The tumour microenvironment presents many challenges in the development and evaluation of new anti-cancer therapeutics. Enhanced understanding of the unique metabolic characteristics of cancer cells could provide valuable knowledge to develop broad-spectrum anti-neoplastic agents with reduced systemic toxicity. However, a major limitation is the lack of physiological relevance of many conventional in vitro models. Emerging microfluidic platform technologies, hold the potential of recapitulating the physiological and pathological features of the tumour microenvironment, thus increasing the relevance of pre-clinical experimental data. With precise manipulation of physical and chemical properties, the microfluidic based, tumour-on-chip authentically replicates the tumour growth environment, potentially helping accelerate the pre-clinical screening of novel anti-tumour drug combinations. Additionally, nanoscale vehicles produced using microfluidic technologies, offer an emerging solution to modulate the hydrophilicity and release kinetics of drugs that in the free state exhibit challenging pharmacokinetics. This article will review the current state-of-the-art in this space and outline important challenges that are yet to be overcome.
Keywords: Drug delivery; Microfluidics; Nanocarriers; Nanoparticles (NPs); Tumour metabolism; Tumour microenvironment; Tumour-on-a-chip.
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