Psoriasis is an inflammatory skin disease that is intricately linked to oxidative stress.Antioxidation and inhibition of abnormal proliferation of keratinocytes are pivotal strategies for psoriasis.Delivering drugs wi...Psoriasis is an inflammatory skin disease that is intricately linked to oxidative stress.Antioxidation and inhibition of abnormal proliferation of keratinocytes are pivotal strategies for psoriasis.Delivering drugs with these effects to the site of skin lesions is a challenge that needs to be solved.Herein,we reported a nanotransdermal delivery system composed of all-trans retinoic acid(TRA),triphenylphosphine(TPP)-modified cerium oxide(CeO2)nanoparticles,flexible nanoliposomes and gels(TCeO_(2)-TRA-FNL-Gel).The results revealed that TCeO_(2)synthesized by the anti-micelle method,with a size of approximately 5 nm,possessed excellent mitochondrial targeting ability and valence conversion capability related to scavenging reactive oxygen species(ROS).TCeO_(2)-TRA-FNL prepared by the film dispersion method,with a size of approximately 70 nm,showed high drug encapsulation efficiency(>96%).TCeO_(2)-TRA-FNL-Gel further showed sustained drug release behaviors,great transdermal permeation ability,and greater skin retention than the free TRA.The results of in vitro EGF-induced and H2O2-induced models suggested that TCeO_(2)-TRA-FNL effectively reduced the level of inflammation and alleviated oxidative stress in HaCat cells.The results of in vivo imiquimod(IMQ)-induced model indicated that TCeO_(2)-TRA-FNL-Gel could greatly alleviate the psoriasis symptoms.In summary,the transdermal drug delivery system designed in this study has shown excellent therapeutic effects on psoriasis and is prospective for the safe and accurate therapy of psoriasis.展开更多
Microneedles(MNs)have been extensively investigated for transdermal delivery of large-sized drugs,including proteins,nucleic acids,and even extracellular vesicles(EVs).However,for their sufficient skin penetration,con...Microneedles(MNs)have been extensively investigated for transdermal delivery of large-sized drugs,including proteins,nucleic acids,and even extracellular vesicles(EVs).However,for their sufficient skin penetration,conventional MNs employ long needles(≥600μm),leading to pain and skin irritation.Moreover,it is critical to stably apply MNs against complex skin surfaces for uniform nanoscale drug delivery.Herein,a dually amplified transdermal patch(MN@EV/SC)is developed as the stem cell-derived EV delivery platform by hierarchically integrating an octopusinspired suction cup(SC)with short MNs(≤300μm).While leveraging the suction effect to induce nanoscale deformation of the stratum corneum,MN@EV/SC minimizes skin damage and enhances the adhesion of MNs,allowing EV to penetrate deeper into the dermis.When MNs of various lengths are applied to mouse skin,the short MNs can elicit comparable corticosterone release to chemical adhesives,whereas long MNs induce a prompt stress response.MN@EV/SC can achieve a remarkable penetration depth(290μm)for EV,compared to that of MN alone(111μm).Consequently,MN@EV/SC facilitates the revitalization of fibroblasts and enhances collagen synthesis in middle-aged mice.Overall,MN@EV/SC exhibits the potential for skin regeneration by modulating the dermal microenvironment and ensuring patient comfort.展开更多
Diabetes mellitus is a chronic disease in which there is an insufficient production of insulin by the pancreas, or the insulin produced is unable to be utilized effectively by the body. Diabetes affects more than 415 ...Diabetes mellitus is a chronic disease in which there is an insufficient production of insulin by the pancreas, or the insulin produced is unable to be utilized effectively by the body. Diabetes affects more than 415 million people globally and is estimated to strike about 642 million people in 2040. The WHO reported that diabetes will become the seventh biggest cause of mortality in 2030. Insulin injection and oral hypoglycemic agents remain the primary treatments in diabetes management. These often present with poor patient compliance. However, over the last decade, transdermal systems in diabetes management have gained increasing attention and emerged as a potential hope in diabetes management owing to the advantages that they offer as compared to invasive injection and oral dosage forms. This review presents the recent advances and developments in transdermal research to achieve better diabetes management. Different technologies and approaches have been explored and applied to the transdermal systems to optimize diabetes management. Studies have shown that these transdermal systems demonstrate higher bioavailability compared to oral administration due to the avoidance of first-pass hepatic metabolism and a sustained drug release pattern. Besides that, transdermal systems have the advantage of reducing dosing frequency as drugs are released at a predetermined rate and control blood glucose level over a prolonged time, contributing to better patient compliance. In summary, the transdermal system is a field worth exploring due to its significant advantages over oral route in administration of antidiabetic drugs and biosensing of blood glucose level to ensure better clinical outcomes in diabetes management.展开更多
Microemulsion systems, composed of water, isopropyl myristate (IPM), polyoxyethylene sorbitan trioleate (Tween 85 ), and ethanol, were investigated as transdermal drug delivery vehicles for a lipophilic model drug...Microemulsion systems, composed of water, isopropyl myristate (IPM), polyoxyethylene sorbitan trioleate (Tween 85 ), and ethanol, were investigated as transdermal drug delivery vehicles for a lipophilic model drug( meloxicam). The purpose of this study was to investigate the physicochemieal properties of the tested microemulsion and to find the correlation between the physicoehemical properties and the skin permeation rate of the microemulsion. Pseudo-ternary phase diagram of the investigated system at a constant surfactant/cosurfactant mass ratio ( Km = 1 : 1 ) was constructed by titration at 20℃, and the five fommlations were selected for further research in the o/w microemulsion domains. The values of electrical conductivity and viscosity showed that the selected systems were bicontinuous or non-spherical o/w microemulsion, and the electrical conductivity and viscosity were increased with increasing the content of water. These results suggest that the optimum formulation of microemulsion, containing 0. 375 meloxicam, 5% isopropyl myristate, 25% Tween 85. 25% ethanol, and water, showed the maximum permeation rate. It had a high electrical conductivity, small droplet size, and proper viscocity.展开更多
In order to solve the drawback of poor bioavailability by the oral route and infusion-related side effect for Amphotericin B(AmB), microemulsion vehicles composed of isopropyl myristate(IPM), Tween 80, isopropyl a...In order to solve the drawback of poor bioavailability by the oral route and infusion-related side effect for Amphotericin B(AmB), microemulsion vehicles composed of isopropyl myristate(IPM), Tween 80, isopropyl alcohol and water for transdermal delivery of AraB were designed. The pseudo-ternary phase diagrams were constructed by the H2O titration method and the structures of the microemulsion were determined by measuring electrical conductivities(σ). The diffusion studies of AmB microemulsion were performed via excised rabbit skin on a drug diffusion apparatus. To obtain a high solubization of AmB, three different methods were tested to incorporate AmB into microemulsion. The result suggests adding AmB in the shape of NaOH solution to the O/W blank microemulsion over the phase inversion temperature(PIT) of the emulsifier obtains the maximum drug content(2.96 mg/mL). The pH value of the system could be adjusted to pH〉8.5 or pH〈5.2, in this range AraB molecules converts from aqueous to the hydrophilic shell of the microemulsion droplets, drug precipitate is no more than 5%, and the formulations were corresponding to the characterizations of microemulsion. At pH 5.14, AmB microemulsion with Km 1:1, O/SC 1:9(mass ratio of oil phase to surfactant/cosurfactant blend), water content 64.6%, drug content (2.93±0.08) mg/mL, showed the maximum permeation rate (3.255 ±0.64) μg·cm^-2.h^-1 which is stable for a long time.展开更多
