[ad_1]
Collins explained that his current laboratory work to develop a medical mask to detect the crown is still in the “early stages,” but the results so far look promising.
In recent weeks, Collins ‘team has tested the sensors’ ability to monitor virus samples in a small sample of saliva.
The team is also carrying out design studies, at this time, the laboratory is studying whether to include sensors inside the masks or develop a new unit connected to any conventional mask, the objective is to reveal a complete perception of the concept and a new function. of medical masks in a few weeks.
“Once that stage is reached, we will move on to preparing experiments for individuals expected to become infected, to see if these masks will be successful in a realistic setting,” Collins said.
The Consulting Engineering website indicated that this disease monitoring technology is not new. In 2018, the sensors were able to monitor and detect SARS, measles, hepatitis C, influenza, West Nile virus, and other viruses.
Collins revealed that the first experiments were carried out “on paper with a large number of cheap masks”, while it also seemed that the matter could be successful with plastic and quartz.
Sensors are made of bound genetic materials, RNA and DNA. With viruses, genetic material is dried on tissue with the help of a machine called lyophilizer, which removes moisture from the genetic material without causing death.
The material can remain stable at room temperature for months, eventually producing mask detectors with a long service life.
“>
According to a report published by “Intresting Engineering” and “Business Insider”, scientists are seeking to benefit from similar experiments on masks previously used to control viruses such as Ebola and Zika.
The preliminary study indicated that the team is conducting experiments that aim to illuminate the masks with a “fluorescent” light signal when monitoring a person’s breathing with a crown, or sneezing or coughing.
The directed invention, if successful, will help address the problems associated with other test methods for Corona virus, including temperature measurement.
“When this is done, you can imagine wearing these masks at airports while we are completing security measures, or waiting for boarding,” researcher Jim Collins told Business Insider. “You or I can use it on the way to and from work. Hospitals can use it for patients.” When they enter, or while they wait, before hurting. “
These masks can also be used even by doctors to make diagnoses on site, without observing the waiting times associated with sending samples to the laboratory.
And since traditional coronavirus screening tests have slowed efforts in many countries to control deadly virus outbreaks, these “innovative” tools that can quickly diagnose infected people are critical.
Collins explained that his current laboratory work to develop a medical mask to detect the crown is still in the “early stages,” but the results so far look promising.
In recent weeks, Collins ‘team has tested the sensors’ ability to monitor virus samples in a small sample of saliva.
The team is also carrying out design studies, at this time, the laboratory is studying whether to include sensors inside the masks or develop a new unit connected to any conventional mask, the objective is to reveal a complete perception of the concept and a new function. of medical masks in a few weeks.
“Once that stage is reached, we will move on to preparing experiments for individuals expected to become infected, to see if these masks will be successful in a realistic setting,” Collins said.
The Consulting Engineering website indicated that this disease monitoring technology is not new. In 2018, the sensors were able to monitor and detect SARS, measles, hepatitis C, influenza, West Nile virus, and other viruses.
Collins revealed that the first experiments were carried out “on paper with a large number of cheap masks”, while it also seemed that the matter could be successful with plastic and quartz.
Sensors are made of bound genetic materials, RNA and DNA. With viruses, genetic material is dried on tissue with the help of a machine called lyophilizer, which removes moisture from the genetic material without causing death.
The material can remain stable at room temperature for months, eventually producing mask detectors with a long service life.
