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Target Concepts:
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Query: UMLS:C0020440 (
hypercapnia
)
7,939
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The authors use the Bain Circuit with spontaneous breathing during head surgery (neurosurgery and ophthalmological procedures). Suitable for both adult and pediatric use, it seems to be, due to its unique characteristics, the choice circuit for all anaesthesia procedures in which the physician does not have direct control over the patient's head. Comparative analysis of blood gas levels is effected, on the one hand in children connected to a Digby-
Leigh
system and Bain Circuit, and on the other hand in adults, some of whom are connected to a two-way system and the other under a filter circuit; all of the patients are then connected to the Bain Circuit. In children the analysis of results shows that for an identical protocol of anaesthesia the quality of spontaneous breathing obtained using the Bain Circuit is the same as that obtained using the Digby-
Leigh
. In adults anaesthetized using fluothane and with spontaneous breathing, the average level of
hypercapnia
under filter circuit and Bain Circuit is identical. Also, the same level of alveolar hypoventilation is obtained under spontaneous breathing with the two-way and Bain Circuit systems when there are properly provisioned. Thus this work confirms other studies by showing that the Bain Circuit is particularly well adapted to head surgery because of its low weight and easy manageability. On the other hand, when using spontaneous breathing the level of alveolar hypoventilation, and thus the degree of
hypercapnia
, is directly related to the level of anaesthesia and independent of the circuit chosen. Only the setting up of controlled breathing would allow the physician to work under the desired level of normo or hypocapnia.
...
PMID:[Blood gas levels using spontaneous breathing and the Bain circuit. Our experience during head surgery (author's transl)]. 680 Feb 85
Surf1 gene mutations were detected as a main cause for
Leigh syndrome
(LS), also known as infantile
subacute necrotizing encephalomyelopathy
. This syndrome which is commonly associated with systemic cytochrome c oxidase (COX) deficiency manifests in early childhood and has an invariable poor prognosis. Progressive disturbances of the respiratory function, for which both the metabolic condition and necrotizing brainstem lesions contribute, belong to the major symptoms of LS. A constitutive knockout (KO) mouse for Surf1 enables invasive investigations of distinct aspects of LS. In the present study the respiratory function was analyzed applying an arterially perfused brainstem preparation. Compared to wild type (WT) preparations Surf1 KO preparations had a higher baseline respiratory frequency and abnormal responses to hypoxia and
hypercapnia
that involved both respiratory frequency and motor nerve discharge pattern. These data suggest that COX deficiency impairs peripheral and/or central chemoreceptor function.
...
PMID:Hypoxic and hypercapnic challenges unveil respiratory vulnerability of Surf1 knockout mice, an animal model of Leigh syndrome. 2116 62