Objective:We evaluated the efficacy and safety of transdermal preparations of Sinomenium acutum(SA)for rheumatoid arthritis(RA).Methods:Randomized controlled trials(RCTs)of SA transdermal preparations for RA were extr...Objective:We evaluated the efficacy and safety of transdermal preparations of Sinomenium acutum(SA)for rheumatoid arthritis(RA).Methods:Randomized controlled trials(RCTs)of SA transdermal preparations for RA were extracted from relevant databases and screened in accordance with the inclusion criteria.The Cochrane System Evaluation Manual(version 5.1.0)was used to assess the quality of the included trials.We used the Cochrane Review Manager(version 5.4)to conduct the meta-analysis.Results:Six trials comprising 436 patients(220 patients in the treatment group and 216 patients in the control group)were analyzed.The meta-analysis indicated that SA transdermal preparations in combination with disease-modifying antirheumatic drugs(DMARDs)enhanced the overall effect(odds ratio[OR]3.97,95%confidence interval[CI][2.25,7.00],P<0.00001),decreased visual analogue scale(VAS)results(mean difference[MD]-0.64,95%CI[-1.20,-0.09],P=0.02),decreased laboratory indexes including the erythrocyte sedimentation rate(ESR)(MD-4.36,95%CI[-5.63,-3.08],P<0.00001)and C-reactive protein(CRP)(MD-3.6,95%CI[-3.99,-3.21,P<0.00001]),and decreased the Disease Activity Score-28(DAS28)(MD-0.41,95%CI[-0.78,-0.03],P=0.03).The results suggest that combination therapy did not shorten the duration of morning stiffness(DMS;standardized MD[SMD]-6.13,95%CI[-17.33,5.06],P=0.28)or reduce rheumatoid factor(RF)laboratory indexes(SMD-0.85;95%CI[-2.19,0.49],P=0.21).Only one study reported adverse reactions,and thus,it was difficult to determine whether adverse drug reactions in the combination therapy group were significantly different from those in the control group.Conclusion:We found that SA transdermal preparations combined with DMARDs may have greater clinical efficacy than DMARDs for RA.More well-designed and high-quality RCTs are required to verify the findings and determine whether transder-mal preparations cause fewer adverse events.展开更多
Objective: To report the influence of transdermal delivery of asiatic acid(AA) in Plasmodium berghei-infected Sprague Dawley rats on physicochemical changes, %parasitaemia and associated pathophysiology. Methods: A to...Objective: To report the influence of transdermal delivery of asiatic acid(AA) in Plasmodium berghei-infected Sprague Dawley rats on physicochemical changes, %parasitaemia and associated pathophysiology. Methods: A topical once-off AA(5, 10, and 20 mg/kg)- or chloroquine(CHQ)-pectin patch was applied on the shaven dorsal neck region of Plasmodium berghei-infected Sprague Dawley rats(90-120 g) on day 7 after infection. Eating and drinking habits, weight changes, malaria effects and %parasitaemia were compared among animal groups over 21 d. Results: AA-pectin patch application preserved food and water intake together with %weight gain. All animals developed stable parasitaemia(15%-20%) by day 7. AA doses suppressed parasitaemia significantly. AA 5 mg/kg patch was most effective. AA and CHQ displayed bimodal time-spaced peaks. CHQ patch had a longer time course to clear parasitaemia. Conclusions: AA influences bio-physicochemical changes and parasitaemia suppression in dose dependent manner. In comparison by dose administered, AA has much better efficacy than CHQ. AA may be a useful antimalarial. AA and CHQ displays bimodal peaks suggesting possible synergism if used in combination therapy.展开更多
The traditional Chinese medicine tripterygium glycosides(TPG)is used clinically to treat some Rheumatism,Eczema,immunosuppression and tumor,with the activities of hypnosis,antipyretic,analgesic,antiinflammatory,allerg...The traditional Chinese medicine tripterygium glycosides(TPG)is used clinically to treat some Rheumatism,Eczema,immunosuppression and tumor,with the activities of hypnosis,antipyretic,analgesic,antiinflammatory,allergy and antitumor.However TPG has low water solubility and low skin permeability,so its clinical use is limited.Transdermal delivery systems can provide a controlled drug release rate that can keep constant concentrations of drug in the plasma for up to multiple days,improved patient compliance,and the possibility ofreducing the rate and severity of side effects.In this study,a fast and sensitive technique skin-blood two sites synchronous microdialysis coupled with LC-MS was used to study the pharmacokinetic parameter of three different formulations(TPG nanoemulsion,TPG nanoemulsion based gels and TPG gel).Creating a multilayer model,use the model to simulate the three formulations dynamics in transdermal-drug delivery system.The experiment results showed that the TPG nanoemulsion,TPG nanoemulsion based gels can significantly raise the drug concentrations in skin more than that of TPG gels.The numerical simulation results indicating that TPG gel and TPG nanoemulsion are close to practical measurements,only in the concentration increase phase the numerical simulation result has some difference with the experimental results.TPG nanoemulsion based gels have significant difference with the experimental results,both in concentration increase stage and concentration decreasing stage,but its trend was same.The study shows that the skin-blood synchronous microdialysis technique provided a new method for the pharmacokinetics study of nanocarriers transdermal delivery systems.In addition,the microdialysis technique combined with mathematical modeling provides a very good platform for the further study of transdermal delivery system.展开更多
The effect of formulation variables on in-vitro release and permeation properties of carvedilol from transdermal patch was studied by varying one factor at a time as preliminary study.Based on these results,design of ...The effect of formulation variables on in-vitro release and permeation properties of carvedilol from transdermal patch was studied by varying one factor at a time as preliminary study.Based on these results,design of experiments technique was applied followed by regression analysis and response surface methodology to optimize formulation variables.Central Composite IV model design was used with four formulation variables:drug loading,matrix thickness,adhesive layer thickness,and propylene glycol concentration.Nineteen formulations were prepared according to the design;and the effect of formulation variables was studied on in-vitro release and permeation profiles of these formulations.In all cases,the permeation profiles paralleled in-vitro release profiles.The drug released at 7 h and 24 h was used as release response parameters while permeation flux obtained was employed as permeation response parameter.All four formulation variables were found to be significant for release properties and three of these exhibited significant effect on permeation profile of carvedilol across artificial membrane.Constrained optimization,using 47.9%of cumulative carvedilol released at 7 h and 99.8%at 24 h as well as 25.7 mg/cm2/h of permeation flux,was applied to obtain desired release and permeation profiles.Experimentally,carvedilol was observed to release from the optimized formulation with 51.4%drug release at 7 h and 98.5%at 24 h with an observed flux value of 27.4 mg/cm2/h across artificial membrane,which showed an excellent agreement with the predicted values.The results of this investigation show that the quadratic mathematical model developed could be used to further predict formulations with desirable release and permeation properties.展开更多
One key of constructing ideal transdermal drug delivery system(TDDS)is enhancing the percutaneous rate of drugs without sacrificing compatibility.Ethosomes(Eths)have excellent transdermal performance as well as good b...One key of constructing ideal transdermal drug delivery system(TDDS)is enhancing the percutaneous rate of drugs without sacrificing compatibility.Ethosomes(Eths)have excellent transdermal performance as well as good biocompatibility,and thus been widely used as drug carrier.Hydrogel has good 3-dimensional mesh structure which is convenience for drugs release and storage.In this study,Eths were introduced into silk fibroin(SF)/polyvinyl alcohol(PVA)composite hydrogel to construct a novel TDDS through a green process.The Ethsomes(Eths)-SF/PVA composite hydrogel TDDS showed good mechanical properties(stress:(0.236±0.032)MPa;strain:(65.74±2.45)%).Also,skin fibroblasts can grow and proliferate well on this TDDS,indicating that this material has a good cytocompatibility.Furthermore,with doxorubicin hydrochloride(Dox)as a model drug loaded in ethosomes,in vitro studies showed that this TDDS was able to transdermally release Dox efficiently.Our data suggested this novel system had a good potential for application in TDD,though further evaluative study still needed to carry out.展开更多
