8 Renal Physo Overview Flashcards
... 19. What condition can cause osmotic pressure to be too high? 20. If a person is dehydrated what will happen to the blood pressure? 21. If a person has high osmotic pressure in the bloodstream, what is the current condition of the blood pressure? 22. If water is drawn out of cells what will it cause ...
... 19. What condition can cause osmotic pressure to be too high? 20. If a person is dehydrated what will happen to the blood pressure? 21. If a person has high osmotic pressure in the bloodstream, what is the current condition of the blood pressure? 22. If water is drawn out of cells what will it cause ...
16 Renal Physo Overview Flashcards
... 70. What effect will the above hormone have on water reabsorption? 71. What condition can cause low sodium levels? 72. What hormone is released when the bloodstream needs more water? 73. What is another name for this hormone? 74. What effect do Aldosterone and ADH have on BP and blood volume? 75. In ...
... 70. What effect will the above hormone have on water reabsorption? 71. What condition can cause low sodium levels? 72. What hormone is released when the bloodstream needs more water? 73. What is another name for this hormone? 74. What effect do Aldosterone and ADH have on BP and blood volume? 75. In ...
13a Renal Physo Overview Flashcards
... 70. What effect will the above hormone have on water reabsorption? 71. What condition can cause low sodium levels? 72. What hormone is released when the bloodstream needs more water? 73. What is another name for this hormone? 74. What effect do Aldosterone and ADH have on BP and blood volume? 75. In ...
... 70. What effect will the above hormone have on water reabsorption? 71. What condition can cause low sodium levels? 72. What hormone is released when the bloodstream needs more water? 73. What is another name for this hormone? 74. What effect do Aldosterone and ADH have on BP and blood volume? 75. In ...
Blood Pressure:
... Exercise and activity increase pulse rate and rest decrease the pulse. With regular aerobic exercise, pulse rate become consistently lower than average. Stress and emotions such as anger, fear, and excitement increase heart and pulse rates. Pain, which is stressful can trigger faster rates. Body tem ...
... Exercise and activity increase pulse rate and rest decrease the pulse. With regular aerobic exercise, pulse rate become consistently lower than average. Stress and emotions such as anger, fear, and excitement increase heart and pulse rates. Pain, which is stressful can trigger faster rates. Body tem ...
Physiology of Circulation
... keeping track of fluid balance in an average capillary shows that at the arterial end , hydrostatic pressure gradient = blood pressure- tissue pressure = 35-2=33 mmHg pushing fluid out (filtration). oncotic pressure gradient = plasma oncotic pressure – tissue oncotic pressure = 25-2=23 mmHg pulling ...
... keeping track of fluid balance in an average capillary shows that at the arterial end , hydrostatic pressure gradient = blood pressure- tissue pressure = 35-2=33 mmHg pushing fluid out (filtration). oncotic pressure gradient = plasma oncotic pressure – tissue oncotic pressure = 25-2=23 mmHg pulling ...
v = F/A - VCOMcc
... • The same volume of blood must flow through each segment of the circulation each minute – Principle of continuity/conservation of mass • In order to reach the entire body, the vasculature is necessarily a branching system of vessels • A fundamental law of vessel branching is that at each branch poi ...
... • The same volume of blood must flow through each segment of the circulation each minute – Principle of continuity/conservation of mass • In order to reach the entire body, the vasculature is necessarily a branching system of vessels • A fundamental law of vessel branching is that at each branch poi ...
Urinary System Physiology
... to large to enter membranes. Include creatinine and urea • Transport maximum is determined by active transport carriers. Saturation of carriers would allow substances to be excreted in urine (diabetes mellitus results in glucose ...
... to large to enter membranes. Include creatinine and urea • Transport maximum is determined by active transport carriers. Saturation of carriers would allow substances to be excreted in urine (diabetes mellitus results in glucose ...
