Nanocarriers for optimizing the balance between interfollicular permeation and follicular uptake of topically applied clobetasol to minimize adverse effects

Mathes, Christiane; Melero, Ana; Conrad, Peter; Vogt, Thomas; Rigo, Lucas Almeida; Selzer, Dominik; Prado, Willian Andrade; Rossi, Chiara; Garrigues, Teresa María; Hansen, Steffi; Guterres, Sílvia Stanisçuaski; Pohlmann, Adriana Raffin; Beck, Ruy Carlos Ruver; Lehr, Claus‐Michael; Schaefer, Ulrich F.

doi:10.1016/j.jconrel.2015.12.010

Cited by 64 publications

(42 citation statements)

References 44 publications

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“…In this case, the negative zeta potential value is close to zero as a consequence of the chemical composition (polyester coated by polysorbate 80), in which stabilization mechanism is based on the steric hindrance effect. 13,34 The reproducibility of size distribution batch-to-batch shows that the formulation is kinetically stable, ie, the system has a delayed aggregation phase separation. The PCL used in the nanocapsule formulation has -COOH end groups, which can present an acidbase balance forming carboxylates, rendering the surface negatively charged.…”

Section: Resultsmentioning

confidence: 99%

“…The core chemical composition allows these nanocapsules to control drug penetration in different tissues. 13 A variety of nanosystems such as nanostructured lipid carriers, nanosuspensions and nanocrystals have been studied with Hst, 15,23,24 but the current study proposes the encapsulation of Hst in LNCs.…”

mentioning

confidence: 95%

“…7 To solve this limitation, a large number of studies have been published describing new delivery systems such as inclusion complexes with cyclodextrins [8][9][10][11] and nanoparticles. 7,[12][13][14][15] Nanoparticle systems have been considered promising carriers of therapeutic drugs, and the application of these particles as carriers of natural compounds has been extensively studied over the past few years. 16 One of the main challenges in relation to chronic diseases is patient adherence to prescribed treatments.…”

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confidence: 99%

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Hesperetin-loaded lipid-core nanocapsules in polyamide: a new textile formulation for topical drug delivery

Menezes

Frank

Lima

et al. 2017

IJN

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Chronic venous insufficiency is characterized by chronic reflux disorder of blood from the peripheral to the central vein, with subsequent venous hypertension and resulting changes in the skin. Traditionally, nonsurgical treatments relied on the use of compression therapy, and more recently a variety of flavonoids have been shown to have positive effects. There have also been developments of more effective drug delivery systems using various textiles and nanotechnology to provide new therapeutic options. Our objective was to use nanotechnology to develop a new formulation containing hesperetin (Hst), a substance not previously used in the treatment of chronic venous insufficiency, impregnated into textile fibers as a possible alternative treatment of venous diseases. We prepared the nanocapsules using the interfacial deposition of preformed polymer method with an Hst concentration of 0.5 mg/mL and then characterized the size and distribution of particles. To quantify the Hst in the samples, we developed an analytical method using high-performance liquid chromatography. Studies of encapsulation efficiency (98.81%±0.28%), microscopy, drug release (free-Hst: 104.96%±12.83%; lipid-core nanocapsule-Hst: 69.90%±1.33%), penetration/permeation, drug content (0.46±0.01 mg/mL) and the effect of washing the textile after drug impregnation were performed as part of the study. The results showed that nanoparticles of a suitable size and distribution with controlled release of the drug and penetration/permeation into the skin layers were achieved. Furthermore, it was established that polyamide was able to hold more of the drug, with a 2.54 times higher content than the cotton fiber; after one wash and after five washes, this relation was 2.80 times higher. In conclusion, this is a promising therapeutic alternative to be further studied in clinical trials.

