RESUMEN
Raloxifene (RLX) is a second-generation selective estrogen receptor modulator approved for the prevention of invasive breast cancer in women. Oral therapy of RLX requires daily intake and is associated with side effects that may lead to low adherence. We developed a weekly transdermal delivery system (TDS) for the sustained delivery of RLX to enhance the therapeutic effectiveness, increase adherence, and reduce side effects. We evaluated the weekly transdermal administration of RLX using passive permeation, chemical enhancers, physical enhancement techniques, and matrix- and reservoir-type systems, including polymeric gels. In vitro permeation studies were conducted using vertical Franz diffusion cells across dermatomed human skin or human epidermis. Oleic acid was selected as a chemical enhancer based on yielding the highest drug delivery amongst the various enhancers screened and was incorporated in the formulation of TDSs and polymeric gels. Based on in vitro results, both Eudragit- and colloidal silicon dioxide-based transdermal gels of RLX exceeded the target flux of 24 µg/cm2/day for 7 days. An infinite dose of these gels delivered 326.23 ± 107.58 µg/ cm2 and 498.81 ± 14.26 µg/ cm2 of RLX in 7 days, respectively, successfully exceeding the required target flux. These in vitro results confirm the potential of reservoir-based polymeric gels as a TDS for the weekly administration of RLX.
RESUMEN
Psoriasis and atopic dermatitis (eczema) are both common immune-mediated inflammatory skin diseases associated with changes in skin's stratum corneum lipid structure and barrier functionality. The present study aimed to investigate healthy, eczematous, and psoriatic excised human tissue for the effect of non-infectious skin diseases on skin characteristics (surface color, pH, transepidermal water loss, electrical resistance, and histology), as well as on permeation and retention profile of hydrocortisone. Further, differences in percutaneous absorption on application of iontophoresis on healthy and diseased skin were also investigated. Measurements of transepidermal water loss and electrical resistance showed a significant difference in psoriasis skin samples indicating a damaged barrier function. In vitro permeation studies on full-thickness human skin using vertical diffusion cells further confirmed these results as the drug amount retained in the psoriatic tissue was significantly higher when compared with the other groups. Despite no significant difference, the presence of the drug in the receptor chamber in both diseased groups can be concerning as it suggests the increased possibility of systemic absorption and adverse reactions associated with it in the use of topical corticosteroids. Application of anodal iontophoresis resulted in greater distribution of hydrocortisone into deeper layers of skin and the receptor chamber, in comparison to passive permeation. However, no significant differences were observed due to the healthy or diseased condition of skin.
Asunto(s)
Eccema , Hidrocortisona , Administración Cutánea , Humanos , Iontoforesis/métodos , PielRESUMEN
Suspension-based matrix transdermal delivery systems (TDSs) are specialized systems that maintain a continuous driving force for drug delivery over prolonged wear. The pressure-sensitive adhesive (PSA) is the most critical constituent of such systems. Our study aimed to determine the effect of different mixing methods on the performance of silicone PSA-based suspension TDSs. Lidocaine suspension TDSs were prepared using conventional slow rotary mixing, high-speed homogenization, bead-mill homogenization, vortex shaking, and by an unguator. Resultant TDSs were tested for tack, shear, and peel properties and correlated to coat weight, content uniformity, microstructure, and in vitro permeation across dermatomed human skin. Every mixing method tested caused a significant reduction in peel. However, bead-mill homogenization resulted in significant loss of all adhesive properties tested, while unguator-mixed TDSs retained most properties. Good linear correlation (R2 = 1.000) between the shear properties of the TDSs with the average cumulative amount of lidocaine permeated after 24 h was observed, with no significant difference between percutaneous delivery from slow rotary-mixed systems (1334 ± 59.21 µg/cm2) and unguator-mixed systems (1147 ± 108.3 µg/cm2). However, significantly lower delivery from bead-mill homogenized systems (821.1 ± 28.00 µg/cm2) was noted. While many factors affect TDS performance, careful consideration must also be given to the processing parameters during development as they have been shown to affect the resultant system's therapeutic efficacy. Extensive mixing with bead-mill homogenization demonstrated crystallization of drug, loss in adhesive properties, coat weight, and film thickness, with reduced transdermal delivery of lidocaine from the prepared system.
