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Blood volume and body haematocrit of rats native to a simulated altitude of 3500 m (1978)

Turek, Z. ; Claessens, R. ; Ringnalda, B. E. M. ; [et al.]

Springer

Pflügers Archiv 374 (1978), S. 285-288

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ISSN: 1432-2013

Keywords: High altitude ; Blood volume ; Red cell volume ; Plasma volume ; Body haematocrit ; Rat

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract Circulating blood volume (BV) as the sum of circulating red cell volume (RCV) and plasma volume (PV) was estimated in rats native to a simulated altitude of 3500 m (“natives”), in rats born at sea level and later in life transferred to the simulated high altitude (“newcomers”), and in control sea-level rats. RCV per kg body weight (b.w.) was significantly larger in both “newcomers” and “natives” than in controls. PV per kg b.w. was in the “newcomers” insignificantly and in the “natives” significantly smaller than in the controls. BV per kg b.w. in both high altitude groups tended to be larger than in controls but the difference was not significant. Arterial haematocrit (Ahct) in the “newcomers” was significantly higher than in the controls, and in the “natives” significantly higher than in both other groups. Body haematocrit (the ratio of RCV and BV in per cent) was smaller than Ahct in all groups; this was more pronounced in the “newcomers” than in the controls and even more so in the “natives”. Apparently the haematocrit in the minute vessels of the organs of animals exposed to chronic hypoxic hypoxia increases much less than might be expected from changes of the Ahct. An attempt was made to evaluate the possible error of the more commonly used method of estimating BV, when only RCV, or only PV, is measured, and BV and its complementary fraction are calculated from arterial or venous haematocrit. When, in our results, BV was calculated from RCV and Ahct, the absolute values and also the differences between groups were somewhat underestimated. When BV was calculated from PV and Ahct, the BV itself, and particularly the differences between groups, were overestimated quite considerably. It is suggested that the only safe way to estimate BV is to measure RCV and PV separately.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00585606

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2

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Blood gases at several levels of oxygenation in rats with a left-shifted blood oxygen dissociation curve (1978)

Turek, Z. ; Kreuzer, F. ; Ringnalda, B. E. M.

Springer

Pflügers Archiv 376 (1978), S. 7-13

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ISSN: 1432-2013

Keywords: Oxygen dissociation curve ; Oxygen transport ; Blood gases ; Hypoxia ; Rat

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract Theoretical deductions have shown that a shift of the blood O2 dissociation curve (ODC) to the right might improve O2 transport to tissues at normoxia and at mild hypoxia whereas at severe hypoxia the organism should be better off with an ODC shifted to the left (Turek et al., 1973b; Turek and Kreuzer, 1976). The present study was performed in order to ascertain this ambiguous effect of an ODC shift depending on the degree of hypoxia in intact animals. A major displacement of the ODC to the left was achieved in rats by chronic administration of sodium cyanate (NaOCN). Control animals received sodium chloride (NaCl) instead. Arterial and mixed-venous $$P_{{\text{O}}_{\text{2}} }$$ , $$P_{{\text{CO}}_{\text{2}} }$$ , and pH were measured at normoxia and during breathing 14.9, 8.0, or 5.6% O2 in N2 in both groups. From $$P_{{\text{O}}_{\text{2}} }$$ , pH, ODC and arterial hematocrit, arterial and mixed-venous O2 contents were estimated and $$({\text{a}} - {\text{v)}}_{{\text{O}}_{\text{2}} }$$ as an index of blood O2 extraction was obtained. At normoxia and during breathing 14.9% O2 the NaOCN rats had a lower mixed-venous $$P_{{\text{O}}_{\text{2}} }$$ than the NaCl rats without any difference in pH. Arterio-venous O2 difference did not differ at normoxia but was lower in NaOCN rats at 14.9% O2. However, at 8.0 and 5.6% O2 the NaOCN rats had a higher mixed-venous $$P_{{\text{O}}_{\text{2}} }$$ , an increased $$({\text{a}} - {\text{v)}}_{{\text{O}}_{\text{2}} }$$ , and a higher pH (arterial and mixed-venous). At 5.6% O2 the NaCl rats developed a severe acidosis concomitant with pronounced hypocapnia. These findings confirm that rats with a left-shifted ODC have an impaired O2 transport to tissues at normoxia and mild hypoxia but a more efficient O2 transport at severe hypoxia as compared with rats with an unshifted ODC, in agreement with our previous theoretical studies.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00585241

