 ® is a medium chain triglyceride composed mainly of caprylic (C8:0; 50–80%) and capric (C10:0; 20–50%) fatty acids with a minor level of caproic (C6:0; ≤2%), lauric (C12:0; ≤3%), and myristic (C14:0; ≤1%) fatty acids [39].…”

Section: Resultsmentioning

confidence: 99%

Evaluation of the Influence of Process Parameters on the Properties of Resveratrol-Loaded NLC Using 22 Full Factorial Design

Shimojo

Fernandes

Ferreira³

et al. 2019

Antioxidants

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Resveratrol (RSV) is a natural antioxidant commonly found in grapes, berries, and nuts that has shown promising results in the treatment of a variety of degenerative and age-related diseases. Despite the proven beneficial results on reduction of reactive oxidant species (ROS) and on inflammatory process, RSV shows various limitations including low long-term stability, aqueous solubility, and bioavailability, restricting its applications in the medical-pharmaceutical area. To overcome these limitations, it has been applied in pharmaceutical formulations as nanostructured lipid carriers (NLC). Thus, the present study focuses on the optimization of the production process of NLC. NLC was produced by high shear homogenization (HSH) and ultrasound method (US) using Compritol® ATO C888 as solid lipid and Miglyol 812® as liquid lipid. In order to obtain an optimized formulation, we used a 22 full factorial design with triplicate of central point investigating the effects of the production process parameters; shear intensity and homogenization time, on the mean particle size (PS) and polydispersity index (PDI). Instability index, encapsulation efficiency, and production yield were also evaluated. As the PS and PDI values obtained with 6 min of shear at 19,000 rpm and 10 min of shear and 24,000 rpm were similar, the instability index (<0.1) was also used to select the optimal parameters. Based on the results of the experimental design and instability index, it was concluded that the shear rate of 19,000 rpm and the shear time of 6 min are the optimal parameters for RSV-loaded NLC production. Factorial design contributed therefore to optimize the variables of the NLC production process from a small number of experiments.

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“…In the studies of Mohammadi et al (2017), VD was incorporated into nanostructured lipid carriers (mean diameter of approximately 88 nm), and then the effect of rising 25(OH)D in rat blood was assessed. Nanoparticles demonstrated the faster and prolonged increase of 25(OH)D in plasma than the oily solution formulation of VD [43]. A different approach was proposed by Diarrassouba et al (2015).…”

Section: Drug Delivery Systems For Oral Administration (Food Fortimentioning

confidence: 99%

“…Finally, as presented in Table 1, many other attempts were also carried out to improve water solubility, stability, and bioavailability of VD using different encapsulation strategies, like protein-based delivery systems [32,39,41], solid lipid [42] and nanostructured lipid carriers [43,44], liposomes [46], and microparticle [47]. Interestingly, most researchers underline the fact that VD is a vitamin sensitive to external factors.…”

Section: Drug Delivery Systems For Oral Administration (Food Fortimentioning

confidence: 99%

Drug Delivery Systems for Vitamin D Supplementation and Therapy

2019

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Vitamin D (VD) is a fat-soluble prohormone well known for its role in regulating calcium and phosphate metabolism. It has been clinically used for many years to prevent rickets in children, osteomalacia, and osteoporosis in adults. VD insufficiency is a common medical condition, and many supplements are available in the market in order to increase serum 25-hydroxy VD levels to recommended amounts. Over the course of the last decades, it has become increasingly clear that calcitriol, an active form of VD, regulates multiple cellular processes with effects on normal and malignant cell growth and differentiation, and on the immune and cardiovascular function. Increasing evidence supports the role of the VD system in cancer prevention and therapy. Due to many pleiotropic and beneficial effects in extra-skeletal disorders, VD has gained potential and become an interesting active for encapsulation into drug delivery systems. The purpose of this review is to present the diversity of drug delivery systems that have been reported for VD or VD derivatives in an orderly manner across the following categories: Oral administration, application on the skin, cancer prevention/therapy, and other diseases or routes of administration.

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Vitamin D3-Loaded Nanostructured Lipid Carriers as a Potential Approach for Fortifying Food Beverages; in Vitro and in Vivo Evaluation

Cited by 72 publications

References 36 publications

Encapsulation of vitamin D₃ in gum arabic to enhance bioavailability and stability for beverage applications

Encapsulation of vitamin D₃ in gum arabic to enhance bioavailability and stability for beverage applications

Evaluation of the Influence of Process Parameters on the Properties of Resveratrol-Loaded NLC Using 22 Full Factorial Design

Drug Delivery Systems for Vitamin D Supplementation and Therapy

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Vitamin D3-Loaded Nanostructured Lipid Carriers as a Potential Approach for Fortifying Food Beverages; in Vitro and in Vivo Evaluation

Cited by 72 publications

References 36 publications

Encapsulation of vitamin D3 in gum arabic to enhance bioavailability and stability for beverage applications

Encapsulation of vitamin D3 in gum arabic to enhance bioavailability and stability for beverage applications

Evaluation of the Influence of Process Parameters on the Properties of Resveratrol-Loaded NLC Using 22 Full Factorial Design

Drug Delivery Systems for Vitamin D Supplementation and Therapy

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Product

Resources

About

Encapsulation of vitamin D₃ in gum arabic to enhance bioavailability and stability for beverage applications

Encapsulation of vitamin D₃ in gum arabic to enhance bioavailability and stability for beverage applications