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Query: UMLS:C0020440 (
hypercapnia
)
7,939
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
117 patients were examined in the early period after operation on an open heart (aortocoronary shunt and correction of acquired valvular heart diseases). The hemodynamic values were studied by direct methods with catheterization of the right parts of the heart and pulmonary artery. The catheter was introduced into the left atrium during the operation by transseptal puncture. In the absence of the latter, pulmonary capillary wedge pressure was measured. The loading volume test (LVT) was conducted by i.v. infusion of 200-800 ml solution. Graded
hypercapnia
(GH) was accomplished by stepped administration of 3-5% CO2 into the inspiration line or reducing minute lung ventilation. The study revealed different sensitivity of patients to CO2 and different variants of hemodynamic changes in response to
hypercapnia
. The underlying factors were; (1) venoconstriction, increased return to the heart, and realization of the
Frank
-Starling mechanism; (2) arterial vasodilation and reduced left ventricular postload; (3) increased activity of the sympathoadrenal system (revealed by indirect data--increased heart rate and myocardial contractility). The resultant effect was determined by the initial state of circulation in the patient, the contribution of each of the named mechanisms, and the ratio of the central and peripheral effects of CO2. A hypercapnic functional-diagnostic test for appraising the vascular channel volemia and functional condition of the myocardium was elaborated on basis of the obtained data and approbated clinically. It was also shown that the diagnostic significance of LVT significantly increases under conditions of GH.
...
PMID:[Graded hypercapnia in the postoperative evaluation of central hemodynamics in cardiosurgical patients]. 190 58
The purpose of this study was to determine the relationship between intrathoracic pressure (delta
ITP
) and diaphragm shortening (DS) during the development of diaphragm fatigue. Fatigue of the diaphragm was produced by having rats breath 15% CO2 in O2. Diaphragm shortening increased significantly to 178% of control during the first 5 min of
hypercapnia
and then decreased to 86% of control at approximately 80 min. Twenty minutes after terminating
hypercapnia
, DS increased to 115% of the prehypercapnic value. delta
ITP
increased to 199% of control following 5 min of
hypercapnia
and continued to increase, reaching 267% of control at the end of the hypercapnic period. Twenty minutes later, delta
ITP
was 147% of control. These results illustrate that during increased respiratory work, DS can decrease while intrathoracic pressure remains increased. These findings suggest that intrathoracic pressure may not always reflect the contractile status of the diaphragm. These findings are consistent with other studies indicating that as the diaphragm fatigues, accessory respiratory muscle activity increases to maintain delta
ITP
.
...
PMID:Diaphragm shortening and intrathoracic pressure during hypercapnia in rats. 951 16
Optical imaging spectroscopy (OIS) and laser Doppler flowmetry (LDF) data sequences from anesthetized rats were used to determine the relationship between changes in oxy-and deoxygenated hemoglobin concentration and changes in blood volume and flow in the presence and absence of stimulation. The data from Jones et al. (accompanying paper) were used to explore the differences between two theoretical models of flow activation coupling. The essential difference between the two models is the extension of the model of Buxton and
Frank
by Hyder et al. (1998, J. Appl. Physiol. 85: 554--564) to incorporate change in capillary diffusivity coupled to flow. In both models activation-increased flow changes increase oxygen transport from the capillary; however, in Hyder et al.'s model the diffusivity of the capillary itself is increased. Hyder et al. proposed a parameter (Omega), a scaling "constant" linking increased blood flow and oxygen "diffusivity" in the capillary bed. Thus, in Buxton and
Frank
's theory, Omega = 0; i.e., there are no changes in diffusivity. In Hyder et al.'s theory, 0 < Omega < 1, and changes in diffusivity are assumed to be linearly related to flow changes. We elaborate the theoretical position of both models to show that, in principle, the different predictions from the two theories can be evaluated using optical imaging spectroscopy data. We find that both theoretical positions have limitations when applied to data from brief stimulation and when applied to data from mild
hypercapnia
. In summary, the analysis showed that although Hyder et al.'s proposal that diffusivity increased during activation did occur; it was shown to arise from an implementation of Buxton and
Frank
's theory under episodes of brief stimulation. The results also showed that the scaling parameter Omega is not a constant as the Hyder et al. model entails but in fact varies over the time course of the flow changes. Data from experiments in which mild
hypercapnia
was administered also indicated changes in the diffusivity of the capillary bed, but in this case the changes were negative; i.e., oxygen transport from the capillary decreased relative to baseline under
hypercapnia
. Neither of the models could account for the differences between the
hypercapnia
and activation data when matched for equivalent flow changes. A modification to the models to allow non-null tissue oxygen concentrations that can be moderated by changes due to increased metabolic demand following increased neural activity is proposed. This modification would allow modulation of oxygen transport from the capillary bed (e.g., changes in diffusivity) by tissue oxygen tension and would allow a degree of decoupling of flow and oxygen delivery, which can encompass both the data from stimulation and from
hypercapnia
.
...
PMID:Increased oxygen consumption following activation of brain: theoretical footnotes using spectroscopic data from barrel cortex. 1135 2
A recent nonlinear system by Friston et al. (2000. NeuroImage 12: 466-477) links the changes in BOLD response to changes in neural activity. The system consists of five subsystems, linking: (1) neural activity to flow changes; (2) flow changes to oxygen delivery to tissue; (3) flow changes to changes in blood volume and venous outflow; (4) changes in flow, volume, and oxygen extraction fraction to deoxyhemoglobin changes; and finally (5) volume and deoxyhemoglobin changes to the BOLD response. Friston et al. exploit, in subsystem 2, a model by Buxton and
Frank
coupling flow changes to changes in oxygen metabolism which assumes tissue oxygen concentration to be close to zero. We describe below a model of the coupling between flow and oxygen delivery which takes into account the modulatory effect of changes in tissue oxygen concentration. The major development has been to extend the original Buxton and
Frank
model for oxygen transport to a full dynamic capillary model making the model applicable to both transient and steady state conditions. Furthermore our modification enables us to determine the time series of CMRO(2) changes under different conditions, including CO(2) challenges. We compare the differences in the performance of the "Friston system" using the original model of Buxton and
Frank
and that of our model. We also compare the data predicted by our model (with appropriate parameters) to data from a series of OIS studies. The qualitative differences in the behaviour of the models are exposed by different experimental simulations and by comparison with the results of OIS data from brief and extended stimulation protocols and from experiments using
hypercapnia
.
...
PMID:A model of the hemodynamic response and oxygen delivery to brain. 1216 48
