使用COMSOL软件的氧化铁微粒药物附着系统用于白血病治疗的双电泳模拟程序:LMIC的潜在治疗参考。

IF 2.7 Q3 ENGINEERING, BIOMEDICAL
Frontiers in medical technology Pub Date : 2023-10-12 eCollection Date: 2023-01-01 DOI:10.3389/fmedt.2023.1250964
Henry Fenekansi Kiwumulo, Haruna Muwonge, Charles Ibingira, Michael Lubwama, John Baptist Kirabira, Robert Tamale Ssekitoleko
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引用次数: 0

摘要

背景:白血病包括各种亚型,每种亚型都有其独特的特征和治疗方法。挑战在于开发能够有效解决与每种亚型相关的特定基因突变或异常的靶向疗法。随着时间的推移,一些白血病患者可能会对现有的治疗方法产生耐药性,从而降低他们对化疗或其他标准治疗的敏感性。目标:制定新的治疗策略以克服耐药性是一项持续的挑战,尤其是在中低收入国家。使用COMSOL软件进行的计算研究可以为治疗白血病等复杂癌症提供一种经济、快速、足智多谋的方法。方法:利用COMSOL Multiphysics软件,利用介电泳(DEP)对一种能够向早期白血病细胞输送抗白血病药物的连续流微流体装置进行了计算建模。这种护理点应用通过数值计算的电场和流速模拟产生了低电压。结论:因此,这种介电泳低电压应用模型可以作为大小约为5的早期白血病细胞的计算治疗参考 μm。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

A di-electrophoretic simulation procedure of iron-oxide micro-particle drug attachment system for leukemia treatment using COMSOL software: a potential treatment reference for LMICs.

A di-electrophoretic simulation procedure of iron-oxide micro-particle drug attachment system for leukemia treatment using COMSOL software: a potential treatment reference for LMICs.

Background: Leukemia encompasses various subtypes, each with unique characteristics and treatment approaches. The challenge lies in developing targeted therapies that can effectively address the specific genetic mutations or abnormalities associated with each subtype. Some leukemia cases may become resistant to existing treatments over time making them less susceptible to chemotherapy or other standard therapies.

Objective: Developing new treatment strategies to overcome resistance is an ongoing challenge particularly in Low and Middle Income Countries (LMICs). Computational studies using COMSOL software could provide an economical, fast and resourceful approach to the treatment of complicated cancers like leukemia.

Methods: Using COMSOL Multiphysics software, a continuous flow microfluidic device capable of delivering anti-leukemia drugs to early-stage leukemia cells has been computationally modeled using dielectrophoresis (DEP).

Results: The cell size difference enabled the micro-particle drug attachment to the leukemia cells using hydrodynamic focusing from the dielectrophoretic force. This point of care application produced a low voltage from numerically calculated electrical field and flow speed simulations.

Conclusion: Therefore, such a dielectrophoretic low voltage application model can be used as a computational treatment reference for early-stage leukemia cells with an approximate size of 5 μm.

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CiteScore
3.70
自引率
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