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Blood O2 content, cardiac output, and flow to organs at several levels of oxygenation in rats with a left-shifted blood oxygen dissociation curve (1978)

Turek, Z. ; Kreuzer, F. ; Turek-Maischeider, M. ; [et al.]

Springer

Pflügers Archiv 376 (1978), S. 201-207

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ISSN: 1432-2013

Keywords: Oxygen dissociation curve ; Oxygen transport ; Cardiac output ; Coronary blood flow ; Blood flow to organs ; Hypoxia ; Rat

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract A major displacement of the blood O2 dissociation curve (ODC) was achieved in rats by chronic administration of sodium cyanate (NaOCN). Control animals with a normal position of the ODC received NaCl instead. Arterial and mixed-venous O2 content ( $${\text{C}}_{{\text{O}}_{\text{2}} }$$ ) and O2 consumption were measured during breathing room air, 14.9, 8.0, or 5.6% O2 in N2. Cardiac output was obtained by the Fick principle.86RbCl was administered i.v., the rats were killed and the activity of86Rb in heart, spleen, stomach and intestines, liver, kidney, skeletal muscle, and skin was measured. According to Sapirstein (1956, 1958) the fractional uptake of86Rb in these organs corresponds to the fractions of cardiac output supplying these organs, and from the fractional uptake and cardiac output the nutritional blood flow may be calculated. Arterial and mixed-venous $${\text{C}}_{{\text{O}}_{\text{2}} }$$ was larger in the NaOCN than in the NaCl rats at all levels of oxygenation. At normoxia and 14.9% O2 the venous $${\text{C}}_{{\text{O}}_{\text{2}} }$$ was enlarged more than the arterial one, and so the arterio-venous O2 difference [ $$\left( {{\text{a}} - {\text{v}}} \right)_{{\text{O}}_{\text{2}} }$$ ] as an index of the O2 extraction in the body was smaller in the rats with a left-shifted ODC. However, at more severe hypoxia (8.0 and 5.6% O2) the arterial $${\text{C}}_{{\text{O}}_{\text{2}} }$$ in the NaOCN rats was enlarged more than the mixed-venous one, resulting in a larger $$\left( {{\text{a}} - {\text{v}}} \right)_{{\text{O}}_{\text{2}} }$$ (and therefore O2 extraction) when compared with the NaCl animals. Cardiac output was larger in the NaOCN than in the NaCl rats at 14.9 and 5.6% O2, when expressed per kg body weight. At 14.9% O2 the augmented cardiac output compensated for the lower O2 extraction when compared with the NaCl animals. At 5.6% O2 the NaOCN rats had both a larger ( $$\left( {{\text{a}} - {\text{v}}} \right)_{{\text{O}}_{\text{2}} }$$ ) and cardiac output than the NaCl animals. In the NaCl rats the decreased O2 extraction was not compensated for by an augmented cardiac output and therefore their O2 consumption was not only lower than that of the NaOCN rats but decreased even below the normoxic value of the NaCl rats. Coronary blood flow was increased in both NaOCN and NaCl animals at deep hypoxia to about the same extent, but due to a much lower arterial $${\text{C}}_{{\text{O}}_{\text{2}} }$$ of the NaCl animals, their O2 supply to the heart was lower than that of the NaOCN rats. The nutritional blood flow to spleen, kidney, liver, stomach and intestines, and skin in ml/min · g was lower in the rats with a normal position of the ODC than in those with a left-shifted ODC. This, together with the low arterial $${\text{C}}_{{\text{O}}_{\text{2}} }$$ of the NaCl rats, suggests a serious compromising of the O2 supply to these organs. Results of this study support the conclusion of our theoretical studies (Turek et al., 1973; Turek and Kreuzer, 1976) that a shift of the ODC to the left might be disadvantageous for the O2 transport to tissues at mild hypoxia, but advantageous at severe hypoxia.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00584951

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4

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Arterial blood gases, muscle fiber diameter and intercapillary distance in cardiac hypertrophy of rats with an old myocardial infarction (1978)

Turek, Z. ; Grandtner, M. ; Kubát, K. ; [et al.]

