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Astragalus membranaceus(Fisch.)Bge.administered by dissolving microneedles achieves systemic therapeutic effects at low doses Author links open overlay panel
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作者 Yiwen Chen Zihan Zhou +3 位作者 Luzheng Zhang Zifan Ding Pengyue Li Cong Yan 《Journal of Traditional Chinese Medical Sciences》 CAS 2024年第3期340-350,共11页
Objective:To determine the main components of Astragalus membranaceus(Fisch.)Bge(A.membranaceus,Huang Qi),Astragaloside IV(AIV)and Astragalus polysaccharides(AP),to characterize their properties,evaluate their in vivo... Objective:To determine the main components of Astragalus membranaceus(Fisch.)Bge(A.membranaceus,Huang Qi),Astragaloside IV(AIV)and Astragalus polysaccharides(AP),to characterize their properties,evaluate their in vivo efficacy,and to analyze drug diffusion using dissolving microneedle(DMN)technology in vivo.Methods: Respectively,AIV-and AP-loaded DMNs comprising chitosan(CTS)and polyvinyl alcohol(PVA)were prepared via dual-mold forming.Their morphology,mechanical properties,in vivo solubility,and skin irritation characteristics were tested.In vivo efficacy was assessed in cyclophosphamide-induced immunosuppressed mice,in vivo diffusion of AIV and AP by DMNs and conventional methods was compared,and the rheological properties of AIV-CTS-PVA and AP-CTS-PVA mixtures were measured.Results: Subcutaneous dissolution and absorption of AIV-CTS-PVA and AP-CTS-PVA microneedles(MNs)at low doses(50%–17%of intraperitoneal AIV injection and 12%–4%of intravenous AP injection)reduced the spleen index and acid phosphatase activity in immunosuppressed mouse models,increased the thymus index,and achieved equivalent or better systemic therapeutic effects.Compared with injections,AIV and AP achieved controllable solid-liquid conversion through delivery with CTS-PVA MNs,resulting in highly localized aggregation within 48 h,reducing the initial explosive effect of the drug,and achieving stable and slow drug release.Conclusion: The present study enhances our understanding of the efficacy and remote effects of drug-loaded DMNs from a traditional Chinese medicine(TCM)perspective,thereby promoting the development of precise and efficient delivery of TCM and further expanding the drug-loading range and application scenarios for DMNs. 展开更多
关键词 Dissolving microneedle Astragaloside IV Astragalus polysaccharides In vivo diffusion Rheological properties Acupuncture IMMUNOSUPPRESSION Drug delivery
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Microneedles for Enhanced Topical Treatment of Skin Disorders:Applications,Challenges,and Prospects 被引量:1
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作者 Tingting Peng Yangyan Chen +5 位作者 Wanshan Hu Yao Huang Minmin Zhang Chao Lu Xin Pan Chuanbin Wu 《Engineering》 SCIE EI CAS CSCD 2023年第11期170-189,共20页
Microneedles(MNs)can be used for the topical treatment of skin disorders as they directly deliver therapeutics to the site of skin lesions,resulting in increased therapeutic efficacy while having minimum side effects.... Microneedles(MNs)can be used for the topical treatment of skin disorders as they directly deliver therapeutics to the site of skin lesions,resulting in increased therapeutic efficacy while having minimum side effects.MNs are used to deliver different kinds of therapeutics(e.g.,small molecules,macromolecules,nanomedicines,living cells,bacteria,and exosomes)for treating various skin disorders,including superficial tumors,wounds,skin infections,inflammatory skin diseases,and abnormal skin appearance.The therapeutic efficacy of MNs can be improved by integrating the advantages of multiple therapeutics to perform combination therapy.Through careful designing,MNs can be further modified with biomimetic structures for the responsive drug release from internal and external stimuli and to enhance the transdermal delivery efficiency for robust therapeutic outcomes.Some studies have proposed the use of drug-free MNs as a promising mechanotherapeutic strategy to promote wound healing,scar removal,and hair regeneration via a mechanical communication pathway.Although MNs have several advantages,the practical application of MNs suffers from problems related to industrial manufacture and clinical evaluation,making it difficult for clinical translation.In this study,we summarized the various applications,emerging challenges,and developmental prospects of MNs in skin disorders to provide information on ways to advance clinical translation. 展开更多
关键词 microneedles Transdermal drug delivery system Skin disorders TREATMENTS CHALLENGES PROSPECTS
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Dissolvable polymeric microneedles loaded with aspirin for antiplatelet aggregation
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作者 Baorui Wang Suohui Zhang +5 位作者 Guozhong Yang Zequan Zhou Mengzhen Xing Han Liu Aguo Cheng Yunhua Gao 《Asian Journal of Pharmaceutical Sciences》 SCIE CAS 2023年第1期108-119,共12页
