Summary

This document is a summary of a lecture about blood. It covers the physiological roles of blood explaining how components, such as plasma and erythrocytes (red blood cells), carry out essential functions, such as transporting oxygen. The lecture details the composition and functions of blood to provide an understanding of its physiological roles and functions.

Full Transcript

THE BLOOD - lecture 1 Friday, September 29, 2023 10:11 AM INTRODUCTION → Blood represents about 8% of total body weight → Average volume: ○ 5 liters in women with packed cell volume (hematocrit) of 42% ○ 5.5 liters in men with hematocrit of 45% ADDTIOINAL NOTES - Venou...

THE BLOOD - lecture 1 Friday, September 29, 2023 10:11 AM INTRODUCTION → Blood represents about 8% of total body weight → Average volume: ○ 5 liters in women with packed cell volume (hematocrit) of 42% ○ 5.5 liters in men with hematocrit of 45% ADDTIOINAL NOTES - Venous blood is blood found in the veins ○ Dark red, darker than blood found in the arteries - Artery blood is bright red Picture description: Formed elements: - Gravity makes dense elements sit at the bottom ( formed elements) - Red due to RBC bc it makes up most of the formed elements Plasma: - Clear / yellow portions = plasma ○ Made mostly of water ○ Will not be clear in colour if a person has a lot of lipids in their system - Hematocrit = 45% formed elements divided by 100% total blood volume → Consists of three types of specialized cellular elements suspended in plasma (liquid portion of blood) ○ Erythrocytes § Red blood cells: important in O2 transport § Latin: erythro-cytes = red-cells § Doughnut-shaped ○ Leukocytes § White blood cells; immune system's mobile defense units § Latin: leuko-cytes = white-cells § Actually colourless ○ Platelets (thrombocytes) § Cell fragments; important in hemostasis § Blood clotting → The think layer separating the two blood components is called the buffy coat ○ White-ish coat ○ Where all the WBC / immune cells are PHYSIOLOGICAL ROLE: → Carrying: oxygen, nutrient's, hormones, metabolic wastes, heat → Regulation: (body temperature, pH) ○ Humans are warm blooded so when its cold the vessels contract to maintain temp. and when its hot they relax → Protection: clotting, immunoglobulins ○ Protects from injury, closes open wounds PLASMA CONSTITUENT FUNCTIONS Plasma Water - Acts as a transport medium, caries heat Electrolytes - Are important in membrane excitability; distribute fluid by osmosis ECF and ICF; buffer pH charges most abundant electrolytes are sodium (NA+) and chloride (Cl-) Nutrients, waste, - Are transported in blood; blood CO2, plays a role in acid-base balance gases, hormones PLASMA PROTEINS → Functions ○ In general, exert an osmotic effect important in the distribution of the ECT b/w the vascular and interstitial compartments ○ Is the primary force that prevents excessive loss of plasma from the capillaries into the interstitial fluid ○ Responsible for plasma's capacity to buffer changes in pH → All synthesized in the liver except for gamma globulins Albumins → Transport many substances, contributes most to colloid osmotic pressure ○ Creates pressure to prevent leaks of fluid from the blood vessels to the interstitial space through the extravascular space → Most abundant in BLOOD ○ Makes half of proteins → Carry other substances that can't swim / interact in water → Is NON-SPECFIFC Globulins → Alpha and beta ○ Transport many water-insoluble substances § SPECIFIC - cholesterol, iron, complement ○ Involved in blood-clotting process → Gamma ○ Are antibodies / immunoglobulins § Not made in the blood but by immune cells in other tissue → Fibrinogen ○ Is an inactive precursor for a clot's fibrin meshwork ○ Becomes active when blood clotting in needed ○ In a lab, red cap: forms a clot on purpose bc there is no additive ○ Serum Is plasma minus the fibrinogen → These proteins stay in the plasma, where they preform many valuable functions: ○ Dispersed as a colloid ○ b/c of size, do not diffuse through capillary wall which creates osmotic pressure ○ Partially responsible for plasma's capacity to buffer changes in pH ○ All synthesized by the liver except the Gamma