Tag Archives: tiny blood vessels

Blood test could detect emphysema

Leave a reply

Researchers from Weill Cornell Medical College say that monitoring blood for tiny particles released by cells lining the lungs may help clinicians diagnose emphysema in its earliest stages.

The particles, called endothelial microparticles (EMPs), are shed during the disease process as tiny blood vessels in the lungs, called pulmonary capillaries, are injured and die.

“This study confirmed that levels of EMPs are elevated in the blood samples of smokers, consistent with the concept that emphysema is associated, in part, with the death of cells lining the pulmonary capillaries, and suggesting that the early development of emphysema might be monitored with blood tests to measure EMP levels,” said Ronald Crystal, chairman and professor of genetic medicine at Weill Cornell Medical College.

Previous studies have linked vascular disease with elevated blood levels of EMPs. In light of growing evidence that early emphysema is associated with the loss of pulmonary capillaries, Dr. Crystal and his colleagues hypothesized that EMP levels might also be elevated in patients in the early stages of emphysema.

Emphysema

Emphysema

To conduct their study, the researchers used two lung function tests: spirometry, which measures the amount and speed at which a patient exhales; and a lung diffusion test which measures the lung”s ability to diffuse, or transfer, carbon monoxide (DLCO). Patients with early emphysema typically have normal levels of inhalation and exhalation, but exhibit low DLCO.

“One of the key differences between spirometry, which is commonly used in physicians” offices, and DLCO, which is a more sophisticated test usually used only by pulmonologists, is that spirometry is less sensitive to the changes that occur in the lungs in the early stages of lung disease,” Dr. Crystal said. “The DLCO test is much more sensitive and is able to pick up the earliest signs of emphysema.”


In their study, the researchers assessed the levels of circulating EMPs in an initial patient population of 92 subjects, including healthy nonsmokers, healthy and symptomatic smokers with normal lung function and healthy smokers with normal spirometry but low DLCO. Because smoking is known to affect blood vessels in many areas of the body, EMPs were assessed for a specific enzyme that occurs primarily in pulmonary vessels. To confirm their findings, the assessment was repeated in two prospective cohorts, including a group of 92 patients similar to the initial patient population and a group of 15 patients with HIV.

Assessing their results, the researchers found both symptomatic smokers and healthy smokers with normal spirometry and normal DLCO had mild increases in EMP levels compared to healthy nonsmokers, and there was no difference in EMP levels between healthy and symptomatic smokers. In striking contrast, healthy smokers with normal spirometry but low DLCO had a significant increase in EMP levels.

“The data in these patient populations demonstrate that smokers with normal spirometry and normal DLCO have levels of circulating EMPs that are mildly elevated compared to healthy nonsmokers, but smokers who have normal spirometry and reduced DLCO have marked increases in the levels of circulating EMPs,” Dr. Crystal said.

“Interestingly, the smokers with the highest EMP levels are healthy smokers with normal spirometry and low DLCO,” he added. “This suggests that the vascular-based contributions to the development of emphysema may contribute to the early development of the disease, and may identify a point in time where intervention with smoking cessation therapy may prevent the irreversible lung destruction associated with the development of COPD.”

A blood test to monitor for levels of EMPs may offer an alternative to high-resolution computed tomography (HRCT), which is currently used to identify early-onset emphysema, with varying degrees of success.

“Assessment of EMP levels may provide an early and inexpensive approach to identifying early evidence of emphysema, without the radiation exposure associated with chest computed tomography (CT) scans,” Dr. Crystal noted. “Elevated EMP levels may be a useful biomarker to identify smokers with early emphysema at a stage where intervention may prevent further permanent lung destruction.”

The findings were published online ahead of the print edition of the American Thoracic Society”s American Journal of Respiratory and Critical Care Medicine.

Scientists grow human livers

1 Reply

Miniature human livers have been successfully grown in the laboratory, heralding the possibility of customised transplant organs.

US scientists have created working livers the size of a walnut, they said yesterday at the annual meeting of the American Association for the Study of Liver Diseases in Boston.

“We are excited about the possibilities this research represents, but must stress that we’re at an early stage and many technical hurdles must be overcome before it could benefit patients,” said the project director, Associate Professor Shay Soker from the Wake Forest Institute for Regenerative Medicine in North Carolina.

“Not only must we learn how to grow billions of liver cells at one time in order to engineer livers large enough for patients, but we must determine whether these organs are safe to use in patients.”

The human liver

The human liver

His colleague, Pedro Baptista, said: “Our hope is that once these organs are transplanted, they will maintain and gain function as they continue to develop.”

The method used by the Wake Forest researchers, and other teams around the world, is to form new liver tissue on a scaffold made from the structure of an existing liver.

In this case, a detergent was used to strip away the cells from the liver, leaving only the collagen framework which supported them, and a network of tiny blood vessels.


The new stem cells – in this case, immature liver cells and endothelial cells, to produce a new lining for the blood vessels – were gradually introduced.

The human liver

The human liver

After a week in a “bioreactor”, which nurtured the cells with a mixture of nutrients and oxygen, the scientists saw widespread cell growth within the structure, and even signs of some normal functions in the tiny organ.

UK researchers welcomed the findings, which are being presented to the American Association for the Study of Liver Diseases. Professor Mark Thursz, from Imperial College London, said the results were “encouraging”.

“The report suggests that the authors have overcome one of the major hurdles in creating an artificial liver – to generate functioning human liver cells in a ‘natural’ liver structure.

“It is clear that the cells are growing well, but the next step is to show that they are functioning like normal human liver tissue.”

Dr Mark Wright, from Southampton University added: “In an era of increasing liver disease and death with a chronic shortage of liver transplants this represents an exciting development in an important field of work.

“The researchers appear to have made the step of combining stem cell technology with bioengineering as a first step to producing artificial livers.

“Whilst ‘off the shelf’ new livers are clearly still a long way off, this work gives a glimmer of hope that this is no longer just the stuff of science fiction.”