可溶微针在经皮药物递送领域的研究进展

可溶微针是一种极具潜力的新型透皮给药技术,它具有药物递送可控性、可调节性以及自我给药的便捷性等特点,在生物医学领域具有广阔的应用前景。综述微针技术的研究进展,包括微针分类、常用材料和制备方法,重点介绍了可溶微针在小分子、多肽、蛋白和核酸等药物递送领域的研究进展,系统讨论了可溶微针在生物医学领域的发展前景,以期为更精准智能的可溶微针经皮递药系统的研发提供参考。     

微针经皮给药技术

微针是介于皮下注射和透皮贴剂之间的一种给药方式,利用在皮肤角质层产生的微小孔道来显著增加药物的经皮吸收。综述微针经皮给药技术的研究进展,介绍制造微针的材料和方法、微针的给药方式及其在经皮给药系统中的应用。     

Transdermal Delivery of Insulin Using Microneedles in Vivo

PURPOSE: The purpose of this study was to design and fabricate arrays of solid microneedles and insert them into the skin of diabetic hairless rats for transdermal delivery of insulin to lower blood glucose level. METHODS: Arrays containing 105 microneedles were laser-cut from stainless steel metal sheets and inserted into the skin of anesthetized hairless rats with streptozotocin-induced diabetes. During and after microneedle treatment, an insulin solution (100 or 500 U/ml) was placed in contact with the skin for 4 h. Microneedles were removed 10 s, 10 min, or 4 h after initiating transdermal insulin delivery. Blood glucose levels were measured electrochemically every 30 min. Plasma insulin concentration was determined by radioimmunoassay at the end of most experiments. RESULTS: Arrays of microneedles were fabricated and demonstrated to insert fully into hairless rat skin in vivo. Microneedles increased skin permeability to insulin, which rapidly and steadily reduced blood glucose levels to an extent similar to 0.05-0.5 U insulin injected subcutaneously. Plasma insulin concentrations were directly measured to be 0.5-7.4 ng/ml. Higher donor solution insulin concentration, shorter insertion time, and fewer repeated insertions resulted in larger drops in blood glucose level and larger plasma insulin concentrations. CONCLUSIONS: Solid metal microneedles are capable of increasing transdermal insulin delivery and lowering blood glucose levels by as much as 80% in diabetic hairless rats in vivo.     

Transdermal Delivery of Sumatriptan Succinate Using Iontophoresis and Dissolving Microneedles

This study focuses on the in vitro transdermal transport of sumatriptan succinate using combined iontophoresis and dissolving polymeric microneedle arrays. Permeation experiments were performed to evaluate the effects of formulation parameters on drug release from polyvinylpyrrolidone systems under mild electrical current (≤500 μA/cm²). The preparations consisted of hydrophilic, positively charged molecules encapsulated in a water-soluble and biocompatible polymeric material. Current densities of 100, 300, and 500 μA/cm² were applied during a 6-h period using silver/silver chloride electrodes. The circular array consisted of 600 needles and occupied a 0.785 cm² area. Tests, carried out with Franz diffusion cells and skin of Göttingen minipigs, showed that small decreases in the polymer concentration led to negligible lag times and marked increases in the cumulative amount of drug permeated in 6 h (Q_6h) and in the flux (J_ss). At 500 μA/cm², Q_6h and J_ss nearly doubled for a microneedle loaded with 5% (w/w) sumatriptan and 20% (w/w) PVP (lag time = 0 min; Q_6h = 2888 μg/cm²; J_ss = 490 μg/cm²/h) relative to a system loaded with 5% (w/w) drug and 30% (w/w) PVP (lag time = 36 min; Q_6h = 1437 μg/cm²; J_ss = 266 μg/cm²/h).     

Dissolving Microneedles Loaded With Etonogestrel Microcrystal Particles for Intradermal Sustained Delivery

The study design is that lipophilic drug was encapsulated within dissolving microneedles (DMNs) for sustained-release delivery over 1 week. Etonogestrel (ENG), the progestogen used in hormonal contraceptives, was loaded in 2-layered DMNs in the form of microcrystal particles (MPs). In vitro release study indicated that ENG in the MP form could sustain drug release compared to noncrystal form. Hydroxypropyl methylcellulose and polyvinyl alcohol were used to prepare the fast dissolving needle tips and flexible back layer, respectively. The mechanical strength of microneedles was not affected even with the drug-loading efficiency of 50.0% in needle tips. The penetration depth of DMNs in skin, observed using a confocal laser scanning microscope, was approximately 280 μm. The tips of DMNs could be dissolved in rat skin within 1 h with a drug delivery efficiency of 63.8 ± 2.0%. The pharmacokinetic study of DMN treatment in rats showed that the plasma levels of ENG were a dose-dependent profile and were much steadier than intradermal (ID) injections. There was no statistical difference between bioavailability of ENG treated with DMNs or ID injections (p >0.05). Therefore, the novel DMNs loaded with drug MP provided a potential minimally invasive route for ID sustained delivery of lipophilic drug.     

