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The selection of a drug's delivery route depends upon its physicochemical properties, including lipid or water solubility and ionization, as well as the therapeutic requirement, such as immediate or sustained effect. These routes can be divided into three primary categories: enteral, parenteral, and topical.
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Roadmap on nanomedicine.

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Nanomedicine harnesses nanoscience for advanced cancer diagnosis and treatment. This field integrates diverse scientific expertise to develop novel diagnostic, imaging, and therapeutic nanosystems for improved patient outcomes.

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Area of Science:

  • Nanomedicine
  • Nanoscience
  • Biomedical Sciences

Background:

  • Global initiatives promote nanotechnology for cancer diagnosis, treatment, and prevention.
  • Interdisciplinary collaboration drives innovation at the intersection of engineering, physics, chemistry, and biomedical sciences.
  • Development of novel diagnostic, imaging, and therapeutic nanosystems is advancing towards clinical application.

Purpose of the Study:

  • To review key advancements in nanomedicine, focusing on its interaction with human biology.
  • To highlight biomedical and clinical applications of nanomedicines.
  • To emphasize the role of patient stratification in nanomedicine development.

Main Methods:

  • Review of eight articles covering nanomedicine design, biological interactions, and applications.
  • Exploration of nanomedicine's role in cancer, diabetes, stroke, and atherosclerosis.
  • Discussion on nanomedicine and theranostics for personalized medicine.

Main Results:

  • Nanomedicine rational design considers geometry and mechanical properties.
  • Nanomedicines interact with immune cells and can exploit endogenous molecules for drug delivery.
  • Successful applications include targeted cancer therapy, controlled insulin delivery for diabetes, thrombolytic particles for stroke, and nanoparticles for atherosclerosis.

Conclusions:

  • Nanomedicine is maturing from initial hype to a consolidation phase.
  • Nanomedicine and theranostics are crucial for personalized medicine development.
  • Continued research and development are essential for realizing the full potential of nanomedicine.