Advancements in liquid biopsy and radiology techniques for early cancer detection: A review of current methods and future directions

Abdulmohsen Khalaf Ali Alkhalaf; Sulaiman Ali Sulaiman Alkhateeb; Bushra Mana Alshammari; Dima Ahmed Alharbi; Abdulaziz Alangari; Musab Abdulgader Alfares; Khalid Abdulrahman Alsharif; Motaeb Saqer Alenazi; Zainab Ali AlQarni; Ola Yousef Fadan; Rehaf Mesaad Alabdaly; Salma Ali Khrami; Mohammed Amaash Alanizi; Ahlam Nazeh Alenezi; Mohammed Rashed Al Otaibi

doi:10.53730/ijhs.v5nS1.15007

Authors

Abdulmohsen Khalaf Ali Alkhalaf KSA, National Guard Health Affairs
Sulaiman Ali Sulaiman Alkhateeb KSA, National Guard Health Affairs
Bushra Mana Alshammari KSA, National Guard Health Affairs
Dima Ahmed Alharbi KSA, National Guard Health Affairs
Abdulaziz Alangari KSA, National Guard Health Affairs
Musab Abdulgader Alfares KSA, National Guard Health Affairs
Khalid Abdulrahman Alsharif KSA, National Guard Health Affairs
Motaeb Saqer Alenazi KSA, National Guard Health Affairs
Zainab Ali AlQarni KSA, National Guard Health Affairs
Ola Yousef Fadan KSA, National Guard Health Affairs
Rehaf Mesaad Alabdaly KSA, National Guard Health Affairs
Salma Ali Khrami KSA, National Guard Health Affairs
Mohammed Amaash Alanizi KSA, National Guard Health Affairs
Ahlam Nazeh Alenezi KSA, National Guard Health Affairs
Mohammed Rashed Al Otaibi KSA, National Guard Health Affairs

Keywords:

liquid biopsy, cancer detection, circulating tumor cells, circulating tumor DNA, exosomes, radiological imaging, personalized medicine

Abstract

Aim: This review explores advancements in liquid biopsy techniques and radiological imaging for early cancer detection, highlighting their potential to improve diagnosis and treatment monitoring. Methods: We analyzed various liquid biopsy technologies, focusing on circulating tumor cells (CTCs), circulating tumor DNA (ctDNA), and exosomes, along with radiological imaging techniques such as PET scans and MRI. Key methodologies include size-based enrichment, immunoaffinity-based isolation, microfluidic technologies, and advanced imaging modalities, as well as their clinical applications and limitations. Results: Liquid biopsies offer non-invasive alternatives to traditional tissue biopsies, facilitating real-time monitoring of tumor dynamics. Techniques such as droplet digital PCR and advanced microfluidic devices have enhanced the sensitivity and specificity of biomarker detection. Radiological imaging provides complementary insights into tumor location, size, and metabolic activity, enhancing the overall diagnostic accuracy. While methods like CellSearch® for CTC counting are FDA-approved, ongoing research aims to refine isolation techniques, validate biomarkers' clinical relevance, and integrate imaging findings through large-scale trials. Conclusion: The integration of liquid biopsies and radiological imaging into routine clinical practice holds promise for personalized cancer management, enabling early detection and improved treatment responses. Continued development of these technologies is crucial for enhancing patient outcomes.

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