Characterization of Solid Maltose Microneedles and their Use for Transdermal Delivery

Purpose To characterize solid maltose microneedles and assess their ability to increase transdermal drug delivery. Materials and Methods Microneedles and microchannels were characterized using methylene blue staining and scanning electron microscopy. Diffusion pattern of calcein was observed using confocal scanning laser microscopy. Transepidermal water loss (TEWL) measurements were made to study the skin barrier recovery after treatment. Uniformity in calcein uptake by the pores was characterized and percutaneous penetration of nicardipine hydrochloride (NH) was studied in vitro and in vivo across hairless rat skin. Results Microneedles were measured to be 508.46 ± 9.32 μm long with a radius of curvature of 3 μm at the tip. They penetrated the skin while creating microchannels measuring about 55.42 ± 8.66 μm in diameter. Microchannels were visualized by methylene blue staining. Pretreatment with microneedles resulted in the migration of calcein into the microchannels. TEWL increased after pretreatment and uptake of calcein by the pores was uniform as measured by the pore permeability index values. NH in vitro transport across skin increased significantly after pretreatment (flux 7.05 μg/cm²/h) as compared to the untreated skin (flux 1.72 μg/cm²/h) and the enhanced delivery was also demonstrated in vivo in hairless rats. Conclusion Maltose microneedles were characterized and shown to create microchannels in the skin, which were also characterized and shown to improve the transdermal delivery of NH.     

基因治疗研究进展

介绍基因治疗的基本概念、基本方法及面临的主要问题,就基因转移的载体、基因表达的调控、基因治疗的安全性方面的研究进展进行综述和评价,并探讨今后基因治疗的发展方向。     

可溶性微针的研究进展

微针是一种新型经皮给药技术,具有无痛高效递送药物、良好的患者依从性以及便于自主给药等优势。较其他类型的微针而言,可溶性微针具有制备成本低、载药量大、应用范围广、无尖锐废弃物残留、易于控制药物释放等优点。综述可溶性微针的基质和制备方法、质量评价及其在药物递送、免疫接种等多个领域的应用,探讨可溶性微针发展中存在的问题并展望其未来的研究方向,为进一步开发、应用可溶性微针提供参考。     

可溶性聚合物微针用于药物经皮递送的研究进展

目的： 了解国内外对于可溶性聚合物微针这一新型药物递送系统的研究进展，并对其优势及存在的问题进行分析，对发展前景进行展望。方法： 通过文献调研，总结可溶性聚合物微针的材料及功能，分析可溶性微针所解决的临床用药问题，以及各微针基质材料所具有的优势与面临的挑战。结果： 本文以临床不同的用药需求为视角进行分类，介绍了聚合物材料在可溶性微针递药系统中的应用，并对其优势及面临的挑战进行总结，对发展前景进行展望。结论： 目前对于可溶性聚合物微针的研究已取得了令人瞩目的进展。然而，为实现临床转化，可溶性聚合物微针递药系统的载药能力、安全性等方面仍然需要进一步的研究。     

Permeability Enhancement for Transdermal Delivery of Large Molecule Using Low-Frequency Sonophoresis Combined with Microneedles

Transdermal drug delivery is limited by the high resistance of skin towards diffusion of high-molecular-weight drugs. This is mainly because of the fact that the outer layer of the skin, that is the stratum corneum, can prevent diffusion of molecules whose molecular weight is greater than 500 Da. Sonophoresis can be used to enhance the permeability of the skin. However, in the delivery of large molecules, ultrasound alone cannot provide sufficient permeability enhancement. In addressing this issue, we propose optimised ultrasound combined with microneedles to further increase the permeation rates. In this paper, we use porcine ear skin to simulate human skin and treat the skin samples with both ultrasound and microneedles. Further, bovine serum albumin (BSA) is used as a model of larger molecular weight molecule. Our results show that the permeability of BSA is increased to 1 μm/s with the combination of 1.5 mm microneedles patch and 15-W ultrasound output which is about 10 times higher than the permeability obtained in passive diffusion. Diffusion with only microneedles or ultrasound pre-treatment is also tested. The maximum permeability from microneedles and ultrasound treatment reached 0.43 and 0.4 μm/s, respectively. © 2013 Wiley Periodicals, Inc. and the American Pharmacists Association J Pharm Sci 102:3614–3622, 2013     