Which pressures and where
... Hypertension is not a „disease“ of heart Hypertension is not a „disease“ of peripheral resistance Hypertension is a distrubance of volume equlibrium – the kidneys are not able excrete excess water and salt at normal pressure ...
... Hypertension is not a „disease“ of heart Hypertension is not a „disease“ of peripheral resistance Hypertension is a distrubance of volume equlibrium – the kidneys are not able excrete excess water and salt at normal pressure ...
Which pressures and where
... Hypertension is not a „disease“ of heart Hypertension is not a „disease“ of peripheral resistance Hypertension is a distrubance of volume equlibrium – the kidneys are not able excrete excess water and salt at normal pressure ...
... Hypertension is not a „disease“ of heart Hypertension is not a „disease“ of peripheral resistance Hypertension is a distrubance of volume equlibrium – the kidneys are not able excrete excess water and salt at normal pressure ...
Materials
... Blood in your body works the same way. Since the pressure in a fluid varies with depth, blood in the lower body has a higher pressure than in the upper body. Blood pressure is usually measured at the same level as the heart in order to measure the pressure of the blood leaving the heart. Many other ...
... Blood in your body works the same way. Since the pressure in a fluid varies with depth, blood in the lower body has a higher pressure than in the upper body. Blood pressure is usually measured at the same level as the heart in order to measure the pressure of the blood leaving the heart. Many other ...
Cerebellum
... producing the sounds of Korotkoff. • Korotkoff sounds will be heard until cuff pressure equals diastolic pressure, causing the sounds to disappear. ...
... producing the sounds of Korotkoff. • Korotkoff sounds will be heard until cuff pressure equals diastolic pressure, causing the sounds to disappear. ...
Developer Notes
... Since P=F/A., the difference must be the force. A greater force leads to greater acceleration, F=ma , and greater acceleration leads to greater velocity. We're back at projectiles - the water leaves the can with a greater velocity from the lower hole; they both accelerate down due to gravity. Here's ...
... Since P=F/A., the difference must be the force. A greater force leads to greater acceleration, F=ma , and greater acceleration leads to greater velocity. We're back at projectiles - the water leaves the can with a greater velocity from the lower hole; they both accelerate down due to gravity. Here's ...
Chapter 10 - Vascular Physiology
... pressure, producing the sounds of Korotkoff. Korotkoff sounds will be heard until cuff pressure equals diastolic pressure, causing the sounds to disappear. ...
... pressure, producing the sounds of Korotkoff. Korotkoff sounds will be heard until cuff pressure equals diastolic pressure, causing the sounds to disappear. ...
Physiology Ch 15 p167-175 [4-25
... blood and making it available when it is required by the rest of circulation; peripheral veins can also propel blood forward by means of a venous pump, and they help regulate cardiac output Venous Pressures – Right Atrial Pressure (Central Venous Pressure) and Peripheral Venous Pressures – blood fro ...
... blood and making it available when it is required by the rest of circulation; peripheral veins can also propel blood forward by means of a venous pump, and they help regulate cardiac output Venous Pressures – Right Atrial Pressure (Central Venous Pressure) and Peripheral Venous Pressures – blood fro ...
Physiology of Circulation
... hypothalamus called osmoreceptors detect an increase in plasma osmolality (osmotic pressure) [produced by dehydration or excessive salt intake]. ADH stimulates reabsorption of H2O from kidney filtrate and act to maintain blood volume. A decrease in blood flow to the kidneys activate the renin – ...
... hypothalamus called osmoreceptors detect an increase in plasma osmolality (osmotic pressure) [produced by dehydration or excessive salt intake]. ADH stimulates reabsorption of H2O from kidney filtrate and act to maintain blood volume. A decrease in blood flow to the kidneys activate the renin – ...
Physiology of Circulation Dr. Ali Ebneshahidi © 2016 Ebneshahidi
... hypothalamus called osmoreceptors detect an increase in plasma osmolality (osmotic pressure) [produced by dehydration or excessive salt intake]. ADH stimulates reabsorption of H2O from kidney filtrate and act to maintain blood volume. A decrease in blood flow to the kidneys activate the renin – ...
