A&P Chapter 17 - Exam 3
Functional aspects of red blood cells
1. Large surface-area-to-volume ratio. 2. RBCs can form stacks (like plates) 3. Flexibility
What percentage does plasma proteins present in plasma?
7%
What percentage does water represent in plasma?
92%
What's the universal recipient and why?
AB+; because it does not have antibodies that will attack different types of blood.
Type A
Antigen: A Antibody: Anti-B
Type AB
Antigen: A and B Antibody: n/a
Type B
Antigen: B Antibody: Anti-A
Type O
Antigen: none Antibody: A and B
How's blood type determined?
By specific surface antigens in RBC plasma membrane.
Surface antigens (agglutinogens)
Contained in the plasma membrane; immune system recognizes them as "normal"
Basophils appearance
Round cell; nucleus generally cannot be seen through dense, blue-stained granules in cytoplasm.
Eosinophils Appearance
Round cell; nucleus generally has two lobes; cytoplasm contains large granules that generally stain bright red.
Neutrophils appearance
Round cell; nucleus lobed and may resemble a string of beads; cytoplasm contains large, pale inclusions
Platelets (<0.1%)
Small, membrane bound cell fragments that contain enzymes and other substances important for clotting.
Basophils remarks
Survival time unknown; assist mast cells of tissues in producing inflammation; produced in red bone marrow.
What does oxyhemoglobin (HbO2) look like?
bright red
Agranular leukocytes (agranulocytes)
contain secretory vesicles and lysosomes smaller than those in granulocytes. However, few, if any, of these cytoplasmic granules absorb histological stain.
Where did "Rh" obtained its name from?
from Rhesus monkeys since the antigen was discovered in them before than in humans.
granular leukocytes (granulocytes)
have abundant cytoplasmic granules (secretory vesicles and lysosomes) that absorb histological stains, such as Wright stain or Giemsa stain.
Deoxyhemoglobin or reduced hemoglobin
hemoglobin molecule whose iron is not bound to oxygen. It is dark red.
Anucleate
lack of nuclei
Albumins
makeup about 60 % of the plasma protein. As the most abundant plasma protein, they're major contributors to the osmotic pressure of plasma.
where do WBCs spend most of their time?
migrating through loose and dense connective tissues throughout the body.
Monocytes remarks
move into tissues after 1-2 days; survive for months or longer; produced primarly in red bone marrow.
Neutrophils and eosinophils remarks
move into tissues after several hours; may survive for minutes to days, depending on activity in tissues; produced in red bone marrow.
Heart
propels blood and maintains blood pressure
Organic wastes
wastes are carried to sites for breakdown or excretion Examples of organic wastes include urea, uric acid, creatinine, bilirubin, and ammonium ions.
compatible
when the donor's blood cells and the recipient's plasma will not cross-react.
Vascular phase
-Lasts for about 30 minutes after the injury occurs. -Response of endothelial cells and the contraction, or vascular spasm, of smooth muscle of the vessel walls.op m
What percentage do other solutes form of plasma?
1%
Types of agranular leukocytes
1. Monocytes 2. Lymphocytes
types of granular leukocytes
1. Neutrophils 2. Eosinophils 3. Basophils
Phases of hemostasis
1. Vascular phase 2. Platelet phase 3. Coagulation phase
What's the structure of hemoglobin (hb/hgb)?
2 alpha chains, two beta chains, and a single molecule of heme.
Globulins
35% of plasma proteins; include antibodies and transport globulins.
Fibrinogen
4% of plasma proteins; produced by liver; under certain conditions, fibrinogen molecules interact to form large, insoluble strands of fibrin that form the basic framework for a blood clot.
Percentage of plasma in blood
55% (range 46-63%)
Lymphocytes Appearance
Generally round cell, slightly larger than RBC; round nucleus; very little cytoplasm.
Blood Vessels
Distribute blood around the body
Blood
Distributes oxygen, carbon dioxide, and blood cells: delivers nutrients and hormones; transports waste products; and assists in temperature regulation and defense against disease.
Basophils functions
Enter damaged tissues and release histamine and other chemicals that promote inflammation.
Monocytes functions
Enter tissues and become macrophages; engulf pathogens or debris.
Red blood cells (RBCs) or erythrocytes (99.9%)
Most abundant blood cells; essential for transport of oxygen in the blood.
Electrocytes (plasma solutes)
Normal extracellular ion composition is essential for vital cellular activities. The major plasma electrocytes are Na+, K+, Ca2+, Mg2+, Cl-, HCO-3, HPO4-, and SO42-
What's the universal donor and why?
O-; because it does not contain antigens that will "sign" antibodies to attack the RBCs.
Organic nutrients
Organic nutrients are used for ATP production, growth, and cell maintenance. This category includes lipids (fatty acids, cholesterol, and glycerides), carbohydrates (primarily glucose), and amino acids.
Capillaries
Permit diffusion between blood and interstitial fluids
What characteristic guides WBCs? (no for the test)
Positive chemotaxis, which implies that higher chemical concentrations of substances guide WBCs to invade pathogens, damaged tissues, and other active WBCs.
Arteries
Propels blood around the body
Where's plasma proteins produced?
The liver synthesizes and releases more than 90 percent of all plasma proteins.
Monocytes Appearance
Very large cell; kidney bean-shaped nucleus; abundant cytoplasm.
Lymphocytes Functions
cells of lymphatic system, providing defense against specific pathogens or toxins.
When can hemolysis occur?
accidental crosss-reactions may occur if a person being treated for severe blood loss is accidentally given a transfusion of the wrong blood type.
What's other name for antibodies?
agglutinins
Antibodies (immunoglobulins)
attack foreign proteins and pathogens
Why can't RBCs repair themselves and their life span is <120 days?
because they lack ribosomes; they cannot divide or synthesize structural proteins or enzymes.
Transport globulins
bind small ions, hormones, lipids, and other compounds.
"Never let monkeys eat bananas"
neutrophils, lymphocytes, monocytes, eosinophils, basophils
hematocrit or packed cell volume (PCV)
percentage of formed elements in a sample of whole blood.
Eosinophils functions
phagocytic; engulf antibody-labeled materials; release cytotoxic enzymes; reduce inflammation; increase in abundance in allergies and parasitic infections.
Neutrophils functions
phagocytic; engulf pathogens or debris in injured or infected tissues; release cytotoxic enzymes and chemicals.
What do formed elements include?
platelets (<0.1%), white blood cells (<0.1%), and red blood cells (99.9%)
White blood cells (WBCs) or leukocytes (<0.1%)
play a role in the body's defense mechanisms. There are five classes of leukocytes, each with slightly different functions.
Emigration or diapedesis
process by which activated WBCs contact and adhere to the vessels walls and squeeze between adjacent endothelial cells to enter the surrounding tissue.
Agglutination
process where antigens of one blood type are exposed to the corresponding antibodies from another type, and RBCs clump together.
Veins
return blood from capillaries to the heart
Antigens
substances that can trigger a protective defense mechanism. most of them are proteins.
Lymphocytes remarks
survive for months to decades; circulate from blood tissues and back; produced in red bone marrow and lymphoid tissues.
Whole Blood
term used to indicate that the blood composition has not been altered.
Hemolysis
the rupture or destruction of red blood cells.
hemostasis
the stopping of bleeding, halts blood loss through the walls of damaged vessels. It also establishes a framework for tissue repairs.
