首页|超声导入对酮洛芬凝胶药物经皮促透效果的研究

超声导入对酮洛芬凝胶药物经皮促透效果的研究

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目的 研究物理经皮促透手段低频低功率超声对酮洛芬凝胶经皮吸收的促进作用。方法 以酮洛芬凝胶为模型药物,比较超声处理和未处理组的离体经皮渗透量。并建立大鼠胶原蛋白致炎模型,评价2组药效学差异。最后通过药动学研究观察超声对酮洛芬凝胶体内过程的影响。结果 与未进行超声处理相比,超声处理可将酮洛芬凝胶在给药24h的离体皮肤累积渗透量提高3。5倍;使药动学中的AUC0-t从(4 289。02±763。58)ng·h·mL-1提高至(11 301。10±3 386。30)ng·h·mL-1,Tmax从(6。0±1。4)h提前至(3。0±2。0)h;另外,超声处理4h后能显著提高酮洛芬凝胶在大鼠炎症模型中的抗炎作用,快速有效地降低蛋清致炎后的肿胀程度。结论 本研究从皮肤渗透试验、药效学评价和药动学等方面证实了低频低功率超声可显著提高酮洛芬凝胶的经皮吸收量和吸收速率,增强其药效强度,是酮洛芬凝胶经皮给药的有效促进手段。
Study on the Enhanced Transdermal Permeation of Ketoprofen Gel Induced by Ultrasound
OBJECTIVE To investigate the potential of low-frequency,low-power ultrasound to enhance the transdermal absorption and efficacy of ketoprofen gel.METHODS Ketoprofen gel was used as a model drug to compare the in vitro transdermal permeation of ultrasound treated group and untreated group.Additionally,a rat model of collagen-induced inflammation provided a basis for evaluating pharmacodynamic differences.Pharmacokinetic studies further elucidated the effects of ultrasound on ketoprofen gel's penetration process.RESULTS Ultrasound treatment enhanced the cumulative transdermal permeation of ketoprofen gel by 3.5-fold over 24 hours compared to untreated.Significant pharmacokinetic improvements in AUC0-t from(4 289.02±763.58)ng·h·mL-1 to(11 301.10±3 386.30)ng·h·mL-1 and a reduction in Tmax from(6.0±1.4)h to(3.0±2.0)h.Ultrasound notably improved the gel's anti-inflammatory effects in the rat model,effectively and rapidly reducing inflammation-induced swelling.CONCLUSION Low-frequency,low-power ultrasound can significantly improve the amount and rate of transdermal absorption of ketoprofen gel and enhance its pharmacological potency,from the aspects of skin permeation tests,pharmacodynamic evaluation,and pharmacokinetic studies,which is an effective penetration enhancer for transdermal administration of ketoprofen gel.

ketoprofen gelultrasound-assisted deliveryin vitro permeationpharmacodynamicspharmacokinetics

蒋秀梅、方任华、牛文信、王维青、安悦、杨晶、王浩然、江昌照、叶金翠

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杭州医学院,浙江省神经精神疾病药物研究重点实验室,杭州 310013

浙江工业大学长三角绿色制药协同创新中心,浙江湖州 313200

南通大学杏林学院,江苏南通 226001

酮洛芬凝胶 超声导入 离体渗透 药效学 药动学

浙江省基础公益研究计划项目浙江省基础公益研究计划项目浙江省医药卫生科技计划项目浙江省中医药科技计划项目浙江省中医药科技计划项目浙江省中医药科技计划项目

LHDMZ22H300013LTGD23H3000012023KY6522022ZB2222023ZL3572023ZL356

2024

10.13748/j.cnki.issn1007-7693.20240893

中国现代应用药学
中国药学会

中国现代应用药学

CSTPCD北大核心
影响因子:0.877
ISSN:1007-7693
年,卷(期):2024.41(11)
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