Evaluation of In-vivo Transdermal Absorption of Cyclosporin with Absorption Enhancer Using Intradermal Microdialysis in Rats

The purpose of this study was to evaluate the effect of absorption enhancer on in-vivo transdermal absorption of cyclosporin using intradermal microdialysis in rats. Cyclosporin oily solutions (0.5, 2, 8% w/v) were prepared from Sandimmun (10% w/v oily oral preparation of cyclosporin) by diluting with olive oil. 1-[2-(Decylthio)ethyl]azacyclopentan-2-one (HPE-101) and glycerin were added to the cyclosporin formulation as an absorption enhancer at various concentrations between 1 and 20%. These formulations were applied to the shaved abdomen of rats treated with intradermal microdialysis at a flow rate of 2.5 μL min^?1 for 6 h. Cyclosporin was immediately detected and attained a plateau in the dermal dialysate after topical application of cyclosporin oily solution alone. Cyclosporin levels in the dialysate increased with increasing cyclosporin concentrations in the formulation from 0.5 to 8% (w/v). HPE-101 did not influence cyclosporin absorption at concentrations less than 6% (w/v). Addition of 10% (w/v) HPE-101 significantly enhanced an apparent absorption rate of cyclosporin by 4.9 times. However, 20% (w/v) HPE-101 did not show the enhancing activity. On the other hand, addition of glycerin at concentrations of 6, 10, and 20% (v/v) significantly enhanced an apparent absorption rate of cyclosporin by 3.0, 64, and 6.9 times, respectively. The time lag for cyclosporin absorption was less than 0.21 h in all tested cases. This microdialysis study shows that glycerin is a suitable enhancer for improving the in-vivo cyclosporin absorption from the skin.     

Fabrication of Rapidly Separable Microneedles for Transdermal Delivery of Metformin on Diabetic Rats

In this work, the rapidly separable microneedles (MNs) consisted of needle-tips and supporting bases have been fabricated by a step-by-step coating method. Poly (vinyl alcohol) (PVA) have been used to prepare the needle-tips of MNs in which they are capped on the solvable supporting bases consisted of sodium bicarbonate, poly (vinyl pyrolidone) (PVP), and tartaric acid (TA) (NaHCO₃/PVP/TA). After insertion into the skin, the needle-tips can be separated rapidly from the patches within 90 s due to the generation of air bubbles in the supporting bases by the reaction between NaHCO₃ and TA after absorption of tissue fluid, leading to the needle-tips remaining in the skin tissue. Metformin, a hypoglycemic drug, encapsulated in the needle-tips of MNs can be released due to swelling and decomposition of PVA by the absorption of tissue fluid. To investigate the pharmacological effect via transdermal delivery route, metformin-loaded MNs are applied on the diabetic SD rats induced by streptozotocin (STZ). They exhibit a longer hypoglycemic effect in vivo than that of subcutaneous injection. These results indicated the as-fabricated rapidly separable MNs present a promising platform for transdermal delivery of drugs against diabetic patients.     

Determination of Depth-Dependent Intradermal Immunogenicity of Adjuvanted Inactivated Polio Vaccine Delivered by Microinjections via Hollow Microneedles

Purpose

The aim of this study was to investigate the depth-dependent intradermal immunogenicity of inactivated polio vaccine (IPV) delivered by depth-controlled microinjections via hollow microneedles (HMN) and to investigate antibody response enhancing effects of IPV immunization adjuvanted with CpG oligodeoxynucleotide 1826 (CpG) or cholera toxin (CT).

Methods

A novel applicator for HMN was designed to permit depth- and volume-controlled microinjections. The applicator was used to immunize rats intradermally with monovalent IPV serotype 1 (IPV1) at injection depths ranging from 50 to 550 μm, or at 400 μm for CpG and CT adjuvanted immunization, which were compared to intramuscular immunization.

Results

The applicator allowed accurate microinjections into rat skin at predetermined injection depths (50–900 μm), -volumes (1–100 μL) and -rates (up to 60 μL/min) with minimal volume loss (±1–2%). HMN-mediated intradermal immunization resulted in similar IgG and virus-neutralizing antibody titers as conventional intramuscular immunization. No differences in IgG titers were observed as function of injection depth, however IgG titers were significantly increased in the CpG and CT adjuvanted groups (7-fold).

Conclusion

Intradermal immunogenicity of IPV1 was not affected by injection depth. CpG and CT were potent adjuvants for both intradermal and intramuscular immunization, allowing effective vaccination upon a minimally-invasive single intradermal microinjection by HMN.

