Advances in organ-, body-, and disease-on-a-chip systems
Thought leader Michael Shuler provides an update on the Lab on a Chip organ-, body- and disease- on-a-chip thematic collection.
Organ-, body- and disease-on-a-chip systems
Thought leader Michael Shuler introduces the Lab on a Chip organ, body and disease on a chip thematic collection.
Personalised organs-on-chips: functional testing for precision medicine
Organs-on-chips can be ‘personalised’ so they can be used as functional tests to inform clinical decision-making for specific patients.
Maximizing the impact of microphysiological systems with in vitro–in vivo translation
The full impact of MPS technologies will be realized only when robust approaches for in vitro–in vivo (MPS-to-human) translation are developed and utilized.
Organ-on-a-chip devices advance to market
We reviewed the foundational technologies underlying the commercialization efforts of the current prominent organ-on-a-chip start-ups.
Tumor-on-a-chip for integrating a 3D tumor microenvironment: chemical and mechanical factors
Tumor progression is significantly influenced by factors such as mechanical force, shear stress, chemotaxis, and hypoxia. Here, we reviewed recent achievements and presented potential directions for tumor-on-a-chip systems in the future.
Development and application of human skeletal muscle microphysiological systems
Human microphysiological systems were developed to model skeletal muscle and nerve-skeletal muscle interactions. These systems can be applied to a number of major disease states involve skeletal muscle, including type 2 diabetes, muscular dystrophy, sarcopenia and cachexia arising from cancer or heart disease.
Applications of tumor chip technology
By surpassing the predictive accuracy of conventional 2D cell culture models, tumor chips can reduce reliance on animal models in line with the 3Rs initiative and eliminate false positive selection of ineffective or toxic drugs earlier in the drug development pipeline, saving time and resources. Most importantly, better predictability of human drug response will reduce human risk and improve patient outcomes.
Powering ex vivo tissue models in microfluidic systems
This Frontiers review analyzes the rapidly growing microfluidic strategies that have been employed in attempts to create physiologically relevant ‘organ-on-chip’ models using primary tissue removed from a body (human or animal).
Microsensor systems for cell metabolism – from 2D culture to organ-on-chip
We discuss microsensors for cell culture monitoring from 2D culture to organ-on-chip systems, including sensor principles, fabrication and culture formats.
Tumour-vessel-on-a-chip models for drug delivery
In this review, we present the use of tumour-vessels-on-a-chip to investigate and screen nanoparticles for cancer targeted drug delivery.
Monitoring transient cell-to-cell interactions in a multi-layered and multi-functional allergy-on-a-chip system
Multi-functional LOC for transient allergy monitoring.
Human stomach-on-a-chip with luminal flow and peristaltic-like motility
We created a human stomach-on-a-chip by using an innovative microfluidic imaging platform housing human gastric organoids (hGOs) with peristaltic luminal flow.
“Open-top” microfluidic device for in vitro three-dimensional capillary beds
We introduce a novel microfluidic device to co-culture a blood vessel network and cell tissues in an in vivo-like niche.
A microfluidic patterned model of non-alcoholic fatty liver disease: applications to disease progression and zonation
Non-alcoholic fatty liver disease (NAFLD) involves a progressive increase of lipid accumulation. We created a microfluidic progressive NAFLD platform using free fatty acid gradients to capture the wide spectrum of disease conditions in a single continuous liver tissue.
Effective bioprinting resolution in tissue model fabrication
We compare current bioprinting technologies for their effective resolutions in the fabrication of micro-tissues towards construction of biomimetic microphysiological systems.
Digestion-on-a-chip: a continuous-flow modular microsystem recreating enzymatic digestion in the gastrointestinal tract
A three-compartment, miniaturized system to pretreat samples with artificial saliva, gastric juice, duodenal juice and bile for gut-on-a-chip applications.
A high-throughput microfluidic microphysiological system (PREDICT-96) to recapitulate hepatocyte function in dynamic, re-circulating flow conditions
Microphysiological systems (MPSs) are dynamic cell culture systems that provide micro-environmental and external cues to support physiologically relevant, organ-specific functions.
