One Cent Lab on a Chip Technology Developed for Diagnosis of Diseases

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Highlights:

• One cent lab-on- a-chip technology has been developed by a research team from the Stanford University.
• This chip can be used for cost effective diagnosis of diseases.
• It is faster and can be used for developing effective treatments.

A research team from Stanford University Researchers of Medicine has utilized a seemingly ordinary inkjet printer to produce reusable and inexpensive "lab-on-a-chip". Such low cost diagnostic technology could herald in a new era of affordable testing.

Director of the Stanford Genome Technology Center and professor of biochemistry and of genetics, Dr. Ron Davis, said that the production cost of the lab on a chip is around 1 cent per chip, which could usher in a revolution in medical science similar to the one brought about by cost effective gene sequencing. This study was published in the journal Proceedings of the National Academy of Sciences and details the cheap lab-on-a-chip technology conducted by Dr. Rahim Esfandyarpour with Dr. Davis as the senior author.

‘One cent lab-on-a-chip technology will provide affordable personalized medicine.’

Lab-on-a-Chip Technology

The lab-on-a-chip technology promises to improve diagnostics and its inexpensive requirements could be a boon to developing nations. The inability to afford advanced diagnostic procedures results in -

• The survival rate of breast cancer patients being only 40%, which is just half of that of developed nations.
• Diseases that are potentially fatal like HIV, tuberculosis and malaria have a high incidence rate in developing nations but patient prognosis due to delayed diagnosis.

There is an urgent need to develop diagnostic procedures which can be afforded by larger sections of society and across the world. Most of the diagnostic equipment cost thousands of dollars, which is reflected in the high costs of testing.

Early Detection of Diseases

Dr. Esfandyarpour added that early detection of diseases is an important step involved in developing effective treatment strategies. He further stated that a cost of 1cent is not very significant for people who live therein developed nations but it amounts to a significant cost for many people in developing nations.

Lab-on-a-Chip

The lab-on-a-chip technology involves the following simple aspects

• Inkjet printing technology
• Microfluidics
• Electronics

It consists of a two part system, where

• The first is a microfluidic chamber made of clear silicone and which consists of cells and a reusable electronic strip.
• The second part consists of a regular inkjet printer that uses readily available conductive nanoparticle ink for printing the electronic strip on a sheet of polyester.

The design does not need rarefied or clean room facilities, which eliminates the need to have trained personnel to maintain such rooms too. The production time to make a chip is also very low and requires only 20 minutes.

Multifunctional Platform

The lab-on-a-chip is designed to be a multifunctional platform, which allows people to analyze different types of cells in the absence of fluorescent or magnetic tagging. The mode of action of this chip based technology is to use intrinsic electrical properties.

The process begins with an application of an electronic potential across the strip printed by the inkjet, this makes the cells present in the microfluidic chamber to move to different directions based on their polarity. Since these cells are separated without any fluorescent or magnetic labels, they require less time for analysis.

Uses of the lab-on-a-chip

• It can be used to analyze small volumes of sample but for various assays.
• It can be used to separate single type of cells from a mixture of cells. This will aid in isolation of rare cells and also for counting cells that are present.

The most significant benefit in using this technology is that the cost involved is minimal when compared with the huge costs incurred in performing each of these uses in the standard method available currently. For example, sorting or counting cells using a flow cytometer would cost $100,000, even after removing operational cost, while this technology promises to perform the same function for 1 cent.

The motivation behind designing this technology was to lower the cost of diagnostics, which would make it affordable to a larger section of society. The lowered cost of gene sequencing technology allowed clinicians to analyze tumor DNA and to identify specific mutations which would allow personalized care and treatment. Similarly, the lab-on-a-chip technology can be used to diagnose cancer cells by early detection of the cells in the blood stream.

Benefits of the Technology

• The technology could potentially revolutionize health care and improve basic and applied health care.
• More number of cells can be analyzed in a shorter span
• It can be used to manipulate stem cells for gene
• It can be used to develop cheaper diagnostics for disease identification

Dr. Esfandyarpour stated that the research team hopes that this technology would change the way people looked at laboratory technology. This would make it easier for scientists as well as laboratory staff to identify cells, all they would have to do is print it and use it.

This study is another commitment towards providing personalized medicine, based on the needs of the individual, however, at low costs.

References:

1. Scientists develop 'lab on a chip' that costs one cent to make - (https:phys.org/news/2017-02-scientists-lab-chip-cent.html)

Source: Medindia

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