Budesonide is a highly potent synthetic, nonhalogenated corticosteroid. The mechanism of action of corticosteroids in allergic rhinitis remains unknown, but may involve reductions in number of various mediator cells s...Budesonide is a highly potent synthetic, nonhalogenated corticosteroid. The mechanism of action of corticosteroids in allergic rhinitis remains unknown, but may involve reductions in number of various mediator cells such as basophils, eosinophils, T-helper cells, mast cells, and neutrophils. In the nasal mucosa, nasal reactivity to allergens, and release of inflammatory mediators and proteolytic enzymes. Budesonide is very effective and quikly acting as it is rapidly and almost completely absorbed after oral administration, but has poor systemic availability (about 10%) due to extensive first-pass metabolism in the liver, mainly by the cytochrome P450 isoenzyme CYP3A4.. The major metabolites, 6-β- hydroxybudesonide and 16-α-hydroxyprednisolone have less than 1% of the glucocorticoid activity of unchanged drug with a terminal half-life of about 2 - 4 hours. Polymeric films containing Eudragit RL 100: Eudragit RS: drug (7:3:1, 7: 2:1) and Ethyl cellulose: PVP: drug (7:3:1, 7:2:1) were selected for transdermal administration based on evaluation studies. These polymeric films were prepared by mercury substrate method employing PEG-400 as plasticizer. Two different penetration enhancers Urea and Dimethyl sulphoxide (DMSO) were employed in the study. The patches in each group were uniform in drug content, thickness. In Vitro drug permeation, moisture absorption and WVTR studies were carried out on these test patches. It was found that at all humidity condition the absorption increases which were linear to the moisture absorbed. In PVA and EUDRAGIT RL 100 patches the water vapor transmission rate was found to be higher at 75% RH, RT conditions. Therefore at both % RH, RT condition the PVA and EUDRAGIT RL 100 patches provides the best resistance to water vapor. Therefore, when applied to animals (in further studies) these patches may provide more occlusion to water vapor loss from skin thus making atmosphere beneath the skin more humid that aid in drug permeation.展开更多
Transdermal drug delivery systems(TDDs)have the advantages on good local targeting,controlled and sustainable drug delivery.Hoewever,the stratum corneum,as the main skin barrier,severely limits the transdermal penetra...Transdermal drug delivery systems(TDDs)have the advantages on good local targeting,controlled and sustainable drug delivery.Hoewever,the stratum corneum,as the main skin barrier,severely limits the transdermal penetration of drugs and reduces bioavailability,which also limits their application.Microneedles(MNS)penetrate the stratum corneum and create several reversible microchannels in a minimally invasive manner to significantly improve the penetration of therapeutic agents,and are considered a milestone for effective transdermal drug delivery.As an emerging drug delivery modality,microneedle transdermal drug delivery systems have the advantages of being minimally invasive,safe,efficient,economical and convenient.In addition to the extensive research on microneedles for improving transdermal drug delivery,there is a growing interest in using them to manage and treat dermatological conditions.Being the largest organ in the human body,the skin acts as a barrier between the body and the external environment,while having an immense influence on appearance and self-confidence.Indeed,there is now a considerable body of evidence on how dermatological conditions can lead to psychological problems and a reduced quality of life.The utilisation of microneedle transdermal drug delivery systems for the management and treatment of dermatological conditions is of great therapeutic and commercial value.The principleof microneedle transdermal drug delivery systems and the progress of its clinical application in dermatology are reviewed here.展开更多
Microneedles(MNs)offer a precise and minimally invasive platform for delivering vaccines and therapeutic agents directly into the skin,leveraging the abundance of tissue-resident immune cells to elicit robust and dura...Microneedles(MNs)offer a precise and minimally invasive platform for delivering vaccines and therapeutic agents directly into the skin,leveraging the abundance of tissue-resident immune cells to elicit robust and durable immune responses.Compared to traditional intramuscular or subcutaneous vaccination methods,MNbased vaccines demonstrate superior patient compliance,enhanced antigen stability,and heightened immunogenicity,positioning them as a promising tool in biomedical applications.This review provides a comprehensive overview of the materials and fabrication techniques used in MN preparation,explores their structural classifications,and examines the role of antigens and adjuvants in optimizing vaccine efficacy.Furthermore,the diverse applications of MN delivery systems in preventing infectious diseases,advancing tumor immunotherapy,and addressing other immune-related conditions are discussed.展开更多
The complex skin structure and insufficient intracellular entrapment limit the therapeutic effects of active substances,therefore appealing to a more effective transdermal drug delivery system design.Herein,a hyaluron...The complex skin structure and insufficient intracellular entrapment limit the therapeutic effects of active substances,therefore appealing to a more effective transdermal drug delivery system design.Herein,a hyaluronic acid(HA)modified steareth-2-based niosomes(HA-nio)with satisfactory deformability and targeting properties was designed for ergothioneine(EGT)(EGT@HA-nio)against ultraviolet(UV)-induced skin damage.The unique composition allows EGT@HA-nio to exhibit high mechanical softness,making it deformable to pass through the stratum corneum by the intercellular space without rupture.For further intracellular delivery,HA modification enables EGT to target human dermal cells(HDFs)with increased distribution in mitochondria without the restriction of specific EGT transporter-organic cation transporter1(OCTN-1).Benefiting from the above properties,an adequate amount of EGT in the active form was accumulated in the desired cellular sites,alleviating UV-radiation-induced reactive oxygen species(ROS)generation,inflammatory factor release,DNA damage,and mitochondrial dysfunction.The in vivo experimental results show that EGT@HA-nio could significantly decrease collagen degradation,restore epidermal thickness and morphology to healthy levels,and effectively prevent UV-induced skin damage.With the ability to penetrate biological barriers and deliver drugs,HA-nio may promote the development of inadequate drug penetration disease treatment including skin diseases,cancers,and bacterial infections.展开更多
Candida albicans is one of the most common pathogens causing invasive fungal infections,with a mortality rate of up to 20%-50%.Amphotericin B(AmB),a biopharmaceutics classification system(BCS)IV drug,significantly inh...Candida albicans is one of the most common pathogens causing invasive fungal infections,with a mortality rate of up to 20%-50%.Amphotericin B(AmB),a biopharmaceutics classification system(BCS)IV drug,significantly inhibits Candida albicans.AmB is primarily administered via oral and intravenous infusion,but severe infusion adverse effects,nephrotoxicity,and potential hepatotoxicity limit its clinical application.Deep eutectic solvents(DESs),with excellent solubilization ability and skin permeability,are attractive for transdermal delivery.Herein,we used DESs to deliver AmB for antifungal therapy transdermally.We first prepared and characterized DESs with different stoichiometric ratios of choline(Ch)and geranate(Ge).DESs increased the solubility of AmB by a thousand-fold.In vitro and in vivo,skin permeation studies indicated that DES_(1:2)(Ch and Ge in 1:2 ratio)had the most outstanding penetration and delivered fluorescence dye to the dermis layer.Then,DES_(1:2)-AmB was prepared and in vitro antifungal tests demonstrated that DES_(1:2)-AmB had superior antifungal effects compared to AmB and DES_(1:2).Furthermore,DES_(1:2)-AmB was skin-irritating and biocompatible.In conclusion,DES-AmB provides a new and effective therapeutic solution for fungal infections.展开更多
Microneedle(MN)patches could be a promising treatment for diabetic foot ulcers that plague thousands of people worldwide.While reducing skin resistance or increasing driving force can accelerate the efficiency of tran...Microneedle(MN)patches could be a promising treatment for diabetic foot ulcers that plague thousands of people worldwide.While reducing skin resistance or increasing driving force can accelerate the efficiency of transdermal drug delivery with conventional MN patches,it can create toxic chemical residues or require the help of additional devices.Herein,a thermo-responsive microneedles patch(TMN)with high biocompatibility without additional equipment is proposed.The TMN consisted of a bilayer microneedles composed of sodium alginate(SA)-g-poly(N-isopropylacrylamide)layer(SA-g-PNIPAM)loaded with sucrose octasulfate sodium salt(SOS)and hyaluronic acid layer and a polycaprolactone/chitosan nanofiber membrane loading with tetracycline hydrochloride(TH)and SOS.PNIPAM accelerates drug release by extruding the drug through a volumetric phase transition in response to temperature changes,and TH and SOS promote wound healing by inhibiting bacterial growth and promoting vascular regeneration and epithelial formation.The results showed that the drug release of TMN was significantly faster,with the drug release rate of more than 80% in the 10th h,and the antibacterial rate of TMN could reach 800%.In addition,TMN had good biocompatibility and good healing effects in vivo,which may be helpful for the design of multifunctional dressings in the future.展开更多
