Enhanced anticancer activity and oral bioavailability of ellagic acid through encapsulation in biodegradable polymeric nanoparticles

Mady, Fatma M.; Shaker, Mohamed A.

doi:10.2147/ijn.s147740

Cited by 75 publications

(60 citation statements)

References 45 publications

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“…In a study by Mady and Shaker on the preparation of ellagic acid-polymeric nanoparticles using the emulsion-diffusion-evaporation method, the results showed that they were able to sustain the diffusion release of ellagic acid and enhance its cytotoxicity (6.9-fold) against the colon adenocarcinoma, thus improved ellagic acid bioavailability and its anticancer efficacy [32]. Rocha et al also proved the efficacy of using polymeric nanoparticles in delivery of catechin for prostate cancer treatment [33].…”

Section: Polymeric Nanoparticlesmentioning

confidence: 99%

Antioxidants in Cancer Therapy: Recent Trends in Application of Nanotechnology for Enhanced Delivery

et al. 2020

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Recently, the occurrence of cancer has significantly increased; it represents the second-most frequent cause of death after cardiovascular diseases. Many dietary antioxidants have shown large impact as effective agents for cancer prevention by reducing oxidative stress, which has been a part in the development of many diseases, including cancer. One of the obstacles in the delivery of antioxidant therapies into the required domain lies in the inadequate delivery of these agents to their intended site of action. Using nanotechnology in delivery of antioxidants leads to increased therapeutic index and higher drug concentration in tumor tissues, thus enhancing anticancer treatment. In this review, we discuss the role of different antioxidants in cancer therapy and their improved therapeutic effect through their formulation using nanotechnology.

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Section: Polymeric Nanoparticlesmentioning

confidence: 99%

Antioxidants in Cancer Therapy: Recent Trends in Application of Nanotechnology for Enhanced Delivery

et al. 2020

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“…Found in many fruits (especially pomegranates, raspberries, blueberries, strawberries, walnuts, and grapes) (Hajipour et al., 2018), ellagic acid (EA) is a type of antioxidant that is naturally occurring and widely used for cancer treatment (Verotta et al., 2018). Recent studies have described EA as a naturally occurring bioactive polyphenolic substance (Mady & Shaker, 2017). In addition to its advantages, the disadvantages of EA include poor solubility (9.7 µg/mL) in water at pH 7.4, poor permeability and poor stability at physiological pH for hepatic metabolisms (Madrigal‐Carballo et al., 2010).…”

Section: Introductionmentioning

confidence: 99%

Encapsulation of ellagic acid from pomegranate peels in microalgae optimized by response surface methodology and an investigation of its controlled released under simulated gastrointestinal studies

Yağmur¹,

Şahin

2020

Journal of Food Science

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Ellagic acid (EA), a naturally occurring bioactive phenolic compound largely found in pomegranate, exhibits significant health benefits due to its antioxidant, antimutagenic, and even anticancerogenic properties. The present work aimed to microencapsulate EA extracted from pomegranate peels. To improve the stability of EA, microencapsulation was applied with Spirulina as a coating material. For this purpose, ethanolic extracts obtained from pomegranate peels were used for microencapsulation. Response surface methodology combined with a three-level, three-variable Box-Behnken design (BBD) was applied to obtain optimum microencapsulation. The microparticles obtained under the optimized encapsulation conditions were further characterized by FT-IR and SEM. The results confirmed the encapsulation of EA in Spirulina cells. Then, the optimum microparticles were used in an in vitro release study. The results of the in vitro digestion with simulated gastrointestinal fluids could help to determine the content and biological activity of EA. In this study, the effect of encapsulation on the release properties of EA during simulated gastrointestinal digestion was also evaluated. HPLC-DAD analysis and the Folin-Ciocalteu and ABTS methods were helpful for characterization of EA in the simulated fluids. The release profile of EA indicated that in simulated intestinal fluid, the release was faster than that in gastric fluid.Practical Application: This study describes the microencapsulation of ethanolic extracts of pomegranate peel (PP) in Spirulina. This application has been performed to improve the stability and bioavailability of EA in the extracts. Optimum microencapsulation was obtained by response surface methodology with BBD. After the characterization of the obtained optimum Spirulina/EA mixture by FT-IR and SEM, an in vitro release study was conducted for stability research. The results will guide other researchers working on the determination of the content and biological activity of EA and on optimizing the microencapsulation process.

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“…All these studies revealed that these modifications improve the anticancer effects of EA. In another study, Mady et al found that the encapsulation of EA nanoparticles in Poly ε‐caprolactone (PCL) increases the oral bioavailability and activity of EA (Mady & Shaker, ). However, in our knowledge, there is no well‐known method to increase the bioavailability of EA and further investigations seem to be necessary.…”

Section: Resultsmentioning

confidence: 99%

Antiinflammatory and anti‐cancer activities of pomegranate and its constituent, ellagic acid: Evidence from cellular, animal, and clinical studies

Rahimi

Ghadiri

Ramezani

et al. 2020

Phytotherapy Research

110

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Inflammation is commonly characterized as a defensive and protective reaction of the body to various exogenous or endogenous stimuli, which aims to maintain the body health. Punica granatum (pomegranate) and its constituent ellagic acid (EA) are recently more taken into accounts since their promising pharmacological effects. Therefore, we aimed to obtain a comprehensive review regarding antiinflammatory, anticancer, and antioxidant activities of both pomegranate and EA and their possible involved mechanisms. In the procedure, scientific databases, including Web of Science, PubMed, Scopus, and Google Scholar, were searched in the English language, until the end of January 2019. Pomegranate belonging to the Punicaceae has been used for medical purposes from ancient and in different cultures. Several studies have also supported that EA is the major active compound of pomegranate and possesses antimutagenic, antiinflammatory, antifibrosis, anticancer, and antiaging properties. It has been suggested that pomegranate and EA possess promising immunomodulatory effects in preclinical models as well as human studies through regulation of the T‐cell function and suppressing humoral immunity. Hopefully, we wish that this review and information could be helpful for designing further experiments to investigate the potential protective effects of pomegranate and EA.

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Enhanced anticancer activity and oral bioavailability of ellagic acid through encapsulation in biodegradable polymeric nanoparticles

Cited by 75 publications

References 45 publications

Antioxidants in Cancer Therapy: Recent Trends in Application of Nanotechnology for Enhanced Delivery

Antioxidants in Cancer Therapy: Recent Trends in Application of Nanotechnology for Enhanced Delivery

Encapsulation of ellagic acid from pomegranate peels in microalgae optimized by response surface methodology and an investigation of its controlled released under simulated gastrointestinal studies

Antiinflammatory and anti‐cancer activities of pomegranate and its constituent, ellagic acid: Evidence from cellular, animal, and clinical studies

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