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Section: Resultsmentioning

confidence: 99%

mentioning

confidence: 95%

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confidence: 99%

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Hesperetin-loaded lipid-core nanocapsules in polyamide: a new textile formulation for topical drug delivery

Menezes

Frank

Lima

et al. 2017

IJN

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“…22,[24][25][26][27][28][29][30] These nanocarriers facilitate drug delivery to structural features of the skin, such as hair follicles, or interact with skin lipids to mediate transportation and create a drug depot in the skin for sustained release. 31,32 Moreover, cationic nanoparticles have shown advantages of enhancing drug permeation over neutral or negatively charged nanoparticles as drug nanocarriers; significant progress has been made in cationic nanoparticles for drug delivery. 33,34 In the present study, chitosan nanoparticles (CS-NPs) were used as the carrier of FK506 for percutaneous delivery.…”

Section: Introductionmentioning

confidence: 99%

“…2) NPs with diameter more than 10 nm are unlikely to penetrate through the SC into viable human skin but tend to accumulate in hair follicle openings and furrows, resulting in the formation of a drug depot on the skin surface for sustained release and permeation in the skin without damaging the natural barrier of the skin. 31,[53][54][55][56] Moreover, CS works as a permeation enhancer due to its positive charges and mucoadhesive properties. Consequently, the FK506-NIC-CS-NPs system exploited both virtues of NIC and NPs to obtain synergetic effects on FK506 percutaneous delivery.…”

mentioning

confidence: 99%

Tacrolimus nanoparticles based on chitosan combined with nicotinamide: enhancing percutaneous delivery and treatment efficacy for atopic dermatitis and reducing dose

Yu¹,

Wang²,

Wan³

et al. 2017

IJN

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Background Topical application of tacrolimus (FK506) was effective in the treatment of atopic dermatitis (AD); however, adverse effects frequently occurred with the increase of FK506 dose during long–term treatment. Objective The objective of this project was to develop a hybrid skin targeting system encapsulating FK506 based on nicotinamide (NIC) and chitosan nanoparticles (CS–NPs), ie, FK506–NIC–CS–NPs, which took advantages of both of NIC and CS–NPs to obtain the synergetic effects of percutaneous delivery and treatment efficacy enhancement along with dose reduction. Methods The formulation of FK506–NIC–CS–NPs was optimized and characterized. In vitro and in vivo skin permeation studies were performed. AD–like skin lesions were constructed with BALB/c mice by 1–chloro–2, 4–dinitrobenzene (DNCB)–induced, and FK506–NIC–CS–NPs containing different dose of FK506 were topically administered to treat AD–like skin lesions in comparison with Protopic. Results NIC was found to significantly increase the FK506 EE to 92.2% by CS–NPs. In comparison with commercial FK506 ointment (Protopic), in vitro and in vivo skin permeation studies demonstrated that NIC–CS–NPs system significantly enhanced FK506 permeation through and into the skin, and deposited more FK506 into the skin. The treatment efficacy on clinical symptoms, histological analysis, and molecular biology of the AD–mice demonstrated that NIC–CS–NPs with ~1/3 dose of FK506 of Protopic was superior to that of Protopic, and NIC–CS–NPs vehicle exhibited the adjuvant therapy and moderate anti–AD effects. Conclusion The system of NIC–CS–NPs enhances the permeability of FK506, plays an adjuvant role in anti-AD, reduces the dose of FK506 in treating AD, and is therefore a promising nanoscale system of FK506 for the effective treatment of AD.

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Overcoming the Translational Gap – Nanotechnology in Dermal Drug Delivery

Zoschke¹,

Schäfer‐Korting²

2021

Fundamentals of Drug Delivery

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Nanocarriers for optimizing the balance between interfollicular permeation and follicular uptake of topically applied clobetasol to minimize adverse effects

Cited by 64 publications

References 44 publications

Hesperetin-loaded lipid-core nanocapsules in polyamide: a new textile formulation for topical drug delivery

Hesperetin-loaded lipid-core nanocapsules in polyamide: a new textile formulation for topical drug delivery

Tacrolimus nanoparticles based on chitosan combined with nicotinamide: enhancing percutaneous delivery and treatment efficacy for atopic dermatitis and reducing dose

Overcoming the Translational Gap – Nanotechnology in Dermal Drug Delivery

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