Micromolar Metabolite Measurement in an Electronically Multiplexed Format.

Objective: The detection of metabolites such as choline in blood are important in clinical care for patients with cancer and cardiovascular disease. Choline is only present in human blood at low concentrations hence accurate measurement in an affordable point-of-care format is extremely challenging. Although complementary metal-oxide semiconductor (CMOS) and microfluidics are individually mature technologies, their integration has presented challenges that we overcome in a novel, cost-effective, single-step process.

A monolithic single-chip point-of-care platform for metabolomic prostate cancer detection.

There is a global unmet need for rapid and cost-effective prognostic and diagnostic tools that can be used at the bedside or in the doctor's office to reduce the impact of serious disease. Many cancers are diagnosed late, leading to costly treatment and reduced life expectancy. With prostate cancer, the absence of a reliable test has inhibited the adoption of screening programs.

Disposable Paper-on-CMOS Platform for Real-Time Simultaneous Detection of Metabolites.

Objective: Early stage diagnosis of sepsis without overburdening health services is essential to improving patient outcomes.

Methods: A fast and simple-to-use platform that combines an integrated circuit with paper microfluidics for simultaneous detection of multiple-metabolites appropriate for diagnostics was presented. Paper based sensors are a primary candidate for widespread deployment of diagnostic or test devices.

Multimodal Integrated Sensor Platform for Rapid Biomarker Detection.

Precision metabolomics and quantification for cost-effective rapid diagnosis of disease are the key goals in personalized medicine and point-of-care testing. At present, patients are subjected to multiple test procedures requiring large laboratory equipment. Microelectronics has already made modern computing and communications possible by integration of complex functions within a single chip.

An integrated portable system for single chip simultaneous measurement of multiple disease associated metabolites.

Metabolites, the small molecules that underpin life, can act as indicators of the physiological state of the body when their abundance varies, offering routes to diagnosis of many diseases. The ability to assay for multiple metabolites simultaneously will underpin a new generation of precision diagnostic tools. Here, we report the development of a handheld device based on complementary metal oxide semiconductor (CMOS) technology with multiple isolated micro-well reaction zones and integrated optical sensing allowing simultaneous enzyme-based assays of multiple metabolites (choline, xanthine, sarcosine and cholesterol) associated with multiple diseases.