To reduce mucosal damage in the gastrointestinal tract caused by aspirin,we developed a dissolvable polymeric microneedle(MN)patch loaded with aspirin.Biodegradable polymers provide mechanical strength to the MNs.The ... To reduce mucosal damage in the gastrointestinal tract caused by aspirin,we developed a dissolvable polymeric microneedle(MN)patch loaded with aspirin.Biodegradable polymers provide mechanical strength to the MNs.The MN tips punctured the cuticle of the skin and dissolved when in contact with the subcutaneous tissue.The aspirin in the MN patch is delivered continuously through an array of micropores created by the punctures,providing a stable plasma concentration of aspirin.The factors affecting the stability of aspirin during MNs fabrication were comprehensively analyzed,and the hydrolysis rate of aspirin in the MNs was less than 2%.Compared to oral administration,MN administration not only had a smoother plasma concentration curve but also resulted in a lower effective dose of antiplatelet aggregation.Aspirin-loaded MNs were mildly irritating to the skin,causing only slight erythema on the skin and recovery within 24 h.In summary,aspirin-loaded MNs provide a new method to reduce gastrointestinal adverse effects in patients requiring aspirin regularly. 展开更多
关键词 ASPIRIN Transdermal drug delivery Polymeric microneedles HYDROLYSIS Antiplatelet aggregation
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Development, Application and Prospect of Dissolving Microneedles
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作者 Juan YAN Chaoguo SUN +3 位作者 Yanjing LI Yuchen CUI Dongfang SHI Suohui ZHANG 《Agricultural Biotechnology》 CAS 2023年第1期55-60,共6页
In recent years, as a new transdermal drug delivery method, microneedle transdermal drug delivery technology accelerates the absorption of drugs through micron pores, which has been widely used in the field of medicin... In recent years, as a new transdermal drug delivery method, microneedle transdermal drug delivery technology accelerates the absorption of drugs through micron pores, which has been widely used in the field of medicine and cosmetics. Dissolving microneedles have the characteristics of good biocompatibility and fast dissolution speed, which attract more and more researchers’ attention and research. In this paper, the concept, properties and preparation methods of dissolving microneedles as well as the research status of dissolving microneedles in the field of medicine and cosmetics in recent years were summarized and prospected, so as to enable researchers to have a clearer and comprehensive understanding of dissolving microneedles and prospect the application and development prospects of dissolving microneedles in the industry. 展开更多
关键词 Dissolving microneedles Medicine MAKEUP DEVELOPMENT APPLICATION
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Revolutionizing diabetic wound healing:The power of microneedles
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作者 Chun Liang Ren Wang +7 位作者 Tian He Dongsheng Chen Guangliang Zhang Xiangye Yin Hongyu Wang Jiale Xie Yujing Li Youbai Chen 《Chinese Journal of Plastic and Reconstructive Surgery》 2023年第4期185-194,共10页
Diabetic wounds significantly affect patient quality of life.Microneedles are a promising treatment to accelerate wound healing owing to their high drug-loading capacity and efficient drug delivery;however,few studies... Diabetic wounds significantly affect patient quality of life.Microneedles are a promising treatment to accelerate wound healing owing to their high drug-loading capacity and efficient drug delivery;however,few studies to date have comprehensively reviewed microneedles for diabetic wound healing.This up-to-date review summarizes the research progress in microneedles for diabetic wound healing,including manufacturing materials and techniques,structures,designs,release mechanisms,delivery substances,and their specific effects.This study showed that most microneedles designed for diabetic wounds are made of synthetic polymers and/or natural materials using polydimethylsiloxane micromolding.The geometric structure and design directly influence penetration ability and drug delivery capacity.Microneedles can deliver antibiotics,hypoglycemic agents,traditional Chinese medicines,metal ions,growth factors,exosomes,stem cells,and microorganisms,thus promoting diabetic wound healing through diverse mechanisms,such as antibacterial,anti-inflammatory,antioxidant,hypoglycemic,and angiogenic activities,at different stages of the healing process.In conclusion,microneedles are promising drug delivery systems for the treatment of diabetic wounds. 展开更多
关键词 Diabetic wound microneedles Wound healing
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Fabrication of gelatin methacryloyl hydrogel microneedles for transdermal delivery of metformin in diabetic rats 被引量:7
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作者 Zhiyong Zeng Guohua Jiang +6 位作者 Tianqi Liu Gao Song Yanfang Sun Xueya Zhang Yanting Jing Mingjia Feng Yufei Shi 《Bio-Design and Manufacturing》 SCIE EI CSCD 2021年第4期902-911,共10页
