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Blood lactate and mixed venous-arterial PCO2 gradient as indices of poor peripheral perfusion following cardiopulmonary bypass surgry (1991)

Ariza, M. ; Gothard, J. W. W. ; Macnaughton, P. ; [et al.]

Springer

Intensive care medicine 17 (1991), S. 320-324

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ISSN: 1432-1238

Keywords: Blood lactate ; Acid base balance ; Cardiopulmonary bypass

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract Conventional indices of tissue perfusion after surgery involving cardiopulmonary bypass (CPB) may not accurately reflect disordered cell metabolism. Venous hypercarbia leading to an increased veno-arterial difference in CO2 tensions (V-aCO2 gradient) has been shown to reflect critical reductions in systemic and pulmonary blood flow that occur during cardiorespiratory arrest and septic shock. We therefore measured plasma lactate levels and V-aCO2 gradients in 10 patients (mean age 57.2 years) following CPB and compared them with conventional indices of tissue perfusion. Plasma lactate levels, cardiac index (CI) and oxygen uptake $$(\dot VO_2 )$$ all increased significantly (p〈0.05 vs baseline levels) up to 3h following surgery. Oxygen delivery $$(\dot DO_2 )$$ did not change. Plasma lactate levels correlated significantly with CI (r=0.47,p〈0.01). V-aCO2 fell significantly with time (p〈0.01 vs baseline). There was an inverse relationship between V-aCO2 and cardiac index and V-aCO2 and lactate (r=−0.37,p〈0.05;r=−0.3,p〈0.05 respectively). We conclude that blood lactate, CI and $$\dot VO_2 $$ increase progressively following CPB. An increase in lactate was associated with a decrease in V-aCO2. An increase in V-aCO2 was not therefore associated with evidence of inadequate tissue perfusion as indicated by an increased blood lactate concentration.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01716189

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Coordination of the cell-specific distribution of the four subunits of glycine decarboxylase and of serine hydroxymethyltransferase in leaves of C3-C4 intermediate species from different genera (1993)

Morgan, C. L. ; Turner, S. R. ; Rawsthorne, S.

Springer

Planta 190 (1993), S. 468-473

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ISSN: 1432-2048

Keywords: C3-C4 intermediate species (Flaveria, Moricandia, Panicum) ; C4 evolution ; Glycine decarboxylase (localization) ; Photorespiration ; Serine hydroxymethyltransferase (localization)

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract The cell-specific distribution of the four subunit proteins (P, L, T and H) of glycine decarboxylase (GDC) and of serine hydroxymethyltransferase (SHMT) has been studied in the leaves of C3-C4 intermediate and C4 species of three genera (Flaveria, Moricandia and Panicum) using immunogold localization. Antibodies raised against these proteins from pea leaf mitochondria were used to probe Western blots of total leaf proteins of F. linearis Lag., M. arvensis (L.) DC and P. milioides Nees ex Trin. (C3-C4), and F. trinervia (Spring.) Mohr and P. miliaceum (L.) (C4). For all species, each antibody recognised specifically a protein of similar molecular weight to that in pea leaves. In leaves of M. arvensis the P protein was present in the mitochondria of the bundle-sheath cells but was undetectable in those of the mesophyll, whereas the L, T and H proteins and SHMT were present in both cell types. The density of immunogold labelling of SHMT on the mitochondria of mesophyll cells was less than that on those of the bundle-sheath cells, which correlates with the relative activities of SHMT in these cell types. These data reveal that the lack of functional GDC in the mesophyll cells of M. arvensis, which is the principal biochemical reason for reduced photorespiration in this species, is due to the loss of a single subunit protein. This lack of coordinate expression of the subunit proteins of GDC within a photosynthetic cell represents a clear difference between M. arvensis and other C3 and C3-C4 species. None of the GDC proteins was detectable in the mesophyll cells of the C3-C4 and C4 Flaveria and Panicum species but all were present in the bundle-sheath cells. The differences in the distribution of the GDC proteins in leaves of the C3-C4 species studied are discussed in relation to the evolution of photosynthetic mechanisms.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00224785

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