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Anatomy & Physiology . Warm Up: List all the organs that you know in the human body (in any order). What organs did you come up with?. Look at the list of organs we have listed on the board… In your science notebook, organize them in a way that makes sense to you…
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Anatomy & Physiology Warm Up: List all the organs that you know in the human body (in any order).
What organs did you come up with? • Look at the list of organs we have listed on the board… • In your science notebook, organize them in a way that makes sense to you… • Share your explanation of organization with the person next to you… • How do the two compare?
Why are we here? • Obviously, to learn about human anatomy and physiology. • But, what does that mean? • Before we begin, we’ve got to figure a few things out: • What’s a human? • What’s anatomy? • What’s physiology?
What are humans? • Organisms are classified as human because they are: • Animals • Vertebrates • Possess backbones • Mammals • Possess: • Mammary glands • Hair • Endothermy (i.e., we generate heat internally) • Heterodonty (i.e., we have teeth w/ different shapes and functions) • 3 middle ear bones.
What are humans? • Primates • Possess: • Opposable thumbs (can you touch your pinky with your thumb?). What advantage does this confer? • 2 clavicles (collarbones) • Only 2 mammary glands. Why only 2? (Think about how many kids a woman normally gives birth to.) • Forward facing eyes with stereoscopic vision (for depth perception) • Hominids • Bipedal (walk on 2 legs) • Possess a large brain size/body size ratio
What is anatomy? • Anatomy is defined as the study of… • Structure refers to the shapes, sizes, and characteristics of the components of the human body. • The word anatomy comes from 2 words: • Ana which means “up or apart” • Tomos which means “to cut” Why these two words????
Types of Anatomy • We can divide our study of structure into 2 parts: • Study of stuff seen by the naked eye (Gross Anatomy). • Study of stuff seen ONLY with the microscope (Microanatomy). • We can divide microanatomy into: • Histology – study of tissues • Cytology – study of individual cells.
Physiology • Physiology is defined as the study of function – so human physiology attempts to explain how and why humans function. • Physiology is where we figure out how stuff works. • How do muscles contract? • How do we run? • How does our heart beat?
Related Fields of Study • An incredibly integral field is pathology – the study of disease. • Another super important field is embryology, the study of how a single zygote (i.e., a fertilized egg) turns into a fully-fledged human being with trillions of cells.
Levels of Structure Chemicals Cell Tissue Organ Organ System Organism
Chemical Level Atoms combine to form molecules water, sugar, fats, proteins The function of a molecule is related to its function Collagen molecules are ropelike protein fibers that give skin structural strength and flexibility
Cells • The basic unit of life is the cell. • All living organisms are composed of one or more cells. • The human body contains about 100 trillion cells. • There are about 200 different types of cells in the human body. • The different types of cells have different features but for the most part, all cells are made up of organelles and various macromolecules (e.g., proteins, lipids, carbohydrates and nucleic acids). • Organelles themselves are made of these macromolecules and macromolecules are polymers of smaller molecules which consist of atoms of various chemical elements.
Important Organelles • Plasma Membrane → Separates the cell exterior from the cell interior (cytoplasm). Nucleus → Membrane bound structure that contains deoxyribonucleic acid (DNA) which is the set of instructions for the synthesis of all the body’s proteins. • CAN YOU SEE THE NUCLEUS AND THE PLASMA MEMBRANE IN THE CELL TO THE RIGHT?
More Levels of Structure • Similar cells and cell products come together to form tissues. • A structure made of 2 or more tissue types that perform a particular function is an organ. • A group of organs with a unique collective function is an organ system. There are 11 of these in the human body.
Integumentary System • Structures: - Skin, hair, sweat and oil glands • Functions: • Forms the external body covering • Protects deeper tissues from injury • Involved in vitamin D synthesis • Prevents desiccation, heat loss, and pathogen entry • Site of pain and pressure receptors
Skeletal System • Structures: • The 206 bones of the human body • Functions: • Protects and supports body organs • What characteristics might bone have that allows it to support and protect? • Provides a framework that muscles can use to create movement • Hemopoiesis (synthesis of blood cells) • Mineral storage • Bone contains 99% of the body’s store of what mineral? (Hint you can get this mineral from drinking milk)
Muscular System • Structures: • The 600+ muscles of the body • Functions: • Locomotion • Manipulation of the environment • Maintaining posture • Thermogenesis (generation of heat)
Nervous System • Structures: • Brain, spinal cord, and peripheral nerves • Functions: • Fast-acting control system of the body • Monitoring of the internal and external environment and responding (when necessary) by initiating muscular or glandular activity
Endocrine System • Structures: • Hormone-secreting glands • Pituitary, Thyroid, Thymus, Pineal, Parathyroid, Adrenal, Pancreas, Small Intestine, Stomach, Testes, Ovaries, Kidneys, Heart • Functions: • Long-term control system of the body • Regulates growth, reproduction, and nutrient use among other things.
Cardiovascular System • Structures: • Heart, Blood vessels (arteries, veins, and capillaries) • Functions: • The heart pumps blood thru the blood vessels. • Blood provides the transport medium for nutrients (glucose, amino acids, lipids), gases (O2, CO2), wastes (urea, creatinine), signaling molecules (hormones), and heat.
