UMLS:C0029713 - FACTA Search

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Query: UMLS:C0029713 (immaturity)
4,335 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The review of the literature on Cheyne-Stokes respiratory periods reveals enormous variation of the opinions expressed. The original description concerned periodicity characterized by rhythmic changes of respiratory phases and respiratory pauses in a relation of 60 : 15 seconds. In the respiratory phase there were 30 respirations of increasing depths and frequency at the beginning of the phase and decreasing depths and frequency at the end of the phase. Literature data about Cheyne-Stokes respiration comprise a multiplicity of all rhythymic forms. The duration of respiratory cycles varies between 12 and 130 seconds. The relation of the respiratory phase and respiratory pause between 6 : 4 or 75 : 70 seconds, and the number of breaths between 3 and 30 during one respiratory phase. Cheyne-Stokes periods were observed in health subjects as well as in patients with neurological, neurosurgical, cardiac, pulmonary and paediatric diseases. Cheyne-Stokes periods were explained as sequel of prolongation of circulation time between pulmonary alveoli and respiratory centre, through increased sensitivity of the respiratory centre to CO2, diminished sensitivity of the respiratory centre to CO2 and O2-deficit, local blood flow disturbances, section of pathways in the brain stem with disinhibition of basic rhythms, brain immaturity, alterations of consciousness, and respiratory obstructions. Rhythmic changes of the heart beat, of excitability of the heart muscle, of blood pressure, of EEG and of neurological and mental signs were observed. In spite of numerous observations detailed analysis of the respiratory cycle was performed in only a few cases. Major studies are lacking.
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PMID:The definition of "Cheyne-Stokes rhythms". 36 Jul 80

Nine of nineteen infants in this study exhibited two or more central apnea greater than or equal to 20 seconds when they were older than one week and between 32-36 weeks postconceptional age (PCA). We focused on the sequelae of these apneas. Apnea was separated from other morbidity associated with immaturity by the selection of consistently healthy infants. Following discharge, polygraphic tracings were obtained at 40, 44 and 52 weeks PCA in these non-apneic and previously apneic infants. Sleep states, minute by minute values for heart and respiratory rate, skin temperature and transcutaneous O2 (PtcO2) and CO2 (PtcCO2), apnea and transient decreases in PtcO2 were determined. Polygraphic measurements did not differentiate preterm infants with late apnea in the nursery from non-apneic ones. However, the apneic group exhibited a transient decrease in awakenings at 44 weeks PCA.
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PMID:Polygraphy after discharge in preterm infants with and without apnea in the nursery. 160 88

Intraventricular hemorrhage (IVH) in preterm infants is well known to be associated with the high morbidity and mortality of this group. Previous studies have suggested altered cerebral blood flow (CBF) as an important pathologic factor. We measured the CBF in near-term rabbit fetuses using the hydrogen clearance technique. The local CBF of the rabbit fetuses was significantly low compared with that of the maternal rabbits. The response of CBF to changes in PaCO2 was observed in rabbit fetuses. The CO2 reactivity index of the fetal rabbit was lower than that of the maternal rabbit. This low CO2 reactivity might reflect the immaturity of the fetal brain and its low CBF. We were unable to monitor the fetal blood pressure, but the fetal CBF remained stable when the maternal blood pressure was altered. It is well known that IVH in preterm infants originates from the subependymal germinal matrix and that this has many fragile vessels. Our observation suggests that even a small increase of CBF during hypercapnia might have a large effect towards producing hemorrhage.
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PMID:CO2 reactivity and autoregulation in fetal brain. 176 8

During the 4-year period, 1982-1986, 18 patients presented to the Children's Hospital, Camperdown, Sydney, with the following features: (1) Recurrent "absences" clinically indistinguishable from childhood absence epilepsy, (2) Normal clinical examination, (3) Electroencephalogram (EEG) demonstrating normal waking background and sleep activity. On hyperventilation, "absences" occurred, characterized on EEG by a marked build-up of paroxysmal slow-wave activity unassociated with evidence of epileptic activity. We designate these attacks "pseudoseizures caused by hyperventilation resembling absence epilepsy." Individual cases demonstrated a variety of other symptoms consistent with the hyperventilation syndrome. There was an identifiable environmental stress in 13 of the 18 cases. Follow-up of 13 patients after a mean period of 20 months revealed that only two children continued to have occasional absences, associated with a clear history of breathing up when upset. Treatment did not influence outcome. On repeat hyperventilation with EEG and respiratory monitoring, five of the 13 had pseudoseizures. There was no indication that susceptibility to these episodes was associated with an abnormal CO2 response. It is postulated that the occurrence of pseudoseizures is related to cerebrovascular immaturity and an excessive vasoconstrictor response to a given level of CO2.
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PMID:Pseudoseizures caused by hyperventilation resembling absence epilepsy. 212 20