Injection therapy for diabetes has poor patient compliance,and the pain occurring at the site of subcutaneous injections causes significant inconvenience to diabetic patients.In this work,to demonstrate the benefits o... Injection therapy for diabetes has poor patient compliance,and the pain occurring at the site of subcutaneous injections causes significant inconvenience to diabetic patients.In this work,to demonstrate the benefits of an alternative drug delivery technique that overcomes these issues,methacrylated gelatin hydrogel-forming microneedles integrated with metformin were developed to adjust blood glucose levels in diabetic rats.Gelatin methacryloyl microneedles(GelMA-MNs)with different degrees of substitution were successfully prepared by a micro-molding method.The resultant GelMA-MNs exhibited excellent mechanical properties and moisture resistance.Metformin,an anti-diabetic drug,was further encapsulated into the GelMA-MNs,and its release rate could be controlled by the three-dimensional cross-linked network of microneedles,thereby exhibiting sustained drug release behaviors in vitro and implying a better therapeutic effect compared with that of subcutaneous injection in diabetic rats.The drug release period could be significantly prolonged by improving the cross-link density of GelMA-MNs.The results of hypoglycemic effect evaluation show that the application of GelMA-MNs for transdermal delivery in diabetic rats has promising benefits for diabetes treatment. 展开更多
关键词 microneedles METFORMIN Transdermal delivery BIODEGRADABLE GELATIN Hypoglycemic effect
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pH-activatable oxidative stress amplifying dissolving microneedles for combined chemo-photodynamic therapy of melanoma 被引量:1
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作者 Yanjuan Huang Hualu Lai +9 位作者 Jingwen Jiang Xiaoyu Xu Zishan Zeng Lingling Ren Qiuxing Liu Meixu Chen Tao Zhang Xin Ding Chunshun Zhao Shengmiao Cui 《Asian Journal of Pharmaceutical Sciences》 SCIE CAS 2022年第5期679-696,共18页
Photodynamic therapy(PDT)-mediated oxidation treatment is extremely attractive for skin melanoma ablation,but the strong hydrophobicity and poor tumor selectivity of photosensitizers,as well as the oxygen-consuming pr... Photodynamic therapy(PDT)-mediated oxidation treatment is extremely attractive for skin melanoma ablation,but the strong hydrophobicity and poor tumor selectivity of photosensitizers,as well as the oxygen-consuming properties of PDT,leading to unsatisfactory therapeutic outcomes.Herein,a tumor acidic microenvironment activatable dissolving microneedle(DHA@HPFe-MN)was developed to realize controlled drug release and excellent chemo-photodynamic therapy of melanoma via oxidative stress amplification.The versatile DHA@HPFe-MN was fabricated by crosslinking a self-synthesized protoporphyrin(PpIX)-ADH-hyaluronic acid(HA)conjugate HA-ADH-PpIX with“iron reservoir”PA-Fe 3+complex in the needle tip via acylhydrazone bond formation,and dihydroartemisinin(DHA)was concurrently loaded in the hydrogel network.HA-ADH-PpIX with improved water solubility averted undesired aggregation of PpIX to ensure enhanced PDT effect.DHA@HPFe-MN with sharp needle tip,efficient drug loading and excellent mechanical strength could efficiently inserted into skin and reach the melanoma sites,where the acidic pH triggered the degradation of microneedles,enabling Fe-activated and DHA-mediated oxidation treatment,as evidenced by abundant reactive oxygen species(ROS)generation.Moreover,under light irradiation,a combined chemo-photodynamic therapeutic effect was achieved with amplified ROS generation.Importantly,the Fe-catalyzed ROS production of DHA was oxygen-independent,which work in synergy with the oxygen-dependent PDT to effectively destroy tumor cells.This versatile microneedles with excellent biosafety and biodegradability can be customized as a promising localized drug delivery system for combined chemo-photodynamic therapy of melanoma. 展开更多
关键词 MELANOMA Dissolving microneedles Chemo-photodynamic therapy Oxidation treatment DIHYDROARTEMISININ Hyaluronic acid
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Application of Curcumin Microneedles
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作者 Zifan ZHAO Enlong WANG Lili HE 《Medicinal Plant》 CAS 2020年第1期88-92,共5页
[Objectives]To prepare curcumin solid dispersion(Cur SD)by the melting method,using povidone(PVP K30),polyethylene glycol 6000(PEG 6000),and poloxamer 188(block polyether F-68,poloxamer 188,F68)as the carrier matrix,t... [Objectives]To prepare curcumin solid dispersion(Cur SD)by the melting method,using povidone(PVP K30),polyethylene glycol 6000(PEG 6000),and poloxamer 188(block polyether F-68,poloxamer 188,F68)as the carrier matrix,the body was directly inverted and pressed to make microneedles,and the dissolution was examined.[Methods]The dissolution in 0.2%sodium lauryl sulfate(SDS)solution within 120 min was studied,and the objects were identified by scanning electron microscopy,differential scanning calorimetry and infrared spectroscopy.[Results]The cumulative dissolution rate of 10%solid dispersion microneedles reached more than 60%in 120 min.The results of object identification also showed that curcumin was dispersed in the carrier matrix in an amorphous state.[Conclusions]Microneedles were well formed and curcumin solid dispersion significantly improved the dissolution of curcumin in 120 min. 展开更多