... hypothalamus called osmoreceptors detect an increase in plasma osmolality (osmotic pressure) [produced by dehydration or excessive salt intake]. ADH stimulates reabsorption of H2O from kidney filtrate and act to maintain blood volume. A decrease in blood flow to the kidneys activate the renin – ...
Relation of the Lungs to the Thoracic (Chest) Wall
... pressure of the air surrounding the body: F = (P atm - Palv) /R ...
... pressure of the air surrounding the body: F = (P atm - Palv) /R ...
13 Renal Clearance overview
... too high (above homeostatic levels; plasma is too concentrated: too many electrolytes and not enough water is in the plasma), it tells the pituitary gland to release ADH (antidiuretic hormone) to cause the kidneys to retain additional water to dilute the plasma. This will make the low blood pressure ...
... too high (above homeostatic levels; plasma is too concentrated: too many electrolytes and not enough water is in the plasma), it tells the pituitary gland to release ADH (antidiuretic hormone) to cause the kidneys to retain additional water to dilute the plasma. This will make the low blood pressure ...
Figure 1.1 Generalized instrumentation system The sensor
... Figure 7.19 Model for deriving equation for heart-valve orifice area P1 and P2 are upstream and downstream static pressures., Velocity u is calculated for minimal flow area A at location 2. © From J. G. Webster (ed.), Medical instrumentation: application and design. 3rd ed. New York: John Wiley & S ...
... Figure 7.19 Model for deriving equation for heart-valve orifice area P1 and P2 are upstream and downstream static pressures., Velocity u is calculated for minimal flow area A at location 2. © From J. G. Webster (ed.), Medical instrumentation: application and design. 3rd ed. New York: John Wiley & S ...
chapter07
... Figure 7.19 Model for deriving equation for heart-valve orifice area P1 and P2 are upstream and downstream static pressures., Velocity u is calculated for minimal flow area A at location 2. © From J. G. Webster (ed.), Medical instrumentation: application and design. 3rd ed. New York: John Wiley & S ...
... Figure 7.19 Model for deriving equation for heart-valve orifice area P1 and P2 are upstream and downstream static pressures., Velocity u is calculated for minimal flow area A at location 2. © From J. G. Webster (ed.), Medical instrumentation: application and design. 3rd ed. New York: John Wiley & S ...
Physiology of Circulation
... vasoconstriction and vasodilatation. Most arteries and arterioles carry oxygenated blood, except the pulmonary arteries where they transport deoxygenated blood from RV to the lungs. ...
... vasoconstriction and vasodilatation. Most arteries and arterioles carry oxygenated blood, except the pulmonary arteries where they transport deoxygenated blood from RV to the lungs. ...
Physiology of Circulation
... Copyright 1999, Stephen G. Davenport, No part of this publication may be reproduced, stored in a ...
... Copyright 1999, Stephen G. Davenport, No part of this publication may be reproduced, stored in a ...
19 - FacultyWeb Support Center
... • R is more important in influencing local blood flow because it is easily changed by altering blood vessel diameter Systemic Blood Pressure • The pumping action of the heart generates blood flow • Pressure results when flow is opposed by resistance • Systemic pressure • Is highest in the aorta • De ...
... • R is more important in influencing local blood flow because it is easily changed by altering blood vessel diameter Systemic Blood Pressure • The pumping action of the heart generates blood flow • Pressure results when flow is opposed by resistance • Systemic pressure • Is highest in the aorta • De ...
Diastolic pressure
... • The result of osmosis • Blood colloid osmotic pressure • Equals pressure required to prevent osmosis • Caused by suspended blood proteins that are too large to ...
... • The result of osmosis • Blood colloid osmotic pressure • Equals pressure required to prevent osmosis • Caused by suspended blood proteins that are too large to ...