Term
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Definition
A fluid suspension of plasma and cells. Considered a specialized discontinuous (formed in one place and functions in another) connective tissue. |
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Term
What is a normal hematocrit level? |
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Definition
54% plasma, 45% RBC's, 1% white cells. |
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Term
How much blood is in the body? |
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Definition
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Term
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Definition
Proteins (liver), water, and ions (kidneys). Albumin is major serum protein. |
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Term
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Definition
Fluid remaining after plasma has clotted. |
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Term
How many of each cell type are there? |
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Definition
RBC's 5-10 billion, WBC's- 5-7 million, Platelets- 200-400 million. |
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Term
Stains: Red to Orange Purple to black Pink to Tan Blue-Gray |
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Definition
Acidophillic= Eosinophillic Basophillic Neutrophillic Polychromatophillic |
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Term
What are some defining characteristics of RBC's? |
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Definition
7-8 micrometers in diameter. Biconcave disc, sometimes found in stacks called rouleaux. Membrane-cytoskeleton interactions give the cell it's stability. Cytoplasm has mostly Hb, to carry O2 to tissues. |
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Term
How do membrane-cytoskeleton interactions influence cell shape? |
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Definition
cytoskeleton (peripheral protein network) are anchored to integral membrane proteins. These membranes are the anion transport protein (band 3) and glycophorin. These interactions determine cell shape. Influenced by calcium ions and ATP. |
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Term
What proteins comprise the cytoskeleton inside the RBC and what are their functions. |
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Definition
band 4.1 links short actin filaments to spectrin tetramers. Spectrin-actin complex links to two integral membrane proteins.: the anion transporter, band 3 is connected by ankyrin, and to glycophorin by band 4.1. These linkages stabilize the lipid membrane. |
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Term
What function does Band 3 have? |
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Definition
It is an anion antiporter and facilitates the transport of HCO3- and Cl- across the membrane. |
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Term
What is band 3 connected to? |
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Definition
it connects to the actin-spectrin complex via ankyrin. |
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Term
What does band 4.1 connect? |
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Definition
Band 4.1 connects spectrin tetramers to actin. it connects this complex with glycophorin. |
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Term
What does Carbonic Anhydrase do and where is it located? |
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Definition
It catalyzes the formation of carbonic acid which then dissociates to bicarbonate. CO2+H2O= H2CO3= HCO3- + H+. It is in this form that the CO2 is moved out of the body. Band 3 facilitates this antitransport across plasma membrane. |
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Term
Where do RBC's derive their energy? |
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Definition
No organelles- derive energy from gylcolysis. |
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Term
Name five clinical correlation regarding RBC's |
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Definition
Anemia, Polycythemia, Sickle Cell Anemia, Thalassaemia, Hereditary spherocytosis. |
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Term
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Definition
Inherited: Alteration in synthesis of alpha or beta chain of Hb. Overproduction of one chain leads to precipitates, bind membrane, and decrease fluidity in local areas (Heinz bodies). Spleen kills cells and marrow overproduces RBCs. Even skull bones which leads to SKULL ENLARGEMENT. |
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Term
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Definition
a reduction in hemoglobin per unit of blood. Ways it can happen is decreased cell size, number, or amount of Hb per cell. Increases RBC production. |
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Term
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Definition
An increase in hematocrit due to low oxygen stress or high altitude. Can create thick blood. |
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Term
What is Sickle Cell Anemia? |
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Definition
Genetic- altered gene of Hb. Hb S is less soluble when deoxygenated- may polymerize and stick to membrane. Increased viscosity of the cytoplasm and the adhesions on the membrane lead to influx of calcium and sickling of cells. heart failure or thrombosis. |
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Term
What are the functions of granulocytes and what types are there? |
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Definition
They function in chemotaxis, phagoctosis, killing stuff, and inflammation. There are three types: Polymorphonuclear Neutrophils, Eosinophils and Basophils. Eosinophils stain red to orange and Basophils stain blue. |
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Term
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Definition
10-15 micrometers in diameter (about three times the size of an RBC). Inactive, basophilic with 2-5 lobes connected by thin filaments. Granules (similar to peroxisomes and lysosomes) are primary and secondary. Primary granules are azurephilic and don't stain in adult cells. Secondary are less dense and contain anti-bacterial agents. |
