Evaluation of carvedilol-loaded Eudragit® nanoparticles

Güven, Umay Merve; Öztürk, A. Alper; Yenilmez, Evrim

doi:10.35333/jrp.2020.116

Cited by 5 publications

(4 citation statements)

References 33 publications

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“…In addition, TER was released from the coated formulas in a controlled manner, taking around 24 h to complete. The controllable release of TER might be attributable to the presence of the second layer of Eud RL-100, which demonstrated a sustained release of TER with no burst effect [ 40 ]. The hydrophobic property of the Eud RL-100 coat minimized the water penetration into the matrix, delaying the TER release process where the molecules diffused through the polymer coating and were then released slowly into the dissolving medium [ 41 ].…”

Section: Resultsmentioning

confidence: 99%

The Exploitation of pH-Responsive Eudragit-Coated Mesoporous Silica Nanostructures in the Repurposing of Terbinafine Hydrochloride for Targeted Colon Cancer Inhibition: Design Optimization, In Vitro Characterization, and Cytotoxicity Assessment

Alyami,

Musallam,

Ibrahim

et al. 2023

Pharmaceutics

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Targeted drug delivery is achieving great success in cancer therapy due to its potential to deliver drugs directly to the action site. Terbinafine hydrochloride (TER) is a broad-spectrum anti-fungal drug that has been found to have some potential anti-tumor effects in the treatment of colon cancer. We aimed here to design and develop pH-sensitive Eudragit (Eud)-coated mesoporous silica nanostructures (MSNs) to control drug release in response to changes in pH. The diffusion-supported loading (DiSupLo) technique was applied for loading TER into the MSNs. The formulation was optimized by a D-optimal design, which permits the concurrent assessment of the influence of drug/MSN%, coat concentration, and MSN type on the drug entrapment efficiency (EE) and its release performance. The optimal formula displayed a high EE of 96.49%, minimizing the release in pH 1.2 to 16.15% and maximizing the release in pH 7.4 to 78.09%. The cytotoxicity of the optimal formula on the colon cancer cells HT-29 was higher than it was with TER alone by 2.8-fold. Apoptosis in cancer cells exposed to the optimum formula was boosted as compared to what it was with the plain TER by 1.2-fold and it was more efficient in arresting cells during the G0/G1 and S stages of the cell cycle. Accordingly, the repurposing of TER utilizing Eud/MSNs is a promising technique for targeted colon cancer therapy.

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Section: Resultsmentioning

confidence: 99%

The Exploitation of pH-Responsive Eudragit-Coated Mesoporous Silica Nanostructures in the Repurposing of Terbinafine Hydrochloride for Targeted Colon Cancer Inhibition: Design Optimization, In Vitro Characterization, and Cytotoxicity Assessment

Alyami,

Musallam,

Ibrahim

et al. 2023

Pharmaceutics

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“…The results of gelation temperatures of all in situ gel formulation showed in table (4). The temperature of gel formation was observed between (28.6°C ± 0.51 and 34°C ± 0.6) for the batches (NG1 to NG6).…”

Section: Gelation Temperature and Gelation Time Of In Situ Nasal Gelsmentioning

confidence: 90%

“…A solution of 100 µg/mL of levetiracetam (LEV) in Phosphate Buffer Solution (PBS) (pH 6.4) was prepared as stock solution. Aliquots of 0.2, 0.4, 0.6, 0.8, 1, 1.2, 1.4, 1.6, 1.8, 2, 2.2, 2.4, 2.6 and 2.8 mL were separately put in a suitable measuring flask (10 mL) then diluted with PBS (pH 6.4) to produce a concentration of 2,4,6,8,10,12,14,16,18,20,22, 24, 26 and 28 µg/mL, respectively. The absorbance was measured spectrophotometrically at the predetermined λmax (210 nm) using PBS (pH 6.4) as a blank 13 .…”

