Biomedical Laboratory Science

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Sunday, June 19, 2016

Ovarian Cancer: New Imaging Technique Helps Surgeons Remove More of Tumor.

The amount of tumor tissue that is left after surgery is an important factor in ovarian cancer patient survival. Currently, surgeons have to rely on their eyes and hands to find malignant tissue. Now, new research shows how an imaging technique using a new type of fluorescent compound helped surgeons detect and remove nearly 30 percent more ovarian tumor tissue than usual.

The new technique was tested in a small exploratory study led by Leiden University Medical Center (LUMC) in the Netherlands and published in the journal Clinical Cancer Research.

One of the study leaders, Dr. Alexander L. Vahrmeijer, who heads an image-guided surgery group at LUMC, says:

"Surgery is the most important treatment for ovarian cancer, and surgeons mainly have to rely on their naked eyes to identify tumor tissue, which is not optimal."


The experimental study shows that the new imaging system helped surgeons remove more tumor
issue in patients with ovarian cancer.

Food Pathogen Detection via Handheld 'Nanoflower' Biosensor

At present, harmful pathogens in food are mostly only discovered when people get sick. Earlier detection - preferably before food reaches consumers - could prevent many cases of foodborne illness and save the cost and effort involved in food recalls. Now, a team working toward solving this problem has developed a portable biosensor based on "nanoflowers" that detects harmful bacteria.

The new technology is the work of researchers at Washington State University (WSU) in Pullman, who describe how they developed and tested it in a paper published in the journal Small.

Even tiny amounts of harmful bacteria and other microbes can give rise to serious health risks, but the available sensor technology is unable to detect them easily and quickly in small quantities.

The key challenge in solving this problem is finding a way to detect the faint chemical signals that the harmful microbes emit at the molecular level.


The nanoflower biosensor detects tiny chemical signals emitted by bacteria and amplifies them so they
can be picked up easily with a simple handheld pH meter.

Molecular Biology Videos: How to Perform Colony PCR!

This video on molecular biology demonstrates how to perform colony PCR as part of a cloning workflow using Thermo Scientific DreamTaq DNA Polymerase.

Republished for Medical Education, Awareness & Information



Source: ThermofisherScientific

Obesity Linked to Abnormal Reward Response to Sugary Foods

An unhealthy diet is considered a key contributor to obesity. When it comes to cravings for sweet treats, however, impairments in the brain's reward system might be to blame.

In a new study published in the journal Diabetes, researchers found age and receptor levels of the reward-associated chemical dopamine influence preference for sweet foods among people of a healthy weight, but not for people who are obese.

First author M. Yanina Pepino, Ph.D., of the Washington University School of Medicine, and colleagues reached their findings by enrolling 44 adults aged 20-40 years.


Researchers say the reward system in the brains of obese individuals appears to be impaired in
response to sweet foods.

Saturday, June 18, 2016

Biomedical Laboratory Automation

Improve safety and efficiency in various types of clinical laboratories with Thermo Scientific™ TCAutomation™ Laboratory Automation Solutions. This expandable and scalable, fully-featured laboratory automation solution allows labor-intensive tasks in pre- and post-analytical phases of sample management to be automated in different combinations. Depending on the floor plan and efiiciency requirements, the TCAutomation™ systems can be expanded step-by-step.

TCAutomation™ systems throughput can range from 250 up to 1000 tubes per hour. Because solutions are modular, they are easy to expand. Automating can be started from a certain function and built up towards total laboratory automation. Samples are transported in the system within dual-lane conveyors in a multitube carrier which accommodates several tube sizes. The carrier includes an embedded microchip, based on RFID technology, making sample identification fast and reliable, and enabling excellent real-time sample tracking possibilities.



Friday, June 17, 2016

How stress increases seizures for patients with epilepsy

It is well known that stress can increase the frequency and severity of seizures for patients with epilepsy. Now, researchers have shed light on why this is, and they may have even found a way to stop it.

Published in the journal Science Signaling, the researchers reveal how epilepsy alters the way brain reacts to stress to cause seizures.

Epilepsy is a neurological disorder characterized by recurrent seizures, which are sudden surges of electrical activity in the brain.


Researchers have shed light on why stress increases seizure frequency for patients with epilepsy.

All You Need to Know About Insulin Sensitivity Factor

Insulin is a hormone that plays and important role in the body's metabolism by controlling blood sugar levels and other processes.

It is produced by beta cells in the pancreas and released it into the bloodstream after we eat to enable some body cells, such as muscle, fat, and heart cells, to absorb the sugar from the food we eat.

Insulin also helps store glucose in the liver as glycogen when it is not needed, so it can be released it when blood sugar levels are low or when more energy is needed.


Insulin sensitivity factor reflects how blood sugar levels fall after taking 1 unit of insulin.

Thursday, June 16, 2016

Clinical Chemistry and Integrated Test Systems

Lab consolidation drives technological advances and platform integration

Under the emerging integrated health model, the clinical lab is but one strand in a complex web of healthcare partners. From the emergency department (ED), to physician’s offices, to the specialty clinic, patients are often treated at multiple points of care. Achieving reliable test results across the spectrum of healthcare settings, therefore, is not just desirable, but crucial.

Nevertheless, as testing demand surges, laboratory administrators also face budgetary pressures and staffing shortages. This article examines why and how labs are turning to automated technology to accommodate increases in testing volume. Specifically, advances in clinical chemistry analyzers have enabled labs not just to meet ever-growing workloads, but even to improve turnaround times while achieving consistency in results and minimizing labor requirements.

Read more: Clinical Chemistry and Integrated Test Systems
The SK500 from Sekisui Diagnostics is suited for labs that are challenged for space.
Source: clpmag

Why Do Onions Make You Cry?

Common in cuisine all around the globe, onions are renowned for their ability to make us all look like crybabies.

This American Chemical Society video gets to the bottom of this teary phenomenon and reveals exactly what chemical mechanisms trigger it.

The video also features a few chemistry-backed tips you can try at home to stop the tears before they start.



Source: genengnews

Lab Automation: Renewed Vigor Under Pressure

Over the years, automation in clinical labs has made sizable gains toward improving efficiency and productivity, and delivering timely and accurate results to improve patient outcomes. But automating the many processes used in microbiology departments has been laboratories’ “last frontier,” according to Brad Banks, worldwide marketing manager for lab automation at BD Diagnostics–Diagnostic Systems, Sparks, Md.

Because of the nation’s aging population, the volume of assays performed by US labs is continuing to increase. Yet, at the same time, the number of available techs is decreasing, says Nilam Patel, senior product manager for automation solutions at Sysmex America Inc, Lincolnshire, Ill. Coupled with an increased emphasis on quality and patient outcome initiatives, these trends are leading clinical laboratories to seek automation that provides quality clinical information, maximizes operational efficiency, and minimizes “sample touch points.”


Automating the microbiology laboratory is the last frontier
Source: clpmag
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