Low Birth Weight Infant Clinical Trial
Official title:
Platelet-activating Factor Acetylhydrolase (Paf-ah) Gene Expression And The Incidence Of Chronic Lung Disease (Cld) In Very Low Birth Weight Infants
This is a prospective observational study to determine whether there is an association between the presence of platelet-activating factor acetylhydrolase (PAF-AH) gene polymorphisms and the development of chronic lung disease in very low birth wight infants. Infants < 1500 grams at birth who require mechanical ventilation will be enrolled in the first 5 days of life after obtaining informed consent. A total of 1 ml of blood will be drawn and utilized for isolation of DNA for genotyping and for measurement of PAF-AH activity in serum.
Chronic lung disease (CLD) is a frequent and severe complication of premature birth. Between
3,000 and 7,000 infants develop CLD per year in the United States [6, 7]. Mortality rates
for infants with CLD vary from 5% to 30% [8, 9]. Despite recent advances in neonatal care
the incidence of CLD has not decreased, likely due to the survival of smaller more immature
infants. Current therapies for CLD, many with demonstrated short-term but not long-term
efficacy, include diuretics, bronchodilators, and corticosteroids. No therapeutic study
published to date has demonstrated any single medication or combination of medication that
improves survival or dramatically decreases severity or duration of illness.
The specific mechanism(s) that lead to CLD have not been clearly defined, but it is likely
that multiple factors contribute to the disease. The most important factors that have been
implicated, directly or indirectly, are prematurity, barotrauma, oxygen toxicity,
inflammation and infection [7 ]. Although barotrauma and oxygen toxicity may directly injure
the immature lung, recruitment and activation of inflammatory cells may potentiate lung
damage and impaired healing. Several studies have shown persistent elevation of neutrophils,
alveolar macrophages and high concentrations of lipid mediators in the tracheal effluent
from infants with CLD [7]. Activated inflammatory cells in the lung may release products
that alter pulmonary function and / or damage lung tissue leading to pulmonary edema, airway
hyper-reactivity, and pulmonary hypertension which are pathophysiologic characteristics of
infants with chronic lung disease [10].
Activated neutrophils and macrophages secrete platelet-activating factor (PAF). PAF is a
phospholipid with diverse, potent physiologic activities. Many of the pathophysiologic
abnormalities of CLD correlate with the actions of PAF. For example, PAF increases vascular
permeability, which could lead to pulmonary edema. PAF causes bronchoconstriction and
vascular smooth muscle constriction that could lead to the increased airways resistance and
pulmonary vascular resistance seen in CLD. PAF is proinflammatory causing further
recruitment and activation of inflammatory cells. At least two authors have found evidence
of increased PAF in tracheal effluent from infants who develop CLD [11-13].
One of the mechanisms for closely regulating the expression of PAF is through the enzyme
responsible for its degradation, PAF-acetylhydrolase (PAF-AH). PAF-AH is a phospholipase
that is specific for PAF and PAF-like lipids. Acquired deficiencies in PAF-AH activity have
been implicated in a variety of inflammatory conditions, including asthma. In addition to
acquired deficiencies, Miwa et al described an inherited form of PAF-AH deficiency in the
Japanese population [14]. Stafforini et al, at the University of Utah, cloned the PAF-AH
gene and described a point mutation in the gene that explains this inherited PAF-AH
deficiency [1, 2]. In studies of Japanese patients, they found that the PAF-AH gene was a
modulating locus for severity of asthma. Recently, other variants of the PAF-AH gene have
been found to be associated with inflammatory diseases, in particular asthma, in Caucasian
populations [3].
A study performed in twins revealed a possible genetic susceptibility to chronic lung
disease of prematurity [15]. It is possible that genetic alterations in pro and
anti-inflammatory gene may contribute to a predisposition to the development of chronic lung
disease. It is not known whether inherited deficiencies in PAF-AH activity may contribute to
CLD. This study would begin to address the possibility of genetic factors that predispose to
the development of CLD in preterm infants.
If the results of this observational study show an association between inherited or
developmental deficiencies of PAF-AH activity and the development of CLD, a prospective
randomized clinical trial of treatment with recombinant PAF-AH to prevent CLD might be
considered.
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