Scientists develop new classification system for rare infant lung-diseasesDecember 2nd, 2007 - 12:06 pm ICT by admin
Washington, Dec 2 (ANI): Scientists have devised a new system of classification of rare lung diseases in infants, thus improving the diagnosis and treatment of such diseases.
The multi-center study was led by Gail H. Deutsch, M.D. who is an assistant professor of pathology at Cincinnati Childrens Hospital and Medical Center.
According to the new guidelines given by the study, this system removes a lot of confusion about how to classify and treat diseases that most doctors and pathologists hardly see.
Formerly, doctors used a number of different terms to label the same disease, explained Dr. Deutsch.
He added: In some cases, a disease with a favorable prognosis has been confused with a potentially lethal lung disease.
The National Institutes of Health through its Rare Lung Diseases Consortium funded the study. It included data from 11 medical centers in North America.
Investigators reviewed 187 biopsies of children under the age of two who were being evaluated for diffuse lung diseases like interstitial lung disease (ILD), an uncommon disorder that affects the interstitium, or tissue between the air sacs of the lungs.
Usually Children with ILD have prolonged respiratory symptoms of fast breathing and low oxygen levels and exhibit diffuse changes on chest radiographs. A surgical lung biopsy is often needed for diagnosis if the cause of their symptoms is not identified with blood tests or x-rays
In this study, the researchers succeeded in classifying 88 percent of the 187 lung biopsy cases, and found a diverse spectrum of lung diseases that are largely unique to young children.
One-quarter of the lung diseases studied were grouped together under the label growth abnormalities. The best-known is pulmonary hypoplasia, in which prenatal conditions result in deficient lung growth.
Another group of diseases was known as surfactant dysfunction disorders, referring to genetic abnormalities of surfactant, a fluid, detergent-like substance that plays a critical role in keeping the air sacs of the lungs open.
Dr. Deutsch said that at Cincinnati Childrens Hospital and the other medical centers that participated in the study, the new classification system is helping pathologists in diagnosing childrens lung disease with a higher accuracy, leading in some cases to more appropriate treatment.
For instance, in the past, children with lung growth abnormalities might have been treated for ILD and even given steroids which may be ineffective for them.
The new system also provides doctors more information about an infants prognosis. In the past, children with ILD were thought to have a high rate of illness and death.
Dr. Deutsch said that the classification system can help doctors distinguish certain children who may appear very ill, but who have a high chance of recovery (such as children with pulmonary interstitial glycogenosis and neuroendocrine cell hyperplasia of infancy), from those with a particular genetic mutation, known as ABCA3, who are unlikely to recover on their own and may need a lung transplant.
This new system gives clinicians, radiologists and pathologists a structure upon which to base diagnoses in a uniform fashion well all be reading from the same book, said Andrew Nicholson, M.D., consultant histopathologist at Royal Brompton Hospital and professor of respiratory pathology at the National Heart and Lung Institute Division of Imperial College School of Medicine in London, who co-authored an editorial accompanying the study with Andrew Bush, M.D.
The next step is for researchers at other medical institutions and in other countries to test the new system to see how applicable it is to their patients. Pathologists should review other cohorts of cases to see if any disease groups are missing, or if others are over-divided.
When a classification system for adult diffuse lung disease was proposed by the American Thoracic Society and European Respiratory Society in 2002, pathologists took part in such a validation process. Before the adult classification system was in place, doctors sometimes used the same term for different diseases, but since 2002, we have been able to use much stricter definitions, which has improved accuracy of diagnosis, he added.
The study has also improved physicians understanding of some disease patterns that were previously viewed as idiopathic.
The new classification for infant lung disease gives us the same opportunity to tighten our definitions and increase the accuracy of diagnosis in children, said Dr. Nicholson.
The research was published in the American Journal of Respiratory and Critical Care Medicine, published by the American Thoracic Society. (ANI)
Tags: air sacs, chest radiographs, diagnosis, diffuse lung diseases, doctors, favorable prognosis, genetic abnormalities, growth abnormalities, included data, infant lung, interstitial lung disease, lung biopsy, lung growth, national institutes of health, pulmonary hypoplasia, respiratory symptoms, scientists, uncommon disorder