Nandini Dhiman scite author profile

There is a globally rising healthcare need to develop new anticancer therapies as well as to test them on biologically relevant in vitro cancer models instead of overly simplistic 2D models. To address both these needs, a 3D lung cancer spheroid model is developed using human A549 cells trapped inside a collagen gel in a compartmentalized microfluidic device and homogenously sized (35–45 µm) multicellular tumor spheroids are obtained in 5 days. The novel tryptophan‐rich peptide P1, identified earlier as a potential anticancer peptide (ACP), shows enhanced cytotoxic efficacy against A549 tumor spheroids (>75%) in clinically relevant low concentrations, while it does not affect human amniotic membrane mesenchymal stem cells at the same concentrations (<15%). The peptide also inhibits the formation of tumor spheroids by reducing cell viability as well as lowering the proliferative capacity, which is confirmed by the expression of cell proliferation marker Ki‐67. The ACP offers a novel therapeutic strategy against lung cancer cells without affecting healthy cells. The microfluidic device used is likely to be useful in helping develop models for several other cancer types to test new anticancer agents.

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Three-dimensional bioprinting for bone tissue regeneration

Adepu

Dhiman

Laha

et al. 2017

Current Opinion in Biomedical Engineering

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Isogenic-Induced Endothelial Cells Enhance Osteogenic Differentiation of Mesenchymal Stem Cells on Silk Fibroin Scaffold

Eswaramoorthy

Dhiman

Korra³

et al. 2019

Regen. Med.

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Aim: We investigated the role of induced endothelial cells (iECs) in mesenchymal stem cells (MSCs)/iECs co-culture and assessed their osteogenic ability on silk fibroin nanofiber scaffolds. Methods: The osteogenic differentiation was assessed by the ALP assay, calcium assay and gene expression studies. Results: The osteogenic differentiation of the iECs co-cultures was found to be higher than the MSCs group and proximal to endothelial cells (ECs) co-cultures. Furthermore, the usage of isogenic iECs for co-culture increased the osteogenic and endothelial gene expression. Conclusion: These findings suggest that iECs mimic endothelial cells when co-cultured with MSCs and that one MSCs source can be used to give rise to both MSCs and iECs. The isogenic MSCs/iECs co-culture provides a new option for bone tissue engineering applications.

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Nandini Dhiman

On-chip anticancer drug screening – Recent progress in microfluidic platforms to address challenges in chemotherapy

Selective Cytotoxicity of a Novel Trp‐Rich Peptide against Lung Tumor Spheroids Encapsulated inside a 3D Microfluidic Device

Three-dimensional bioprinting for bone tissue regeneration

Isogenic-Induced Endothelial Cells Enhance Osteogenic Differentiation of Mesenchymal Stem Cells on Silk Fibroin Scaffold

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