Springer

Pflügers Archiv 376 (1978), S. 209-215

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ISSN: 1432-2013

Keywords: Blood gases ; Cardiac hypertrophy ; Intercapillary distance ; Myocardial infarction ; Rat

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract In rats with a myocardial infarction due to ligation of the left coronary artery a marked right ventricular hypertrophy developed after 41/2 weeks. At this time no difference against control animals was observed in arterial $$P_{{\text{O}}_2 }$$ , $$P_{{\text{CO}}_2 }$$ , pH, ideal alveolar $$P_{{\text{O}}_2 }$$ , and alveolar-arterial O2 pressure difference, as measured in unanesthetized animals at normoxia. In histological sections of the heart stained by PAS reaction capillaries and muscle fibers were counted, and the mean intercapillary distance and muscle fiber diameter were estimated. In the right ventricle of the rats with myocardial infarction both increased when compared with control animals or with sham-operated rats. Fibercapillary ratio was the same in all three groups. Similar results were obtained in the remaining undamaged tissue of the left ventricle of rats with a myocardial infarction when compared with the left ventricle of control or sham-operated rats. Findings concerning intercapillary distance suggest that also in the myocardium which remains intact during the development of the infarction and later hypertrophies, tissue oxygen transport might be impaired, particularly during a stress situation. Results in the right ventricle of rats with myocardial infarction show an opposite trend against rats exposed chronically to simulated high altitude, where in the hypertrophied right ventricle a shorter intercapillary distance occurs and therefore an improvement of tissue oxygen transport might be expected.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00584952

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Coronary blood flow in rats native to simulated high altitude and in rats exposed to it later in life (1975)

Turek, Z. ; Turek-Maischeider, M. ; Claessens, R. A. ; [et al.]

Springer

Pflügers Archiv 355 (1975), S. 49-62

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ISSN: 1432-2013

Keywords: High Altitude ; Coronary Blood Flow ; Cardiac Output ; Cardiac Hypertrophy ; Rat ; TissueP O 2

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary In rats exposed to a simulated high altitude of 3500 m for their whole prenatal and postnatal life a severe cardiac hypertrophy develops. In rats born and first staying 5 weeks at sea level and then being exposed to simulated high altitude, only a unilateral right cardiac hypertrophy occurs. In both groups nutritional coronary blood flow was estimated in left ventricle, right ventricle, and septum and was compared with control animals of similar age. Coronary blood flow was measured at hypoxia in all groups. At first cardiac output was determined by the Fick principle, then86Rb was applied and the animals were killed after 55 sec. Activity of86Rb was measured in both cardiac ventricles and septum and the fractional uptake was calculated. According to Sapirstein (1956, 1958) the distribution of86Rb follows the distribution of cardiac output and from both these data the nutritional blood flow to the parts of the heart may be estimated. Cardiac output was similar in rats exposed to simulated high altitude later in life (“newcomers”) and in control animals, but it was significantly lower in rats born in the low pressure chamber (“natives”). Fractions of cardiac output supplying cardiac ventricles and septum in rats from both hypoxic groups were significantly higher than in control animals. In the “natives” they were significantly higher than in the “newcomers”. The fractions of cardiac output in both “newcomers” and “natives” remained significantly higher than those of the control animals, also when calculated per gram of heart tissue. Nutritional coronary blood flow (in ml/min) was higher in both ventricles and septum of the “newcomers” and in the right ventricle of the “natives”, and lower in the septum of the “natives”, when compared with control animals. Coronary blood flow per gram of heart tissue (in ml/min·g) was significantly higher in all cardiac parts of the “newcomers”, but it was about the same in all cardiac parts of the “natives” when compared with controls. The importance of observed changes concerning myocardial tissue oxygenation is analyzed by using Krogh's cylindrical tissue model.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00584799

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Cardiac output, arterial and mixed-venous O2 saturation, and blood O2 dissociation curve in growing rats adapted to a simulated altitude of 3500 m (1972)

Turek, Z. ; Ringnalda, B. E. M. ; Hoofd, L. J. C. ; [et al.]

