Ch 17: Local and Humoral Control of Tissue Blood Flow
As arterial saturation decreases, what must occur?
The flow through the region increases in order to almost make up for the decreased amount of oxygen in the blood
Vasodilator substances infiltrate the cells when:
There is a greater rate of metabolism or a lesser availability of oxygen or some other nutrients
Most vasodilators of vasoconstrictors have little effect on long-term blood flow unless:
They alter metabolic rate of the tissues
Vasodilator substances are believed to diffuse through:
Tissues to precapillary sphincters, metarterioles and arterioles to cause dilation
Best characterized vascular growth factors:
Vascular endothelial growth factor Fibroblasts growth factor Angigenin
Angiogenesis
Vascularity increase due to metabolism in a tissue being increased for a prolonged period of time
Increase in calcium ion concentration causes:
Vasoconstriction
Increase in potassium ion concentration causes:
Vasodilation
What happens in tissues when blood flow is reduced and cell metabolism continues at the same rate?
Vasodilator substances (Carbon dioxide, lactic acid, potassium ions) tend to increase
Two theories for regulation of local blood flow when either rate of tissue metabolism changes or the availability of oxygen changes:
Vasodilator theory Oxygen lack theory
Active Hyperemia
When any tissue becomes highly active, the rate of blood flow through the tissue increases
Metabolic Theory
When arterial pressure becomes too great, excess flow provides too much oxygen and too many other nutrients to tissues and washes out the vasodilators, which cause blood vessels to constrict and flow to return nearly to normal despite increased pressure
Reactive Hyperemia
When blood supply to a tissue is blocked for a few seconds to an hour or more and then is unblocked Blood flow through tissue is usually increased immediately 4-7x normal
Location of Macula densa
Where distal tubule lies adjacent to afferent and efferent arterioles at nephron juxtaglomerular apparatus (Kidney)
In what situation do metabolic factors override myogenic mechanisms?
Where metabolic demands of tissues are significantly increased - vigorous exercise - causes dramatic increases in skeletal muscle blood flow
Can blood vessels be made to disappear when not needed?
Yes
Vasopressin
antidiuretic hormone More powerful than Angiotensin II as a vasoconstrictor One of the body's most potent vascular constrictor substances Formed in hypothalamus Transported down by nerve axons to posterior pituitary gland
Increase in carbon dioxide concentration causes:
moderate vasodilation in most tissues but marked vasodilation in brain
6 specific needs for blood flow to tissues:
1) Delivery of oxygen 2) Delivery of other nutrients (glucose, amino acids, fatty acids) 3) Removal of carbon dioxide 4) Removal of hydrogen ions 5) Maintenance of proper concentrations of other ions 6) Transport of various hormones and other substances
Stages of creating new vascular channels:
1) dilation of small vascular loops that already connect vessel above blockage to the vessel below 2) Blood flow is still less than 1/4 of what is needed, so openings continue to occur within ensuing hours 3) vessels continue to grow for many months - forming multiple small collateral channels rather than one single large vessel
Dual system of control of norepinephrine and epinephrine:
1) direct nerve stimulation 2) indirect effects of norepinephrine/epinephrine in circulating blood
How long does it take for arterioles and capillary vessels to increase in number and size to meet the needs of the tissue?
A few weeks (unless pathological or too old to respond)
When a vein or artery is blocked, what happens?
A new vascular channel usually develops around blockage and allows at least partial resupply of blood to the affected tissue
How much vasopressin is released?
A very small, minute amount (plays little role in vascular control)
Anions that have significant effects on blood vessels are:
Acetate and citrate
Two phases of local blood flow:
Acute control Long-term control
Oxygen is important for:
Acute control of local blood flow and for long-term control
Decreased availability of oxygen causes which two substances to be released into the spaces between the tissue cells?
Adenosine and Lactic Acid (containing hydrogen ions)
What must be brought to the kidneys in order to allow the kidneys to regulate fluid volumes and electrolytes as well as to excrete waste products?
Adequate amounts of blood plasma
Adenosine is:
An important local vasodilator for controlling local blood flow
Endostatin
Antiangiogenic peptide derived from breakdown of collagen type XVII
Potential use of antiangiogenic substances
Arresting blood vessel growth in cancerous tumors and preventing large increases in blood flow needed to sustain nutrient supply of rapidly growing tumors
Slight decrease in hydrogen ion concentration causes:
Arteriolar constriction
Myogenic response is most pronounced in which type of vessel?
Arterioles
At what level is the blood flow to each tissue regulated?
