Formulation and evaluation of hyaluronic acid-based mucoadhesive self nanoemulsifying drug delivery system (SNEDDS) of tamoxifen for targeting breast cancer

Batool, Ayesha; Arshad, Rabia; Razzaq, Sobia; Nousheen, Kainat; Kiani, Maria Hassan; Shahnaz, Gul

doi:10.1016/j.ijbiomac.2020.02.275

Cited by 66 publications

(34 citation statements)

References 33 publications

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“…It was observed that the papain functionalized thiolated redox micelles (PT‐R‐Ms) based on papain grafted thiolated hyaluronic acid‐pluronic F127 disulfide‐linked lithocholic acid (Pap‐THA‐F 127 ‐SS‐LCA) readily exhibited the fastest diffusion in the mucus and displayed the largest diffusion areas (34 mm) up to last segment 20 (as shown in Figure 6B). However, papain functionalized redox micelles (P‐R‐Ms) mediated by Pap‐HA‐F 127 ‐SS‐LCA exhibited limited penetration up to 2‐12 segments 35 . Previously reported work revealed that thiol moieties immobilization on polymeric backbone enhances the particles mucus adhesive characteristics owing to its improved mucoadhesive strength 36 .…”

Section: Resultsmentioning

confidence: 99%

Papain decorated multi‐functional polymeric micelles for the targeted intracellular delivery of paclitaxel

Razzaq

Rauf

Raza

et al. 2021

Polymers for Advanced Techs

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Mucopermeating nanocargoes being able to overcome mucosal, as well as extracellular barrier leads to enhance penetration of poorly soluble anticancer drugs at its target site. We developed an innovative means to bring amphiphilic mucopermeating functional micelles to tumors. Papain (Pap) grafted thiolated hyaluronic acid‐pluronic F127‐lithocholic acid triblock (Pap‐THA‐g‐F127‐SS‐LCA) was synthesized in this study. As‐prepared formulation yielded Pap functionalized thiolated redox micelles (PT‐R‐Ms). Mucolytic and tumor extracellular matrix‐degrading property of Pap enzyme facilitated the diffusion of paclitaxel loaded PT‐R‐Ms. Moreover, PT‐R‐Ms exhibited glutathione‐triggered release serving as a mimic for the tumor microenvironment yielding enhanced intracellular tumor penetration thereby leading to high tumor cytotoxicity. PT‐R‐Ms were spherical with a particle size of 80 nm, the negative zeta potential of −29 ± 3.85, and high encapsulation efficiency, that is, 80 ± 3.29% of paclitaxel. In‐vitro anticancer activity demonstrated higher cytotoxicity of PT‐R‐Ms against all HCT‐116, Hep‐2, and RD cancerous cell lines in comparison to free paclitaxel. PT‐R‐Ms indicated the highest penetration in tumor tissue in terms of maximum fluorescence. Briefly, this delivery system addresses the existing clinical challenges by enabling as‐prepared nanocargoes to release paclitaxel when reaching the site of a target (where it is the most needed), thereby minimizing off‐target toxic effects. Targeted delivery of drug using nanocargoes has the potential to propel the field of drug delivery in solving real‐world clinical problems.

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Section: Resultsmentioning

confidence: 99%

Papain decorated multi‐functional polymeric micelles for the targeted intracellular delivery of paclitaxel

Razzaq

Rauf

Raza

et al. 2021

Polymers for Advanced Techs

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“…A droplet of SNEDDS nano emulsion formulation was placed on the carbon-coated copper stubs and stained with phosphotungstic acid solution (2% w / w ) operational under vacuum at 40 mA for 15 sec [ 25 ]. SEM and TEM of the HA-CIP SNEDDS and HA-SNEDDS was carried out using (FEI Nova Nano SEM 450, St. Louis, MO, USA) SEM equipped with TEM by employing the samples on the carbon-coated copper grid smudged by a drop of 1% ammonium molybdate solution.…”

