Bile salts-containing vesicles: promising pharmaceutical carriers for oral delivery of poorly water-soluble drugs and peptide/protein-based therapeutics or vaccines

Aburahma, Mona Hassan

doi:10.3109/10717544.2014.976892

Cited by 73 publications

(105 citation statements)

References 82 publications

(215 reference statements)

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“…However, the increase in bile salts concentration concurrently increases drug solubility in the dispersion medium due to the possible existence of mixed micelles, thereby compromising the EE% (Mahmood et al, 2014;Niu et al, 2014). Furthermore, the fluidizing effect of bile salts on the lipid bilayers of the vesicles, at high concentration, could also lead to the leakage of the entrapped drug (Niu et al, 2011;Aburahma, 2014).…”

Section: Responsesmentioning

confidence: 97%

“…Different researches have confirmed the potential of employing bilosomes to enable successful oral delivery of vaccines (Aburahma, 2014;Mann et al, 2006;Shukla et al, 2008Shukla et al, , 2011Jain et al, 2014;Wilkhu et al, 2013). Bile salts present in the lipid bilayers of bilosomes make them more resistant against gastro-intestinal (GI) bile salts and enzymes, therefore, offer protection for the entrapped vaccine against the hostile environment of the GI tract (Aburahma, 2014;Mann et al, 2006;Shukla et al, 2008Shukla et al, , 2011. Although, bilosomes have not been yet investigated for transdermal drug delivery, their nano-sized vesicles associated with the presence of surfactants and bile salts in their constructs suggest promising prospects for employing them transdermally.…”

Section: Introductionmentioning

confidence: 97%

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Investigating the potential of employing bilosomes as a novel vesicular carrier for transdermal delivery of tenoxicam

Al-mahallawi

Abdelbary

Aburahma

2015

International Journal of Pharmaceutics

164

144

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Section: Responsesmentioning

confidence: 97%

Section: Introductionmentioning

confidence: 97%

Investigating the potential of employing bilosomes as a novel vesicular carrier for transdermal delivery of tenoxicam

Al-mahallawi

Abdelbary

Aburahma

2015

International Journal of Pharmaceutics

164

144

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“…The presence of such EA weakens the bonds between phospholipids molecules and imparts the property of elasticity onto transferases making them ultra deformable vesicles. Transferosomes have several advantages that make them successful vesicular drug delivery systems, including (a) being biodegradable and biocompatible with human body, and (b) the ability of EA to solubilize and stabilize poorly soluble drugs owing to their surface activity, low toxicity, enhanced tissue targeting capacity, and ability to obtain prolonged drug release [10][11][12]. RO, also known as "superstatin," is the most effective antihyperlipidemic agent in the statins family.…”

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confidence: 99%

Preparation and Optimization of In Situ Gel Loaded with Rosuvastatin-Ellagic Acid Nanotransfersomes to Enhance the Anti-Proliferative Activity