At the minimal level that will supply the tissue's requirements (no more, no less)
Precapillary sphincter
At the origin of the capillary
Bradykinin
Cause powerful vasodilation Small polypeptides that are split away by proteolytic enzymes fro alpha2-globulins in the plasma or tissue fluids
Skin blood flow is controlled largely by:
Central nervous system through the sympathetic nerves
Function of kidneys
Cleansing the blood of waste products
Angiotensin II
Constrict the small arterioles powerfully Normally acts on many of the arterioles of the body at the same time to increase total peripheral resistance (increasing arterial pressure) Integral role in regulation of arterial pressure
Vasomotion
Cyclical opening and closing of precapillary sphincters and metarterioles Open and close cyclically several times per minute
An increased utilization of oxygen in the heart is followed by:
Decreased oxygen concentration in the heart muscle cells Consequent degradation of ATP Increased release of adenosine
What leads to the formation of vascular growth factors?
Deficiency of tissue oxygen or other nutrients
In active Hyperemia, the increase in local metabolism causes the cells to:
Devour tissue fluid nutrients rapidly and also to release large quantities of vasodilator substances
Increase in either or booth of carbon dioxide and hydrogen in the brain causes:
Dilation of cerebral vessels and allows rapid washout of excess carbon dioxide or hydrogen ions from brain tissues
Increase in hydrogen ion concentration (decrease in pH) causes:
Dilation of the arterioles
Angiostatin
Fragment of protein plasminogen Inhibitor of angiogenesis
What two vasodilator agents have the ability to increase capillary porosity, allowing leakage of both fluid and plasma protein into the tissues?
Histamine and Bradykinin
Nitric oxide
Important endothelial-derived relaxing factor Lipophilic gas that is released from endothelial cells in response to a variety of chemical and physical stimuli
Tubuloglomerular Feedback
In kidneys. Composition of fluid in early distal tubule is detected by an epithelial structure of distal Dubuque itself called macula densa
Job of vasopressin
Increase greatly water reabsorption from renal tubules back into blood
Each tissue controls its own local blood flow in proportion to:
Its metabolic needs
Endothelin
Large 21 amino acid peptide that requires only nanogram quantities to cause powerful vasoconstriction Increased release is also believed to contribute to vasoconstriction when endothelium is damaged by hypertension
Epinephrine
Less powerful vasoconstrictor, and in some tissues even causes mild vasodilation
Lack of glucose in perfuming blood can cause:
Local tissue vasodilation
Which is better - acute or long-term control - at controlling the flow in proportion to the needs of the tissues?
Long-term control
Vascularity is measured by:
Maximum level of blood flow needed rather than by average need
The precise mechanisms by which changes in pressure cause opening or closing of vascular ion channels are uncertain but likely involve:
Mechanical effects of pressure on extracellular proteins that are tethered to cytoskeleton elements of the vascular wall or to the ion channels themselves
Angiotensin factors cause:
New vessels to sprout form other small vessels Step 1) dissolution of basement membrane of endothelial cells as point of sprouting Step 2) Rapid reproduction of new endothelial cells that stream outward through vessel walls Step 3) Cells continue to divide and fold over into a tube Step 4) Tube connects with another tube budding from another donor vessel and forms a capillary loop
During stress or exercise, sympathetic nerve endings in individual tissues release:
Norepinephrine
One of the most necessary of the metabolic nutrients is:
Oxygen
Smooth muscle requires ___________________ to remain contracted
Oxygen
Tissues almost never suffer from _____________ nutritional deficiency
Oxygen
Oxygen Lack/Nutrient lack theory
Oxygen and other nutrients are required as one of the metabolic nutrients to cause vascular muscle contraction. Without adequate oxygen, it is reasonable to believe that blood vessels would relax and dilate Could decrease availability of O2 to smooth muscle fibers
Bradykinin causes:
Powerful arteriolar dilation Increased capillary permeability
Norepinephrine
Powerful vasoconstrictor
Increase in magnesium ion concentration causes
Powerful vasodilation
Acute control is achieved by:
Rapid changes in local vasodilation or vasoconstriction of arterioles, met arterioles, and precapillary sphincters
Histamine
Released in every tissue of the body if the tissue becomes damaged or inflamed or is the subject of an allergic reaction Derived from mast cells in damaged tissues and from basophils in the blood
Retrolental fibroplasia
Retinal vessels grow out from retina in to the eye's vitreous humor and cause blindness
Autoregulation
Return of blood flow toward the normal level
Angina Pectoris
Severe chest pain caused by ischemia of the heart muscle
What type of stress occurs when blood flows through arteries and arterioles?
Shear stress Because of viscous drag of blood against vascular walls
Long-term control is:
Slow, controlled changes in flow over a period of days, weeks or months
Angiotensin II
Stimulates synthesis of nitric oxide and binds to specific receptors on endothelial cells
Myogenic Theory
Sudden stretch of small blood vessels causes smooth muscle of vessel walls to contract
Nitric oxide synthase enzymes
Synthesize nitric oxide from arginine and oxygen and by reduction of inorganic nitrate