Section: Methodsmentioning

confidence: 99%

“…Therefore, an appropriate ratio of HA polymer, oil, surfactant, and co-surfactant was mixed followed by probe sonication (20K HZ) for 5 min at 50 • C. After complete mixing of all above-mentioned excipients, the excess quantity of CIP was added, and the reaction mixture was vortexed for aided solubilization. Furthermore, the resulting polymeric HA-CIP-SNEDDS was cooled and stored at the room temperature to observe its stability [25].…”

Section: Development Of Cip Loaded Polymeric Sneddsmentioning

confidence: 99%

A Hyaluronic Acid Functionalized Self-Nano-Emulsifying Drug Delivery System (SNEDDS) for Enhancement in Ciprofloxacin Targeted Delivery against Intracellular Infection

et al. 2021

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Ciprofloxacin (CIP), a potent anti-bacterial agent of the fluroquinolone family, shows poor solubility and permeability, thus leading to the development of intracellular pathogens induced multi-drug resistance and biofilms formation. To synergistically improve the biopharmaceutical parameters of CIP, a hyaluronic acid (FDA approved biocompatible polymer) functionalized self-nano emulsifying drug delivery system (HA-CIP-SNEDDS) was designed in the present study. SNEDDS formulations were tested via solubility, droplet size, zeta potential, a polydispersity index, thermodynamic stability, surface morphology, solid-state characterization, drug loading/release, cellular uptake, and biocompatibility. The final (HA-CIP-SNEDDS) formulation exhibited a mean droplet size of 50 nm with the 0.3 poly dispersity index and negative zeta potential (−11.4 mV). HA-based SNEDDS containing CIP showed an improved ability to permeate goat intestinal mucus. After 4 h, CIP-SNEDDS showed a 2-fold and HA-CIP-SNEDDS showed a 4-fold permeation enhancement as compared to the free CIP. Moreover, 80% drug release of HA-CIP-SNEDDS was demonstrated to be superior and sustained for 72 h in comparison to free CIP. However, anti-biofilm activity of HA-CIP-SNEDDS against Salmonella typhi was higher than CIP-SNEDDS and free CIP. HA-CIP-SNEDDS exhibited increased biocompatibility and improved oral pharmacokinetics as compared to free CIP. Taken together, HA-CIP-SNEDDS formulation seems to be a promising agent against Salmonella typhi with a strong targeting potential.

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“…Generally, conventional dosage forms/delivery systems are commonly known to utilize high drug doses, most of which is often excreted without exerting any preferred biological activity except for undesired adverse reactions. Hence, scientific advancements continually detail the concept of polymer-based, modified drug delivery approaches that function as facilitators for timed release and site-specific administration, favouring therapeutic performance and patient convenience, not frequently offered by conventional medicines [1][2][3][4]. Drug delivery encompasses the use of novel technologies suitable for presenting bioactive molecules to preferred in vivo administration sites to facilitate absorption or transport across biological membranes, bioavailability and pharmacological efficacy [1,5].…”

Section: Introductionmentioning

confidence: 99%

“…Consequently, improving the safety and pharmacological performance of conventional medicines/dosage form by reformulating them into improve delivery systems are often quicker, cheaper and well-known to aid anticipated treatment outcomes [6]. This led to the invention of novel drug carriers that are capable of facilitating modified release, absorption, bioavailability, distribution, metabolism and elimination with the end goal of optimizing effectiveness, patient adherence and safety [1,4,[6][7][8][9].…”

Section: Introductionmentioning

confidence: 99%

In vitro characterization of a synthetic polyamide-based erodible compact disc for extended drug release

Adeleke

2020

SN Appl. Sci.

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Formulation and evaluation of hyaluronic acid-based mucoadhesive self nanoemulsifying drug delivery system (SNEDDS) of tamoxifen for targeting breast cancer

Cited by 66 publications

References 33 publications

Papain decorated multi‐functional polymeric micelles for the targeted intracellular delivery of paclitaxel

Papain decorated multi‐functional polymeric micelles for the targeted intracellular delivery of paclitaxel

A Hyaluronic Acid Functionalized Self-Nano-Emulsifying Drug Delivery System (SNEDDS) for Enhancement in Ciprofloxacin Targeted Delivery against Intracellular Infection

In vitro characterization of a synthetic polyamide-based erodible compact disc for extended drug release

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