关键词 CURCUMIN SOLID DISPERSION microneedles DISSOLUTION
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Usefulness of Basic Fibroblast Growth Factor (bFGF) Loaded Dissolving Microneedles for Local Therapy of Skin Wounds
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作者 Kanji Takada Yukako Ito +8 位作者 Kengo Matsumoto Yuka Sato Maimi Nishio Yurie Tadano Yuri Kamei Yutaro Takemura Nana Inoue Yoshiki Akasaka Ichiro Ono 《Journal of Biomaterials and Nanobiotechnology》 2013年第3期256-264,共9页
Purpose: The usefulness of dissolving microneedles (DMs) for local skin therapy by basic fibroblast growth factor (bFGF) was studied in rats. Methods: We prepared four kinds of bFGF-loaded DMs, approximately 500 μm l... Purpose: The usefulness of dissolving microneedles (DMs) for local skin therapy by basic fibroblast growth factor (bFGF) was studied in rats. Methods: We prepared four kinds of bFGF-loaded DMs, approximately 500 μm length and 300 μm diameter at the bottom. Long-term stability and dissolution studies were performed by HPLC method. Pharmacokinetic and pharmacological evaluations were performed after administration of bFGF loaded DMs to rats. Results: The bFGF contents were 2.15 ± 0.07, 1.07 ± 0.04, 0.56 ± 0.07 and 0.12 ± 0.03 μg. The 100.2 ± 3.4%, 100.2 ± 3.3%, 99.3 ± 1.4% and 100.4 ± 3.0% of bFGF were recovered after 1, 3 and 6 months and 1 year incubation at 40°C. The bFGF was released from DMs within 5 min. In a pharmacokinetic study using 2.0 and 1.0 μg bFGF-loaded DMs, no systemic exposure of bFGF was detected. The initial bFGF concentrations in the rat skin tissue after administration of bFGF-loaded DMs to the hair-removed rat abdominal skin were 510.2 ± 20.1 ng/g wet weight for 2 μg bFGF DMs and 264.2 ± 56.5 ng/g wet weight for 1 μg DMs, declining slowly thereafter to 226.3 ± 33.5 and 105.1 ± 27.4 ng/g wet weight at 6 hr after administration. Good dose-dependency was observed. Pharmacological evaluation of bFGF-loaded DMs of 2.0, 1.0, 0.5, and 0.1 μg, in the wound healing rat model, all used DMs, but 0.1 μg DMs, showed good healing effects. Considered collectively, these results suggest the usefulness of bFGF-loaded DMs for local therapy of skin wound disease. 展开更多
关键词 Basic Fibroblast Growth Factor (bFGF) DISSOLVING microneedles (DMs) TRANSDERMAL Delivery Wound Healing Rats
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Two-and Three-Layered Dissolving Microneedles for Transcutaneous Delivery of Model Vaccine Antigen in Rats
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作者 Asuka Ikejiri Yukako Ito +1 位作者 Seishiro Naito Kanji Takada 《Journal of Biomaterials and Nanobiotechnology》 2012年第3期325-334,共10页
Purpose: Comparison of transcutaneous immunization of ovalbumin (OA) between two-and three-layered dissolving microneedles (MN) in rats. Methods: We prepared 500 μm long two-layered and three-layered dissolving micro... Purpose: Comparison of transcutaneous immunization of ovalbumin (OA) between two-and three-layered dissolving microneedles (MN) in rats. Methods: We prepared 500 μm long two-layered and three-layered dissolving microneedle (2-MN and 3-MN, respectively) arrays from chondroitin sulfate as the base, and OA as the model antigen. The 2-MN containing OA at the acral portion and 3-MN with OA at the second portion were administered to rat skin transcutaneously. As a positive control, OA solution was injected subcutaneously (sc). The OA delivery and diffusion in the rat skin were studied using confocal microscopy with fluorescein-conjugated OA (FL-OA). Results: The formulated positions of OA were 0-155 ± 5 μm for 2-MN and 175 ± 4 – 225 ± 5 μm for 3-MN. The administered doses of OA were 2.2 ± 0.1 μg, 12.0 ± 0.2 μg and 22.0 ± 0.2 μg for 2-MN, 1.8 ± 0.2 μg, 12.6 ± 0.7 μg, and 20.4 ± 0.3 μg for 3-MN, 10 μg, 100 μg and 1000 μg for sc injection. At 4 weeks after the first administration, 3-MN showed about 2.5-7.0 fold and 5.4 fold higher total Ig (G + A + M) antibody than 2-MN and sc injection of the OA solution. Conclusions: The 3-MN, which delivered OA to the epidermis, is a useful drug delivery system for transcutaneous antigen delivery. 展开更多
关键词 DISSOLVING microneedles (Mns) Two-Layered MNS Three-Layered MNS TRANSCUTANEOUS Vaccine OVALBUMIN Fl-Ovalbumin (Fl-Oa)
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Enhanced delivery efficiency and sustained release of biopharmaceuticals by complexation-based gel encapsulated coated microneedles:rhIFNα-1b example 被引量:3