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Term
What are the differences between primary and secondary granules? |
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Definition
Primary granules are azurephilic and don't stain in adult PMN's. They are large, dense, and contain peroxidase, lysozyme, and myeloperoxidase. Secondary Granulocytes are less dense and contain antibacterial agents such as lactoferrin, lysozyme, cationic compounds, peroxides, and oxygen radicals. They also contain enzymes for generating Iodide. |
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Term
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Definition
DESTROY MICROBES>>> ROOOAAAR! Chemotaxis, phagocytosis, Killing, and inflammation. |
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Term
What is chemotaxis with PMN's? |
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Definition
Certain molecules bind to the surface of PMN's and stimulate them to move toward higher concentrations of that chemical. Usually involve marginated cells in venules or capillaries. May be stimulated by adhesion molecules (selectins and integrins) expressed by PMN's and endothelial cells. Endothelial cells upregulate the production of these adhesion molecules in response to inflammatory signals. |
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Term
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Definition
the movement of cells from the blood stream to tissues. |
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Term
What are some examples of chemotactic factors that attract PMN's when they are in tissues? |
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Definition
C5a (complement), cytokines, arachidonic acid metabolites, bacterial peptides containing N-formyl-methionine, and factors released by WBC at sites of infection. |
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Term
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Definition
Fuse granules with membrane surrounding microbe. This initiates the many killing reactions of PMN's. May die themselves -pus. |
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Term
Name three important facts about PMN's |
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Definition
They are an arm of the innate immune system. They provide defense against bacteria. They are the most numerous WBC. |
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Term
What contributes to inflammation? |
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Definition
killing factors from PMN's, cytokines from other WBC's, and factors from invading organisms. Extracellular matrix is depolymerized, blood flow, plasma and lymph are increased and PMN's die off- making pus!! |
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Term
What do Eosinophils fight? |
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Definition
Larval parasites and allergies. |
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Term
What are some distinguishing characteristics of Eosinophils? |
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Definition
Stain red-orange. Bi or tri-lobed nucleus. They only contain specific, secondary granules. Larger than PMN's granules. May have crystalline band as seen in TMN. They contain Major Basic Protein for killing larvae. |
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Term
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Definition
Eosinophils- destroy larval parasites and work in allergies. Polymorphonuclear Neutrophils kill bacteria and are innate immune system. Basophils- who knows? Monocytes- precursors for tissue macrophages that live for many years. Platelets function in hemostasis. Lymphoctes are the main players in acquired immunity. |
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Term
How do eosinophils fight larvae? |
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Definition
Bind to IgG or IgE antibodies directed against larvae and degranulate all over them. The factors released by T cells, basophils, and mast cells such as histamine, are chemotactic for these cells. MBP is toxic to ascarisis, trichinosis, and schistomiasis. |
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Term
How do eosinophils modulate immune response? |
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Definition
They phagocytize Ag-Ab complexes. Also antagonize inflammatory factors of mast and basophils- destroy histamine. High levels of these cells are associated with allergies, especially IgE- Asthma. |
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Term
Three step plan for PMN's to seek and destroy? |
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Definition
Chemotaxis, phagocytosis, killing (killing factors- hydrolases and reactive oxygen species). |
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Term
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Definition
Maybe similar to mast cells, only with bilobed nucleus. Contain histamine and heparin, creating pretty granule color. Hitamine, SRS, and other molecules are VASODILATORS. Has IgE receptor on membrane, similar to Mast Cells. |
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Term
What are the functions of Basophils? |
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Definition
May act like Mast cells. Respond to immunoligical stimuli and secrete cytokines and signal molecules, histamine. Make IL-4, important in antibody production. Activate eosinophils and lymphocytes. Responsible for immediate hypersensitivity. IgE |
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Term
Delayed Type Hypersensitivity |
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Definition
Mast and Basophils. Exaggerated reactions to immunilogical stimulus. Could be T cell produced. |
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Term
What are Monocytes (histocytes or reticuloendothelial cells)? |
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Definition
LARGEST BLOOD CELL 12-20 micrometers with kidney shaped nucleus. lacy chromatin. Has blue or gray cytoplasm with occasional vacuoles. Give rise to tissue macrophages. Phagocytize microbes and old or damaged host cell, process antigen, remove excess antigen, present to lymphocytes, secrete cytokines. |