2020

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The objective of this study was to develop an optimized sustained-release nanotransfersomes (NTS) based in situ gel formulation of rosuvastatin (RO) combined with ellagic acid (EA) antioxidant, to enhance cytotoxic and anti-proliferative activity against tongue carcinoma. The concentrations of lecithin, Tween 80, and d-tocopherol polyethylene glycol succinate (TPGS) were considered as independent variables. Particle size, entrapment, and stability were selected as dependent variables. The obtained formulation containing 25% lecithin, 20% Tween 80, and TPGS 15% fulfilled the prerequisites of the optimum formulation. RO-NTS loaded in situ gel was prepared and optimized for concentrations of Poloxamer 407, and Carbopol, using statistical design. Drug release from in situ gel showed a sustained release profile. The RO IC50 was decreased by half for the in situ gel in comparison to plain RO and RO-EA-NTS. A significant amount of caspase-3 was detected in all the formulation treatments. The studies indicated that EA's synergistic anti-oxidant effect owing to a high affinity to the PGP efflux transporter and higher penetration in the RO-NTS formulation led to a higher inhibition against human chondrosarcome-3 cancer cell lines. RO-EA NTS-loaded in situ gel had a sustained release that could be significant in localized therapy as an alternative to surgery in the treatment of aggressive tongue carcinoma. sensitivity of lung cancer and human leukemia cell lines to anthracyclines [6,7]. Administration of statins combined with antioxidant compounds of natural origin can yield better results as shown in the combination of simvastatin and alpha-lipoic acid that improved toxicity against breast carcinoma cell lines [8].Transferosomes, defined as vesicular colloidal dispersions composed mainly of phospholipids and nonionic surfactants acting as edge activators (EA), have attracted a great deal of attention in the field of drug delivery [9]. The presence of such EA weakens the bonds between phospholipids molecules and imparts the property of elasticity onto transferases making them ultra deformable vesicles. Transferosomes have several advantages that make them successful vesicular drug delivery systems, including (a) being biodegradable and biocompatible with human body, and (b) the ability of EA to solubilize and stabilize poorly soluble drugs owing to their surface activity, low toxicity, enhanced tissue targeting capacity, and ability to obtain prolonged drug release [10][11][12]. RO, also known as "superstatin," is the most effective antihyperlipidemic agent in the statins family. It is more efficient and attains fewer side effects compared to other statins although it exhibits poor solubility and poor bioavailability [13]. Several studies have proven the anticancer activity of RO. It showed cytotoxic effects against thyroid cancer cells in vitro as it increased the caspase-3 activity and apoptosis confirmed by DNA fragmentation analysis [14], and reduced viability in cervical, hepatic, and breast cancer cell lines [15]. Mor...

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“…35 Oral bilosome preparation could induce significant cell-mediated responses against synthetic peptides comparable to those obtained by systemic immunization. 39,75,76 Oral hydrophobic drugs Amenability of bilosomes for enhancing oral availability was not confined to hydrophilic drugs entrapped in hydrophilic core. 77 Few hydrophobic actives have been successful candidates for bilosomes as well where the drug would be entrapped in the PL bilayer of the vesicles.…”

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confidence: 99%

Multifaceted applications of bile salts in pharmacy: an emphasis on nanomedicine

Elnaggar¹

2015

IJN

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The human body has long provided pharmaceutical science with biomaterials of interesting applications. Bile salts (BSs) are biomaterials reminiscent of traditional surfactants with peculiar structure and self-assembled topologies. In the pharmaceutical field, BSs were employed on the basis of two different concepts. The first concept exploited BSs’ metabolic and homeostatic functions in disease modulation, whereas the second one utilized BSs’ potential to modify drug-delivery characteristics, which recently involved nanotechnology. This review is the first to gather major pharmaceutical applications of BSs from endogenous organotropism up to integration into nanomedicine, with a greater focus on the latter domain. Endogenous applications highlighted the role of BS in modulating hypercholesterolemia and cancer therapy in view of enterohepatic circulation. In addition, recent BS-integrated nanomedicines have been surveyed, chiefly size-tunable cholate nanoparticles, BS-lecithin mixed micelles, bilosomes, probilosomes, and surface-engineered bilosomes. A greater emphasis has been laid on nanosystems for vaccine and cancer therapy. The comparative advantages of BS-integrated nanomedicines over conventional nanocarriers have been noted. Paradoxical effects, current pitfalls, future perspectives, and opinions have also been outlined.

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Bile salts-containing vesicles: promising pharmaceutical carriers for oral delivery of poorly water-soluble drugs and peptide/protein-based therapeutics or vaccines

Cited by 73 publications

References 82 publications

Investigating the potential of employing bilosomes as a novel vesicular carrier for transdermal delivery of tenoxicam

Investigating the potential of employing bilosomes as a novel vesicular carrier for transdermal delivery of tenoxicam

Preparation and Optimization of In Situ Gel Loaded with Rosuvastatin-Ellagic Acid Nanotransfersomes to Enhance the Anti-Proliferative Activity

Multifaceted applications of bile salts in pharmacy: an emphasis on nanomedicine

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