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Adhesivos/administración & dosificación , Adhesivos/síntesis química , Sistemas de Liberación de Medicamentos/métodos , Absorción Cutánea/efectos de los fármacos , Parche Transdérmico , Adhesivos/farmacocinética , Administración Cutánea , Anestésicos Locales/administración & dosificación , Anestésicos Locales/síntesis química , Anestésicos Locales/farmacocinética , Humanos , Lidocaína/administración & dosificación , Lidocaína/síntesis química , Lidocaína/farmacocinética , Aceite Mineral/administración & dosificación , Aceite Mineral/síntesis química , Aceite Mineral/farmacocinética , Técnicas de Cultivo de Órganos , Siliconas/metabolismo , Siliconas/farmacología , Absorción Cutánea/fisiología , SuspensionesRESUMEN
For the first time in over three decades, the year 2019 saw the approval of two new classes of antidepressants: Spravato™ esketamine intranasal spray for treatment-resistant depression, and Zulresso® brexanolone infusion against post-partum depression. Although both therapies were granted "breakthrough" designations, topical application of both drugs could offer several advantages over their current routes of administration. However, delivery of their high therapeutic doses (0.5 mg/kg ketamine in 1 h; 90 µg/kg/h brexanolone over 52 h) is unachievable by conventional means. We evaluated physical enhancement techniques such as iontophoresis, microneedle-treatment, and ablative laser for the rapid delivery of ketamine. Additionally, the sustained delivery of brexanolone across microporated skin employing chemical enhancers and novel microemulsions was also accomplished. The target therapeutic flux of ketamine after skin pre-treatment with laser (534.51 ± 146.93 µg/cm2), and the application of anodal iontophoresis (681.93 ± 74.35 µg/cm2) on ablated skin, was observed within one hour. Microporation of skin using laser was more effective than microneedles, for the delivery of ketamine as well as brexanolone. The developed microemulsions resulted in significantly higher transdermal delivery across laser-treated skin. Although brexanolone demonstrated higher solubility in the w/o microemulsion (21.31 ± 0.14 mg/mL) than the o/w microemulsion (10.69 ± 0.09 mg/mL), percutaneous absorption from the o/w microemulsion (6.04 ± 0.16%) was significantly higher than the w/o microemulsion (1.92 ± 0.02%).
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Depresión Posparto , Administración Cutánea , Depresión Posparto/metabolismo , Sistemas de Liberación de Medicamentos , Emulsiones/metabolismo , Femenino , Humanos , Iontoforesis , Piel/metabolismo , Absorción CutáneaRESUMEN
Although used widely in cosmetic formulations, topical delivery of niacinamide (LogP = -0.35) is unfavorable by conventional means. Poly(lactide-co-glycolide) (PLGA) formulations, can undergo a sol-gel transition triggered by solvent exchange, entrapping molecules and sustaining their release. The current study aims to exploit the ability of PLGA to gel in situ and enhance the topical delivery of niacinamide in microporated skin. In vitro drug permeation studies were performed using vertical Franz diffusion cells. Microporation was performed using Dr. PenTM Ultima A6, where pre-treatment with a 1 mm needle-length for 10 s and a 0.5 mm needle-length for 5 s, both at 13,000 insertions/min were compared. The effect of different grades of PLGA, EXPANSORB® DLG 50-2A ("low" molecular weight), and EXPANSORB® DLG 50-8A ("high" molecular weight) on topical delivery was also determined. Formulations containing PLGA resulted in successful gelation in situ on application over microporated skin. A significantly higher amount of drug was found in the skin with the 0.5 mm treatment for 5 s (892 ± 36 µg/cm2) than with 1 mm for 10 s (167 ± 16 µg/cm2). Hence, the different grades of PLGA were evaluated with 0.5 mm, 5 s treatment, and a significantly larger amount was seen in skin with the higher rather than the lower molecular weight polymer (172 ± 53 µg/cm2).
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3-Fluoroamphetamine (also called PAL-353) is a synthetic amphetamine analog that has been investigated for cocaine use disorder (CUD), yet no studies have characterized its pharmacokinetics (PK). In the present study, we determined the PK of PAL-353 in male Sprague Dawley rats following intravenous bolus injection (5 mg/kg). Plasma samples were analyzed using a novel bioanalytical method that coupled liquid-liquid extraction and LC-MS/MS. The primary PK parameters determined by WinNonlin were a C0 (ng/mL) of 1412.09 ± 196.12 and a plasma half-life of 2.27 ± 0.67 h. As transdermal delivery may be an optimal approach to delivering PAL-353 for CUD, we assessed its PK profile following application of 50 mg of transdermal gel (10% w/w drug over 5 cm2). The 10% w/w gel resulted in a short lag time, sustained delivery, and a rapid clearance in plasma immediately after removal. The rodent PK data were verified by examining in vitro permeation through human epidermis mounted on Franz diffusion cells. An in vitro-in vivo correlation (IVIVC) analysis was performed using the Phoenix IVIVC toolkit to assess the predictive relationship between rodent and human skin absorption/permeation. The in vitro permeation study revealed a dose-proportional cumulative and steady-state flux with ~ 70% of drug permeated. The fraction absorbed in vivo and fraction permeated in vitro showed a linear relationship. In conclusion, we have characterized the PK profile of PAL-353, demonstrated that it has favorable PK properties for transdermal administration for CUD, and provided preliminary evidence of the capacity of rodent data to predict human skin flux.