Springer

Pflügers Archiv 335 (1972), S. 10-18

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ISSN: 1432-2013

Keywords: Cardiac Output ; Blood O2 Dissociation Curve ; High Altitude ; Rat

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary In rats adapted to a simulated altitude of 3500 m cardiac output measured at hypoxia by the direct Fick principle was significantly lower than in the control animals (mean values 54.3 ml/min and 69.8 ml/min, resp.). The decrease of cardiac output was accompanied by an increase of arterio-venous O2 difference and a decrease of stroke volume in the adapted rats. It is suggested that the decrease of cardiac output might be related to the increase of hematocrit. The adapted rats also showed higher arterial and mixed-venous O2 content (both at hypoxia) and increased O2 capacity. Arterial O2 saturation of the animals previously exposed to simulated high altitude hypoxia was significantly higher (67.3% as against 61.2% in the controls). The standard O2 dissociation curve showed lower oxygen affinity in the blood of the adapted animals but no physiological advantage concerning the transport of O2 to the tissues was found. In another group of animals the Bohr factor was estimated and no difference was found between rat and human blood.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00586931

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Hypoxic pulmonary steady-state diffusing capacity for CO and cardiac output in rats born at a simulated altitude of 3500 m (1973)

Turek, Z. ; Grandtner, M. ; Ringnalda, B. E. M. ; [et al.]

Springer

Pflügers Archiv 340 (1973), S. 11-18

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ISSN: 1432-2013

Keywords: Pulmonary Diffusing Capacity for CO ; Cardiac Output ; Oxygen Dissociation Curve ; High Altitude ; Rat

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary In rats born in the low pressure chamber from sea level parents a higher hypoxic steady-state pulmonary diffusing capacity for CO was found as compared with controls of similar body weight. This difference could be explained by a difference in age or by an increase of blood O2 capacity. There was no difference in alveolar ventilation and alveolar-arterial O2 pressure differences, a lower cardiac output, no difference in arterial O2 tension, no difference in arterial O2 content but a decreased mixed-venous O2 content as compared with control rats measured at hypoxia. A shift of the standard blood O2 dissociation curve to the right was found in the simulated high altitude exposed rats. Calculated mixed-venous O2 pressure was not altered in these rats; since arterial O2 pressure was the same no difference in mean tissue capillary O2 pressure may be presumed as compared with control animals. The results suggest that the first generation of rats exposed to simulated high altitude for their whole life is not only less adapted than animals exposed in their youth (as described in previous work) but that the ability to promote the O2 transport in time of need in rats born in the low pressure chamber is probably even inferior to that of the controls.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00592193

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Myoglobin distribution in the heart of growing rats exposed to a simulated altitude of 3500 m in their youth or born in the low pressure chamber (1973)

Turek, Z. ; Ringnalda, B. E. M. ; Grandtner, M. ; [et al.]

Springer

Pflügers Archiv 340 (1973), S. 1-10

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ISSN: 1432-2013

Keywords: Myoglobin ; Heart ; High Altitude ; Rat

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary Reynafarje's (1963) spectrophotometric method was modified for the study of myoglobin concentration in rat hearts. The influence of age and body weight was evaluated and the age was found to be better correlated with myoglobin concentration than the weight. The influence of simulated altitude of 3500 m was studied in animals exposed to hypoxia at the age of about 34 days and in animals born in the low pressure chamber. In the first group a higher myoglobin concentration was found but only in the right ventricle, together with unilateral hypertrophy, as compared with control animals. In the group of animals born at simulated altitude a severe cardiomegaly developed which was most pronounced in the right ventricle. The myoglobin concentration in the hearts from this group was unchanged in the right ventricle and was lower in the left ventricle and septum.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00592192

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