Aim To prepare triamcinolone-acetonide-acetate (TAA)-loaded solid lipidnanoparticles (SLN) carbomer gel with tripalmitin glyceride (TPG), and investigate theircharacteristics and transdermal drug delivery. Methods SLN...Aim To prepare triamcinolone-acetonide-acetate (TAA)-loaded solid lipidnanoparticles (SLN) carbomer gel with tripalmitin glyceride (TPG), and investigate theircharacteristics and transdermal drug delivery. Methods SLN suspension was prepared by high-pressurehomogenization technique, and then mixed with carbomer gel matrix to get SLN gel. The morphology,particle size with polydispersi-ty index (PI) and zeta potential were examined by atomic forcemicroscopy (AFM) and photon correlation spectroscopy (PCS). The entrapment efficiency, stability andin vitro drug release were also studied. The transdermal drug delivery through porcine ear skin wasevaluated using modified Franz diffusion cells. Results The SLN had a spherical shape with theaverage size of (95.5 - 186.2) nm, the zeta potential of (-26.3- -15.7) mV and the entrapmentefficiency of 67.4%-90.3% for different TAA encapsulated compounds. TAA-SLN carbomer gel had goodstability, the release profile in vitro fitted Higuchi equation. In comparison with conventionalhydrogels, TAA-SLN carbomer gel resulted in higher drug permeation amount and drug deposition withinporcine ear skin after 24 h penetration experiment. Conclusion TAA-SLN carbomer gel is preparedwith stable physicochemical properties. The release profile and improved drug permeation into skinmake it be a promising vehicle for transdermal drug delivery.展开更多
Objective: Objective: To assess the effect and adverse effects of transdermal fentanyl for elderly patients with cancer pain in China. Methods: A total of 1664 elderly patients (aged 65-90 with mean age of 72.6) with ...Objective: Objective: To assess the effect and adverse effects of transdermal fentanyl for elderly patients with cancer pain in China. Methods: A total of 1664 elderly patients (aged 65-90 with mean age of 72.6) with cancer pain enrolled in the multicenter study from 136 institutes in China. Of them, 408 (28.8%) patients were 75 years old or older. All patients received transdermal fentanyl for the management of cancer pain. The patients were asked to record the attacks of pain, quality of life, and any side effects of the treatment. Results: Baseline mean of pain intensity was 7.34. On day 1, 3, 6, 9 15, and 30, the pain mean scores were decreased to 3.82, 2.80, 2.43, 2.11, 1.83, 1.64 (P=0.000). The effective rate was 97.18%. The mean doses of fentanyl was 31.34 g/h (25-150 g/h) initially, and 40.59 g/h and 47.50 g/h (25-200 g/h) at day 15 and day 30. At treatment day 15, the dose of fentanyl was ranger from 25 to 50 g/h in 91.8% of patients, 75 to 100 g/h in 7.5% patients, and 125 to 200 g/h only in 0.8% patients. The fine quality of life was in 25.4% patients before treatment, and was 71.15% and 73.04% at day 15 and day 30 respectively (P=0.0000). The common side effects were constipation (10.70%), nausea (11.96%), dizzy (6.85%), vomiting (3.85%), sedation (2.40%), Respiratory depression (0.12%). 86.2% patients preferred continue treated by transdermal fentanyl. Conclusions: Transdermal fentanyl for the elderly with cancer pain is effective, safe, convenient, and can improve the quality of life. Transdermal fentanyl can be recommended as a first-line drug for the treatment of elderly patients with moderate to severe cancer pain, and the initial doses is recommended as 25 g/h.展开更多
One major problem encountered in transdermal drug delivery is the low permeability of drugs through the skin barrier. In the present study, we developed a surfactant-ethanolic liposomal system to improve the transderm...One major problem encountered in transdermal drug delivery is the low permeability of drugs through the skin barrier. In the present study, we developed a surfactant-ethanolic liposomal system to improve the transdermal delivery of docetaxel (DTX), a model drug for high molecular weight and poorly water-soluble drugs. Surfactant-ethanolic liposomes (SEL) were composed of phospholipids, ethanol, sodium cholate, DTX and PBS which were prepared by thin film dispersion method. The developed formulations were characterized by determining the vesicle shape and surface morphology, size and size distribution, entrapment efficiency and drug loading capacity. The effects of the developed formulations on the permeation of DTX across rat skin in vitro were investigated using the modified Franz diffusion cell under both occlusive and non-occlusive application condi- tions. The DTX SELs with optimum composition (phospholipid-surfactant, 85:15, w/w) provided a significantly higher steadystate amount of flux and cumulative permeation, compared to the tranditional liposomes, surfactant liposomes and ethanolic liposomes. The optimal SELs exhibited stable vesicle size, morphology and drug loading capacity. Our results indicated that SELs were promising carriers to enhance the transdermal delivery of DTX.展开更多
The objective of the present study is to examine cardiovascular protective action of a newly developed transdermal patch by incorporating bisoprolol and isosorbide dinitrate in spontaneously hypertensive rats. As the ...The objective of the present study is to examine cardiovascular protective action of a newly developed transdermal patch by incorporating bisoprolol and isosorbide dinitrate in spontaneously hypertensive rats. As the combination therapy with these two synergistic drugs at low doses through a suitable form of administration could provide optimal therapeutic benefit, we further evaluated the effects of a 42 d period of anti-hypertensive treatment in spontaneously hypertensive rats. Rats were divided into the following five groups: control (blank patch), bisoprolol fumarate tablets (BP-FT, 20.0 mg/kg, i.g.), bisoprolol transdermal patch (BP-TP, 20.0 mg/kg), isosorbide dinitrate transdermal patch (ISDN-TP, 20.0 mg/kg), and the combination of BP and ISDN in a transdermal patch at low doses (8 and 12 mg/kg, respectively). The effects of treatment were evaluated via biochemical indicators related to cardiovascular protection, structure and function. The combination therapy had synergistic anti-hypertensive effects and significantly reduced blood pressure with the benefit of controlling blood pressure variability compared to BP-FT and BP-TP. The combined treatment also reduced heart rate as well as BP-FT and BP-TP, while ISDN-TP had no evident effects on blood pressure, heart rate, and cardiovascular protection. Combination therapy was superior to BP-TP and BP-FT at increasing blood atrial natriuretic peptide and nitric oxide, while also reducing cardiac hydroxyproline and endothelin-1 with no difference in blood endothelin-1 and cardiac malondialdehyde levels. Cardiovascular remodeling differed among the groups, with the combination therapy reducing cardiac hypertrophy and the aortic media/lumen ratio. The consequential improvements in relaxation in response to cumulative concentrations of acetylcholine may explain the associated improvement in endothelial function. Combi- nation treatment with a transdermal patch exhibited a synergistic therapeutic effect. Such favorable cardiovascular effects with nitric oxide donors and β-blockade combination through a transdermal patch may provide long-term cardiovascular protection during anti-hypertensive treatment.展开更多
基金supported by Zhejiang Provincial Natural Science Foundation of China under Grant No.LYY21H300001Zhejiang Medical and Health Science and Technology project under Grant No.2021KY906Hangzhou Medical Key Discipline Construction Project under Grant No.[2021]21–39
文摘Psoriasis is an inflammatory skin disease that is intricately linked to oxidative stress.Antioxidation and inhibition of abnormal proliferation of keratinocytes are pivotal strategies for psoriasis.Delivering drugs with these effects to the site of skin lesions is a challenge that needs to be solved.Herein,we reported a nanotransdermal delivery system composed of all-trans retinoic acid(TRA),triphenylphosphine(TPP)-modified cerium oxide(CeO2)nanoparticles,flexible nanoliposomes and gels(TCeO_(2)-TRA-FNL-Gel).The results revealed that TCeO_(2)synthesized by the anti-micelle method,with a size of approximately 5 nm,possessed excellent mitochondrial targeting ability and valence conversion capability related to scavenging reactive oxygen species(ROS).TCeO_(2)-TRA-FNL prepared by the film dispersion method,with a size of approximately 70 nm,showed high drug encapsulation efficiency(>96%).TCeO_(2)-TRA-FNL-Gel further showed sustained drug release behaviors,great transdermal permeation ability,and greater skin retention than the free TRA.The results of in vitro EGF-induced and H2O2-induced models suggested that TCeO_(2)-TRA-FNL effectively reduced the level of inflammation and alleviated oxidative stress in HaCat cells.The results of in vivo imiquimod(IMQ)-induced model indicated that TCeO_(2)-TRA-FNL-Gel could greatly alleviate the psoriasis symptoms.In summary,the transdermal drug delivery system designed in this study has shown excellent therapeutic effects on psoriasis and is prospective for the safe and accurate therapy of psoriasis.
