Improving norbixin dispersibility and stability by liposomal encapsulation using the <scp>pH</scp>‐driven method

Liu, Hang; Zhang, Junbing; Xiong, Yi; Peng, Shengfeng; McClements, David Julian; Liang, Ruihong; Liu, Wei

doi:10.1002/jsfa.11546

Cited by 11 publications

(6 citation statements)

References 25 publications

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“…It seems to be the contradictory to “steric hindrance” theory as previously mentioned. We speculated that the dispersibility improvement of encapsulation was the leading cause of the phenomenon . Further, the acid will produce after alcohol use in the stomach and it is necessary to determine the alcohol intake in the SGF solution.…”

Section: Resultsmentioning

confidence: 99%

“…We speculated that the dispersibility improvement of encapsulation was the leading cause of the phenomenon. 28 Further, the acid will produce after alcohol use in the stomach and it is necessary to determine the alcohol intake in the SGF solution. In Figure S6, it was obvious that the overall trend of each group was similar but the alcohol intake decreased sharply compared with the one without acid.…”

Section: Metabolic Activity Of Bacteriamentioning

confidence: 99%

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Bacteria-Loaded Gastro-Retention Oral Delivery System for Alcohol Abuse

Cheng

Xie

et al. 2023

ACS Biomater. Sci. Eng.

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Alcohol abuse is harmful to human health, and many strategies have been developed to retard this harm through protecting liver or activating relative enzymes. In this study, a new strategy of decreasing the alcohol absorption directly depending on the dealcoholization by the bacteria in the upper gastrointestinal (GI) tract was reported. To realize this, a bacteria-loaded gastroretention oral delivery system with pore structure was constructed through emulsification/internal gelation, which could relieve acute alcohol intoxication in mice successfully. It was found that this bacteria-loaded system kept the above 30% suspension ratio in the simulated gastric fluid for 4 min, displayed good protection effect for the bacteria, and decreased the alcohol concentration from 50 to 30% below within 24 h in vitro. The in vivo imaging results demonstrated that it remained in the upper GI tract until 24 h and reduced 41.9% alcohol absorption. The mice with oral administration of the bacteria-loaded system were found with normal gait, smooth coat, and less liver damage. Although the intestinal flora distribution was influenced slightly during the oral administration, it could restore to normal levels only one day after stopping oral administration quickly, suggesting good biosafety. In conclusion, these results revealed that the bacteria-loaded gastro-retention oral delivery system might intake alcohol molecules rapidly and has huge potential in the treatment of alcohol abuse.

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Section: Resultsmentioning

confidence: 99%

Section: Metabolic Activity Of Bacteriamentioning

confidence: 99%

Bacteria-Loaded Gastro-Retention Oral Delivery System for Alcohol Abuse

Cheng

Xie

et al. 2023

ACS Biomater. Sci. Eng.

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“…Similar results regarding high encapsulation efficiency were also found in recent study. In a study by Liu, 27 it was obvious that the encapsulation efficiency of norbixin‐loaded liposomes was relatively high (95%) as the concentration of norbixin ranged from 0.2 to 0.6 mg mL −1 . And in the results of loading capacity (Table 2), it had reached 0.74 ± 0.10 until the mass ratio of lutein and lecithin presented at 5:5.…”

Section: Resultsmentioning

confidence: 99%

Comparative study of the properties of lutein nanoliposomes coated with chitosan/(−)‐epigallocatechin‐ 3‐gallate (EGCG) complexes

