Personalized medicine requires establishing a patient-derived tumoroid (PDT), or tumor-like organoid that accurately replicates the patient tumor for drug screening. To support this, ThinCert® has been used to develop vascularized PDTs based on non-small cell lung cancer tumors in a few days.
Success in personalized medicine hinges on the ability to deliver treatment that readily meets the individual patient's needs.
Success in personalized medicine hinges on the ability to deliver treatment that readily meets the individual patient's needs. Speed is essential to enable “back-to-patient” personalized therapy within two to three weeks of receiving a biopsy from the patient. As we saw from the first article in this series, this can involve quickly establishing a patient-derived tumoroid (PDT), or tumor-like organoid, that accurately recapitulates the patient tumor and can be used for drug screening.
A research group based at INSERM (French National Institute of Health and Medical Research), Strasbourg, France have developed a method to quickly generate a vascularized PDT that more accurately recapitulates a patient tumor for drug screening (1).
Earlier efforts to generate PDTs have often involved mimicking the extracellular matrix (ECM) using several gel-based approaches that include hydrogels based on tumor extracts containing basement membrane ECM proteins. The researchers decided against this approach because lot-to-lot variability of hydrogels can result in data irreproducibility (2, 3). Instead, they created PDTs and vascularized them on a fibrin gel immobilized on a permeable membrane (ThinCert®).
Using this method, the researchers could create PDTs using only fibroblasts and avoided the need to add ECM components. They showed that:
● Neovascularized vessels can infiltrate PDTs.
● Endothelial cells from the PDT infiltrate the surrounding tumor environment and grow rapidly to form a vascular network.
● Vessels neovascularized in the fibrin could be connected to those neovascularized in the PDTs.
The researchers concluded that their method “could be used to test conventional therapies such radiotherapy, chemotherapy, immunotherapy or virotherapy for personalized medicine, or could be further implemented in a microfluidic device to perform drug screening for personalized medicine”.
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