基金supported by National Research Foundation of Korea(NRF)grants funded by the Korean government(MSIT)(No.RS-2023-00256265,RS-2024-00352352,RS-2024-00405818)the Korean Fund for Regenerative Medicine(KFRM)grant funded by the Korea government(the Ministry of Science and ICT,the Ministry of Health&Welfare).(No.25A0102L1)support from the Market-led K-sensor technology program(RS-2022-00154781,Development of large-area wafer-level flexible/stretchable hybrid sensor platform technology for form factor-free highly integrated convergence sensor),funded By the Ministry of Trade,Industry&Energy(MOTIE,Korea).
文摘Microneedles(MNs)have been extensively investigated for transdermal delivery of large-sized drugs,including proteins,nucleic acids,and even extracellular vesicles(EVs).However,for their sufficient skin penetration,conventional MNs employ long needles(≥600μm),leading to pain and skin irritation.Moreover,it is critical to stably apply MNs against complex skin surfaces for uniform nanoscale drug delivery.Herein,a dually amplified transdermal patch(MN@EV/SC)is developed as the stem cell-derived EV delivery platform by hierarchically integrating an octopusinspired suction cup(SC)with short MNs(≤300μm).While leveraging the suction effect to induce nanoscale deformation of the stratum corneum,MN@EV/SC minimizes skin damage and enhances the adhesion of MNs,allowing EV to penetrate deeper into the dermis.When MNs of various lengths are applied to mouse skin,the short MNs can elicit comparable corticosterone release to chemical adhesives,whereas long MNs induce a prompt stress response.MN@EV/SC can achieve a remarkable penetration depth(290μm)for EV,compared to that of MN alone(111μm).Consequently,MN@EV/SC facilitates the revitalization of fibroblasts and enhances collagen synthesis in middle-aged mice.Overall,MN@EV/SC exhibits the potential for skin regeneration by modulating the dermal microenvironment and ensuring patient comfort.
文摘Diabetes mellitus is a chronic disease in which there is an insufficient production of insulin by the pancreas, or the insulin produced is unable to be utilized effectively by the body. Diabetes affects more than 415 million people globally and is estimated to strike about 642 million people in 2040. The WHO reported that diabetes will become the seventh biggest cause of mortality in 2030. Insulin injection and oral hypoglycemic agents remain the primary treatments in diabetes management. These often present with poor patient compliance. However, over the last decade, transdermal systems in diabetes management have gained increasing attention and emerged as a potential hope in diabetes management owing to the advantages that they offer as compared to invasive injection and oral dosage forms. This review presents the recent advances and developments in transdermal research to achieve better diabetes management. Different technologies and approaches have been explored and applied to the transdermal systems to optimize diabetes management. Studies have shown that these transdermal systems demonstrate higher bioavailability compared to oral administration due to the avoidance of first-pass hepatic metabolism and a sustained drug release pattern. Besides that, transdermal systems have the advantage of reducing dosing frequency as drugs are released at a predetermined rate and control blood glucose level over a prolonged time, contributing to better patient compliance. In summary, the transdermal system is a field worth exploring due to its significant advantages over oral route in administration of antidiabetic drugs and biosensing of blood glucose level to ensure better clinical outcomes in diabetes management.
基金Supported by of the "863" Program of China(No 2003AA2Z347C)
文摘Microemulsion systems, composed of water, isopropyl myristate (IPM), polyoxyethylene sorbitan trioleate (Tween 85 ), and ethanol, were investigated as transdermal drug delivery vehicles for a lipophilic model drug( meloxicam). The purpose of this study was to investigate the physicochemieal properties of the tested microemulsion and to find the correlation between the physicoehemical properties and the skin permeation rate of the microemulsion. Pseudo-ternary phase diagram of the investigated system at a constant surfactant/cosurfactant mass ratio ( Km = 1 : 1 ) was constructed by titration at 20℃, and the five fommlations were selected for further research in the o/w microemulsion domains. The values of electrical conductivity and viscosity showed that the selected systems were bicontinuous or non-spherical o/w microemulsion, and the electrical conductivity and viscosity were increased with increasing the content of water. These results suggest that the optimum formulation of microemulsion, containing 0. 375 meloxicam, 5% isopropyl myristate, 25% Tween 85. 25% ethanol, and water, showed the maximum permeation rate. It had a high electrical conductivity, small droplet size, and proper viscocity.
基金Supported by the Grant from the Agriculture Technologies R & D Program of Shanxi Province, China(No. 2007032013).
文摘In order to solve the drawback of poor bioavailability by the oral route and infusion-related side effect for Amphotericin B(AmB), microemulsion vehicles composed of isopropyl myristate(IPM), Tween 80, isopropyl alcohol and water for transdermal delivery of AraB were designed. The pseudo-ternary phase diagrams were constructed by the H2O titration method and the structures of the microemulsion were determined by measuring electrical conductivities(σ). The diffusion studies of AmB microemulsion were performed via excised rabbit skin on a drug diffusion apparatus. To obtain a high solubization of AmB, three different methods were tested to incorporate AmB into microemulsion. The result suggests adding AmB in the shape of NaOH solution to the O/W blank microemulsion over the phase inversion temperature(PIT) of the emulsifier obtains the maximum drug content(2.96 mg/mL). The pH value of the system could be adjusted to pH〉8.5 or pH〈5.2, in this range AraB molecules converts from aqueous to the hydrophilic shell of the microemulsion droplets, drug precipitate is no more than 5%, and the formulations were corresponding to the characterizations of microemulsion. At pH 5.14, AmB microemulsion with Km 1:1, O/SC 1:9(mass ratio of oil phase to surfactant/cosurfactant blend), water content 64.6%, drug content (2.93±0.08) mg/mL, showed the maximum permeation rate (3.255 ±0.64) μg·cm^-2.h^-1 which is stable for a long time.
基金The study was financed by the Financing Scheme of Arising Interdisciplinary Subject of TCM in Shanghai,China(No.Shxxjcxk201709)the TCM Genre Program of Shanghai Health Bureau of China(No.ZY(2018-2020)-CCCX1006)the Shanghai Sports Bureau Project of China(Nos.20J020 and 21J013).