globulins (produced by lymphocytes) ERYTHROCYTES → Also called red blood cells → 5 billion RBCs / 1 ml of blood! (5x106 / mm3) → Flat in the middle to increase surface area of the membrane → Bilayer is thinner to increase hydrogen transport ○ Shape and content ideally suited to carry out their primary function: transporting O2, H2 and CO2 → Thinness of cell enables O2 to diffuse rapidly between the exterior and innermost regions of the cell → Great flexibility of the plasma membrane (diameter 8 µm = into 3 µm capillaries ERYTHROYTES: IN THE PRESENCE OF HEMOGLOBIN (Hb) → Found only in red blood cells → Pigment containing iron ○ Appears reddish when oxygenated ○ Appears bluish when deoxygenated Picture description: → 1 haemoglobin → 4 protein subunits ○ 2 alpha 2 beta → Each subunit contains its own heme group (yellow) ○ 4 iron-containing non-protein groups ○ Each is bound to one of the polypeptides ○ Each iron atom can bind to one O2 molecule ○ Iron is what carries the oxygen → Binding of iron and oxygen is reversible ( can bind and release) → Each Hb molecule can transport 4 O2 molecules → O2 is poorly soluble in water -> 98.5% of O2 is carried in the blood bound to Hb → A single RBC is stuffed wit more than 250 billion Hb molecules, so it can carry >100 million O2 molecules ERYTHTOCYTES: HAEMOGLOBIN ALSO COMBINES WITH: → Carbon dioxide - CO2 ○ Although that's not the main way through which co2 is carried back from the tissue to the lungs → Acidic hydrogen ion portion (H+) ○ Of ionized carbonic acid; generated at the tissue level from CO2 (buffering capacity) → Carbon monoxide -CO ○ Not normally in the blood, but if inhaled -> CO poisoning - binding is irreversibly → Nitric acid - NO2 ○ vasodilator ( in lungs, NO relaxes and dilates the local arterioles -> O2 - rich blood can make it's vital rounds; stabilizes blood pressure MORE ERTHROCYTES STUFF → Mature erythrocytes contain no nucleus, organelles or ribosomes, got rid of them to carry more O2 → Contains key enzymes: ○ Glycolysis enzymes : § Necessary for generating energy needed to fuel active transport mechanisms involved in maintaining proper ionic concentrations within the cell § Rely entirely on glycolysis for ATP formation (no mitochondria) ○ Carbonic anhydrase § Critical in CO2 transport § Catalyzes reaction that ultimately leads to conversion of metabolically produced CO2 into bicarbonate ion (HCO-3 □ Primary form in which CO2 is transported in blood ( in addition to being bound into Hb) □ NOT TRANSPORTED AS A GAS → Cost / benefit with having no organelles ○ Benefit - more hemoglobin molecules ○ Cost = short life span → RBC have thin membranes = fragile ERYTHTOPOIESIS → No nucleus / organelles -> RBCs survive an average of only 120 days (nerve and muscle cells last a person's entire life) → At a given time, we have about 23-30 trillion RBC travelling in our vessels -> turn over of 2-3 million cells per second → Spleen removes most of the old erythrocytes from circulation ○ Dead RBC are recycles in the spleen, and gets replaces, phagocytes eat them → A major process is needed to regenerate trillions of red blood cells ○ Loss of RBC = low on oxygen PICTURE DESCRIPTION: ○ Need a robust system → The pluripotent stem cell has a nucleus → Erythroblast ○ last step that has a nucleus ○ Still in the bone marrow ○ Not mature yet → Reticulocyte ○ Don't leave the bone marrow ○ Organelles are degrading by digestive enzymes / lysosomes → Erythrocyte ○ Leaves the bone marrow ○ Lots of hemoglobin → RBCs cannot divide bc there is no nucleus -> new cells are produced to replenish dying ones. This is known as erythropoiesis: ○ occurs in red bone marrow - where there is no fat § Pluripotent stem cells in red bone marrow differentiate into the different types of blood cells, including RBCs and WBCs □ Only different types of BLOOD cells → Two important places: ○ Bone marrow = make RBC ERYTHROPOIESIS: CYCLE ○ Kidney = important endocrine hormones → EPO = erythropoietin ○ Acts in bone arrow ○ Made by the kidney ○ Knows when its needed, when oxygen levels drop § Kidney will sense it and increase EPO = which increases rate of RBC

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