Development of a multicellular pancreatic tumor microenvironment system using patient-derived tumor cells
The development of drugs to treat cancer is hampered by the inefficiency of translating pre-clinical in vitro monoculture and mouse studies into clinical benefit.
Two-way communication between ex vivo tissues on a microfluidic chip: application to tumor–lymph node interaction
The first microfluidic device for co-culture of two tissue slices under continuous recirculating flow was used to model tumor-induced immunosuppression.
Introducing an automated high content confocal imaging approach for Organs-on-Chips
A novel, automated workflow to capture and analyse confocal images of Organ-Chips allowing detailed assessment of cellular phenotype in situ.
Non-invasive sensing of transepithelial barrier function and tissue differentiation in organs-on-chips using impedance spectroscopy
Combining impedance spectroscopy with electrical simulation to reveal transepithelial barrier function and tissue structure of human intestinal epithelium cultured in an organ-on-chip.
Adipose-on-a-chip: a dynamic microphysiological in vitro model of the human adipose for immune-metabolic analysis in type II diabetes
Infiltration of immune cells into adipose tissue is associated with chronic low-grade inflammation in obese individuals.
A lung/liver-on-a-chip platform for acute and chronic toxicity studies
A lung/liver-on-a-chip platform with metabolic capability over 28 days: a fit-for-purpose microfluidic system for toxicity assessment of pulmonary toxicants.
Tumor-on-a-chip platform to investigate progression and drug sensitivity in cell lines and patient-derived organoids
We created a tumor platform to study cell proliferation, angiogenesis, migration, intravasation, and treatments.
An integrated adipose-tissue-on-chip nanoplasmonic biosensing platform for investigating obesity-associated inflammation
A biomimetic ‘adipose-tissue-on-chip’ integrated with nanoplasmonic biosensors for in situ multiplexed cytokine secretion analysis of obese adipose tissue.
An integrated microfluidic/microelectrode array for the study of activity-dependent intracellular dynamics in neuronal networks
A microfluidics/MEA platform was developed to control neuronal activity while imaging intracellular dynamics within reconstituted neuronal networks.
Development of a biomimetic liver tumor-on-a-chip model based on decellularized liver matrix for toxicity testing
A tumor-on-a-chip platform with integration of decellularized liver matrix offers better biomimicry of tumor microenvironment and enhanced toxicity testing.
3D microfluidic ex vivo culture of organotypic tumor spheroids to model immune checkpoint blockade
Microfluidic culture has the potential to revolutionize cancer diagnosis and therapy.
A 96-well microplate bioreactor platform supporting individual dual perfusion and high-throughput assessment of simple or biofabricated 3D tissue models
A microplate-based bioreactor was developed to support dual perfusion of parenchymal and barrier tissues for high-throughput microphysiological system (MPS) studies.
A glass-based, continuously zonated and vascularized human liver acinus microphysiological system (vLAMPS) designed for experimental modeling of diseases and ADME/TOX
We developed a glass based, vascularized human biomimetic liver MPS recreating oxygen zonation present in the liver acinus.
UniChip enables long-term recirculating unidirectional perfusion with gravity-driven flow for microphysiological systems
UniChip enables recirculating unidirectional perfusion with gravity-driven flow, facilitating reliable and cost-effective integration of shear stress-sensitive tissues into microphysiological systems.
Design and fabrication of a liver-on-a-chip platform for convenient, highly efficient, and safe in situ perfusion culture of 3D hepatic spheroids
This work presents a biomimetic and reversibly-assembled liver-on-a-chip platform for building a 3D liver spheroid model.
Microphysiological flux balance platform unravels the dynamics of drug induced steatosis
Sensor-integrated liver chip unravels risks of drug-induced fatty liver disease associated with prescription drug use.
Engineering cell heterogeneity into organs-on-a-chip
To improve predictive efficacy of organ-on-a-chip devices, developers must consider cell heterogeneity.
Formation of arrays of planar, murine, intestinal crypts possessing a stem/proliferative cell compartment and differentiated cell zone
A simple planar platform that recapitulates the compartmentalization and physiological responses of mouse colon epithelium is presented.