文摘Objective:We evaluated the efficacy and safety of transdermal preparations of Sinomenium acutum(SA)for rheumatoid arthritis(RA).Methods:Randomized controlled trials(RCTs)of SA transdermal preparations for RA were extracted from relevant databases and screened in accordance with the inclusion criteria.The Cochrane System Evaluation Manual(version 5.1.0)was used to assess the quality of the included trials.We used the Cochrane Review Manager(version 5.4)to conduct the meta-analysis.Results:Six trials comprising 436 patients(220 patients in the treatment group and 216 patients in the control group)were analyzed.The meta-analysis indicated that SA transdermal preparations in combination with disease-modifying antirheumatic drugs(DMARDs)enhanced the overall effect(odds ratio[OR]3.97,95%confidence interval[CI][2.25,7.00],P<0.00001),decreased visual analogue scale(VAS)results(mean difference[MD]-0.64,95%CI[-1.20,-0.09],P=0.02),decreased laboratory indexes including the erythrocyte sedimentation rate(ESR)(MD-4.36,95%CI[-5.63,-3.08],P<0.00001)and C-reactive protein(CRP)(MD-3.6,95%CI[-3.99,-3.21,P<0.00001]),and decreased the Disease Activity Score-28(DAS28)(MD-0.41,95%CI[-0.78,-0.03],P=0.03).The results suggest that combination therapy did not shorten the duration of morning stiffness(DMS;standardized MD[SMD]-6.13,95%CI[-17.33,5.06],P=0.28)or reduce rheumatoid factor(RF)laboratory indexes(SMD-0.85;95%CI[-2.19,0.49],P=0.21).Only one study reported adverse reactions,and thus,it was difficult to determine whether adverse drug reactions in the combination therapy group were significantly different from those in the control group.Conclusion:We found that SA transdermal preparations combined with DMARDs may have greater clinical efficacy than DMARDs for RA.More well-designed and high-quality RCTs are required to verify the findings and determine whether transder-mal preparations cause fewer adverse events.
基金funded through the scholarship from the College of Health Sciences,University of Kwa Zulu Natal granted to the first author
文摘Objective: To report the influence of transdermal delivery of asiatic acid(AA) in Plasmodium berghei-infected Sprague Dawley rats on physicochemical changes, %parasitaemia and associated pathophysiology. Methods: A topical once-off AA(5, 10, and 20 mg/kg)- or chloroquine(CHQ)-pectin patch was applied on the shaven dorsal neck region of Plasmodium berghei-infected Sprague Dawley rats(90-120 g) on day 7 after infection. Eating and drinking habits, weight changes, malaria effects and %parasitaemia were compared among animal groups over 21 d. Results: AA-pectin patch application preserved food and water intake together with %weight gain. All animals developed stable parasitaemia(15%-20%) by day 7. AA doses suppressed parasitaemia significantly. AA 5 mg/kg patch was most effective. AA and CHQ displayed bimodal time-spaced peaks. CHQ patch had a longer time course to clear parasitaemia. Conclusions: AA influences bio-physicochemical changes and parasitaemia suppression in dose dependent manner. In comparison by dose administered, AA has much better efficacy than CHQ. AA may be a useful antimalarial. AA and CHQ displays bimodal peaks suggesting possible synergism if used in combination therapy.
基金The project supported by National Natural Science Foundation of China(81573613,81373896)the Major Program for the Fundamental Research of Shanghai Committee of Science and Technology(14JC1491300)Open Fund of State Key Laboratory of Natural Medicines(SKLNMKF201612)
文摘The traditional Chinese medicine tripterygium glycosides(TPG)is used clinically to treat some Rheumatism,Eczema,immunosuppression and tumor,with the activities of hypnosis,antipyretic,analgesic,antiinflammatory,allergy and antitumor.However TPG has low water solubility and low skin permeability,so its clinical use is limited.Transdermal delivery systems can provide a controlled drug release rate that can keep constant concentrations of drug in the plasma for up to multiple days,improved patient compliance,and the possibility ofreducing the rate and severity of side effects.In this study,a fast and sensitive technique skin-blood two sites synchronous microdialysis coupled with LC-MS was used to study the pharmacokinetic parameter of three different formulations(TPG nanoemulsion,TPG nanoemulsion based gels and TPG gel).Creating a multilayer model,use the model to simulate the three formulations dynamics in transdermal-drug delivery system.The experiment results showed that the TPG nanoemulsion,TPG nanoemulsion based gels can significantly raise the drug concentrations in skin more than that of TPG gels.The numerical simulation results indicating that TPG gel and TPG nanoemulsion are close to practical measurements,only in the concentration increase phase the numerical simulation result has some difference with the experimental results.TPG nanoemulsion based gels have significant difference with the experimental results,both in concentration increase stage and concentration decreasing stage,but its trend was same.The study shows that the skin-blood synchronous microdialysis technique provided a new method for the pharmacokinetics study of nanocarriers transdermal delivery systems.In addition,the microdialysis technique combined with mathematical modeling provides a very good platform for the further study of transdermal delivery system.
基金The authors acknowledge financial assistance and research facilities provided by College of Pharmacy and Health Sciences,St.John’s University to carry out this research。
文摘The effect of formulation variables on in-vitro release and permeation properties of carvedilol from transdermal patch was studied by varying one factor at a time as preliminary study.Based on these results,design of experiments technique was applied followed by regression analysis and response surface methodology to optimize formulation variables.Central Composite IV model design was used with four formulation variables:drug loading,matrix thickness,adhesive layer thickness,and propylene glycol concentration.Nineteen formulations were prepared according to the design;and the effect of formulation variables was studied on in-vitro release and permeation profiles of these formulations.In all cases,the permeation profiles paralleled in-vitro release profiles.The drug released at 7 h and 24 h was used as release response parameters while permeation flux obtained was employed as permeation response parameter.All four formulation variables were found to be significant for release properties and three of these exhibited significant effect on permeation profile of carvedilol across artificial membrane.Constrained optimization,using 47.9%of cumulative carvedilol released at 7 h and 99.8%at 24 h as well as 25.7 mg/cm2/h of permeation flux,was applied to obtain desired release and permeation profiles.Experimentally,carvedilol was observed to release from the optimized formulation with 51.4%drug release at 7 h and 98.5%at 24 h with an observed flux value of 27.4 mg/cm2/h across artificial membrane,which showed an excellent agreement with the predicted values.The results of this investigation show that the quadratic mathematical model developed could be used to further predict formulations with desirable release and permeation properties.
基金Natural Science Foundation of Shanghai,China(No.12ZR1400300)the Innovation Foundation of Donghua University,China(No.EG2015067)+1 种基金the Scientific Research Foundation for the Returned Overseas Chinese Scholars,State Education Ministry,China“111 Project”Biomedical Textile Materials Science and Technology,China(No.B07024)
文摘One key of constructing ideal transdermal drug delivery system(TDDS)is enhancing the percutaneous rate of drugs without sacrificing compatibility.Ethosomes(Eths)have excellent transdermal performance as well as good biocompatibility,and thus been widely used as drug carrier.Hydrogel has good 3-dimensional mesh structure which is convenience for drugs release and storage.In this study,Eths were introduced into silk fibroin(SF)/polyvinyl alcohol(PVA)composite hydrogel to construct a novel TDDS through a green process.The Ethsomes(Eths)-SF/PVA composite hydrogel TDDS showed good mechanical properties(stress:(0.236±0.032)MPa;strain:(65.74±2.45)%).Also,skin fibroblasts can grow and proliferate well on this TDDS,indicating that this material has a good cytocompatibility.Furthermore,with doxorubicin hydrochloride(Dox)as a model drug loaded in ethosomes,in vitro studies showed that this TDDS was able to transdermally release Dox efficiently.Our data suggested this novel system had a good potential for application in TDD,though further evaluative study still needed to carry out.
