A&P Chapter 18 THE CIRCULATORY SYSTEM: BLOOD 18.1 | 18.1a Functions of the Circulatory System | 18.1b Components and General Properties of Blood | 18.1 c Blood Plasme | 18.1d Blood Viscosity and Osmolarity | 18.1e How Blood Is Produced
Kwashiorkor
A disease of chronic malnutrition during childhood, in which a protein deficiency makes the child more vulnerable to other diseases, such as measles, diarrhea, and influenza. the arms and legs are emaciated for lack of muscle, the skin is shiny and tight with edema, and the abdomen is swollen by ascites
Major Proteins of the Blood Plasma: Beta (B) Globulins: Complement proteins
Aid in destruction of toxins and microorganisms
Major Proteins of the Blood Plasma: Alpha (a) Globulins: Ceruloplasmin
Transports copper
Major Proteins of the Blood Plasma: Alpha (a) Globulins: Haptoglobulin
Transports hemoglobin released by dead erythrocytes
Major Proteins of the Blood Plasma: Beta (B) Globulins: Transferrin
Transports iron
tissues that produce blood cells
hemopoietic tissues
cardiovascular system
only the heart and vessels
blood islands produce
primitive stem cells that migrate into the embryo proper and colonize the bone marrow, liver, spleen, and thymus
In addition to protein, the blood plasma contains
such nitrogen-containing compounds as free amino acids and nitrogenous wastes.
The five leukocyte types are divided into two categories
the granulocytes and agranulocytes
Cell clusters called blood islands form in the yolk sac by the
third week of human development
Nitrogenous wastes
toxic end products of catabolism, normally removed by the kidneys -most abundant is urea
What two properties of blood arise from the formed elements and plasma composition?
viscosity and osmolarity
Regulation
-By absorbing or giving off fluid under different conditions, the blood capillaries stabilize fluid distribution in the body. -By buffering acids and bases, blood proteins stabilize the pH of the extracellular fluids -Cutaneous blood flow is extremely important in dissipating metabolic heat from the body. Shifts in blood flow regulate body temperature by routing blood to the skin for heat loss or retaining it deeper in the body to conserve heat.
Formed elements are classified as:
-Erythrocytes (red blood cells, RBCs) -Platelets -Leukocytes (white blood cells, WBCs) --> Granulocytes --->> Neutrophils --->> Eosinophils --->> Basophils --> Agranulocytes --->> Lymphocytes --->> Monocytes
Steps of blood fractionation
-Sample of blood in a tube is spun in a centrifuge for a few minutes -RBCs, the the densest elements, settle to the bottom of the tube and typically constitute 37% to 52% of the total volume (a value called the hematocrit or packed cell volume) -WBCs and platelets settle into a narrow cream -or buff-colored zone called the buffy coat just above the RBCs; they total 1% or less of blood volume. -At the top of the tube is the plasma, which is about 47% to 63% of the blood volume -If the plasma is separated, allowed to coagulate (clot), and centrifuged again, the clotting proteins (mainly fibrin) settle to the bottom of the tube and the overlying fluid is then called blood serum
Serum is clinically valuable as
-a vehicle for vaccines -antivenins -other therapies -for certain blood tests, such as for hepatitis and prostate cancer -for many clinical and research laboratories
Protection
-blood plays several roles in inflammation, a mechanism for limiting the spread of infection -white blood cells destroy microorganisms and cancer cells and remove debris from the tissues -antibodies and other blood proteins neutralize toxins and help to destroy pathogens -platelets secrete factors that initiate blood clotting and other processes for minimizing blood loss, and contribute to tissue growth and blood vessel maintenance
Globulins
-divided into three roles in solute transport, clotting, and immunity
Fibrinogen
-soluble precurosr of fibrin
Seven kinds of formed elements
-the erythrocytes -platelets -five kinds of leukocytes
Blood fractionation
-the separation of blood into its basic components -based on centrifugation and coagulation
Albumin
-the smallest and most abundant plasma protein, transports various solutes and buffer the pH of blood plasma -also makes a major contribution to two physical properties of blood: its viscosity and osmolarity -changes in albumin concentration can significantly affect blood volume, pressure, and flow
The liver produces as much as _____ of plasma protein per hour.
4 g
General blood volume of an adult
4 to 6 liters
Whole blood is ____ to _____ times as viscous as water
4.5 to 5.5 times
Every day a typical adult produces (blood)
400 billion platelets, 200billion RBCs, and 10 billion WBCs
Electrolytes are another important component of the blood plasma. Sodium ions constitute about ____% of the plasma cations.
90%
Major Proteins of the Blood Plasma: Gamma (Y) Globulins: Fibrinogen (4%)*
Becomes fibrin, the major component of blood clots
Roles of Blood, blood vessels, and the heart in the circulatory system
Blood - liquid medium in which materials travel through the body Blood vessels - ensure the proper routing of blood to its destinations Heart - the pump that keeps the blood flowing
Transport
Blood: -carries oxygen from the lungs to all the tissues -picks up carbon dioxide from those tissues -carries CO2 to the lungs to be removed from the body -picks up nutrients from the digestive tract > delivers them to all the tissues -carries metabolic wastes to the kidneys for removal -carries hormones from endocrine cells to their target organs -transports a variety of stem cells from the bone marrow and other origins to the tissues where they lodge and mature
Blood Plasma
Matrix of liquid connective tissue (blood)
Major Proteins of the Blood Plasma: Alpha (a) Globulins: Prothrombin
Promotes blood clotting
Proteins of the Blood Plasma: Albumin (60%)*
Responsible for colloid osmotic pressure; major contributor to blood viscosity; transports lipids, hormones, calcium, and other solutes; buffers blood pH
