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Describe the interactions that occur among systems that perform the functions of regulation, nutrient absorption, reproduction, and defense from injury or illness in animals. Regulation - Integumentary System - Endocrine System - Excretory System - Nervous System Nutrient Absorption - Digestive System - Respiratory System - Circulatory System Reproduction - Reproductive System Defense - Lymphatic/Immune System - Muscular System - Skeletal System - (Integumentary System) Regulation Structures: - Skin Cross-section - epidermis, dermis, hypodermis, hair, sweat gland, sweat pore, oil gland (also known as sebaceous gland) - Draw a Finger label the fingernail Function: Serves as a barrier against infection and injury, helps to regulate body temperature; provides protection against ultraviolet radiation from the sun. Skin is largest organ. Covers all other systems Endocrine: Hormones stimulate oil secretion in skin Immune: First line of defense Digestive: Creation of Vitamin D Nervous- stimulus response Excretory – helps regulates body temperature by releasing sweat and gasses. Structures: Endocrine diagram hypothalamus, pancreas, ovaries, testes. Glands: pituitary, thyroid, parathyroid, adrenal Function: Controls growth, development, metabolism and maintains homeostasis. Reproductive: stimulate puberty and birth of child (i.e. contractions, “water breaking”) Digestive: stimulates metabolism of sugars Immune: helps with immune responses Circulatory: provides main transport medium for hormones Respiration: Epinephrine increases respiration by dilating bronchioles Endocrine System Structures: Excretory System kidney, ureter, bladder, urethra (also involved – skin and lungs) Function: Eliminates waste products from the body in ways that help maintain homeostasis. Circulatory: Filters nitrogenous wastes from blood in kidneys Lymphatic: Maintains water balance in blood Digestive: nitrogenous wastes reabsorbed can exit; Urea-made in liver Endocrine: hormones regulate Excretory System Structures: - Nervous System brain, spinal cord, peripheral nerves. Function: Recognizes and coordinates body’s response to changes in internal and external environments. Integumentary: Sense of touch Respiratory: Involuntary breathing Muscular: Impulse to contract Digestive: controls hunger Nervous System Nutrient Absorption Structures: Digestive system mouth, pharynx, esophagus, stomach, small and large intestines, rectum, pancreas, gallbladder, liver, salivary glands Function: Converts food into simpler molecules that can be used by the cells of the body; absorbs food; eliminates wastes Excretory: Eliminates nitrogenous wastes produced. Circulatory: Moves nutrients through body. Endocrine: Hormones allow organs to function/digest properly, metabolism, hunger Muscular: Muscle increases movement of food through the whole digestive tract Digestive System Structures: -Respiratory diagram nose, pharynx, larynx, trachea, lungs Function: Provides O2 needed for cellular respiration and removes excess CO2 from the body. Muscular: Uses O2, increases respiration during exercise Circulatory: Circulates O2 and CO2 Nervous: “Fight or Flight” affects breathing Excretory: Kidneys dispose of other metabolic wastes (other than CO2) Respiratory System Structures: Circulatory System capillaries (4), artery, vein, vena cava (2), aorta, heart, blood vessels Artery Cross Section white blood cells, platelets, red blood cells Function: Brings O2, nutrients and hormones to cells, fights infection, removes cell waste, regulates body temperature, carries CO2 to lungs. Endocrine: Circulates hormones Lymphatic: Returns fluids to circulatory system Digestive: Brings nutrients that were reabsorbed in intestines to cells that need them Excretory System: Removes wastes from blood stream Muscular: Provides sugars and O2 needed for ATP synthesis during muscle contraction Circulatory System and Artery Cross Section Reproduction Structures: Female Reproductive System ovary, Fallopian tube, uterus, vagina, cervix Male Reproductive System testes, urethra, penis, prostate gland, seminal vesicle Function: Creates gametes/reproductive cells, Nurtures/protects developing embryo (females) Muscular: supports reproductive organs and are active during childbirth Endocrine: Secretes hormones that control sex organs Digestive: developing fetus crowds digestive organs during pregnancy, which can cause heartburn, constipation, etc. Defense from injury or illness Structures: - Lymphatic/Immune System White blood cells, tonsils, thymus, spleen, bone marrow, lymph nodes, (also included are white blood cells and lymph vessels) Function: Immune: Protects body from disease. Lymphatic: Collects fluid lost from blood vessels and returns to the fluid to the circulatory system. Digestive: Pathogens ingested are destroyed Excretory: Fluid is filtered in kidneys Circulatory: WBCs travel in blood vessels; fluid is returned into vessels Skeletal: Cells are made in bone marrow Integumentary: Skin acts as a barrier Lymphatic / Immune Systems Structures: muscle tissue types skeletal