文摘Budesonide is a highly potent synthetic, nonhalogenated corticosteroid. The mechanism of action of corticosteroids in allergic rhinitis remains unknown, but may involve reductions in number of various mediator cells such as basophils, eosinophils, T-helper cells, mast cells, and neutrophils. In the nasal mucosa, nasal reactivity to allergens, and release of inflammatory mediators and proteolytic enzymes. Budesonide is very effective and quikly acting as it is rapidly and almost completely absorbed after oral administration, but has poor systemic availability (about 10%) due to extensive first-pass metabolism in the liver, mainly by the cytochrome P450 isoenzyme CYP3A4.. The major metabolites, 6-β- hydroxybudesonide and 16-α-hydroxyprednisolone have less than 1% of the glucocorticoid activity of unchanged drug with a terminal half-life of about 2 - 4 hours. Polymeric films containing Eudragit RL 100: Eudragit RS: drug (7:3:1, 7: 2:1) and Ethyl cellulose: PVP: drug (7:3:1, 7:2:1) were selected for transdermal administration based on evaluation studies. These polymeric films were prepared by mercury substrate method employing PEG-400 as plasticizer. Two different penetration enhancers Urea and Dimethyl sulphoxide (DMSO) were employed in the study. The patches in each group were uniform in drug content, thickness. In Vitro drug permeation, moisture absorption and WVTR studies were carried out on these test patches. It was found that at all humidity condition the absorption increases which were linear to the moisture absorbed. In PVA and EUDRAGIT RL 100 patches the water vapor transmission rate was found to be higher at 75% RH, RT conditions. Therefore at both % RH, RT condition the PVA and EUDRAGIT RL 100 patches provides the best resistance to water vapor. Therefore, when applied to animals (in further studies) these patches may provide more occlusion to water vapor loss from skin thus making atmosphere beneath the skin more humid that aid in drug permeation.
基金Yunnan Provincial Science and Technology Department University Joint Project:Effect and mechanism of microneedle transdermal administration of Periplaneta Americana extract on aging skin of mice(202001BA070001-214).
文摘Transdermal drug delivery systems(TDDs)have the advantages on good local targeting,controlled and sustainable drug delivery.Hoewever,the stratum corneum,as the main skin barrier,severely limits the transdermal penetration of drugs and reduces bioavailability,which also limits their application.Microneedles(MNS)penetrate the stratum corneum and create several reversible microchannels in a minimally invasive manner to significantly improve the penetration of therapeutic agents,and are considered a milestone for effective transdermal drug delivery.As an emerging drug delivery modality,microneedle transdermal drug delivery systems have the advantages of being minimally invasive,safe,efficient,economical and convenient.In addition to the extensive research on microneedles for improving transdermal drug delivery,there is a growing interest in using them to manage and treat dermatological conditions.Being the largest organ in the human body,the skin acts as a barrier between the body and the external environment,while having an immense influence on appearance and self-confidence.Indeed,there is now a considerable body of evidence on how dermatological conditions can lead to psychological problems and a reduced quality of life.The utilisation of microneedle transdermal drug delivery systems for the management and treatment of dermatological conditions is of great therapeutic and commercial value.The principleof microneedle transdermal drug delivery systems and the progress of its clinical application in dermatology are reviewed here.
基金supported by the National Science Fund for National Natural Science Foundation of China(Grant Nos.22232006,22377127,and 52361145848)Chinese Academy of Sciences(CAS)Project for Young Scientists in Basic Research(Grant No.YSBR-083)+2 种基金the Beijing Nova Program(Grant Nos.20230484352 and 20240484650)Institute of Process Engineering Project for Frontier Basic Research(Grant No.QYJC-2023-05)Progress of Strategy Priority Research Program(Category B)of CAS(Grant No.XDB0520300).
文摘Microneedles(MNs)offer a precise and minimally invasive platform for delivering vaccines and therapeutic agents directly into the skin,leveraging the abundance of tissue-resident immune cells to elicit robust and durable immune responses.Compared to traditional intramuscular or subcutaneous vaccination methods,MNbased vaccines demonstrate superior patient compliance,enhanced antigen stability,and heightened immunogenicity,positioning them as a promising tool in biomedical applications.This review provides a comprehensive overview of the materials and fabrication techniques used in MN preparation,explores their structural classifications,and examines the role of antigens and adjuvants in optimizing vaccine efficacy.Furthermore,the diverse applications of MN delivery systems in preventing infectious diseases,advancing tumor immunotherapy,and addressing other immune-related conditions are discussed.
基金supported by the National Natural Science Foundation of China(No.82222066)the National Key Research and Development Program of China(No.2022YFC2304104)。
文摘The complex skin structure and insufficient intracellular entrapment limit the therapeutic effects of active substances,therefore appealing to a more effective transdermal drug delivery system design.Herein,a hyaluronic acid(HA)modified steareth-2-based niosomes(HA-nio)with satisfactory deformability and targeting properties was designed for ergothioneine(EGT)(EGT@HA-nio)against ultraviolet(UV)-induced skin damage.The unique composition allows EGT@HA-nio to exhibit high mechanical softness,making it deformable to pass through the stratum corneum by the intercellular space without rupture.For further intracellular delivery,HA modification enables EGT to target human dermal cells(HDFs)with increased distribution in mitochondria without the restriction of specific EGT transporter-organic cation transporter1(OCTN-1).Benefiting from the above properties,an adequate amount of EGT in the active form was accumulated in the desired cellular sites,alleviating UV-radiation-induced reactive oxygen species(ROS)generation,inflammatory factor release,DNA damage,and mitochondrial dysfunction.The in vivo experimental results show that EGT@HA-nio could significantly decrease collagen degradation,restore epidermal thickness and morphology to healthy levels,and effectively prevent UV-induced skin damage.With the ability to penetrate biological barriers and deliver drugs,HA-nio may promote the development of inadequate drug penetration disease treatment including skin diseases,cancers,and bacterial infections.
基金supported by the National Natural Science Foundation of China(Nos.81872823,82073782,and 82241002)the Key R&D Plan of Ganjiang New District of Jiangxi(No.2023010).
文摘Candida albicans is one of the most common pathogens causing invasive fungal infections,with a mortality rate of up to 20%-50%.Amphotericin B(AmB),a biopharmaceutics classification system(BCS)IV drug,significantly inhibits Candida albicans.AmB is primarily administered via oral and intravenous infusion,but severe infusion adverse effects,nephrotoxicity,and potential hepatotoxicity limit its clinical application.Deep eutectic solvents(DESs),with excellent solubilization ability and skin permeability,are attractive for transdermal delivery.Herein,we used DESs to deliver AmB for antifungal therapy transdermally.We first prepared and characterized DESs with different stoichiometric ratios of choline(Ch)and geranate(Ge).DESs increased the solubility of AmB by a thousand-fold.In vitro and in vivo,skin permeation studies indicated that DES_(1:2)(Ch and Ge in 1:2 ratio)had the most outstanding penetration and delivered fluorescence dye to the dermis layer.Then,DES_(1:2)-AmB was prepared and in vitro antifungal tests demonstrated that DES_(1:2)-AmB had superior antifungal effects compared to AmB and DES_(1:2).Furthermore,DES_(1:2)-AmB was skin-irritating and biocompatible.In conclusion,DES-AmB provides a new and effective therapeutic solution for fungal infections.
基金supported by the Joint Funds of National Natural Science Foundation of China(No.U22A20162)the Natural Science Foundation of Hebei Province of China(No.C2021202002)+1 种基金the National Natural Science Foundation of China(No.52271245),the Natural Science Foundation of Tianjin(No.21JCQNJC01280)the financial support from the Danish Council for Independent Research(9040-00219B),European Union’s Horizon 2020 research and innovation program under the Marie Skłodowska-Curie grant agreement ENSIGN(Project ID:101086226),L4DNANO(Project ID:101086227).
