UMLS:C0034063 - FACTA Search

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Query: UMLS:C0034063 (pulmonary edema)
10,665 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Investigation of the composition and significance of individual components of the surfactant indicated that besides phospholipids an important role is played also by surfactant proteins. They aid not only the reduction of the surface tension of the lungs (SP-B, SP-C), but serve also in regulation of surfactant secretion (SP-A) and in local defense and immune responses in the lungs (SP-A and SP-D). Impairments of surfactant were discovered not only in RDS, but also in cases of meconium aspiration, congenital diaphragmatic hernia, pneumonia, pulmonary edema, idiopathic fibrosis of the lungs, alveolar proteinosis, pneumothorax, and bronchial asthma. Therapy by means of exogenous surfactant was proved effective in therapy of RDS. Occasional cases of exogenous surfactant therapy in other pulmonary diseases are auspicious, it is necessary, though, to develop and produce a sufficient amount of exogenous surfactant of high quality and at an acceptable price and to find an optimal manner of surfactant administration into the lungs. A significant perspective is anticipated to utilization of intrapulmonary administration of the exogenous surfactant as a carrier of further active substances for local administration into the lungs. (Ref. 36.)
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PMID:[The pulmonary surfactant factor. Current knowledge, research trends and use in clinical practice]. 788 59

On the rat RDS model produced by intravenous injection of oleic acid, , it was for the first time found that endothelin (ET) level in bronchoalveolar lavage fluid was elevated by 3-fold: and that preadministration of ET-antiserum to rat with RDS significantly improved its hypoxemia, pulmonary edema and histologic injury; inhibit the leakage of protein and intracellular enzymes from alveoli. The results suggest that ET might play an important role in the pathogenesis of RDS, and that treatment against ET would be a new approach for RDS.
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PMID:[Protective effect of endothelin-antiserum on oleic acid-induced respiratory distress syndrome (RDS)]. 840 65

Surfactant therapy has clearly been a meaningful addition to the therapeutic armamentarium in the management of premature infants with RDS. Pediatricians and others involved in the care of newborn infants should familiarize themselves with the various surfactant preparations, the indications for their use, the techniques of administration, and the possible side effects. All such care provides should also be skilled in endotracheal intubation and ventilation of neonates; recognition of the clinical and radiographic signs of RDS; and have the appropriate equipment to monitor cardiopulmonary status, oxygenation, and ventilation in these infants until transport to a tertiary care facility can be accomplished. In addition to the two current FDA-approved surfactants, several other surfactants are in various stages of evaluation. When administered to infants with established RDS, both natural and synthetic surfactants have clearly been shown to improve survival, decrease requirements for ventilatory support, and reduce the incidence of air leak complications. Although by no means conclusively demonstrated, certain infants, particularly those delivered at < 30 week gestation, may benefit from immediate treatment in the delivery room. It should be emphasized that, except under extenuating but controlled circumstances and except in the hands of an experienced physician, surfactant treatment should not be viewed as an integral part of neonatal resuscitation. Adequate treatment requires the administration of a minimum of two surfactant doses, although some infants may benefit from additional doses or treatment with an alternative preparation. Massive pulmonary hemorrhage, although rare, is observed with prophylactic and rescue treatment protocols and may result from hemorrhagic pulmonary edema due to a hemodynamically significant PDA. Currently there are no data to recommend the use of one surfactant preparation over another. The short- and long-term benefits may be similar with different products. Therefore, we must await results of trials with then necessary power (large number of subjects) and unbiased design to discern any clinically relevant differences. Results of studies directly comparing the relative efficacy of Survanta and Exosurf, conducted under the auspices of the National Institutes of Health, are expected in 1993. Multicenter trials comparing prophylactic and rescue administration of Exosurf versus CLSE and Survanta versus CLSE are currently underway. It is encouraging to note that follow-up studies up to 2 years of age do not reveal an increase in physical or neurodevelopmental handicaps, BPD, or other problems in preterm infants who received surfactant preparations either for prophylaxis or rescue therapy. Results of long-term follow-up studies, however, are not yet available.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Surfactant replacement therapy for pulmonary diseases. 841 15

The pathophysiology of functional deficiency of pulmonary surfactant in the neonatal respiratory disorders represented by MAS, hemorrhagic lung edema and ARDS was discussed. The removal of inhibitor(s) is the cardinal procedure for MAS and the lavage with surfactant solution seems to be promising. In case of replacement therapy, we should consider using a different dose compared to the one used in RDS due to lung immaturity, in order to optimize results.
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PMID:Functional pulmonary surfactant deficiency and neonatal respiratory disorders. 1009 35