     

微乳和基于微乳的经皮给药制剂的研究进展

近年来,微乳作为一种具有粒径小、渗透性强、溶解度大、易于制备的新型递药载体,在药物制剂的开发过程中得到广泛研究。本文总结了近年来国内外微乳和基于微乳的经皮给药制剂在不同种类药物中应用的相关文献,介绍了微乳的组成、形成机制、优缺点及在各治疗领域的研究实例。微乳具有促进药物透皮吸收、提高稳定性、延长作用时间和降低皮肤刺激性的优势,因此在经皮给药制剂领域具有广阔的应用前景。     

基因治疗新药核酶的研究进展

对基因治疗新药核酶的结构、作用机制、临床和基础应用进行综述及展望。     

透皮贴剂的技术及质量控制进展

目的：介绍透皮贴剂的上市药品进展、剂型技术进展与质量控制要求。方法：检索并梳理归纳透皮贴剂上市情况以及贴剂类型、基质种类、皮肤吸收、促渗技术、质量控制方面的研究文献和相关技术指导原则。结果与结论：综述了透皮贴剂的剂型特点、技术进展以及系统总结了透皮贴剂的质量控制指标,建议应重点关注透皮贴剂的体外药物释放度、皮肤渗透性、黏附力、冷流和药物残留等关键质量属性。     

Microneedles and transdermal applications

With the limitations of oral drug delivery and the pain and needle phobias associated with traditional injections, drug delivery research has focused on the transdermal delivery route. A formidable barrier to transdermal drug delivery is the stratum corneum, the superficial layer of the skin. In the last 10 years, microneedles were proposed as a mechanical tool to pierce through the stratum corneum, in order to create drug delivery channels without stimulating underlying pain nerves. Since then, the field of microneedles has rapidly evolved to spawn a plethora of potential transdermal applications. In this review, the authors provide an overview of the progress in microneedle research and design, and the advancements that have been made in employing this technology for transdermal applications.     

国内外经皮吸收制剂的研究进展

目的 介绍国内外经皮吸收制剂的研究进展.方法 以国内外相关文献为基础,对经皮吸收制剂在制剂分类、渗透促进剂、促渗透方法和技术的最新进展进行分析、整理和归纳.结果与结论 随着现代药剂学的迅速发展,经皮吸收制剂具有广阔的发展前景.     

Microneedles and their applications

Microneedle mediated microporation has proved its potential to enhance the delivery of therapeutic drug molecules through skin over the last one decade. Several patents have been granted and cutting edge research is going on particularly for the delivery of biopharmaceuticals (macromolecules like protein or peptides). The technology involves use of micron sized needles made of diverse materials to form microchannels into the stratum corneum (or deeper), outermost barrier layer of the skin. These microchannels are deep enough to facilitate efficient drug delivery through disrupted stratum corneum but short enough to avoid bleeding or pain. So far, the microneedle technology has been explored for drug and vaccine delivery through transcutaneous route. However, the miniaturized nature of these microneedles and anticipated minimal invasiveness has led the scientists to explore and patent its possible use for several other applications.The use of this technology in combination with other enhancement techniques has also gained recent attention. This review article focuses on the latest developments in the field of microneedles as described in patent and research literature. Comprehensive review of several topics including device design/fabrication, formulation development, safety/regulatory issues, therapeutic applications and major challenges in the commercialization of microneedles as medical devices has been presented here.     

Rapidly Dissolving Microneedle Patches for Transdermal Iron Replenishment Therapy

The prevalence of iron deficiency anemia (IDA) is predominant in women and children especially in developing countries. The disorder affects cognitive functions and physical activity. Although oral iron supplementation and parenteral therapy remains the preferred choice of treatment, gastric side effects and risk of iron overload decreases adherence to therapy. Transdermal route is an established approach, which circumvents the side effects associated with conventional therapy. In this project, an attempt was made to investigate the use of rapidly dissolving microneedles loaded with ferric pyrophosphate (FPP) as a potential therapeutic approach for management of IDA. Microneedle array patches were made using the micromolding technique and tested in vitro using rat skin to check the duration required for dissolution/disappearance of needles. The ability of FPP-loaded microneedles to replenish iron was investigated in anemic rats. Rats were fed iron-deficient diet for 5 weeks to induce IDA following which microneedle treatment was initiated. Recovery of rats from anemic state was monitored by measuring hematological and biochemical parameters. Results from in vivo study displayed significant improvements in hemoglobin and serum iron levels after 2-week treatment with FPP-loaded microneedles. The study effectively demonstrated the potential of microneedle-mediated iron replenishment for treatment of IDA.