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作者 Zequan Zhou Suohui Zhang +1 位作者 Guozhong Yang Yunhua Gao 《Asian Journal of Pharmaceutical Sciences》 SCIE CAS 2021年第5期612-622,共11页
Coated microneedles(MNs) are widely used for delivering biopharmaceuticals. In this study, a novel gel encapsulated coated MNs(GEC-MNs) was developed. The water-soluble drug coating was encapsulated with sodium algina... Coated microneedles(MNs) are widely used for delivering biopharmaceuticals. In this study, a novel gel encapsulated coated MNs(GEC-MNs) was developed. The water-soluble drug coating was encapsulated with sodium alginate(SA) in situ complexation gel. The manufacturing process of GEC-MNs was optimized for mass production. Compared to the water-soluble coated MNs(72.02% ± 11.49%), the drug delivery efficiency of the optimized GEC-MNs(88.42% ± 6.72%) was steadily increased, and this improvement was investigated through in vitro drug release. The sustained-release of BSA was observed in vitro permeation through the skin. The rhIFN α-1 b GEC-MNs was confirmed to achieve biosafety and 6-month storage stability. Pharmacokinetics of rhIFN α-1 b in GEC-MNs showed a linearly dosedependent relationship. The AUC of rhIFN α-1 b in GEC-MNs(4.51 ng/ml ·h) was bioequivalent to the intradermal(ID) injection(5.36 ng/ml ·h) and significantly higher than water-soluble coated MNs(3.12 ng/ml ·h). The rhIFN α-1 b elimination half-life of GEC-MNs, soluble coated MNs, and ID injection was 18.16, 1.44, and 2.53 h, respectively. The complexation-based GECMNs have proved to be more efficient, stable, and achieve the sustained-release of watersoluble drug in coating MNs, constituting a high value to biopharmaceutical. 展开更多
关键词 Coated microneedle Drug delivery system Sustained release Interferon alpha 1b Sodium alginate
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Mathematical modeling of drug release from biodegradable polymeric microneedles 被引量:1
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作者 Sarvenaz Chavoshi Mohammad Rabiee +6 位作者 Mehdi Rafizadeh Navid Rabiee Alireza Shahin Shamsabadi Mojtaba Bagherzadeh Reza Salarian Mohammadreza Tahriri Lobat Tayebi 《Bio-Design and Manufacturing》 SCIE CSCD 2019年第2期96-107,共12页
Transdermal drug delivery systems have overcome many limitations of other drug administration routes,such as injection pain and first-pass metabolism following oral route,although transdermal drug delivery systems are... Transdermal drug delivery systems have overcome many limitations of other drug administration routes,such as injection pain and first-pass metabolism following oral route,although transdermal drug delivery systems are limited to drugs with low molecular weight.Hence,new emerging technology allowing high molecular weight drug delivery across the skin—known as‘microneedles’—has been developed,which creates microchannels that facilitate drug delivery.In this report,drug-loaded degradable conic microneedles are modeled to characterize the degradation rate and drug release profile.Since a lot of data are available for polylactic acid-co-glycolic acid(PLGA)degradation in the literature,PLGA of various molecular weights-as a biodegradable polymer in the polyester family-is used for modeling and verification of the drug delivery in themicroneedles.The main reaction occurring during polyester degradation is hydrolysis of steric bonds,leading to molecular weight reduction.The acid produced in the degradation has a catalytic effect on the reaction.Changes in water,acid and steric bond concentrations over time and for different radii of microneedles are investigated.To solve the partial and ordinary differential equations simultaneously,finite difference and Runge–Kutta methods are employed,respectively,with the aid of MATLAB.Correlation of the polymer degradation rate with its molecular weight and molecular weight changes versus time are illustrated.Also,drug diffusivity is related to matrix molecular weight.The molecular weight reduction and accumulative drug release within the system are predicted.In order to validate and assess the proposed model,data series of the hydrolytic degradation of aspirin(180.16 Da)-and albumin(66,000 Da)-loaded PLGA(1:1 molar ratio)are used for comparison.The proposed model is in good agreement with experimental data from the literature.Considering diffusion as themain phenomena and autocatalytic effects in the reaction,the drug release profile is predicted.Based on our results for a microneedle containing drug,we are able to estimate drug release rates before fabrication. 展开更多
关键词 MATHEMATICAL modeling MICRONEEDLE Polymer degradation DRUG release Poly(lactic-co-glycolic acid) AUTOCATALYTIC effect
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Transdermal delivery of fluorescein isothiocyanate-dextrans using the combination of microneedles and low-frequency sonophoresis 被引量:1
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作者 Boonnada Pamornpathomkul Sureewan Duangjit +3 位作者 Suvida Laohapatarapant Theerasak Rojanarata Praneet Opanasopit Tanasait Ngawhirunpat 《Asian Journal of Pharmaceutical Sciences》 SCIE CAS 2015年第5期415-424,共10页