A pumpless body-on-a-chip model using a primary culture of human intestinal cells and a 3D culture of liver cells
A pumpless GI–Liver system using primary human intestinal epithelial cells serves as an improved model for drug studies.
Real-time observation of leukocyte–endothelium interactions in tissue-engineered blood vessel
Human cell-based 3D tissue constructs play an increasing role in disease modeling and drug screening.
Online oxygen monitoring using integrated inkjet-printed sensors in a liver-on-a-chip system
Integrated inkjet-printed sensors in a liver-on-a-chip allow online oxygen monitoring, showing differential hepatocyte respiratory behaviour and an oxygen gradient.
A multiplexed microfluidic system for evaluation of dynamics of immune–tumor interactions
A system for perfusing and interacting tumor fragments and immune cells and testing drug response with image analytics is reported.
A microengineered human corneal epithelium-on-a-chip for eye drops mass transport evaluation
A microengineered human corneal epithelium-on-a-chip is developed to mimic in vivo anatomical and physiological conditions for topical ophthalmological drug testing.
Microfluidic lung airway-on-a-chip with arrayable suspended gels for studying epithelial and smooth muscle cell interactions
A novel lung airway-on-a-chip system that uses a suspended hydrogel to enable epithelial–matrix–smooth muscle cell interactions.
Human brain organoid-on-a-chip to model prenatal nicotine exposure
We present a new strategy to generate stem cell based human brain organoids using an organ-on-a-chip system that allows us to model prenatal nicotine exposure.
Nanofiber membrane supported lung-on-a-chip microdevice for anti-cancer drug testing
A PLGA nanofiber membrane supported lung-on-a-chip microdevice was developed to model the alveolar microenvironment for anti-cancer drug testing.
A compartmentalized microfluidic chip with crisscross microgrooves and electrophysiological electrodes for modeling the blood–retinal barrier
This work presents a new microfluidic chip to facilitate multicellular interactions and cell barrier function monitoring in real time.
A multi-throughput multi-organ-on-a-chip system on a plate formatted pneumatic pressure-driven medium circulation platform
A multi-throughput multi-organ-on-a-chip system was formed on a pneumatic pressure-driven medium circulation platform as a novel type of microphysiological system.
Cardiac microphysiological devices with flexible thin-film sensors for higher-throughput drug screening
Contractility and rate of human stem cell heart tissues.
Mimicking arterial thrombosis in a 3D-printed microfluidic in vitro vascular model based on computed tomography angiography data
Studying blood clotting in stereolithography 3D-printed microfluidic chips with endothelialised vascular structures.
Organs-on-Chips with combined multi-electrode array and transepithelial electrical resistance measurement capabilities
Combined integration of TEER and MEA sensors in a single endothelialized Organ-on-Chip platform.
Simultaneous electrical recording of cardiac electrophysiology and contraction on chip
We report a new heart-on-chip design capable of electrical stimulation, recording of growth, contraction and activating map from in vitro-cultured human cardiac tissues.
A disease model of diabetic nephropathy in a glomerulus-on-a-chip microdevice
A biomimetic glomerulus-on-a-chip microdevice was created to recapitulate a disease model of diabetic nephropathy.
In vitro nasal mucosa gland-like structure formation on a chip
The emergence of microfluidic epithelial models using diverse types of cells within a physiologically relevant microenvironment has the potential to be a powerful tool for preclinical drug screening and pathophysiological studies.
A vascularized and perfused organ-on-a-chip platform for large-scale drug screening applications
A vascularized, perfused organ-on-a-chip platform suitable for large-scale drug efficacy/toxicity screening.
A novel bioprinted model of thrombosis was developed to study thrombosis and thrombolysis in vitro.
About this collection
A collection of papers and reviews on organ-, body- and disease-on-a-chip research focussing on the interface between the technological advancements and high impact applications of organ-, body- and disease-on-a-chip technologies. This on-going collection is collated by Thought leader Michael Shuler and the Lab on a Chip Editorial Board.
More details about the collection can be found at rsc.li/blog-organonachip