Nanomechanical Signatures in Glioma Cells Depend on CD44 Distribution in IDH1 Wild-Type but Not in IDH1R132H Mutant Early-Passage Cultures

Shmelev, Mikhail E.; Farniev, Vladislav M.; Shved, Nikita A.; Kumeiko, Vadim

doi:10.3390/ijms24044056

Cited by 1 publication

(1 citation statement)

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“…Tumor spread and metastasis involve the invasion and migration of cancer cells. It is implied that mechanical properties or mechanical signaling pathways are expected to be targets for cancer therapy (Shmelev et al, 2023).…”

Section: Afm Mechanics and Medical Challengesmentioning

confidence: 99%

Atomic force microscopy in disease‐related studies: Exploring tissue and cell mechanics

Liu,

Han,

Kong

et al. 2023

Microscopy Res & Technique

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Despite significant progress in human medicine, certain diseases remain challenging to promptly diagnose and treat. Hence, the imperative lies in the development of more exhaustive criteria and tools. Tissue and cellular mechanics exhibit distinctive traits in both normal and pathological states, suggesting that “force” represents a promising and distinctive target for disease diagnosis and treatment. Atomic force microscopy (AFM) holds great promise as a prospective clinical medical device due to its capability to concurrently assess surface morphology and mechanical characteristics of biological specimens within a physiological setting. This review presents a comprehensive examination of the operational principles of AFM and diverse mechanical models, focusing on its applications in investigating tissue and cellular mechanics associated with prevalent diseases. The findings from these studies lay a solid groundwork for potential clinical implementations of AFM.Research HighlightsBy examining the surface morphology and assessing tissue and cellular mechanics of biological specimens in a physiological setting, AFM shows promise as a clinical device to diagnose and treat challenging diseases.

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Section: Afm Mechanics and Medical Challengesmentioning

confidence: 99%