How Long Does It Take to Get a Degree in Medical Technologist?

Are you studying for the Medical College Admission Test and wondering how long it will take to be a Medical Technologist? Or maybe you are taking your associate degree can’t wait to be a medical technologist? It will depend on what degree you are considering, the institution, where to pursue the degree, and so on. In general, a bachelor’s degree in medicine Laboratory will take only four years to complete in most colleges.
What Is Medical Technology Degree?
Medical technology is one of the most evolving fields. Most people will …

Medical Technologies on Vaping

Using Medical Technologies on Vaping

 Vaping has gotten quite famous all over the globe as a new method of ingesting herbs. Unlike traditional cigarettes, Vape stockists makes use of electronic cigarettes in which the smoker inhales vape instead of smoke. Because of this, vape became widely used in recreational and medicinal marijuana as well, especially since it enables the user to enjoy the benefits whilst lessening the side effects of inhaling smoke.
Medical Marijuana and Vape
Over the years, one after another, countries have started to acknowledge the outstanding medicinal effects of …

Microneedle Bandage Malaria Detection Method

Rice University researchers have created a microneedle patch that can identify the presence of malaria in bodily fluids quickly. The patch can be applied to the skin like a bandage and users can read the results from the colored strips in 20 minutes at the longest. The technology is very affordable and doesn’t need any special skills to use.
The patch, which has a 4 x 4 series of hollow microneedles, subtly penetrates the skin and pulls bodily fluid into itself. An antibody-based test strip then identifies malaria protein biomarkers.
The microneedles are extremely small, measuring just 375 microns in diameter. For this …

BIOMONITOR IIIm

Biotronik has declared clearance and approval by the FDA of an important Data Sensor in the latest Biomonitor IIIm injectable cardiac monitor (ICM). The sensor detects body temperature changes that may also be associated with fever.
The connection between vital signs, such as body temperature and cardiac arrhythmia, and health problems has been long known. Temperature increases, in particular, can cause a rise in heart rates and, as a result, a reduction in the patient’s activity level.
With the Data Sensor, doctors can access comprehensive updates on critical data to assist them in remotely tracking patient’s overall …

Enhancing Structural Heart Disease Treatment

CardioCare is presented as a new intelligence-based approach that aims to assist clinicians in identifying and treating patients with chronic heart disease. It is already used in more than 50 clinics and hospitals across the country.
It’s not uncommon for structural heart disease to go undiagnosed or undertreated. The secret to successfully treating structural heart disease is an accurate diagnosis of the disease and the problematic area within the heart. There is also a need for thorough follow-up.
CardioCare was established to assist physicians in the diagnosis and treatment of such patients. For example, the system …

Using Synthetic Antibody to Limit COVID-19 Spread

Governments and companies have started distributing a few varieties of COVID-19 vaccines around the globe. Even so, researchers at the University of California (UCSF) have formulated an innovative method that may provide a somewhat more effective way to curb the development of coronavirus inside the human body.
The researchers developed an artificial antibody that keeps the COVID-19 virus from sticking to human cells. These artificial antibodies are based on the microscopic antibodies that are produced by animals like llamas and camels, to defend themselves from coronavirus varieties.
The antibodies attack the spikes found on…

Ultra Precision 3D Human Heart Models

Physical models of internal organs are useful in clinical practice for a variety of reasons, including planning for difficult surgeries. To replicate the complexities of unique patient anatomies, the heart is typically modeled using 3D printing.
A team from Carnegie Mellon University has successfully modeled a patient’s heart through 3D printing. The team used alginate, a seaweed-derived material that closely resembles the texture of cardiac tissue. This implies that cardiac surgeons may practice their procedures on the model, slicing and suturing it in anticipation of real-life surgery.
The team’s leader, Adam Feinberg, …

Implantable LVAD for Heart Failure

Due to the serious damage to the heart muscle, persons with chronic heart failure frequently require a cardiac transplant. As these patients wait for a transplant, LVADs or Left Ventricular Assist Devices are often used to support the heart in pumping blood across the body.
Also, these devices are widely used in the short term to aid the hearts of patients who have undergone heart surgery. Besides, they are a long-term alternative for patients with heart failure but are unable to receive a transplant.
According to Greg Arber from Corvion, there is still a greater need for more LVADs. From around 100,000 to 300,000 people who …

Powerful MRI from GE Healthcare Cleared by FDA

The FDA has cleared the Signa 7.0T MRI scanner from GE Healthcare, which is currently the most powerful tool available for clinical purposes. While the magnetic field of a traditional high-end scanner is 3 Tesla, the magnetic field of this latest device goes all the way up to 7 Tesla. Consequently, it provides an unparalleled view of extremely detailed anatomy.
Although the SIGNA 7.0T is optimized for neurological tasks, it can also be useful for detailed imaging of joints, metabolism, and movements that would be difficult to see with a less powerful device. Aside from clinical uses, the scanner may be used for research purposes as …

Researches Capture Brain Spheroid’s Internal Structure with Digital Imaging

The Wyss Center and associates researchers have come up with novel imagery and labeling techniques for displaying the brain spheroids’ internal structure. They have also been able to observe the anatomy of single neurons in three dimensions (3D).
Brain spheroids, also known as “Mini brains  by researchers,” are a set of various types of brain cells derived from activated pluripotent stem cells. According to researchers, brain spheroids can be used for a variety of purposes, including drug development, drug testing, and neurological disease studies.
For researchers to examine their structural properties, they must …