Yan

Dai

et al. 2023

J Sci Food Agric

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BACKGROUND Numerous positive effects have been attributed to lutein, a lipophilic nutrient, including resisting ultraviolet radiation and protecting retinal pigment epithelial (RPE) cells against blue light damage. It also has preventive effects against cardiovascular disease and cancer. However, its use could be limited by its poor stability and low bioaccessibility in the human digestive system. An encapsulation delivery system was therefore developed to resolve these limitations. In this study, chitosan‐modified lutein nanoliposomes (CS‐LNLs), chitosan‐EGCG covalently modified lutein nanoliposomes (C‐CS‐EGCG‐LNLs), and chitosan‐EGCG noncovalently modified lutein nanoliposomes (non‐C‐CS‐EGCG‐LNLs) were designed. The average particle size, ζ‐potential, and retention of lutein during storage were measured to indicate the physicochemical stability of the modified lutein nanoliposomes. The bioaccessibility of modified lutein nanoliposomes was also investigated to demonstrate the availability of lutein in the human digestive system. RESULTS First, Fourier‐transform infrared spectroscopy (FTIR) verified that covalent bonds between chitosan and EGCG were formed. Subsequently, ζ‐potential results revealed that C‐CS‐EGCG‐LNLs had a relatively stable structure in comparison with lutein nanoliposomes (LNLs). The retention rate of lutein in CS‐LNLs, C‐CS‐EGCG‐LNLs, and non‐C‐CS‐EGCG‐LNLs was improved, especially in C‐CS‐EGCG‐LNLs (at around 70% of lutein in initial system). An in vitro digestion experiment illustrated that CS‐LNLs, C‐CS‐EGCG‐LNLs, and non‐C‐CS‐EGCG‐LNLs presented relatively higher bioaccessibility, especially in C‐CS‐EGCG‐LNLs (at around 33% of luein in initial system), which increased 2.5 and 1.65 times in comparison with free lutein and LNLs, respectively. CONCLUSION Overall, the results showed that C‐CS‐EGCG‐LNLs presented greater physicochemical stability and bioaccessibility than LNLs, CS‐LNLs, and non‐C‐CS‐EGCG‐LNLs. © 2023 Society of Chemical Industry.

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“…One of the concerns in ingredient or drug encapsulation with liposomes is the contradiction between loading capacity (LC) and construction of bigger and stable capsules, [1][2][3] since larger liposome would simultaneously generate higher loading efficiency and poorer stability. [4][5][6][7] Compared with ordinary liposomes, ufasomes that are composed of unsaturated fatty acid vesicles (FAVs) possess unique advantages such as natural abundance, biodegradability, stimulus-responsive morphological transformation, and high bioavailability, [8][9][10] could be used for encapsulating bioactive ingredients in aqueous solution.…”

Section: Introductionmentioning

confidence: 99%

“…One of the concerns in ingredient or drug encapsulation with liposomes is the contradiction between loading capacity (LC) and construction of bigger and stable capsules, 1‐3 since larger liposome would simultaneously generate higher loading efficiency and poorer stability 4‐7 …”

Section: Introductionmentioning

confidence: 99%

Micron and nano hybrid ufasomes from conjugated linoleic acid, their vesiculation and encapsulation of ginsenoside Rg3

Liu

et al. 2022

J Sci Food Agric

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BACKGROUND Unsaturated fatty acids used to form unstable micro‐vesicles, while conjugate linoleic acid (CLA)‐sodium dodecyl sulfate (SDS) can self‐assembly to stable nano‐conjugate linoleic acid vesicles (nano‐CLAVs). Generally, micro‐capsule could geometrically provide higher loading capacity but also generate concerns in construction convenience, sustained release, bioaccessibility and stability. Hence there is a contradiction between loading capacity and encapsulation efficiency. Therefore, the study of the factors that decide the capsule size falling in nano or micron size with same capsule material would be a benefit to food or drug delivery science. RESULTS The micron‐ and nano‐CLAVs were constructed for encapsulation and sustained release of ginsenoside Rg3. The formation mechanism of nano or micron capsule,s the effect of vesicle sizes on encapsulation efficiency, drug loading efficiency and stability of the encapsulated Rg3 were investigated. It was found that with the addition of salt (PBS), the size of CLAVs jumped from nano to micron. Furthermore, the salt concentration is the key factor that decides the vesicle size of nano or micron. The pH at fabrication triggers the vesiculation and dramatically affects the vesicle size over the nano and micron scales. CONCLUSION Compared to the nano‐CLAVs, micron vesicles enhanced the loading capacity to 137.6% and the encapsulation efficiency to 138.4%, respectively. Meanwhile, the micron‐CLAVs performed similar sustained release of Rg3 as the nano‐CLAVs did, and was stable for 120 days at room temperature or sustained 98.9% of capsules after centrifuge at 6090 × g for 20 min. © 2022 Society of Chemical Industry.

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Improving norbixin dispersibility and stability by liposomal encapsulation using the pH‐driven method

Cited by 11 publications

References 25 publications

Bacteria-Loaded Gastro-Retention Oral Delivery System for Alcohol Abuse

Bacteria-Loaded Gastro-Retention Oral Delivery System for Alcohol Abuse

Comparative study of the properties of lutein nanoliposomes coated with chitosan/(−)‐epigallocatechin‐ 3‐gallate (EGCG) complexes

Micron and nano hybrid ufasomes from conjugated linoleic acid, their vesiculation and encapsulation of ginsenoside Rg3

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