Bicarbonate reabsorption by the immature kidney in response to acute acid-base changes was assessed in 50 anesthetized newborn rabbits before the end of nephrogenesis. The normal newborn rabbit (age 5-12 days) is in a state of hypochloremic metabolic alkalosis (PHCO3-, 31.9 +/- 0.6 mmol/l; PCl-, 83.1 +/- 1.0) and excretes a hypertonic (Uosmol = 578 +/- 41 mosmol/kgH2O), alkaline (UpH = 7.40 +/- 0.15) urine containing 50 +/- 9 mmol/l Cl- and 13 +/- 4 mmol/l Na+. The alkalosis is probably generated by an alkaline load contained in the mother's milk and maintained by a state of chloride wasting and volume contraction. In this alkalotic model, bicarbonate reabsorption, expressed per milliliter glomerular filtration rate (GFR), correlates positively with arterial CO2 pressure (PaCO2). The ability of the immature kidney to reclaim filtered bicarbonate in response to an elevation of the plasma carbon dioxide tension remains unlimited up to PaCO2 of 110 mmHg (y = 20.7 + 0.15 x, r = 0.82, P less than 0.001). Hypercapnia is associated with a marked fall in GFR, so that the positive correlation between bicarbonate reabsorption and PaCO2 vanishes when the bicarbonate reabsorption rate is expressed in absolute terms. Bicarbonate reabsorption is strongly dependent on the filtered load during both acutely induced metabolic acidosis and alkalosis. The acid-base state of the newborn rabbit is in sharp contrast with that of most animal species, and the renal handling of bicarbonate as a function of GFR does not show signs of tubular immaturity.
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PMID:Bicarbonate reabsorption by the kidney of the newborn rabbit. 291 64

A description is first given of respiratory activity in the fetus and its control. Evidence suggests that when the fetus makes respiratory movements, it is in a state comparable to REM sleep in the newborn and adult and that in the alternating periods of apnoea, it is in quiet sleep. It does not appear that the respiratory movements are normally regulated by chemical or reflex, e.g. Hering Breuer, inputs though they are enhanced by CO2 and depressed by hypoxia. In the apnoeic periods, breathing movements are virtually impossible to elicit by chemical or reflex means. Evidence from examination of peripheral inputs indicates that: the carotid body chemoreceptors are inhibited at receptor level, stimulation of the aortic chemoreceptors affects the circulation only and although pulmonary stretch receptors are active and are excited by inflation of the fetal lung, such inflation does not affect discharge in medullary respiratory units or phrenic nerve. Since there is no real evidence of immaturity of the respiratory system in late gestation and since chemical and most reflex inputs appear to provide an adequate stimulus, it is most probable that the periods of apnoea are caused by an inhibitory process, possibly of supra-pontine origin which acts close to medullary respiratory units and effectively inhibits the operation of the automatic component. This inhibitory process may operate periodically; or continuously and be periodically overridden in REM sleep. After birth, breathing is normally continuous and sensitive to lung inflation, CO2 and after a variable delay, to hypoxia. This may be due to the lifting of the inhibitory process allowing activation of the automatic component. However, there is evidence that even in normal, full term infants, full maturation of the automatic component is not complete until about three months of age and in the meanwhile, breathing tends to be imperfectly regulated and subject to damped oscillations when disturbed.
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PMID:Respiratory sensitivity before and after birth. 681 77

Human status epilepticus (SE) is consistently associated with cognitive problems, and with widespread neuronal necrosis in hippocampus and other brain regions. In animal models, convulsive SE causes extensive neuronal necrosis. Nonconvulsive SE in adult animals also leads to widespread neuronal necrosis in vulnerable regions, although lesions develop more slowly than they would in the presence of convulsions or anoxia. In very young rats, nonconvulsive normoxic SE spares hippocampal pyramidal cells, but other types of neurons may not show the same resistance, and inhibition of brain growth, DNA and protein synthesis, and of myelin formation and of synaptogenesis may lead to altered brain development. Lesions induced by SE may be epileptogenic by leading to misdirected regeneration. In SE, glutamate, aspartate, and acetylcholine play major roles as excitatory neurotransmitters, and GABA is the dominant inhibitory neurotransmitter. GABA metabolism in substantia nigra (SN) plays a key role in seizure arrest. When seizures stop, a major increase in GABA synthesis is seen in SN postictally. GABA synthesis in SN may fail in SE. Extrasynaptic factors may also play an important role in seizure spread and in maintaining SE. Glial immaturity, increased electronic coupling, and SN immaturity facilitate SE development in the immature brain. Major increases in cerebral blood flow (CBF) protect the brain in early SE, but CBF falls in late SE as blood pressure falters. At the same time, large increases in cerebral metabolic rate for glucose and oxygen continue throughout SE. Adenosine triphosphate (ATP) depletion and lactate accumulation are associated with hypermetabolic neuronal necrosis. Excitotoxic mechanisms mediated by both N-methyl-D-aspartate (NMDA) and non-NMDA glutamate receptors open ionic channels permeable to calcium and play a major role in neuronal injury from SE. Hypoxia, systemic lactic acidosis, CO2 narcosis, hyperkalemia, hypoglycemia, shock, cardiac arrhythmias, pulmonary edema, acute renal tubular necrosis, high output failure, aspiration pneumonia, hyperpyrexia, blood leukocytosis and CSF pleocytosis are common and potentially serious complications of SE. Our improved understanding of the pathophysiology of brain damage in SE should lead to further improvement in treatment and outcome.
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PMID:Pathophysiological mechanisms of brain damage from status epilepticus. 838 2