The use of perinatal steroid therapy, first introduced in 1972 is effective in precocious maturation of human lungs. Antenatal corticosteroid therapy results in reduction of fetal mortality, respiratory distress syndrome, intraventricular hemorrhage in preterm babies. These benefits extend to a broad range of gestational age. They comprise the interval between 24 and 34 weeks of human pregnancy and are not limited by the infant's gender or race. The beneficial effects of corticosteroids are the best pronounced after more than 24 hours from the beginning of the treatment. Noteworthy is that therapy less than 24 hours of duration may also improve outcomes. In the presence of premature rupture of membranes, or better with intact membranes, antenatal corticosteroids reduce frequency of RDS, IVH and finally mortality and morbidity. Review of meta-analyses based on randomized trials supports general option that premature infants whose mothers received corticosteroids before delivery are less likely to develop RDS and its complications. Recent data showed that benefits derived from ANS are additive to those of surfactant therapy, rendering the latter more effective. Followup of children up to 12 years of age indicate that ANS do not impair physical growth or psychomotor development. Short-term adverse effects including maternal infection, maternal pulmonary edema were not clearly demonstrated. Pulmonary edema has not been reported when ANS were used alone (i.e. not in combination with betamimetic tocolytics). No long-term unwanted effects on maternal adrenal function have been observed. There is no serious maternal risk resulting from immunosuppressive effect of corticosteroid therapy on maternal immune system. Although glucocorticoid therapy is likely to provoke insulin resistance, and thereby deterioration in diabetic control, and potentially causes cortisol resistance in the fetal lung, the results of scarce randomized trials are not conclusive. In any rate strict control of maternal diabetes mellitus reduces incidence of RDS. Current available data are not indicative of higher risk of fetal mortality in association with maternal hypertensive disease and ANS. In conclusion, most randomized trials of ANS has provided a positive evidence of efficacy and safety of this highly cost effective therapy in most common clinical situations. However, further trials and more precise estimates are justified on ANS treatment specifically related to blood glucose control and evidence concerning the promotion of fetal lung maturity in babies of women with diabetes mellitus. Although benefits of the corticosteroid therapy are beyond any doubts, more experience is needed to assess the effect of ANS on maternal and/or fetal infection in presence of premature rupture of membranes. And finally, further assessments are required on antenatal corticosteroids with dose regimens in patients with multifetal gestation, more common after wide use of techniques of the assisted human reproduction.
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PMID:[Intrauterine stimulation for fetal respiratory system maturation; benefits and risks]. 1114 22

The study was to observe the therapeutic effect of HJ-1 NO--HFJV respirator on treating pulmonary edema caused by seawater drowning. Seawater was infused into the rabbit's lung to establish the animal model of pulmonary edema caused by seawater drowning(PE-SWD). Then the animals were divided into three groups: simple PE-SWD model as control group, treat group(animal model treated with HFJV respirator and four medicines) and HFJV respiratior plus NO group. Pao2, Sao2 and pH were measured by the blood-gas analyzer. The survival time and seawater drowing-respiratiory distress syndrom(SW-RDS) were observed. The results showed that Pao2, Sao2 in NO group were remarkably higher than that of PE-SWD control group, and the survival time was longer than that of medicine treated group and the incidence of SW-RDS decreased to zero. We assume that HJ-1 NO-HFJV respirator is efficient on treating pulmonary edema.
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PMID:[The effect of HJ-1 NO--HFJV respirator on treating pulmonary edema caused by seawater drowning]. 1255 39

Respiratory distress syndrome (RDS) is a multifactorial developmental disease caused by lung immaturity and presenting as high-permeability lung edema ("hyaline membrane disease"). It is characterized by a transient deficiency of alveolar surfactant during the first week of life. During the first few days of life, the alveolar surfactant pool size increases up to that in the controls. The allelic variants of the genes encoding the surfactant proteins (SP) SP-A1, SP-A2, SP-B, and SP-C have been associated with RDS. The main SP-A haplotype, interactively with the SP-B Ile131Thr polymorphism and with constitutional and environmental factors, influence the risk. Case reports on mutations with partially functional SP-B have been published. The genetic susceptibility factors depend on the degree of prematurity at birth, consistent with sequential differentiation of the lung and gestation-dependent differences in clinical presentation. The preferentially type 2 cell expressed genes involved in critical functions (such as ATP-binding cassette transporter, ABCA3), those involved in susceptibility to acute lung damage, and those with known susceptibility to other severe lung diseases (such as G protein-coupled receptor for asthma susceptibility, GPR154 alias GPRA) will possibly serve as candidate genes in future studies. RDS associated with near-term and term births may have a different genetic predisposition and pathogenesis compared to RDS after very preterm birth. As we learn more about the molecular consequences of allelic variation, new therapies based on a new generation of surfactant diagnostics and individualized therapies may follow.
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PMID:Genetic basis of respiratory distress syndrome. 1712 71

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