_____________ is more important than any other solute to the osmolarity of the blood.
Sodium
Specific functions of the circulatory system
Transport Protection Regulation
Major Proteins of the Blood Plasma: Beta (B) Globulins: Others
Transport Lipids
Major Proteins of the Blood Plasma: Proteins: Globulins (36%)*
Transport and defense functions as itemized below
Major Proteins of the Blood Plasma: Alpha (a) Globulins: Others
Transport lipids, fat-soluble vitamins, and hormones
Gen. Prop. of Blood: Characteristic: Mean salinity (mainly NaCl)
Typical Value for Healthy Adults: 0.9%
Gen. Prop. of Blood: Characteristic: Platelet count
Typical Value for Healthy Adults: 130,000 -360,000 cells per microliter
Gen. Prop. of Blood: Characteristic: Osmolarity
Typical Value for Healthy Adults: 280-296 mOsm/L
Gen. Prop. of Blood: Characteristic: mean temperature
Typical Value for Healthy Adults: 38°C (100.4°F)
Gen. Prop. of Blood: Characteristic: Total WBC count
Typical Value for Healthy Adults: 5,000 - 10,000 cells per microliter
Gen. Prop. of Blood: Characteristic: pH
Typical Value for Healthy Adults: 7.35-7.45
Gen. Prop. of Blood: Characteristic: Mean fraction of body weight
Typical Value for Healthy Adults: 8%
Gen. Prop. of Blood: Characteristic: Volume/body weight
Typical Value for Healthy Adults: 80-85 mL/kg
Gen. Prop. of Blood: Characteristic: Hematocrit (packed cell volume)
Typical Value for Healthy Adults: Female 37% to 48% ; Male: 45% to 52%
Gen. Prop. of Blood: Characteristic: Hemoglobin
Typical Value for Healthy Adults: Female: 12-16g/dL ; Male: 13-18 g/dL
Gen. Prop. of Blood: Characteristic: Volume in adult body
Typical Value for Healthy Adults: Female: 4-5 L; male: 5-6 L
Gen. Prop. of Blood: Characteristic: Mean RBC count
Typical Value for Healthy Adults: Female: 4.2-5.4 million/ cells per microliter ; Male:4.6-6.2 million/cells per microliter
Gen. Prop. of Blood: Characteristic: Viscosity (relative to water)
Typical Value for Healthy Adults: Whole blood: 4.5-5.5; plasma: 2.0
Fractionation of blood into formed elements, plasma, and serum
Whole blood | Centrifugation | _________________________ | | Formed Plasma Elements | Coagulation _________|__________ | | Clotting Serum proteins
Three major categories of plasma proteins:
albumins, globulins, fibrinogen
Hypoproteinemia is a condition of unusually low levels of plasma proteins. This problem is often characterized by ________.
ascites (fluid accumulation in the abdominal cavity
If blood osmolarity is too high:
blood absorbs too much water, increasing the blood pressure
In the thymus the stem cells multiply and give rise to
blood cells throughout fetal development
myeloid and lymphoid hematopoiesis
blood formation in the bone marrow and lymphatic organs
Matrix of blood
blood plasma
An RBC or protein deficiency puts a strain on the heart that may lead to
cardiovascular problems
formed elements
cells and cell fragments including red blood cells, white blood cells, and platelets the term formed elements alludes to the fact that these are membrane-enclosed bodies with a definite structure visible with the microscope
plasma
clear, light yellow fluid constituting a little over half of the blood volume
Roles of Plasma
clotting, defense against pathogens, transport of other solutes such as iron, copper, lipids, hydrophobic hormones
the plasma also transports
dissolved oxygen, carbon dioxide, and nitrogen
In order to nourish surrounding cells and remove their wastes, substances must pass between the
filtration of fluid from the capillary and tissue fluid
suspended in the plasma are
formed elements
The liver contributes all of the major plasma proteins except
gamma globulins
the plasma also transports nutrients absorbed by the digestive tract, including
glucose, amino acids, fats, cholesterol, phospholipids, vitamins, and minerals
circulatory system
heart, blood vessels, and blood
all formed elements trace their origins to a common type of ____________________ ____________ ___________ (_______) in the bone marrow
hematopoietic stem cell (HSC)
the spleen stops producing RBCs soon after birth, but continues producing ________________ for life
lymphocytes
Viscosity is important in circulatory function because it
partially governs the flow of blood through the vessels.
The gamma globulins come from
plasma cells - connective tissue cells that are descended from white blood cells called B lymphocytes
The most abundant plasma solute by weight is
protein, totaling 6 to 9 g/dL
Viscosity
resistance of a fluid to flow, resulting from the cohesion of its particles lamens terms: its the thickness or stickiness
The osmolarity of the blood is a product mainly of its
sodium ions, protein, and erythrocytes. the contribution of protein to blood osmotic pressure, called the colloid osmotic pressure (COP) is extremely important
fibrin
sticky protein that forms the framework of a blood clot
hematopoiesis
the production of blood, especially its formed elements
hematology
the study of blood
the liver stops producing blood cells around
the time of birth
Osmolarity of blood
the total molarity of those dissolved particles that cannot pass through the blood vessel wall
fundamental purpose of the circulatory system
to transport substances from place to place in the body
if blood osmolarity is too low
too much water stays in tissue, blood pressure drops, and edema occurs
Plasma is a mixture of
water, proteins, nutrients, electrolytes, nitrogenous wastes, hormones, and gases
the first hematopoietic tissues of the human embryo form in the
yolk sac
