In recent years, the emergence of nanotechnology experienced incredible development in field medical sciences. During past decade, investigating characteristics nanoparticles during fluid flow has been one intriguing issues. Nanoparticle distribution and uniformity have emerged as substantial criteria both engineering applications. Adverse effects chemotherapy on healthy tissues are known to be a significant concern cancer therapy. A novel treatment method magnetic drug targeting (MDT) promising topical along with some attractive advantages improving efficacy, fewer side effects, reduce dose. targeting, appropriate movement (magnetic) carriers is essential for therapeutic process blood clot removal, infection treatment, tumor cell treatment. this study, we numerically investigated behavior an unsteady infused MDT under influence uniform external micro-tube. An optimal homotopy asymptotic (OHAM) employed compute governing equation electromagnetohydrodynamics flow. The Hartmann number (Ha), particle mass parameter (G), concentration (R), electro-osmotic (k) velocity Results obtained show that parameter, Hartmann’s number, dramatically affects nanoparticles, velocity, rate. Moreover, results also reveal at higher Hartman homogeneity improved considerably. parameters effectively capturing effect using micro-tube targeting. Lastly, investigation indicates OHAM analysis efficient quick handle system nonlinear equations.

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