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Anfetaminas/administración & dosificación , Anfetaminas/farmacocinética , Epidermis/química , Plasma/química , Administración Cutánea , Administración Intravenosa , Anfetaminas/química , Animales , Cromatografía Liquida , Semivida , Humanos , Masculino , Ratas , Ratas Sprague-Dawley , Absorción Cutánea , Espectrometría de Masas en TándemRESUMEN
This study investigated the in vitro transdermal delivery of magnesium ascorbyl phosphate (MAP) through porcine ear skin treated with hyaluronic acid (HA) microneedles (MNs). In this study, the micro-molding method was used to fabricate HA MNs. HA solution (10% w/v) containing 3% of MAP was placed onto a poly(dimethyl siloxane) mold to fill the microchannels under vacuum followed by drying in a desiccator. Scanning electron microscopy was performed to record the dimensions of the MNs. Skin microporation was demonstrated by dye binding. Histological skin sections revealed the shape of microchannels under hematoxylin-eosin staining. The actual depth of the microchannels and drug distribution pathways were studied by confocal microscopy. In vitro permeation on Franz diffusion cells were performed to determine the rate and extent of drug delivery into and across the skin. SEM captured individual MNs from the array, and the length of each MN was found to be ~400 µm. The 10 × 10 MN array prepared, resulted in the formation of 95 to 100 microchannels after 2 mins of treatment. In addition, the histological evaluations showed the formation of microchannels in the skin, complementary in shape to the MNs. The depths of the formed microchannels amounted to ~125 µm as determined by confocal microscopy. The application of the current MN technology enhanced the delivery of MAP into skin (96.8 ± 3.9 µg/cm2) compared to the passive delivery strategy of MAP (44.9 ± 16.3 µg/cm2). HA MNs markedly enhanced the in vitro transdermal delivery of MAP into and across skin.
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Ácido Ascórbico/análogos & derivados , Sistemas de Liberación de Medicamentos/instrumentación , Ácido Hialurónico , Agujas , Animales , Ácido Ascórbico/administración & dosificación , Diseño de Equipo , PorcinosRESUMEN
Phenmetrazine, a selective dopamine and norepinephrine releaser, previously available as an oral anorectic, is prone to be abused. This study aimed to assess the feasibility of delivering phenmetrazine via the transdermal route for a new indication, while also minimizing its abuse potential. The passive permeation of phenmetrazine through dermatomed human cadaver skin was evaluated using static Franz diffusion cells at 10 mg/mL for the fumarate salt, and at 20, 40, and 80 mg/mL for the free base in propylene glycol for 24 h. Further, oleic acid (5% w/w), oleyl alcohol (5% and 10% w/w), and lauric acid (10% w/w) were investigated as chemical permeation enhancers to enhance the delivery. Skin irritation potential was assessed using EpiDerm™ in vitro reconstructed human epidermal model. The free base showed superior 24-h delivery (8.13 ± 4.07%, 10.6 ± 2.5%, and 10.4 ± 1.4% for groups with 20, 40, and 80 mg/mL of the free base, respectively) to phenmetrazine fumarate salt (undetectable). The successful screening of effective chemical enhancers, oleyl alcohol (5% and 10% w/w), oleic acid (5% w/w), and lauric acid (10% w/w) resulted in significant enhancement of delivery. The calculated therapeutic relevant flux for the potential indication, attention deficit hyperactivity disorder, 20 µg/cm2/h was met, where a 24-mg daily dose from a 50-cm2 patch was projected to be delivered to a 60-kg individual. Irritation study results suggest that formulations with therapeutically relevant delivery are likely to be non-irritant. In conclusion, it is feasible to deliver therapeutically relevant amounts of phenmetrazine via the transdermal route.
