The Blood Vessels
... • ADH, angiotensin II promote vasoconstriction • ADH, aldosterone promote water, salt retention • EPO stimulates RBC production • ANP promotes sodium, water loss ...
... • ADH, angiotensin II promote vasoconstriction • ADH, aldosterone promote water, salt retention • EPO stimulates RBC production • ANP promotes sodium, water loss ...
Acids and Bases- CHE 306
... The normal body pH is in the range of 7.35-7.45 or about 7.4 on the average. And the normal body pH is not neutral, but is slightly alkaline. Consequently, a pH of 7.2 is alkaline chemically speaking since it is above 7.0. Normally pH remains relatively constant both outside and inside the cells. Al ...
... The normal body pH is in the range of 7.35-7.45 or about 7.4 on the average. And the normal body pH is not neutral, but is slightly alkaline. Consequently, a pH of 7.2 is alkaline chemically speaking since it is above 7.0. Normally pH remains relatively constant both outside and inside the cells. Al ...
Respiratory
... *Gases are exchanged across the respiratory membrane… How? Where? Why? *O2 in the blood is transported via… Why does it bind in lungs and release in tissues? What affects its transport (saturation)? ...
... *Gases are exchanged across the respiratory membrane… How? Where? Why? *O2 in the blood is transported via… Why does it bind in lungs and release in tissues? What affects its transport (saturation)? ...
The Cardiovascular System: Blood Vessels and Circulation The
... • ADH, angiotensin II promote vasoconstriction • ADH, aldosterone promote water, salt retention • EPO stimulates RBC production • ANP promotes sodium, water loss ...
... • ADH, angiotensin II promote vasoconstriction • ADH, aldosterone promote water, salt retention • EPO stimulates RBC production • ANP promotes sodium, water loss ...
The Lymphatic System (Immune System) Nonspecific Resistance
... Primary response – 1st or initial invasion or exposure • It may take 3-6 days before the antibodies begin to appear in the body fluids. This lag phase is the time required for the few T and B cells with that antigen’s receptor to multiply into clones of cells that can respond. • Antibody will peak a ...
... Primary response – 1st or initial invasion or exposure • It may take 3-6 days before the antibodies begin to appear in the body fluids. This lag phase is the time required for the few T and B cells with that antigen’s receptor to multiply into clones of cells that can respond. • Antibody will peak a ...
HSC – Biology – Maintaining a Balance - HSC Guru
... There are approximately 280 million haemoglobin molecules in each red blood cell. If each haemoglobin can bind 4 oxygen atoms, then each red blood cell can theoretically carry for than 1 billion molecules of oxygen. Structure of Haemoglobin with oxygen Haemoglobin Saturation is the percentage of hae ...
... There are approximately 280 million haemoglobin molecules in each red blood cell. If each haemoglobin can bind 4 oxygen atoms, then each red blood cell can theoretically carry for than 1 billion molecules of oxygen. Structure of Haemoglobin with oxygen Haemoglobin Saturation is the percentage of hae ...
PowerPoint - My Science Party
... temperature stable 3. To remove wastes from the body 4. To absorb oxygen into the body ...
... temperature stable 3. To remove wastes from the body 4. To absorb oxygen into the body ...
NuTRIflex® Lipid peri - Medicines and Healthcare products
... • blocking of blood vessels by blood clots or fat (embolism) • severe liver failure • impaired bile flow (intrahepatic cholestasis) • severe kidney failure where no dialysis facilities are available • disturbances of your body salt composition • fluid deficit or excess water in your body • water on ...
... • blocking of blood vessels by blood clots or fat (embolism) • severe liver failure • impaired bile flow (intrahepatic cholestasis) • severe kidney failure where no dialysis facilities are available • disturbances of your body salt composition • fluid deficit or excess water in your body • water on ...
Red Blood Cells
... and acts as a solvent to dissolve materials such as waste products, salts, glucose, food molecules, vitamins, hormones and proteins that are carried by the blood to all parts of the body. What is Plasma Continue ...
... and acts as a solvent to dissolve materials such as waste products, salts, glucose, food molecules, vitamins, hormones and proteins that are carried by the blood to all parts of the body. What is Plasma Continue ...
Human Body Systems - firstresponders.ca
... office. You are summoned to the scene. As you examine her, you see she is wearing a medical-alert bracelet that indicates that she is an insulin-dependent diabetic. A coworker tells you that the woman did take her insulin today but has not yet eaten, and twenty minutes ago worked out in the fitness ...
... office. You are summoned to the scene. As you examine her, you see she is wearing a medical-alert bracelet that indicates that she is an insulin-dependent diabetic. A coworker tells you that the woman did take her insulin today but has not yet eaten, and twenty minutes ago worked out in the fitness ...
Anatomy Teaching Team - The Young Scientist Program
... Each lung is actually made up of a few lobes, which are smaller independent parts of the lungs. Each lobe will have its own specific “air supply”, coming from one dedicated bronchus, as well as its own specific blood supply. You can tell whether a lung is from the right or left side of the body by t ...
... Each lung is actually made up of a few lobes, which are smaller independent parts of the lungs. Each lobe will have its own specific “air supply”, coming from one dedicated bronchus, as well as its own specific blood supply. You can tell whether a lung is from the right or left side of the body by t ...
Young Scientist Program: Anatomy Teaching Team
... Each lung is actually made up of a few lobes, which are smaller independent parts of the lungs. Each lobe will have its own specific “air supply”, coming from one dedicated bronchus, as well as its own specific blood supply. You can tell whether a lung is from the right or left side of the body by t ...