muscle, smooth muscle, cardiac muscle and give brief description of each structure of skeletal muscle skeletal muscle, bundle of muscle fibers, single muscle fiber Function: Works with skeletal system to produce voluntary movement; helps to circulate blood and move food through the digestive system. Circulatory: Circulates O2 to muscles (heart is composed of cardiac muscle) Skeletal: helps creates movement Digestive: provides sugar needed for ATP synthesis Nervous: Stimulates muscle contraction and movement Structures: - Bone Cross Section bone marrow, spongy bone, compact bone, osteocyte (bone cell) - Knee Structure femur bone, cartilage, ligaments, tendons, red marrow Function: Supports body, protects internal organs, allows movement, stores minerals, provides a site for RBC formation. Muscular: Provides support, creates movement Circulatory: provides RBCs Digestive: Provides nutrients needed for healthy bone growth Endocrine: hormones regulate growth Nervous: Protection of brain/spinal cord Knee Structure and Bone Cross Section When you are born, you have over 300 bones. As you grow these bones fuse together and result in about 206 bones. The largest bone is the pelvis, or hip bone. In fact it is made of six bones joined firmly together. The longest bone is the 'femur', in the thigh. It makes up almost one quarter of the body's total height. The smallest bone is the 'stirrup', deep in the ear. It is hardly larger than a grain of rice. The ears and end of the nose do not have bones inside them. Their inner supports are cartilage or 'gristle', which is lighter and more flexible than bone. This is why the nose and ears can be bent. After death, cartilage rots faster than bone. This is why the skulls of skeletons have no nose or ears. There are about 60 muscles in the face. Smiling is easier than frowning. It takes 20 muscles to smile and over 40 to frown. The longest muscle in the body is the sartorius, from the outside of the hip, down and across to the inside of the knee. It rotates the thigh outwards and bends the knee. The smallest muscle in the body is the stapedius, deep in the ear. It is only 5mm long and thinner than cotton thread. It is involved in hearing. The biggest muscle in the body is the gluteus maximus, in the buttock. It pulls the leg backwards powerfully for walking, running and climbing steps. The heart beats around 3 billion times in the average person's life. About 2 million blood cells die in the human body every second, and the same number are born each second. Within a tiny droplet of blood, there are some 5 million red blood cells, 300,000 platelets and 10,000 white cells. It takes about 1 minute for a red blood cell to circle the whole body. Red blood cells make approximately 250,000 round trips of the body before returning to the bone marrow, where they were born, to die. Red blood cells may live for about 4 months circulating throughout the body, feeding the 60 trillion other body cells. The brain looks like a giant, wrinkled walnut. Unlike other body cells, brain cells can not regenerate. Once brain cells are damaged they are not replaced. The brain and spinal cord are surrounded and protected by cerebrospinal fluid. The skin secretes antibacterial substances. These substances explain why you don't wake up in the morning with a layer of mold growing on your skin - most bacteria and spores that land on the skin die quickly. Tears and mucus contain an enzyme (lysozyme) that breaks down the cell wall of many bacteria. Lymph nodes contain filtering tissue and a large number of lymph cells. When fighting certain bacterial infections, the lymph nodes swell with bacteria and the cells fighting the bacteria, to the point where you can actually feel them. Swollen lymph nodes may therefore be a good indication that you have an infection of some sort. Adults eat about 500 kg of food per year. 1.5 liters of saliva are produced each day. The esophagus is approximately 25cm long. Muscles contract in waves to move the food down the esophagus. This means that food would get to a person's stomach, even if they were standing on their head. An adult’s stomach can hold approximately 1.5 liters of material. Every day 11.5 liters of digested food, liquids and digestive juices flow through the digestive system, but only 100 ml of fluid are lost in feces. We get two sets of teeth. Our 20 'Baby Teeth’ are replaced starting at around 6-7 years of age with our 32 ‘Adult Teeth’. At rest, the adult body takes in and breathes out about 6 liters of air each minute. The right lung is slightly larger than the left. Hairs in the nose help to clean the air we breathe as well as warming it. The highest recorded "sneeze speed" is 165 km per hour. The surface area of the lungs is roughly the same size as a tennis court. The capillaries in the lungs would extend 1,600 kilometers if placed end to end. We lose half a liter of water a day through breathing. This is the water vapor we see when we breathe onto glass. A person at rest usually breathes between 12 and 15 times a minute. The breathing rate is faster in children and women than in men.