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Related Concept Videos

Targeted Cancer Therapies02:57

Targeted Cancer Therapies

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The targeted cancer therapies, also known as “molecular targeted therapies,” take advantage of the molecular and genetic differences between the cancer cells and the normal cells. It needs a thorough understanding of the cancer cells to develop drugs that can target specific molecular aspects that drive the growth, progression, and spread of cancer cells without affecting the growth and survival of other normal cells in the body.
There are several types of targeted therapies against...
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Combination Therapies and Personalized Medicine02:50

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Combining two or more treatment methods increases the life span of cancer patients while reducing damage to vital organs or tissue from the overuse of a single treatment. Combination therapy also targets different cancer-inducing pathways, thus reducing the chances of developing resistance to treatment.
The combination of the drug acetazolamide and sulforaphane is a good example of combination therapy to treat cancer. The cells in the interior of a large tumor often die due to the hypoxic and...
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Related Experiment Video

Updated: Jun 10, 2025

Three-Dimensional Imaging of Tumor-Bearing Tissue Using the Iterative Bleaching Extends Multiplexity Approach
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Multifaceted perspectives of detecting and targeting solid tumors.

Abhishek Bhattacharya1, Anjan Kr Dasgupta2

  • 1Department of Cardiovascular and Metabolic Sciences, Lerner Research Institute, Cleveland Clinic Foundation, Cleveland, OH, United States.

International Review of Cell and Molecular Biology
|October 13, 2024
PubMed
Summary

This study explores novel strategies for solid tumor treatment, focusing on targeted drug delivery and magnetic field effects for selective cancer cell destruction. It highlights the potential of advanced bioinformatics and AI in developing future cancer therapies.

Keywords:
Alternative cancer therapyBiological circuitCancer theranosticsCancer therapeutic modelsSolid tumor targetingTargeted therapy

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Area of Science:

  • Oncology
  • Biotechnology
  • Bioinformatics

Background:

  • Solid tumors represent the most common cancer type, with early detection remaining a significant challenge.
  • Current treatments like chemotherapy and radiation therapy lack specificity, impacting healthy cells and leading to side effects.
  • Efficient drug targeting is crucial for improving solid tumor treatment efficacy and minimizing patient harm.

Purpose of the Study:

  • To discuss the unique characteristics of solid tumors and explore early detection possibilities.
  • To investigate therapeutic approaches beyond conventional methods for solid tumor treatment.
  • To introduce the potential of magnetic field effects and nanoparticles for targeted cancer cell destruction.

Main Methods:

  • Review of current solid tumor characteristics and treatment limitations.
  • Exploration of targeted drug delivery mechanisms and personalized medicine.
  • Investigation into the application of magnetic fields and magnetic nanoparticles for selective cancer cell targeting.
  • Analysis of bioinformatics tools and AI-assisted methods for tumor biology comprehension.

Main Results:

  • Targeted therapies offer superior efficacy, reduced side effects, and lower relapse rates compared to conventional treatments.
  • Magnetic fields show potential for selective cancer cell destruction due to differential susceptibility between normal and cancerous cells.
  • Bioinformatics and AI-assisted codon bias analysis are vital for understanding tumor biology and identifying novel therapeutic targets.

Conclusions:

  • Personalized, targeted therapies tailored to molecular profiles are key to augmenting treatment efficacy and reducing relapse in solid tumors.
  • Magnetic nanoparticles present a promising avenue for selective cancer cell destruction, leveraging magnetic field effects.
  • Advanced computational tools, including bioinformatics and AI, are essential for the future development of innovative targeted therapies for solid tumors.