How Hepatitis C Spreads

You may have heard of hepatitis C (HCV or hep C), the potentially deadly virus that causes liver inflammation. HCV often produces no symptoms until it reaches an advanced stage, which makes it hard to know you’ve been infected. However, if you understand the ways in which hep C spreads, you can take precautions to reduce your risk of contracting this virus.

What is hepatitis C?

Hepatitis, in general, refers to liver inflammation. Many things can cause liver inflammation, including toxic chemicals, medications and drug or alcohol abuse. These types of hepatitis sometimes clear up on their own and may not even require treatment.

Read more: How Hepatitis C Spreads

Source: healthguides.healthgrades

Video: What is hepatitis C?

New 'Mutation-Tracking' Blood Test Could Predict Breast Cancer Relapse Months in Advance

Scientists have developed a blood test for breast cancer able to identify which patients will suffer a relapse after treatment, months before tumours are visible on hospital scans.

The test can uncover small numbers of residual cancer cells that have resisted therapy by detecting cancer DNA in the bloodstream.

Researchers at The Institute of Cancer Research, London, and The Royal Marsden NHS Foundation Trust were able to track key mutations that cancer accumulates as it develops and spreads, without the need for invasive biopsy procedures.

They hope that by deciphering the DNA code found in blood samples, it should be possible to identify the particularly mutations likely to prove lethal to that patient - and tailor treatment accordingly.

Read more: New 'Mutation-Tracking' Blood Test Could Predict Breast Cancer Relapse Months in Advance

Source: medicalxpress

Tibetans Inherited High-Altitude Gene From Ancient Human

A “superathlete” gene that helps Sherpas and other Tibetans breathe easy at high altitudes was inherited from an ancient species of human. That’s the conclusion of a new study, which finds that the gene variant came from people known as Denisovans, who went extinct soon after they mated with the ancestors of Europeans and Asians about 40,000 years ago. This is the first time a version of a gene acquired from interbreeding with another type of human has been shown to help modern humans adapt to their environment.

Researchers have long wondered how Tibetans live and work at altitudes above 4000 meters, where the limited supply of oxygen makes most people sick. Other high-altitude people, such as Andean highlanders, have adapted to such thin air by adding more oxygen-carrying hemoglobin to their blood. But Tibetans have adapted by having less hemoglobin in their blood; scientists think this trait helps them avoid serious problems, such as clots and strokes caused when the blood thickens with more hemoglobin-laden red blood cells.

Read more: Tibetans Inherited High-Altitude Gene From Ancient Human

Breathing easy. This Tibetan inherited a beneficial high-altitude gene from archaic Denisovan people.

Beijing Genomics Institute

Source: sciencemag

How a single blood test could identify your entire viral infection history

Researchers have created what they say is a "one-stop shop" for diagnosing infections - a test that can determine an individual's complete viral history just by scanning a single drop of blood.

The test, called VirScan, was created by Stephen Elledge and colleagues from the Howard Hughes Medical Institute (HHMI).

"We've developed a screening methodology to basically look back in time in people's [blood] sera and see what viruses they have experienced," explains Elledge. "Instead of testing for one individual virus at a time, which is labor intensive, we can assay all of these at once. It's one-stop shopping."

Read more: How a single blood test could identify your entire viral infection history

VirScan can pinpoint past and present viruses in a person's blood by identifying the peptides antiviral
antibodies bind to.

Source: medicalnewstoday

Written in Blood

A tour of evolving strategies for identifying circulating disease biomarkers

Blood is the only tissue that makes contact with every organ in the body. Theoretically, probing the DNA, RNA, vesicles, and cellular debris it carries could help diagnose or monitor conditions from placental disorders to Alzheimer’s disease.

The first application of this approach was prenatal genetic screening—which analyzes fragments of fetal DNA in an expectant mother’s blood—available to clinicians since October 2011. So far, these tests have largely focused on identifying chromosomal abnormalities such as Down syndrome. But expanding their utility to monitoring other circulating biomarkers, such as RNA and the contents of membrane-bound microvesicles and exosomes, is on the rise.

Read more: Written in Blood

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Source: theScientist

MCQ 3: What is the normal average life span of red blood cells in our body?

3. What is the normal average life span of red blood cells in our body?

a. 10 days

b. 120 days

c. 240 days

d. 360 days

Correct answer link: Click here

Fasting no longer necessary before cholesterol test

For the first time, a team of international experts recommends that most people do not need to fast before having their cholesterol and triglyceride levels tested.

Fasting is a problem for many patients, they explain, and note the latest research shows that cholesterol and triglyceride levels are similar whether people fast or not.

The experts represent the European Atherosclerosis Society (EAS) and the European Federation of Clinical Chemistry and Laboratory Medicine (EFLM) joint consensus initiative.

They refer to new research from Denmark, Canada, and the United States that included over 300,000 people and found it is not necessary to have an empty stomach to check cholesterol levels.

Apart from Denmark, all countries require that patients fast for at least 8 hours before checking their cholesterol and triglyceride levels - referred to as "lipid profile." In Denmark, non-fasting blood sampling has been in use since 2009.

Read more: Fasting no longer necessary before cholesterol test

Researchers say fasting before a cholesterol test is unnecessary.

Source: medicalnewstoday

Hemoglobin Review

Much of our understanding of human physiology, and of many aspects of pathology, has its antecedents in laboratory and clinical studies of hemoglobin. Over the last century, knowledge of the genetics, functions, and diseases of the hemoglobin proteins has been refined to the molecular level by analyses of their crystallographic structures and by cloning and sequencing of their genes and surrounding DNA. In the last few decades, research has opened up new paradigms for hemoglobin related to processes such as its role in the transport of nitric oxide and the complex developmental control of the α-like and β-like globin gene clusters. It is noteworthy that this recent work has had implications for understanding and treating the prevalent diseases of hemoglobin, especially the use of hydroxyurea to elevate fetal hemoglobin in sickle cell disease. It is likely that current research will also have significant clinical implications, as well as lessons for other aspects of molecular medicine, the origin of which can be largely traced to this research tradition.

Introduction

During the past 60 years, the study of human hemoglobin, probably more than any other molecule, has allowed the birth and maturation of molecular medicine. Laboratory research, using physical, chemical, physiological, and genetic methods, has greatly contributed to, but also built upon, clinical research devoted to studying patients with a large variety of hemoglobin disorders.

Read more: Hemoglobin Review

Source: bloodjournal