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Term
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Definition
cell fragments that contain no nucleus. They can have mitochondria, microtubules, and other organelles. They function in hemostasis. |
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Term
What part do platelets play in hemostasis? |
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Definition
keep small blood vessels from leaking- endothelial maintenance. thrombocytopenia results in blood loss. They work in clotting. Bind to collagen and EC components with receptors, which activates platelets. Platelet plug is formed, interacts with clot formation as fibrinogen is converted to fibrin by thrombin. Then they contract using platelet actin and myosin. |
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Term
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Definition
Small cells with a dense nucleus and little cytoplasm. Can be large with granules. K and NK cells. |
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Term
What is the function of lymphocytes? |
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Definition
Key players in acquired immunity. |
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Term
Idiopathic/ immune thrombocytopenic purpura |
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Definition
lowering of platelet count in blood. Can be caused by drugs, pregnancy, infection, or immune disorders. |
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Term
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Definition
Hematopoietic Pluripotent Stem Cells- give rise to all blood cells |
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Term
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Definition
Colony forming unit spleen also a PSC |
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Term
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Definition
Burst forming unit- erythrocytes- more restricted set of cells |
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Term
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Definition
Colony forming unit- erythroctes- more restricted product of BFU-E and gives rise to RBC's. |
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Term
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Definition
Gives rise to BFU-E and CFU-E- monocytes, granulocytes, erythrocytes, and megakaryocytes |
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Term
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Definition
Colony stimulating factors- cytokines that stimulate cell proliferation and differentiation. |
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Term
What does Multi-CSF of IL-3 do? |
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Definition
stimulates many cell lineages. |
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Term
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Definition
stimulates granulocytes and monocytes. Also stimulates production and release of human H-PCSs from marrow into the blood. Used in protocols to isolate a patient's H-PSC's. |
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Term
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Definition
stimulates proliferation and differentiation of T and B lymphocytes |
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Term
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Definition
stimulates CFU-E and promotes RBC terminal differentiation. |
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Term
What is the developmental sequence in humans? |
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Definition
First blood cells are produced outside of embryo in the yolk sac at week 2. By week 6, the RBCs, platelets and macrophages are produced by the liver. Between weeks 8-12 marrow appears in the clavicle and primary hematopoietic site- medullary hematopoiesis. |
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Term
Where are T-lymphocytes produced |
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Definition
T-stem cells are produced in liver and migrate to thymus. This is the only blood cell not produced in bone marrow. |
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Term
What is extramedullary hematopoiesis? |
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Definition
This is when the liver and spleen take up making blood cells in the event the liver is damaged. |
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Term
What are the three possible cells that are the next generation of the GEMM cells? |
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Definition
GM-CFU, Megak CFU, and BFU-E |
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Term
What are the two next-generational fates of GM-CFU cells? |
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Definition
Monoblasts and myeloblasts. Monoblasts become promonocytes and then monocytes. Myeloblasts become promyelocytes, myelocytes, metamyelmocytes, bands, and finally segmented granulocyte. |
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Term
What are the developmental stages between CFU-S and segmented granulocyte? |
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Definition
CFU-S, GEMM, GM-CFU, myeloblast, promyelocyte, myelocyte, metamyelocyte, band, segmented granulocyte. |
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Term
How do I get platelets from a hematopoietic pluripotential stem cell? |
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Definition
H-PSC, GEMM, to Megak. CFU, megakaryoblast, promegakaryocyte, megakaryocyte, platelets! |
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Term
How do I get an erythrocyte from an H-PSC (CFU-S) |
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Definition
CFU-S, GEMM, BFU-E, CFU-E, Pro-erythroblast, basophilic erythroblast, polychromatophilic erythroblast, Orthochromatic erythroblast, reticulocyte, erythrocyte. |
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Term
What are the general morphological changes as cells mature? |
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Definition
1. cell size decreases. 2. nucleus-cytoplasm ratio decreases. 3. nucleoli dissapear. 4. euchromatin decreases. 5. nuclear shape may alter, may become pyknotic. 6. Chromatin changes from fine to coarse and clumpy. Loss of RNA, decrease in basophilic staining. |