To assess the influence of brain immaturity on the effects of oxygen deprivation and the participation of excitotoxicity, the consequences of a 6-h exposure to either hypoxia (95% N2/5% CO2) or 100 microM glutamate were studied in cultured fetal rat forebrain neurons taken at two maturational stages, i.e., 6 and 13 days in vitro. Cells were examined for their morphology, viability, energy metabolism reflected by 2-D-[3H]deoxyglucose uptake, and protein synthesis assessed by [3H]leucine incorporation. Apoptosis and necrosis were scored using the fluorescent dye 4,6-diamidino-2-phenylindole. Whereas 6-day-old neurons responded to a 6-h hypoxia by transient hypermetabolism, biphasic increase in protein synthesis, and cycloheximide-sensitive apoptotic death within 72 h postexposure, glutamate did not affect cell characteristics by the same time. In 13-day-old neurons, hypoxia induced both apoptosis (8.2%) and necrosis (22.3%). At this age, glutamate definitely reduced energy metabolism (26%) and protein synthesis (17%) by the end of exposure. The percentage of necrotic neurons reached 40.7%, but the rate of apoptosis was unchanged compared with controls. Therefore, excitotoxicity cannot account for hypoxia-induced injury in immature neurons, but its participation is suggested in older cells by the suppression of the necrotic component of hypoxia by glutamate receptor antagonists at 13 days.
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PMID:Lack of correlation between the effects of transient exposure to glutamate and those of hypoxia/reoxygenation in immature neurons in vitro. 972 43

1. Low birthweight is now recognized as an important risk factor for early postnatal respiratory illness and it is becoming evident that low birthweight can increase the risk for airway dysfunction in children and adults. Our studies have been aimed at determining how low birthweight, resulting from intra-uterine growth restriction (IUGR), affects the control of breathing and the structural and functional development of the lung. 2. We have measured ventilatory responsiveness to progressive hypoxia and progressive hypercapnia during the first weeks after birth in postnatal lambs in which IUGR was induced by chronic placental insufficiency. It was found that the postnatal increase in ventilatory sensitivity to hypoxia observed in control lambs was diminished in low birthweight lambs; in contrast, the sensitivity to hypercapnia was not affected. In other studies, we found that IUGR caused by maternal anaemia led to elevated CO2 levels during sleep and wakefulness. 3. Our findings suggest that the prenatal development of the brain-stem or respiratory chemoreceptors may be affected by intra-uterine factors associated with IUGR, such as foetal hypoxaemia or hypoglycaemia. It is also possible that the structure of respiratory muscles and, hence, their ability to maintain a high level of ventilation may be affected by IUGR. 4. Recently, we studied the influence of IUGR on foetal lung development, in particular its effects on foetal lung liquid, a major determinant of lung growth, as well as alveolar structure and pulmonary surfactant. Lung liquid secretion and volume, in relation to bodyweight, were unaffected; however, there was evidence of structural and functional immaturity in the lungs. In foetuses exposed to IUGR, the air-blood barrier was thicker and, after birth, the diffusing capacity of the lungs for carbon monoxide was lower. In contrast, surfactant protein gene expression was enhanced, particularly in foetuses with high levels of circulating cortisol. 5. Further studies are needed to characterize the effects of specific types of prenatal compromise on postnatal control of ventilation and lung function, to determine mechanisms underlying these effects and to determine the capacity for postnatal recovery.
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PMID:Effects of intra-uterine growth restriction on the control of breathing and lung development after birth. 1069 39

This study was designed to examine the ventilatory performance and the lung histopathology of cystic fibrosis knockout mice (Cftr-/-) compared with heterozygous (Cftr+/-) or wild-type (Cftr+/+) littermates. Ventilation was recorded in conscious animals using whole-body plethysmography. Tidal volume (VT), respiratory frequency (f), and minute ventilation (VE) were measured during air breathing and in response to various levels of hypercapnia (2, 4, 6, or 8% CO2) or hypoxia (14, 12, 10, or 8% O2). The results for Cftr+/- and Cftr+/+ were pooled into one control group because they did not differ. In air and in response to hypercapnia, VE, VT, and f were similar in Cftr-/- mice and in controls. During graded hypoxia, VE was decreased in Cftr-/- mice at 10 and 8% O2 because of a lower f. Histology showed neither inflammation nor obstruction of airways in Cftr-/- mice. Morphometric analysis showed alveolar dilation as a result of either distension or impaired development. In conclusion, cystic fibrosis knockout mice have normal baseline breathing and ventilatory response to hypercapnia but a decreased ventilatory response to severe hypoxia. This latter result associated with the morphometric analysis suggests that Cftr-/- mice may exhibit immaturity of the respiratory system.
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PMID:Ventilatory responses to hypercapnia and hypoxia in conscious cystic fibrosis knockout mice Cftr-/-. 1476 16

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