When the red blood cells get near the end of their life span they:
1. are less likely to become damaged
2. become more fragile
3. are less likely to rupture
4. are less likely to be phagocytized in the spleen or liver
Identify the group in which the formed elements of the human blood are arranged in order of increasing size:
1. red blood cell, neutrophil, platelet
2. platelet, red blood cell, neutrophil
3. neutrophil, platelet, red blood cell
4. platelet, neutrophil, red blood cell
During the RBC cycling, all the following can occur except:
1. amino acids can be recycled into new proteins
2. the entire heme group is eliminated by the liver
3. iron is removed before heme is converted to bilirubin
4. liver dysfunction can cause accumulation of bilirubin in the body
A person has a complete blood count done. Which of the following would not be normal?
1. total RBC count - 5.0 million /µL
2. total WBC count – 1500 /µL
3. total platelet count - 225,000 /µL
4. hemoglobin – 14.5 g / 100 ml
Once released from the bone marrow into the circulation, the average life span of a red blood cell is about
1. 72 hours
2. one week
3. 4 months
4. 2 years
Platelet plug formation is initiated when platelets come into contact with
1. undamaged endothelial cells.
2. fibrinogen in the connective tissue beneath damaged blood vessels.
3. collagen fibers in the connective tissue beneath damaged blood vessels.
4. antithrombin.
An intravascular clot and its fragments are respectively called as:
1. hematoma; thrombosis
2. thrombus; hematoma
3. thrombus; embolus
4. embolus; thrombus
The cytoplasmic granules released by thrombocytes during platelet plug formation, which attract more platelets to the plug are:
1. prostacyclin and NO
2. erythropoietin and bilirubin
3. heparin and plasmin
4. ADP and thromboxanes
Coagulation of blood can be prevented by removal of which of the following in the blood?
1. | transferrin | 2. | iron |
3. | antibodies | 4. | calcium |
A person comes to the ER with a need of blood transfusion. How would you determine his blood type?
1. By mixing his blood with the blood of another person of known blood type and if there is no reaction they are the same type.
2. By looking at red blood cells under a microscope to see what kind of antigens are on their membranes.
3. By checking to see which plasma antibodies a person has and he won't have antibodies against his own blood type.
4. By mixing the blood with different antibodies to see which ones cause the red blood cells to agglutinate.