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Rutgers researchers created automated blood testers and testers. The blood taken will be badyzed quickly by the robot. The integration of robots and microfluidic systems (laboratory in a single chip) allows this technology to accelerate the process of obtaining laboratory results and patient comfort.
The presence of this robot greatly facilitates the workflow at the hospital. Fast work processes mean that healthy nurses do not need to spend more time caring for patients. "This device is a sacred cut in blood test technology," said Martin L Yarmush, lead author of the study and Paul & Mary Monroe's Endowed Chair & Distinguished, Professor in the Department of Biomedical Engineering at the University of Toronto. Rutgers University – Brunswick, Canada, city of techxplore.
The blood test is the most common clinical procedure performed around the world. The collected blood samples serve as a basis for other medical actions. The success rate of manual blood sampling depends on the doctor's expertise.
The laboratory results also used a very complex badytical technique. As a result, the Rutgers Biomedical research team has created a machine capable of drawing blood through a guided blood vessel. Sample handling module and centrifugal blood badyzer.
The robot that acts as a phlebotomist can replace the phlebotomist's task of taking blood, either through the arteries or through the capillaries of humans. The existence of this machine can also replace the function of nurses in maintaining and caring for patients.
The tests were performed using artificial hands with plastic tubes that function as blood vessels. First, the hand is inserted into the machine. The vascular reader sensor will detect the bulge of the blood vessels in the hand, as the hand grips.
The robot will sweep the hand and determine which area will be pierced by the needle. This machine then published a very accurate data badysis of white blood cell tests, using a blood-like fluid mixed with fluorescent microbeads.
In addition to taking blood, this robot can inject an infusion. The same process is done like taking blood. Devices such as modern sewing machines can be placed next to the bed or in the ambulance, the emergency room, the clinic and the doctor's office. The research team wanted development in their work.
Systems designed on modular devices became the basis for the development of robot-blood robots. "When designing the system, we focus on creating modular devices and we can develop them," says Max Balter, a senior researcher and PhD in biomedical engineering from Rutgers.
"With our simple chip design and badysis techniques, the device can be developed by incorporating a broader test panel in the future," he added. The research was conducted by Max Balter with PhD students Josh Leipheimer and Alvin Chen, PhDs in biomedical engineering.
In addition, Anil Shrirao and Tim Maguire, both adjunct professors in the Department of Biomedical Engineering at Rutgers University, badisted Max Balter's research. This robot can be considered as a new development of Veebot, the robot taking the blood. However, Veebot still needs several steps to badyze the blood samples taken. (F, b, e, v, n, t, s) {if (f.fbq) returns; n = f.fbq = function () {n.callMethod? N.callMethod.apply (n, arguments): n.queue.push (arguments)}; if (! f._fbq) f._fbq = n; n.push = n; n .loaded =! 0; n.version = 2.0 & # 39 ;; not. tail = []; t = b.createElement (e); t.async =! 0; t.src = v; s = b.getElementsByTagName (e) [0]; s.parentNode.insertBefore (t, s)} (window, document, "script", https: //connect.facebook.net/en_US/fbevents.js'); fbq (& # 39 ;, & 399134870437988 & # 39;); fbq ("track", "Pageview"); fbq (& # 39; track & # 39; Lead & # 39;); fbq ("track", "ViewContent"); fbq ('track', 'Search');
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