This study aimed to evaluate the patient-friendly methods that are used in the delivery of hydrophilic macromolecules into deep skin layers,in particular,the combination of microneedles patch(MNs patch)and low-frequen... This study aimed to evaluate the patient-friendly methods that are used in the delivery of hydrophilic macromolecules into deep skin layers,in particular,the combination of microneedles patch(MNs patch)and low-frequency sonophoresis(SN).The hydrophilic macromolecule drug fluorescein isothiocyanate(FITC)-dextrans(FD-4:MW 4.4 kDa)was used as the model drug in our experimental design.In this study,excised porcine skin was used to investigate and optimize the key parameters that determine effective MNs-and SNfacilitated FD-4 delivery.In vitro skin permeation experiments revealed that the combination of MNs patch with SN had a superior enhancing effect of skin permeation for FD-4 compared to MNs alone,SN alone or untreated skin,respectively.The optimal parameters for the combination of MNs and SN included the following:10 N insertion force of MNs,4 W/cm^(2)SN intensity,6 mm radiation diameter of the SN probe,2 min application time,and the continuous mode duty cycle of SN.In addition,vertical sections of skin,clearly observed under a confocal microscope,confirmed that the combination of MNs and SN enhanced permeation of FD-4 into the deep skin layers.These studies suggest that the combination of MNs and SN techniques could have great potential in the delivery of hydrophilic macromolecules into deep skin. 展开更多
关键词 MICRONEEDLE SONOPHORESIS Fluorescein isothiocyanate-dextran Transdermal drug delivery
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Transdermal Study of Curcumin Solid Dispersion Microneedles in vitro
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作者 Jiao LUO Cong WANG +3 位作者 Yuping MA Shengqian TIAN Jiayi DING Lili HE 《Medicinal Plant》 CAS 2021年第2期6-10,共5页
[Objectives]To investigate the in vitro transdermal effect of curcumin solid dispersion needles prepared with povidone K 30(PVP K30),polyethylene glycol 6000(PEG 6000)and poloxamer 188(block polyether F68,poloxamer 18... [Objectives]To investigate the in vitro transdermal effect of curcumin solid dispersion needles prepared with povidone K 30(PVP K30),polyethylene glycol 6000(PEG 6000)and poloxamer 188(block polyether F68,poloxamer 188,F68)as carrier matrix,respectively.[Methods]Vertical Franz diffusion cell and HPLC method were used to detect the cumulative penetration and skin retention of the microneedles within 12 h.[Results]Within 12 h,the cumulative penetration of PVP K30 microneedles was as high as 7.098μg/cm2,and the skin retention reached 35.28μg/cm2;PEG 6000 and poloxamer 188 microneedles all showed good transdermal effect;while normal curcumin solid dispersion(control)had no obvious transdermal effect.[Conclusions]The transdermal penetration of curcumin is improved after prepared into solid dispersion microneedles,and among different matrixes,PVP K30 is the best choice. 展开更多
关键词 CURCUMIN Solid dispersion MICRONEEDLE Transdermal penetration
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Drug Loading on Microneedles
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作者 Meng-Hsuan Hsiao Hsiu-Feng Ye +1 位作者 Ta-Jo Liu Jane Wang 《Advances in Chemical Engineering and Science》 2019年第2期204-222,共19页
An experimental study was carried out to investigate the amount of drugs loaded on microneedles. The microneedles were made with poly (lactic acid). Aqueous poly (vinyl alcohol) solutions were prepared as drug solutio... An experimental study was carried out to investigate the amount of drugs loaded on microneedles. The microneedles were made with poly (lactic acid). Aqueous poly (vinyl alcohol) solutions were prepared as drug solutions. Two drug loading approaches, i.e., dropping and dipping, were examined. It was found that capillary number is the only relevant dimensionless group for the two methods. For the dropping approach, dried drugs will spread near the bottom of a microneedle patch provided the surface tension is low. As for the dipping approach, both a single microneedle and an array of nine microneedles were examined. For a single microneedle, high capillary rises before pulling and pulling speed are two key factors to increase the drug loading volume. For an array of microneedles, the effect of capillary rise owing to the interaction between microneedles would increase the drug loading volume several times higher than a single microneedle of the same dimension. 展开更多
关键词 MICRONEEDLE DRUG Loading DROPPING Dipping CAPILLARY Number CAPILLARY RISE
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Design and fabrication of customizable microneedles enabled by 3D printing for biomedical applications 被引量:2
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作者 Jia Min Loh Yun Jie Larissa Lim +3 位作者 Jin Ting Tay Hui Mei Cheng Hong Liang Tey Kun Liang 《Bioactive Materials》 SCIE CSCD 2024年第2期222-241,共20页
