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Related Concept Videos

Targeted Cancer Therapies02:57

Targeted Cancer Therapies

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 specific...

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Wearable bioelectronics for cancer theranostics.

Zhichen Hua1, Changhao Dai1, Yufan Yang2

  • 1Department of Biomedical Engineering, City University of Hong Kong, Hong Kong, China.

Microsystems & Nanoengineering
|October 8, 2025
PubMed
Summary
This summary is machine-generated.

Wearable bioelectronics offer a promising, patient-friendly approach to cancer theranostics, enabling non-invasive detection and responsive therapy for improved patient outcomes. This technology addresses limitations of current clinical methods for better cancer management.

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Area of Science:

  • Biomedical Engineering
  • Oncology
  • Materials Science

Background:

  • Cancer presents a significant global health challenge due to its complexity and high mortality rates.
  • Current cancer diagnostics and treatments face limitations such as high costs, specialized personnel, and variable accuracy.
  • There is a critical need for advanced, personalized, and accessible cancer theranostic solutions.

Purpose of the Study:

  • To review the latest advancements in wearable bioelectronics for cancer theranostics.
  • To explore the potential of wearable bioelectronics as an innovative strategy for cancer management.
  • To provide an overview of current challenges and future directions in the field.

Main Methods:

  • Literature review of recent research on wearable bioelectronics in cancer theranostics.
  • Analysis of device configurations for early diagnosis, treatment, monitoring, and rehabilitation.
  • Discussion of clinical status and emerging wearable bioelectronic technologies.

Main Results:

  • Wearable bioelectronics offer non-invasive detection, responsive therapy, and long-term monitoring capabilities.
  • These devices can be applied across various stages of cancer care, including early diagnosis, treatment, and rehabilitation.
  • Functional bioelectronic interfaces are key to the advantages of wearable devices.

Conclusions:

  • Wearable bioelectronics represent a transformative platform for personalized and patient-friendly cancer theranostics.
  • Addressing current challenges in the field will pave the way for advanced future applications.
  • This technology holds significant promise for improving cancer diagnosis, treatment, and long-term patient management.