Lymphatic/Immune System • Structures: • Lymphatic vessels, Lymph nodes, Spleen, Thymus, Red bone marrow • Functions: • Returning “leaked” fluid back to the bloodstream, • Disposal of debris • Attacking and resisting foreign invaders (pathogens i.e., disease-causing organisms)
Respiratory System • Structures: • Nasal cavity, pharynx, trachea, bronchi, lungs • Functions: • Constantly supply the blood with O2, and remove CO2 • Regulate blood pH
Digestive System • Structures: • Oral cavity, esophagus, stomach, small intestine, large intestine, rectum, salivary glands, pancreas, liver, gallbladder • Functions: • Ingestion and subsequent breakdown of food into absorbable units that will enter the blood for distribution to the body’s cells
Urinary System • Structures: • Kidneys, ureters, urinary bladder, urethra • Functions: • Removal of nitrogenous wastes • Regulation of body’s levels of water, electrolytes, and acidity
Reproductive System • Structures: • Male: • Testes, scrotum, epididymis, vas deferens, urethra, prostate gland, seminal vesicles, penis • Female: • Ovary, uterine tube, uterus, cervix, vagina, mammary glands • Functions: • Production of offspring
Organism • An organism is any living thing considered as a whole. • The human organism is a complex of organ systems
Can Anatomy & Physiology Be Separated? • NOOOOOOO!!!!! Absolutely not! • Structure and function are undeniably connected. We cannot divorce them. • What do we mean by this? • Can you eat soup with a fork? • Find 2 everyday items and determine whether/how their structure (anatomy) relates to their function (physiology) When you consider the structure of an organ, cell, or anything for that matter you must also consider its function!
Anatomic Position Person standing erect with face directed forward, upper limbs hanging to side and palms of the hands facing forward.
Planes Parasagittal Plane (Midsagittal plane)↓
Supine and Prone Supine- person lying face upward. Prone- person lying face downward.
Stayin’ Alive • Your body has about 100 trillion cells in it. • For your life to NOT end abruptly, these cells need to have the correct amount of: • Oxygen • Nutrients • Waste removal • Heat • Ions (sodium, calcium, etc.) • Lots of other stuff
The Cell’s Environment • In order to keep the right amount of stuff in the cell, we’ve got to make sure that all the fluid surrounding our cells (i.e., the extracellular fluid) has the right assortment of nutrients, ions, etc. • We keep both our cells and the fluid surrounding our cells in a dynamically stable environment via a process called HOMEOSTASIS.
Homeostasis • Defined as the body’s ability to maintain stable internal conditions in spite of the changing external conditions. • We just said that our body needs to have the right amount of stuff (i.e., temperature, blood [glucose], pH etc.) at all times in order to function properly. • First, let’s refer to all this stuff as “different variables” Note: the brackets surrounding the word glucose in the above paragraph mean “concentration of glucose,” i.e., how much glucose is dissolved in a particular fluid (blood in this case)
Let’s use a thermostat as an example • In order to keep the temperature in my house at the right level, the thermostat must first measure the current temperature in the house. • After the thermostat measures the temperature, it compares the current value to a preset standard value. • If there is no difference then there’s nothing to do. • However, if it’s too hot or too cold, the thermostat has to send a signal to the furnace or air conditioner to change the temperature of the house so that it equals the standard value.
Let’s clarify some stuff. • In the previous example we had a: • Variable temperature • Measuring implement thermostat • Control center also the thermostat • A preset or standard value for the variable • Effectors the air conditioner and furnace • Similar situations arise in the human body where there are lots of variables that we want to maintain at certain precise levels
Blood Pressure • BP is a variable that we’ve got to maintain at a certain level • We have sensory receptors that measure the BP in the body. They’re located in the aorta (the big blood vessel coming out of the heart) and in the carotid arteries (the large vessels that bring blood to the brain). • These pressure receptors measure BP and then send the info (we can call this input) to a control center in the brain – the particular BP control center is in the medulla oblongata of the brain
Blood Pressure • We call the connection btwn the receptor and the control center the afferent pathway. • In the control center, the input BP is compared with a set value. • If there is a difference between the current BP value and the reference BP value then we’ve got an error. • And we’ve got to fix that error!
Blood Pressure • The control center will signal effector organs – such as the heart in this case – to alter their activity. This process is called output. • The connection between the control center and the effector organ is called the efferent pathway.
Blood Pressure • Suppose the current BP is too high. • The effector must act in a way to decrease it – so the medulla oblongata (the control center) would signal the heart to decrease the force and rate of its contractions; this would decrease BP. • Notice that the original stimulus was an INcrease in BP and the body’s response was to act so as to DEcrease BP. • The stimulus is opposite the response!
Negative Feedback • B/c the movement of a variable in one direction causes the body to enact processes that cause the variable to move in the opposite direction (so as to return the value to the correct level) – we call it negative feedback • Let’s look at BP again:
Increased BP Sensed by pressure receptors in aortic arch and carotid sinus Input sent via afferent pathway to medulla oblongata BP DECREASES Heart rate & force of contraction decrease Current BP compared with set point and error signal generated Blood vessel diameter increases Output sent along efferent pathway to heart and blood vessels