Trapping metastatic cancer cells with mechanical ratchet arrays to prevent tumor relapse

last updated: 2023-09-26
ProjectPREMiuM :: publications list
TitleTrapping metastatic cancer cells with mechanical ratchet arrays to prevent tumor relapse
Publication TypeComunications - Poster
Year of Publication2023
AuthorsCaballero D., Reis R. L., and Kundu S. C.
Abstract

Current treatments for cancer, such as chemotherapy, radiotherapy, immunotherapy, and surgery, have positive results but are generally ineffective against metastatic tumors. Treatment effectiveness can be improved by employing bioengineered cancer traps, typically utilizing chemoattractant-loaded materials, to attract infiltrating cancer cells preventing their uncontrolled spread and potentially enabling eradication. However, the encapsulated chemical compounds can have adverse effects on other cells causing unwanted responses, and the generated gradients can evolve unpredictably. Here, we report the development of a cancer trap based on mechanical ratchet structures to capture metastatic cells. The traps use an array of asymmetric local features (IN) to mechanically attract cancer cells and direct their migration for prolonged periods. The trapping efficiency was found to be greater than isotropic (NULL) or inverse anisotropic ratchet (OUT) structures on either disseminating cancer cells and tumor spheroids. Importantly, the traps exhibited a reduced effectiveness when targeting non-metastatic and non-tumorigenic cells, underscoring their particular suitability for capturing highly invasive cancer cells responsible of tumor relapse. Overall, this original approach may have therapeutic implications for fighting cancer and may also be used to control cell motility for other biological processes.

Conference NameHEALTH-UNORTE
Date Published2023-09-20
Conference LocationGuimaraes
KeywordsCancer, microfabrication, nanotechnology
RightsclosedAccess
Peer reviewedno
Statuspublished

Back to top