Printed cisplatin on microneedle arrays for transdermal delivery enhances olaparib-induced synthetic lethality in a mouse model of homologous recombination deficiency

IF 6.8 3区医学 Q1 ENGINEERING, BIOMEDICAL

International Journal of Bioprinting Pub Date : 2023-06-23 DOI:10.36922/ijb.0048

Z. Kanaki, Alexandra Smina, C. Chandrinou, Fotini E. Koukouzeli, Yiannis Ntounias, N. Paschalidis, I. Cheliotis, M. Makrygianni, Jill Ziesmer, Georgios A. Sotiriou, I. Zergioti, C. Tamvakopoulos, A. Klinakis

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引用次数: 1

Abstract

Small molecule inhibitors targeting specific proteins are claiming a continuously growing share in cancer therapy, more commonly in combination with traditional chemotherapeutic drugs. While these inhibitors are taken orally, the majority of chemotherapies are administered through intravenous injection in the hospital premises. Alternative routes for chemotherapy administration would allow more frequent administration at lower dosing by the patient oneself, allowing combination treatment with reduced side effects. Here, we employed laser printing to prepare microneedles for transdermal delivery of cisplatin. Combination treatment with cisplatin transdermally and the poly (ADP-ribose) polymerase (PARP) inhibitor olaparib orally leads to effective treatment in a cancer xenograft mouse model in vivo, while reducing the risk for systemic side effects. This work opens new avenues in anti-cancer therapy by allowing the administration of chemotherapy without the need for intravenous injection alone or in combination with other therapies.

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用微针阵列打印的顺铂经皮递送增强了奥拉帕尼诱导的同源重组缺陷小鼠模型的合成致病性

靶向特定蛋白质的小分子抑制剂在癌症治疗中的份额不断增长，更常见的是与传统化疗药物联合使用。虽然这些抑制剂是口服的，但大多数化疗是在医院内通过静脉注射进行的。化疗的另一种途径是允许患者自己以更低的剂量更频繁地给药，从而减少副作用的联合治疗。本研究采用激光打印技术制备用于顺铂经皮给药的微针。经皮顺铂和口服聚(adp -核糖)聚合酶(PARP)抑制剂奥拉帕尼联合治疗在体内癌症异种移植小鼠模型中有效，同时降低了全身副作用的风险。这项工作开辟了抗癌治疗的新途径，使化疗不需要单独静脉注射或与其他疗法联合进行。

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来源期刊

International Journal of Bioprinting Multiple-

CiteScore

6.90

自引率

4.80%

发文量

期刊介绍： The International Journal of Bioprinting is a globally recognized publication that focuses on the advancements, scientific discoveries, and practical implementations of Bioprinting. Bioprinting, in simple terms, involves the utilization of 3D printing technology and materials that contain living cells or biological components to fabricate tissues or other biotechnological products. Our journal encompasses interdisciplinary research that spans across technology, science, and clinical applications within the expansive realm of Bioprinting.