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Term
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Definition
nucleated erythrocyte precursors. sometimes known as normoblasts. |
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Term
What happens with the nucleus during erythrocyte maturation? |
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Definition
Loss of nucleoli, increasing condensation of chromatin, and extrusion of nuclei. Nucleus remains spherical at all times. |
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Term
What happens to the cytoplasm when an erythrocyte is maturing? |
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Definition
replacement of ribosomal RNA by hemoglobin. Name of cells reflect the change in color caused by the change in dye bound. |
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Term
When do cell divisions quit happening between proerythroblasts and reticulocytes? |
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Definition
Orthochromatophilic erythroblasts do not divide. |
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Term
What are the nuclear changes that occur in granulocytes? |
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Definition
from round, to band to segmented. |
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Term
What occurs in the cytoplasm during granulocyte maturation? |
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Definition
appearance of primary granules on inner (concave) surface followed by appearance of secondary granules on outer (convex) surface of Golgi apparatus. In mature stages it seems like primary granules disappear, but this varies in granulocytes. |
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Term
How many days does it take for a mature neutrophil to be released? |
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Definition
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Term
At what stage do cell divisions stop in myeloblast to segmented granulocyte formation? |
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Definition
Cell division occur before the metamyelocyte stage. |
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Term
What stages have similarities in granulocyte development and erythrocyte development? |
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Definition
cell division stops once the orthochromatophilic erythroblast stage is reached as well as when the metamyelocyte stage is reached. Also the disappearance of nucleoli signifies the transition between promyelocyte to myelocyte and proerythroblast to basophilic erythroblast. |
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Term
What is the common stem cell that both monocytes and granulocytes are derived from? |
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Definition
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Term
Name the stages in monocyte development. |
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Definition
GM-CFU, monoblast, promonocyte, monocyte. Then it journeys to tissues where it is converted into a macrophage. |
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Term
Where are platelets derived from? |
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Definition
Bone marrow megakaryocytes from cytoplasmic budding. |
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Term
What is endomytosis and what cell does it? |
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Definition
nuclear replication without nuclear or cellular divisions. This occurs in developing megakaryoblasts to promegakaryocytes. |
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Term
What occurs when a promegakaryocyte becomes a megakaryocyte? |
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Definition
The cytoplasm maturation is characterized by an increase volume and granularity and a decrease of RNA (and therefore basophilia). |
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Term
How are platelets produced? |
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Definition
They are produced by fragmentation of long, tubular extensions of the megakaryocyte cytoplasm that reach out into the bone marrow blood stream. |
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Term
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Definition
cellular connective tissue that produces blood cells. |
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Term
How much of adult body weight dose bone marrow make up? |
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Definition
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Term
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Definition
it is the active hematopoietic production site found in skull, clavicles, vertebrae, ribs, and pelvis. |
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Term
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Definition
inactive and fatty connective tissue found in long bones and joints. Can be recruited to return to activity. |
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Term
What pathway does blood travel through the marrow? |
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Definition
Arteries to venous sinuses to veins. Venous sinuses are essentially sinusoids. There is a thin discontinuous basement membrane and the venous sinuses are lined with endothelial cells connected by ZA. |
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Term
What do adventitial reticular cells do? |
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Definition
lie on endothelial cells and form a meshwork that organizes the hematopoietic cells into cords. |
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Term
Where are hematopoietic cords located? |
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Definition
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Term
What is the structure in hematopoietic cells? |
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Definition
Megakaryocytes sit close to vascular sinuses. They shed platelets through openings in endothelium. Erythrocytes are produced near sinus wall. Macrophages are nearby, and granulocytes are produced farther from sinus walls- they migrate over when it is time to leave. |
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