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What does a red cell count of 5.33 hemoglobin of 15.7 and hematocrit of 47.7 mean?
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How do you improve mean corpuscular hemoglobin concentration?
by dividing the hemoglobin in grams per deciliter by the hematocrit, then multiplying by 100
What is MCH and MCHC?
MCH stands for mean corpuscular hemoglobin, which measures the average amount of hemoglobin in the red blood cells. MCHC stands for mean corpuscular hemoglobin concentration, which measures the concentration of hemoglobin in a given volume of packed red blood cells. Both are important parameters used in the analysis of red blood cells in a complete blood count (CBC) test.
What clinical setting has normal hemoglobin and low hematocrit?
Hematocrit is a percentage, so low hct with normal hgb levels could mean overhydration.
What is MCH in hematology test?
could indicate anemia
What is referring to increase red blood cell?
Red blood cells (RBCs) are the oxygen-carrying cells in circulation in the body. RBCs contain the molecule hemoglobin that can bind oxygen (O2) and transport it all over the body. Anemia is lack of sufficient RBCs (and hemoglobin) to carry enough O2. You get tired easily, have muscle weakness, and your heart struggles. Your bone marrow will produce more RBCs that need more hemoglobin to fill them. Hemoglobin has iron in the center that binds to the O2. So you need RBC production from the bone marrow and iron intake from the diet to produce more O2-carrying capacity. This causes your RBC count, the number of RBCs in circulation per unit volume, to increase. RBC count is called the Red Cell Count (RCC). RCC in cells/femtoliter = hematocrit divided by mean corpuscular volume in femtoliters per cell.
What does the medical abbreviation h and h mean?
The medical abbreviation "H and H" usually stands for hemoglobin and hematocrit levels. Hemoglobin measures how much oxygen-carrying protein is present in the blood, while hematocrit measures the proportion of red blood cells to the total blood volume. These values are important for understanding a person's blood health.
What is Hematology pit results?
Hematology pit results refer to the findings from a peripheral blood smear evaluation. This test helps in diagnosing various blood disorders, such as anemia, infection, and leukemia. The results provide information on the number, size, shape, and distribution of blood cells.
What word means a condition in which the red blood cells do not contain enough hemoglobin?
The lack of hemoglobin in the red blood cells is attributed to anemia or iron deficiency. There is no actual condition in itself of lack of hemoglobin in the red blood cells. Hemoglobin times three equals hematocrit, which is the volume of packed red blood cells. A low count of either indicates anemia. This could be the result of an iron deficiency or a protein deficiency, or it could mean internal bleeding. The etiology of the low hemoglobin needs to be determined.
What does a white blood cell count of 10.6 mean?
white blood cell count is 11.7 what does this mean?
What does the medical abbreviation MCHC mean?
MCHC stands for mean corpuscular hemoglobin concentration. It is used in conjunction with other data from the CBC to determine possible causes when a patient has a low red blood cell count (anemia).mean corpuscular haemoglobin
Why is there a difference in the hemoglobin levels of men women and children?
In their recent Blood correspondence, Murphy et al. postulate that the reason that men and woman have different red cell masses despite similar erythropoietin levels is due to physiologic modulation of the Fahraeus-Lindqvist effect by age, gender and red cell count 1. This hypothesis is based on the authors' observation that the difference between the venous and finger capillary hemoglobin concentrations was inversely proportional to the capillary hemoglobin level and parallel for both sexes. However, the mechanism for preferentially improved modulation of tissue oxygen delivery in women on this basis remains to be explained, particularly since the differences between the venous and finger capillary hemoglobin concentrations in men and women disappear with age even though erythropoietin production does not change with age 2. I would assert to the contrary that the explanation for differences in the red cell mass between men and women lies elsewhere and that the Fahraeus-Lindqvist effect is unlikely to be involved. First, Murphy et al. conflate the venous-capillary hemoglobin concentration difference with the so-called f-cell ratio, which is calculated by dividing the total body venous hematocrit, derived from direct measurement of the red cell mass and plasma volume, by the peripheral venous hematocrit. Importantly, unlike the authors' observed differences between the venous and capillary hemoglobin concentrations, the f-cell ratio is independent of the actual venous hematocrit and gender. Second, it is also highly unlikely that even a peripheral capillary hematocrit could serve as a surrogate for the directly measured total body hematocrit because of the wide variation in the hematocrit in various body tissues 3. Third, the hemoglobin level is a measure of something entirely different than the hematocrit and cannot be used as a substitute as the authors infer. Fourth, it is also formally possible that the authors' age-related data simply represent a regression towards the mean because as men age their hemoglobin level falls, while the female hemoglobin level does not change appreciably 4.Thus, contrary to the authors' data, the difference between the venous and capillary hemoglobin concentrations in men should have risen with age, not fallen, and the difference for the women should have remained constant unless anemia ensued. But by far the most important explanation for the difference in the hemoglobin level between normal men and women despite similar serum erythropoietin levels, is male androgen production, which the authors reject. However, when men were chemically castrated, their serum erythropoietin levels remained unchanged but their hemoglobin levels fell and when testosterone production was restored, the hemoglobin level recovered without a change in the serum erythropoietin level 5. As a corollary, when women were given testosterone, their hemoglobin levels increased. Thus, the difference between men and women with respect to hemoglobin and serum erythropoietin levels can be simply explained on a hormonal basis without having to invoke changes in tissue capillary blood flow, particularly when there is no evidence that peripheral capillary blood flow recapitulates that in the kidney where the bulk of erythropoietin is produced in the adult...
What does hemolytic mean'?
It refers to the destruction of the cell membranes of red blood cells, resulting in the release of hemoglobin from the damaged cell