文摘Microneedle(MN)patches could be a promising treatment for diabetic foot ulcers that plague thousands of people worldwide.While reducing skin resistance or increasing driving force can accelerate the efficiency of transdermal drug delivery with conventional MN patches,it can create toxic chemical residues or require the help of additional devices.Herein,a thermo-responsive microneedles patch(TMN)with high biocompatibility without additional equipment is proposed.The TMN consisted of a bilayer microneedles composed of sodium alginate(SA)-g-poly(N-isopropylacrylamide)layer(SA-g-PNIPAM)loaded with sucrose octasulfate sodium salt(SOS)and hyaluronic acid layer and a polycaprolactone/chitosan nanofiber membrane loading with tetracycline hydrochloride(TH)and SOS.PNIPAM accelerates drug release by extruding the drug through a volumetric phase transition in response to temperature changes,and TH and SOS promote wound healing by inhibiting bacterial growth and promoting vascular regeneration and epithelial formation.The results showed that the drug release of TMN was significantly faster,with the drug release rate of more than 80% in the 10th h,and the antibacterial rate of TMN could reach 800%.In addition,TMN had good biocompatibility and good healing effects in vivo,which may be helpful for the design of multifunctional dressings in the future.
文摘Aim To prepare triamcinolone-acetonide-acetate (TAA)-loaded solid lipidnanoparticles (SLN) carbomer gel with tripalmitin glyceride (TPG), and investigate theircharacteristics and transdermal drug delivery. Methods SLN suspension was prepared by high-pressurehomogenization technique, and then mixed with carbomer gel matrix to get SLN gel. The morphology,particle size with polydispersi-ty index (PI) and zeta potential were examined by atomic forcemicroscopy (AFM) and photon correlation spectroscopy (PCS). The entrapment efficiency, stability andin vitro drug release were also studied. The transdermal drug delivery through porcine ear skin wasevaluated using modified Franz diffusion cells. Results The SLN had a spherical shape with theaverage size of (95.5 - 186.2) nm, the zeta potential of (-26.3- -15.7) mV and the entrapmentefficiency of 67.4%-90.3% for different TAA encapsulated compounds. TAA-SLN carbomer gel had goodstability, the release profile in vitro fitted Higuchi equation. In comparison with conventionalhydrogels, TAA-SLN carbomer gel resulted in higher drug permeation amount and drug deposition withinporcine ear skin after 24 h penetration experiment. Conclusion TAA-SLN carbomer gel is preparedwith stable physicochemical properties. The release profile and improved drug permeation into skinmake it be a promising vehicle for transdermal drug delivery.
文摘Objective: Objective: To assess the effect and adverse effects of transdermal fentanyl for elderly patients with cancer pain in China. Methods: A total of 1664 elderly patients (aged 65-90 with mean age of 72.6) with cancer pain enrolled in the multicenter study from 136 institutes in China. Of them, 408 (28.8%) patients were 75 years old or older. All patients received transdermal fentanyl for the management of cancer pain. The patients were asked to record the attacks of pain, quality of life, and any side effects of the treatment. Results: Baseline mean of pain intensity was 7.34. On day 1, 3, 6, 9 15, and 30, the pain mean scores were decreased to 3.82, 2.80, 2.43, 2.11, 1.83, 1.64 (P=0.000). The effective rate was 97.18%. The mean doses of fentanyl was 31.34 g/h (25-150 g/h) initially, and 40.59 g/h and 47.50 g/h (25-200 g/h) at day 15 and day 30. At treatment day 15, the dose of fentanyl was ranger from 25 to 50 g/h in 91.8% of patients, 75 to 100 g/h in 7.5% patients, and 125 to 200 g/h only in 0.8% patients. The fine quality of life was in 25.4% patients before treatment, and was 71.15% and 73.04% at day 15 and day 30 respectively (P=0.0000). The common side effects were constipation (10.70%), nausea (11.96%), dizzy (6.85%), vomiting (3.85%), sedation (2.40%), Respiratory depression (0.12%). 86.2% patients preferred continue treated by transdermal fentanyl. Conclusions: Transdermal fentanyl for the elderly with cancer pain is effective, safe, convenient, and can improve the quality of life. Transdermal fentanyl can be recommended as a first-line drug for the treatment of elderly patients with moderate to severe cancer pain, and the initial doses is recommended as 25 g/h.
基金The Key Direction Program of Chinese Academy of Sciences(Grant No.kjcx2-sw-h12-01)
文摘One major problem encountered in transdermal drug delivery is the low permeability of drugs through the skin barrier. In the present study, we developed a surfactant-ethanolic liposomal system to improve the transdermal delivery of docetaxel (DTX), a model drug for high molecular weight and poorly water-soluble drugs. Surfactant-ethanolic liposomes (SEL) were composed of phospholipids, ethanol, sodium cholate, DTX and PBS which were prepared by thin film dispersion method. The developed formulations were characterized by determining the vesicle shape and surface morphology, size and size distribution, entrapment efficiency and drug loading capacity. The effects of the developed formulations on the permeation of DTX across rat skin in vitro were investigated using the modified Franz diffusion cell under both occlusive and non-occlusive application condi- tions. The DTX SELs with optimum composition (phospholipid-surfactant, 85:15, w/w) provided a significantly higher steadystate amount of flux and cumulative permeation, compared to the tranditional liposomes, surfactant liposomes and ethanolic liposomes. The optimal SELs exhibited stable vesicle size, morphology and drug loading capacity. Our results indicated that SELs were promising carriers to enhance the transdermal delivery of DTX.
基金‘863'High Technology R&D Project of Ministry of Science and Technology of China(Grant No.2004AA2Z3073).
文摘The objective of the present study is to examine cardiovascular protective action of a newly developed transdermal patch by incorporating bisoprolol and isosorbide dinitrate in spontaneously hypertensive rats. As the combination therapy with these two synergistic drugs at low doses through a suitable form of administration could provide optimal therapeutic benefit, we further evaluated the effects of a 42 d period of anti-hypertensive treatment in spontaneously hypertensive rats. Rats were divided into the following five groups: control (blank patch), bisoprolol fumarate tablets (BP-FT, 20.0 mg/kg, i.g.), bisoprolol transdermal patch (BP-TP, 20.0 mg/kg), isosorbide dinitrate transdermal patch (ISDN-TP, 20.0 mg/kg), and the combination of BP and ISDN in a transdermal patch at low doses (8 and 12 mg/kg, respectively). The effects of treatment were evaluated via biochemical indicators related to cardiovascular protection, structure and function. The combination therapy had synergistic anti-hypertensive effects and significantly reduced blood pressure with the benefit of controlling blood pressure variability compared to BP-FT and BP-TP. The combined treatment also reduced heart rate as well as BP-FT and BP-TP, while ISDN-TP had no evident effects on blood pressure, heart rate, and cardiovascular protection. Combination therapy was superior to BP-TP and BP-FT at increasing blood atrial natriuretic peptide and nitric oxide, while also reducing cardiac hydroxyproline and endothelin-1 with no difference in blood endothelin-1 and cardiac malondialdehyde levels. Cardiovascular remodeling differed among the groups, with the combination therapy reducing cardiac hypertrophy and the aortic media/lumen ratio. The consequential improvements in relaxation in response to cumulative concentrations of acetylcholine may explain the associated improvement in endothelial function. Combi- nation treatment with a transdermal patch exhibited a synergistic therapeutic effect. Such favorable cardiovascular effects with nitric oxide donors and β-blockade combination through a transdermal patch may provide long-term cardiovascular protection during anti-hypertensive treatment.