Section: Establishment Of Standard Curvementioning

confidence: 99%

Brain Targeted Delivery of Levetiracetam Loaded Nanosphere

Hussein,

Ramadan,

eladawy

2023

Azhar International Journal of Pharmaceutical and Medical Scien

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Designing an effective intranasal (IN) delivery mechanism for the water-soluble anti-epileptic drug levetiracetam (LEV) for brain targeting effect was the main objective of this work. By using the nanoprecipitation process and the polymer Eudragit S100, nanospheres were prepared. Different weights of Eudragit S100 and varied concentrations of poloxamer 188 (stabilizer) were employed. The produced levetiracetam nanospheres exhibited sufficient entrapment efficiency range from 79.2% to 93.5%, with zeta potential values from 26.7 mV to 40.6 mV. The developed Nanospheres had spherical shape and nanosize range (10.44 to 79.07 nm). In situ gels prepared from Poloxamer 407 (18%) and different mucoadhesive polymers (sodium carboxymethylcellulose (Na CMC) and chitosan) were evaluated for gelling time, gelling temperature, pH and rheology. The nanosphere in situ gels were further evaluated for in vitro drug release and revealed 73.6% to 84.5% release within 8 hrs. The optimum in situ gel formula, based on rank of rheology and % release after 8 hrs, was evaluated for stability, and evaluated for ex-vivo permeation through nasal mucosa.

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“…RE is more accurate as it reflects both the rate and the extent of drug release. The slow release of the drug from the NPs is due to the strong ionic interaction between baclofen and ERL 30 . This explained why RE of formula B9 (6% ERL) was significantly (P<0.001) lower than both formulae B3 (2% ERL) and B6 (4%ERL).…”

Section: In-vitro Drug Release Studymentioning

confidence: 99%

Formulation and Evaluation of Baclofen Polymeric Nanoparticles for Transdermal Delivery In-vitro and Ex-vivo Optimization

Yussef¹,

Fayez

Sakran

2021

Journal of Advanced Pharmacy Research

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Objectives: Baclofen is a skeletal muscle relaxant with an anti-inflammatory effect. The current market products of baclofen are oral tablets and intrathecal injection which cause many undesirable systemic side effects. This study aimed to formulate topical formula of baclofen to decrease systemic side effects. Topical drug delivery systems formulated as nanoparticles (NPs) enhanced the low drug release and the low bioavailability of the traditional gels. This occurs by prolonging the contact time and increasing the permeability of the drug through the skin. Methods: In this study, formulae of the baclofen-loaded Eudragit ® RL100 (ERL) NPs were prepared by nanoprecipitation method. Polyvinyl alcohol (PVA) was added as a stabilizer. The NPs were characterized by measuring their particle size, polydispersity index (PDI), zeta potential, and entrapment efficiency percent (EE %) values. Their spherical morphology was confirmed using transmission electron microscopy (TEM). Viscosity was also measured. In vitro release and permeation studies were done to evaluate the release of the drug from the NPs gel and the permeability of the drug through the skin. The results were compared with formulated baclofen traditional gel. Results: ERL concentration and organic phase ratio were the main factors affecting the NPs formulation. A decrease in the particle size was observed with an increase in ERL% while the smallest particle size was observed with formulae containing organic phase (acetone: methanol) in the ratio of 1: 3. The highest EE% was observed with the highest ERL concentration and the same organic phase ratio (acetone: methanol 1:3). Formulae B3, B6, B9 were selected for their most promising results. Their particle size was 187.4 ±2. 81, 126.3 ±1.47, 120.0 ±1.06 nm and their EE% was 78.9 ±0.30, 83.3 ±0.26, and 86.6 ±1.12, respectively. The percentages of the drug released from the selected formulae as well as the percentage of the permeated drug were significantly higher than that of the baclofen traditional gel. Conclusion: ERL NPs were capable of releasing baclofen and improving its permeability through the skin so it may be considered as a suitable promising alternative drug delivery system.

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Evaluation of carvedilol-loaded Eudragit® nanoparticles

Cited by 5 publications

References 33 publications

The Exploitation of pH-Responsive Eudragit-Coated Mesoporous Silica Nanostructures in the Repurposing of Terbinafine Hydrochloride for Targeted Colon Cancer Inhibition: Design Optimization, In Vitro Characterization, and Cytotoxicity Assessment

The Exploitation of pH-Responsive Eudragit-Coated Mesoporous Silica Nanostructures in the Repurposing of Terbinafine Hydrochloride for Targeted Colon Cancer Inhibition: Design Optimization, In Vitro Characterization, and Cytotoxicity Assessment

Brain Targeted Delivery of Levetiracetam Loaded Nanosphere

Formulation and Evaluation of Baclofen Polymeric Nanoparticles for Transdermal Delivery In-vitro and Ex-vivo Optimization

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