Blood
Functions of blood
1. Transportation of dissolved gases, nutrients, hormones, and metabolic waste. 2. Regulation of pH and ion composition of interstitial fluids. 3. restriction of fluid losses at injury sites. 4. Defense against toxins and pathogens. 5. Stabilization of body temperature.
Five major events in hemostasis
1. Vascular spasm 2. Platelet phase 3. Coagulation 4. Retraction 5. Fibrinolysis
Percentage of vol. Whole blood that is formed elements
37 - 54 %
Normal blood temperature
38 degrees Celsius or 100.4 degrees Fahrenheit
Percentage of volume whole blood that is plasma
46 - 63 %
Blood pH
7.35 - 7.45, slightly alkaline
Intrinsic pathway of coagulation phase begins with
Activation of proenzymes exposed to collagen fibers at the injury site
Cause of jaundice
After the removal of iron within macrophages, heme is converted into biliverdin, which is then converted to bilirubin. Accumulation of bilirubin in the blood produces jaundice.
plasma proteins include
Albumins, globulins , fibrinogen,
Hemolytic disease results in
Anemia
Leukocytes to enter damaged tissues and release histamine and other chemicals that promote inflammation
Basophils
Erythropoiesis
Blood cell formation in adults
Veins
Blood from capillaries to the heart
Classification determined by specific surface antigens in red blood cell plasma membranes
Blood type
White blood cells or leukocytes participate in
Body's defense mechanisms
Arteries
Carry blood away from the heart to the capillaries
Bacteremia
Condition in which bacteria circulate in the blood but do not multiply there
Cause of hemolytic disease of the newborn, also known as erythroblastosis fetalis
Cross reaction between fetal and maternal blood types
Color of red blood cells filled with deoxyhemoglobin
Dark red, almost Burgundy
Hemoglobin molecule whose iron is not bound to oxygen is called
Deoxyhemoglobin
Hemophilia
Disease cars and reduced production of a single clotting factor
What happens to red blood cells after about 120 days
Either plasma membrane ruptures or it is engulfed by macrophages in the liver, spleen, or bone marrow
Common pathway of coagulation phase begins when
Either the extrinsic or intrinsic pathway activate factor X forming the enzyme prothrominase
other plasma solutes include
Electrolytes, organic nutrients, and organic wastes
megakaryocytes
Enormous cells with large nuclei
Leukocytes where is golf antibody labeled materials, reduce inflammation
Eosinophils
In bone marrow these cells actively synthesize hemoglobin
Erythroblasts
Red blood cells are also known as
Erythrocytes
Septicemia
Formerly known as blood poisoning semicolon results and pathogens are present and multiplying in the blood and spreading throughout the body
Leukemia
Futures of blood forming tissues
pigment that makes some blood bright red
Heme
Each of these molecules has two alpha chains and 2 beta chains of polypeptides
Hemoglobin
What oxygen binds to in red blood cells
Hemoglobin
Caused by agglutination or clumping after antibodies of one blood type are exposed to surface antigens another blood type
Hemolysis
Erythropoietin
Hormone released by tissues exposed to low oxygen concentration; stimulates erythropoiesis in red bone marrow
Colony stimulating factors
Hormones released by activated lymphocytes and other cells during in a new response to stimulate blood cell formation
What should be expected to be elevated during infection
Immunoglobulins (antibodies)
Pernicious anemia
Insufficient red blood cell production that results due to a lack of vitamin B 12
White blood cells are also referred to as
Leukocytes
Leukocytes with round nucleus and very little cytoplasm which are cells of the lymphatic system providing defense against specific pathogens and toxins
Lymphocytes
Very large leukocytes with kidney bean shaped nucleus that enter tissues and become macrophages engulfing pathogens or debris
Monocytes
Leukocytes or white blood cells that do not absorb histological studies
Monocytes and lymphocytes
Hemolytic disease occurs when
Mother is Rh- and fetus is Rh+
Hemocytoblasts
Multipotent stem cells found in red bone marrow of adults . Their divisions give rise to two types of stem cells responsible for producing all formed elements.
Two types of leukemia
Myeloid leukemia and lymphoid leukemia
Leukocytes in golf pathogens or debris in injured or infected tissues
Neutrophils
Granular leukocytes or white blood cells which absorb histological stains
Neutrophils, eosinophils, and basophils
5 classes of white blood cells or leukocytes
Neutrophils, eosinophils, basophils, lymphocytes, monocytes
Infected cut wood contains a large number of these
Neutrophils, phagocytic white blood cells that are generally first to arrive at the sight of an injury
Iron deficiency anemia
Normal hemoglobin synthesis cannot occur because iron reserves or the dietary intake iron are inadequate
Red blood cells life span
Normally less than 120 days
Red blood cells or erythrocytes are essential for the transport of
Oxygen in the blood
Product of oxygen combined with iron containing heme
Oxyhemoglobin
Malaria
Parasitic disease caused by several species of mosquitoes
Capillaries
Permit diffusion between blood and interstitial fluids
Flattened discs that appear round when viewed from above and spindle shaped in section or in a blood smear
Platelets
Hemostasis
Process of clotting
Venipuncture
Process of collecting fresh whole blood from a superficial vein
Hemoglobin
Protein composed of four globular subunits, each bound to a heme molecule
Used to treat hemolytic disease of the newborn
RHOGAM injections
Blood cells that contain hemoglobin
Red blood cells
Blood cells with large surface area to volume ratio
Red blood cells
Most abundant blood cells
Red blood cells or erythrocytes
Extrinsic pathway of coagulation phase begins with
Release of tissue factor III
Sickle cell anemia
Results from mutation affecting amino acid sequence. Individual must have 2 copies of the sickling gene, one from each parent
Hemolysis
Rupture of blood cells
Platelets
Small membrane-bound cell fragments that contain enzymes and other substances important to the process of clotting
Rouleaux
Stacks of red blood cells
Determines blood type
Surface antigens on red blood cells, which are glycolipids n the plasma membrane, determine blood type
Hematocrit
The percentage of whole blood volume contributed by formed elements, 99.9% of which are red blood cells.
Hematuria
The presence of intact red blood cells in urine
Blood type which contains anti A anti bodies
Type B
Universal donor blood type
Type O
Blood type lacking both A & B surface antigens
Type o
Phases of clotting response
Vascular phase, platelet phase, in coagulation phase
Blood type
What is determined by the surface antigens and red blood cells
The Rh antigen is also referred to as the
d antigen
Blood type that contains anti B antibodies
type A
Blood type that has both A & B surface antigens
type AB