... Each lung is actually made up of a few lobes, which are smaller independent parts of the lungs. Each lobe will have its own specific “air supply”, coming from one dedicated bronchus, as well as its own specific blood supply. You can tell whether a lung is from the right or left side of the body by t ...
Transport 1 Fox Chapter 6 pt 1
... Other compounds may take different routes (e.g. fats travel from gut to tissues and fat depots through lymphatic vessels). Different compartments have different permeabilities, so a compound or drug may be distributed unevenly through the body. ...
... Other compounds may take different routes (e.g. fats travel from gut to tissues and fat depots through lymphatic vessels). Different compartments have different permeabilities, so a compound or drug may be distributed unevenly through the body. ...
VLAJ0121 Angličtina 1
... 7. The most important muscle in the body is the heart. Without the heart and its cardiovascular (circulatory) system, human life would not be possible. The heart is roughly the size of a fist. It contracts at an average rate of 72 times per minute or nearly 38,000,000 times in a year. These rhythmi ...
... 7. The most important muscle in the body is the heart. Without the heart and its cardiovascular (circulatory) system, human life would not be possible. The heart is roughly the size of a fist. It contracts at an average rate of 72 times per minute or nearly 38,000,000 times in a year. These rhythmi ...
CALCIUM AND PHOSPHATE METABOLISM
... the serum calcium ions is about 7mg/dL.this type of tetany needs certain tests to prove it. a)Chovostek,sign:quick contraction of theipsilateral facial muscles elicited by tapping over the fafacial nerve at the angle of the jew. b)Trousseau,sign: occlusion of the circulation with a blood pressure cu ...
... the serum calcium ions is about 7mg/dL.this type of tetany needs certain tests to prove it. a)Chovostek,sign:quick contraction of theipsilateral facial muscles elicited by tapping over the fafacial nerve at the angle of the jew. b)Trousseau,sign: occlusion of the circulation with a blood pressure cu ...
Circulatory System Handout
... 4. Impulse from AV node sent to nerve fibers in septum (bundle of His) which transmit the impulse via the right and left bundle branches to the Purkinje fibers - cause ventricles to contract together and force blood out of the aorta and pulmonary arteries to the body and the lungs 5. Shift of ions a ...
... 4. Impulse from AV node sent to nerve fibers in septum (bundle of His) which transmit the impulse via the right and left bundle branches to the Purkinje fibers - cause ventricles to contract together and force blood out of the aorta and pulmonary arteries to the body and the lungs 5. Shift of ions a ...
Circulation - SAVE MY EXAMS!
... For more awesome GCSE and A level resources, visit us at www.savemyexams.co.uk/ ...
... For more awesome GCSE and A level resources, visit us at www.savemyexams.co.uk/ ...
Open and closed circulatory systems
... • Invertebrates such as insects have a heart • The heart of a young snail, which has a thin shell, can sometimes be seen by holding the snail up to the light and looking up from ...
... • Invertebrates such as insects have a heart • The heart of a young snail, which has a thin shell, can sometimes be seen by holding the snail up to the light and looking up from ...
Segmented Worms cloze notes
... Annelids are worms with _________________ bodies. They have a true _____________ that is lined with tissue derived from mesoderm. Three Germ Layers of an Annelid The body of an annelid is divided into segments. Each segment is separated by ______________, which are internal walls between each segmen ...
... Annelids are worms with _________________ bodies. They have a true _____________ that is lined with tissue derived from mesoderm. Three Germ Layers of an Annelid The body of an annelid is divided into segments. Each segment is separated by ______________, which are internal walls between each segmen ...
SET1 - CBSE
... 3. Allow spelling mistakes unless the misspelt word has another biological meaning. Ignore plurals unless otherwise stated in the marking scheme. 4. In any question exclusively on diagram no marks on any description. But in questions on descriptions, same value points may be marked on the diagrams a ...
... 3. Allow spelling mistakes unless the misspelt word has another biological meaning. Ignore plurals unless otherwise stated in the marking scheme. 4. In any question exclusively on diagram no marks on any description. But in questions on descriptions, same value points may be marked on the diagrams a ...
Interstitial fluid
... Lymph nodes Along the network of lymph vessels are small organs called lymph nodes. They are small oval like structures that are 1-25mm long. Clusters of lymph nodes are found scattered around the body especially in the underarms, groin, neck, chest, and abdomen. Function of Lymph nodes ; -They con ...
... Lymph nodes Along the network of lymph vessels are small organs called lymph nodes. They are small oval like structures that are 1-25mm long. Clusters of lymph nodes are found scattered around the body especially in the underarms, groin, neck, chest, and abdomen. Function of Lymph nodes ; -They con ...
Major Concepts of Anatomy and Physiology
... that produce the energy required for all life processes. Carbon Dioxide is the waste product of the metabolic reactions that must be removed from the body. Excessive buildup can lead to acidity that can be toxic to cells. ...
... that produce the energy required for all life processes. Carbon Dioxide is the waste product of the metabolic reactions that must be removed from the body. Excessive buildup can lead to acidity that can be toxic to cells. ...
Homeostasis
Homeostasis or homoeostasis (homeo- + -stasis) is the property of a system in which variables are regulated so that internal conditions remain stable and relatively constant. Examples of homeostasis include the regulation of temperature and the balance between acidity and alkalinity (pH). It is a process that maintains the stability of the human body's internal environment in response to changes in external conditions.The concept was described by French physiologist Claude Bernard in 1865 and the word was coined by Walter Bradford Cannon in 1926. Although the term was originally used to refer to processes within living organisms, it is frequently applied to automatic control systems such as thermostats. Homeostasis requires a sensor to detect changes in the condition to be regulated, an effector mechanism that can vary that condition, and a negative feedback connection between the two.