Olga Vogel scite author profile

Severe elevation of red blood cell number is often associated with hypertension and thromboembolism resulting in severe cardiovascular complications. However, some individuals such as high altitude dwellers cope well with an increased hematocrit level. We analyzed adaptive mechanisms to excessive erythrocytosis in our transgenic (tg) mice that, due to hypoxia-independent erythropoietin (Epo) overexpression, reached hematocrit values of 0.8 to 0.9 without alteration of blood pressure, heart rate, or cardiac output. Extramedullar erythropoiesis occurred in the tg spleen, leading to splenomegaly. Upon splenectomy, hematocrit values in tg mice decreased from 0.89 to 0.62. Tg mice showed doubled reticulocyte counts and an increased mean corpuscular volume. In tg mice, plasma volume was not elevated whereas blood volume was up to 25% of the body weight compared with 8% in wild-type (wt) siblings. Although plasma viscosity did not differ between tg and wt mice, tg wholeblood viscosity increased to a lower degree (4-fold) than expected from corresponding hemoconcentrated wt blood (8-fold). This moderate increase in viscosity is explicable by the up to 3-fold higher elongation of tg erythrocytes at physiologic shear rates. Apart from the nitric oxide-mediated vasodilation we reported earlier, adaptation to high hematocrit levels in tg mice involves regulated ele- IntroductionHigh hematocrit levels are observed in patients suffering from erythrocytoses such as polycythemia vera and chronic mountain sickness, as well as in lowlanders at high altitude and erythropoietin (Epo)-abusing athletes. Severe elevation of the hematocrit level is often associated with hypertension and thromboembolism, leading to severe clinical complications and frequently to death. 1 However, several reports demonstrate that some individuals can cope with excessive erythrocytosis. One case report describes a Chilean miner working at 5950 m above sea level who reached an hematocrit level of 0.75 without showing impaired health conditions or reduced physical activity. 2 In keeping with this, Peruvian miners living and working at extreme altitude and exposed to cobalt (known to induce Epo expression) have been found to reach hematocrit levels of 0.75 to 0.91. 3 One should keep in mind, however, that adaptive mechanisms of high altitude dwellers might be population dependent as recently shown by differences in nitric oxide (NO) metabolism of the lung in Tibetans and Bolivian Aymara. 4 Excessive erythrocytosis is also found in sports medicine: an endurance athlete with an autosomal dominant erythrocytosis 5 resulting in hematocrit levels up to 0.68 has won several Olympic gold medals in the past. 6 These and other reports 7 indicate that adaptive mechanisms to excessive erythrocytosis exist. Because the blood's flow resistance is regulated mainly by the radius of the vessel and the whole-blood viscosity (reviewed in Pearson and Path 8 ) it is conceivable to expect that adaptation to highly increased hematocrit levels involves vasodilation and reduced vi...

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What is the optimal anesthetic protocol for measurements of cerebral autoregulation in spontaneously breathing mice?

Wang

Schuler

Vogel

et al. 2010

Exp Brain Res

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Autoregulation, an important feature of the cerebral circulation, is affected in many diseases. Since genetically modified mice are a fundamental tool in biomedical research, including neuro(bio)logy also in this specie measurements of cerebral autoregulation (CA) are mandatory. However, this requires anesthesia that unfortunately significantly impacts cerebral perfusion and consequently might distort CA measurements directly or by altering arterial pCO(2). The latter can be avoided by artificial ventilation but requires several control measurements of blood gases, each consuming at least 100 μl of blood or 5% of a mouse's blood volume. To avoid such diagnostic hemorrhage, we systematically analyzed the effect of different common anesthetic protocols used for rodents in spontaneously breathing mice on CA measured with Laser speckle perfusion imaging. Halothane, Isoflurane and Pentobarbital abrogated CA and Ketamin/Xylazine as well as Chloralose had a moderate reproducibility. In contrast, the rather rarely used anesthetic Ethomidate applied in low doses combined with local anesthetics had the best reproducibility. Although with this anesthesia the lower CA limit was lower than with Ketamin/Xylazine and Chloralose as reported in the handful of papers so far dealing with CA in mice, we suggest Ethomidate as the anesthetic of choice for CA measurements in spontaneously breathing mice.

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Olga Vogel

Transgenic mice overexpressing erythropoietin adapt to excessive erythrocytosis by regulating blood viscosity

What is the optimal anesthetic protocol for measurements of cerebral autoregulation in spontaneously breathing mice?

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