Microneedles(MNs)is an emerging technology that employs needles ranging from 10 to 1000μm in height,as a minimally invasive technique for various procedures such as therapeutics,disease monitoring and diagnostics.The... Microneedles(MNs)is an emerging technology that employs needles ranging from 10 to 1000μm in height,as a minimally invasive technique for various procedures such as therapeutics,disease monitoring and diagnostics.The commonly used method of fabrication,micromolding,has the advantage of scalability,however,micromolding is unable to achieve rapid customizability in dimensions,geometries and architectures,which are the pivotal factors determining the functionality and efficacy of the MNs.3D printing offers a promising alternative by enabling MN fabrication with high dimensional accuracy required for precise applications,leading to improved performance.Furthermore,enabled by its customizability and one-step process,there is propitious potential for growth for 3D-printed MNs especially in the field of personalized and on-demand medical devices.This review provides an overview of considerations for the key parameters in designing MNs,an introduction on the various 3D-printing techniques for fabricating this new generation of MNs,as well as highlighting the advancements in biomedical applications facilitated by 3D-printed MNs.Lastly,we offer some insights into the future prospects of 3D-printed MNs,specifically its progress towards translation and entry into market. 展开更多
关键词 microneedles 3D printing Drug delivery Extraction of biological specimen BIOSENSING
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Hydrogel forming microneedles loaded with VEGF and Ritlecitinib/polyhydroxyalkanoates nanoparticles for mini-invasive androgenetic alopecia treatment 被引量:1
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作者 Yan-Wen Ding Yang Li +2 位作者 Zhi-Wei Zhang Jin-Wei Dao Dai-Xu Wei 《Bioactive Materials》 SCIE CSCD 2024年第8期95-108,共14页
Androgenetic alopecia(AGA),the most prevalent clinical hair loss,lacks safe and effective treatments due to downregulated angiogenic genes and insufficient vascularization in the perifollicular microenvironment of the... Androgenetic alopecia(AGA),the most prevalent clinical hair loss,lacks safe and effective treatments due to downregulated angiogenic genes and insufficient vascularization in the perifollicular microenvironment of the bald scalp in AGA patients.In this study,a hyaluronic acid(HA)based hydrogel-formed microneedle(MN)was designed,referred to as V-R-MNs,which was simultaneously loaded with vascular endothelial growth factor(VEGF)and the novel hair loss drug Ritlecitinib,the latter is encapsulated in slowly biodegradable polyhydroxyalkanoates(PHAs)nanoparticles(R-PHA NPs)for minimally invasive AGA treatment.The integration of HA based hydrogel alongside PHA nanoparticles significantly bolstered the mechanical characteristics of microneedles and enhanced skin penetration efficiency.Due to the biosafety,mechanical strength,and controlled degradation properties of HA hydrogel formed microneedles,V-R-MNs can effectively penetrate the skin’s stratum corneum,facilitating the direct delivery of VEGF and Ritlecitinib in a minimally invasive,painless and long-term sustained release manner.V-R-MNs not only promoted angiogenesis and improve the immune microenvironment around the hair follicle to promote the proliferation and development of hair follicle cells,but also the application of MNs to the skin to produce certain mechanical stimulation could also promote angiogenesis.In comparison to the clinical drug minoxidil for AGA treatment,the hair regeneration effect of V-R-MN in AGA model mice is characterized by a rapid onset of the anagen phase,improved hair quality,and greater coverage.This introduces a new,clinically safer,and more efficient strategy for AGA treatment,and serving as a reference for the treatment of other related diseases. 展开更多
关键词 Hydrogel forming microneedles POLYHYDROXYALKANOATES VEGF Ritlecitinib Androgenetic alopecia treatment
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Lidocaine hydrochloride loaded isomaltulose microneedles for efficient local anesthesia of the skin
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作者 Xuebing Jiang Siyi Wang +2 位作者 Li Zhang Xian Jiang Maling Gou 《Chinese Chemical Letters》 SCIE CAS CSCD 2024年第4期298-302,共5页