Asunto(s)
Depresores del Apetito/farmacocinética , Dermatitis Irritante/etiología , Fenmetrazina/farmacocinética , Piel/metabolismo , Administración Cutánea , Depresores del Apetito/administración & dosificación , Depresores del Apetito/toxicidad , Dermatitis Irritante/metabolismo , Composición de Medicamentos , Reposicionamiento de Medicamentos , Estudios de Factibilidad , Humanos , Técnicas In Vitro , Fenmetrazina/administración & dosificación , Fenmetrazina/toxicidad , Piel/efectos de los fármacos , Absorción Cutánea , Pruebas de Irritación de la PielRESUMEN
Tenofovir alafenamide (TAF) is an effective nucleotide reverse transcriptase inhibitor that is used in the treatment of HIV-1 and HBV. Currently, it is being investigated for HIV prophylaxis. Oral TAF regimens require daily intake, which hampers adherence and increases the possibility of viral resistance. Long-acting formulations would significantly reduce this problem. Therefore, the aim of this study was to develop a transdermal patch containing TAF and investigate its performance in vitro through human epidermis. Two types of TAF patches were manufactured. Transparent patches were prepared using acrylate adhesive (DURO-TAK 87-2516), and suspension patches were prepared using silicone (BIO-PSA 7-4301) and polyisobutylene (DURO-TAK 87-6908) adhesives. In vitro permeation studies were performed while using vertical Franz diffusion cells for seven days. An optimized silicone-based patch was characterized for its adhesive properties and tested for skin irritation. The acrylate-based patches, comprising 2% w/w TAF and a combination of chemical enhancers, showed a maximum flux of 0.60 ± 0.09 µg/cm²/h. However, the silicone-based patch comprising of 15% w/w TAF showed the highest permeation (7.24 ± 0.47 µg/cm²/h). This study demonstrates the feasibility of developing silicone-based transdermal patches that can deliver a therapeutically relevant dose of TAF for the control of HIV and HBV infections.
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The objective of our study was to develop a transdermal patch of 4-benzylpiperidine and to evaluate its in vitro transdermal permeation profile. Appropriate pressure sensitive adhesives and additives were selected based on solubility and slide crystallization studies. Release liners and backing membranes were selected based on their ability to peel without leaving a residue and their affinity to formulation respectively. Drug-in-adhesive patches developed were investigate for their in vitro drug permeation over 48â¯h across dermatomed human skin using Franz diffusion cells. Silicone based pressure sensitive adhesive along with colloidal silicon dioxide as viscosity builder, fluoropolymer coated membranes as the release liner and polyester based membranes as backing were chosen to develop a drug in silicone adhesive patch. Polyisobutylene adhesive based patch was developed with drug in polyisobutylene adhesive, along with oleic acid and oleyl alcohol as permeation enhancers, polyester for the release liner and polyethylene as backing. Among the patches developed, polyisobutylene adhesive based patch with higher drug concentration exhibited superior transdermal permeation (1608.5⯱â¯53.4⯵g/cm2 over 48â¯h). The final patch was further tested for uniformity in coat weight, shear strength, tack and peel adhesion.
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Membranas Artificiales , Piperidinas/administración & dosificación , Piperidinas/química , Polímeros , Parche Transdérmico , Adhesivos/química , Administración Cutánea , Humanos , Polienos , Siliconas , Piel/metabolismoRESUMEN
This study aimed to qualitatively and quantitatively analyze lateral diffusion of drugs in dermatomed human skin. Lateral diffusion of calcein and methylene blue dyes in skin was investigated using confocal laser microscopy, calcein imaging, and histology studies. In in vitro permeation studies, two linear microdialysis probes were inserted into the dermis of untreated, poly lacto-glycolic acid microneedle-treated, and ablative laser-treated skin such that one was in the center of the diffusion area and the other was parallel, at 8â¯mm from the central probe. Skin was mounted on Franz cells, sandwiched between donor containing diclofenac sodium solution and receptor containing phosphate buffered saline, pH 7.4. Qualitative techniques revealed faster lateral diffusion of the dyes in microneedle-treated skin than laser-treated skin. Rate of drug diffusion in the central probe in the microneedle-treated skin (11.8⯱â¯2.5⯵g/h) was significantly higher than untreated and laser-treated skin (pâ¯â¯<â¯â¯0.05). Rate of lateral diffusion in untreated group (0.7⯱â¯0.1⯵g/h) was significantly lower than microneedle and laser-treated skin (pâ¯â¯<â¯â¯0.05). Overall, in vitro microdialysis was demonstrated as a novel and valuable tool that can be employed for quantitative investigation of rate of vertical and lateral diffusion of drugs in intact and microporated skin.