Lidocaine hydrochloride(LIDH) as an anesthetic is widely used in local anesthesia. Dissolving microneedles(MNs) have great application value in the field of skin anesthesia. However, the limited drug-loading of dissol... Lidocaine hydrochloride(LIDH) as an anesthetic is widely used in local anesthesia. Dissolving microneedles(MNs) have great application value in the field of skin anesthesia. However, the limited drug-loading of dissolving MNs is an existing challenge that affects clinical use. In this study, we have screened isomaltulose(ISO) as the proper matrix material for the MNs by using molecular dynamics(MD) simulation. Our findings indicate that ISO has good compatibility with LIDH, and the LIDH-loaded ISO MNs(LI-MNs) have high drug-loading capacity. The drug-loading capacity of LI-MNs could reach 80%, and it could effectively puncture the skin. In addition, the preparation method of customized LI-MNs was established based on three-dimensional(3D) printing technology. It was shown that the administration time of LI-MNs could be controlled within 3 min. Also, the LI-MNs were able to provide the local anesthetic efficacy within2 min and sustained for more than 2 h. Significantly, LI-MNs had more efficient drug efficacy compared to the topical creams and the majority of existing LIDH-loaded dissolving MNs. They even provided a longer duration of action than the injections. Overall, the LI-MNs with high drug-loading have a promising application prospect. 展开更多
关键词 microneedles Local anesthesia Lidocaine hydrochloride ISOMALTULOSE Transdermal delivery
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Recent progress of vaccines administration via microneedles for cancer immunotherapy
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作者 Yuanzheng Chen Jiaojiao Zhu +1 位作者 Jinsong Ding Wenhu Zhou 《Chinese Chemical Letters》 SCIE CAS CSCD 2024年第3期96-103,共8页
Therapeutic cancer vaccines have undergone a resurgence in the past decade.Because of the high level of immune cell accumulation and abundant capillary lymphatic system in the dermis,percutaneous vaccination is consid... Therapeutic cancer vaccines have undergone a resurgence in the past decade.Because of the high level of immune cell accumulation and abundant capillary lymphatic system in the dermis,percutaneous vaccination is considered to be an ideal treatment route.For convenient administration,the recent development of microneedles(MNs)provides a safe,painless,and low-cost transdermal delivery strategy,which could bypass the first-pass metabolism of vaccines for enhanced stability and bioavailability.However,the therapeutic effect of MNs-based cancer vaccines is not optimal,which is limited by the complex set of host,tumor,and environmental factors,as well as the limited vaccine loading capacity.Therefore,further improvements are still required to push their clinical translation.In this critical review,we deliberate on how to improve the therapeutic effect of MNs-based vaccines for cancer immunotherapy,summarize the recent advances in MNs-based cancer vaccination,and provide an overview of various design strategies and mechanisms for active or passive targeting delivery,aiming to develop safer,more effective,and more stable MNs-based cancer vaccines.Finally,we briefly describe the potential of vaccine platforms in combination with other therapies,suggest the need to design vaccines according to specific circumstances,and discuss the biosafety of repeated administration for enhancing clinical efficacy. 展开更多
关键词 Transdermal delivery microneedles Cancer vaccine IMMUNOTHERAPY NANOPARTICLE Lymph node
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Accelerated infected wound healing by probiotic-based living microneedles with long-acting antibacterial effect
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作者 Yinli Jin Yun Lu +5 位作者 Xue Jiang Min Wang Yaqi Yuan Yongnian Zeng Liang Guo Wei Li 《Bioactive Materials》 SCIE CSCD 2024年第8期292-304,共13页
Delays in infected wound healing are usually a result of bacterial infection and local inflammation,which imposes a significant and often underappreciated burden on patients and society.Current therapies for chronic w... Delays in infected wound healing are usually a result of bacterial infection and local inflammation,which imposes a significant and often underappreciated burden on patients and society.Current therapies for chronic wound infection generally suffer from limited drug permeability and frequent drug administration,owing to the existence of a wound biofilm that acts as a barrier restricting the entry of various antibacterial drugs.Here,we report the design of a biocompatible probiotic-based microneedle(MN)patch that can rapidly deliver beneficial bacteria to wound tissues with improved delivery efficiency.The probiotic is capable of continuously producing antimicrobial substances by metabolizing introduced glycerol,thereby facilitating infected wound healing through long-acting antibacterial and anti-inflammatory effects.Additionally,the beneficial bacteria can remain highly viable(>80%)inside MNs for as long as 60 days at 4℃.In a mouse model of Staphylococcus aureus-infected wounds,a single administration of the MN patch exhibited superior antimicrobial efficiency and wound healing performance in comparison with the control groups,indicating great potential for accelerating infected wound closure.Further development of live probiotic-based MN patches may enable patients to better manage chronically infected wounds. 展开更多
关键词 microneedles Infected wound healing Probiotic Transdermal delivery LONG-ACTING
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