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Unit -3 Different Types of Intelligent body systems
Topics to be covered 1. Hormonal System 2. Cardiovascular System 3. Muscular system 4. Immune System 5. Lecture: 5h 6. Tutorial: 2h
Human body organization The human body is organized in several levels, from the simplest to the most complex: 1. Cells – the basic unit of life 2. Tissues – clusters of cells performing a similar function 3. Organs – made of tissues that perform one specific function 4. Systems – groups of organs that perform a specific purpose in the human body All these above levels work in coordination to one another and allows the maintenance & regulation of the stability and constancy needed to function properly. In other words, they function towards keeping a body in good shape of health.
Types of Tissues Human tissues are categorized in 4 types: 1. muscle tissue 2. epithelial tissue 3. connective tissue 4. nervous tissue https://www.youtube.com/watch?v=dva-f_btvlk
Human body systems The 11 human body systems are as follows: 1. Nervous system 2. Integumentary system 3. lymphatic (or immune) system 4. Endocrine (or hormonal) system 5. Respiratory system 6. Circulatory (or cardiovascular) system 7. Muscular system 8. Digestive system 9. Excretory system 10.Reproductive system 11.Skeletal system
Hormonal System The hormonal system (also called the endocrine system) is a network of glands and organs in the body that produce hormones. Purpose: to control growth, development, metabolism and reproduction through the production and secretion of hormones Cell type – epithelial Major organs: 1. hypothalamus 2. pituitary gland 3. thyroid 4. parathyroid 5. adrenal glands 6. pancreas 7. testes 8. ovaries
Importance of Endocrine System  Controls all the metabolic activities of the body.  Made up of a series of glands: organs which produce and release chemical messengers, generally into the bloodstream.  The chemical messengers are called hormones and they affect the behavior of cells.  Only cells with receptors respond to hormones https://www.youtube.com/watch?v=vLdNX5Te1Xo
Control of Endocrine Activity The concentration of hormone as seen by target cells is determined by three factors: Rate of production: Synthesis and secretion of hormones are the most highly regulated aspect of endocrine control. Such control is mediated by positive and negative feedback circuits.  Rate of delivery: An example of this effect is blood flow to a target organ or group of target cells - high blood flow delivers more hormone than low blood flow.  Rate of degradation and elimination: Hormones, like all biomolecules, have characteristic rates of decay, and are metabolized and excreted from the body through several routes. Shutting off secretion of a hormone having very short halflife causes circulating hormone concentration to rapidly fall down, but if a hormone's biological half-life is long, effective concentrations persist for some time after secretion ceases.
Hormones Groups There are three basic group of hormones. 1. Amino acid derivatives: These are small molecules and they come from amino acids like tyrosine and tryptophan. One hormone derived from tryptophan is melatonin. A hormone involved in our sleepwake cycles. You can get tryptophan from foods like turkey, chocolate or milk. 2. Peptide hormones: Peptide hormones are made up of a bunch of amino acids. Examples would be some thyroid-stimulating hormone, oxytocin or prolactin. 3. Lipid derivatives or steroid hormones: Lipid derivatives or steroid hormones are considered lipophilic meaning they have an affinity for lipid structures. They circulate in the blood bound to carrier proteins so they usually last in the circulation longer than other types of hormones.
Mechanism of Hormone action The endocrine system is a very important and very involved system within our bodies. It allows our body to communicate over long distances and is a major player in regulating a stable environment or in other words preserving homeostasis (good health). This system employs the use of hormones which are chemicals secreted from glands and enter the bloodstream where they circulate until exerting an effect on a downstream target cell. Specifically, there are two types of mechanisms in which hormones exert their effect on target cells: https://www.youtube.com/watch?v=TgNwxF3aQpE
non-steroid(Peptide) hormone • The first is by and non-steroid action. This mechanism is employed by an amino acid hormone or a peptide hormone. These hormones cannot freely cross a membrane on a target cell so it first acts by binding a cell surface receptor. There is then an intracellular signaling cascade that occurs in order for the desired effect to take place. • There are proteins on the intracellular side of the target cell that are associated with the receptor. Most often this involves what's called a G-protein. This G protein is found next to an enzyme that converts ATP (adenosine triphosphate) to a molecule called cyclic AMP (Cyclic adenosine monophosphate) or cAMP. This is something that makes this mechanism unique. Cyclic AMP is called a second messenger because it signals a cascade of events that eventually change the enzymatic activity in a cell to cause the target cell response. • Examples of hormones that use the cyclic AMP • second messenger system include ACTH (Adrenocorticotropic Hormone), calcitonin, epinephrine, glucagon, parathyroid hormone and ADH (Antidiuretic hormone).
Steroid Hormones • The second mechanism is the steroid action. Because lipid derivative or steroid hormones are lipophilic, they can freely move through the membrane and into the cell. From there they can either bind to a receptor within the cell or they can move freely into the nucleus where the hormone or hormone complex causes a change in gene activity. This then increases transcription (Transcription is the process by which the information in a strand of DNA is copied into a new molecule of messenger RNA (mRNA)) and mRNA production which then leads to an increase in protein production within the cell. • Examples of hormones that exert effects via steroid hormone Mechanisms are testosterone, estrogen, progesterone, aldosterone, and calcitriol.
Common endocrine disorders Common endocrine disorders include: • Diabetes mellitus, acromegaly (overproduction of growth hormone), • Addison’s disease (decreased production of hormones by the adrenal glands), • Cushing’s syndrome (high cortisol levels for extended periods of time), • Graves’ disease (type of hyperthyroidism resulting in excessive thyroid hormone production), • Hashimoto’s thyroiditis (autoimmune disease resulting in hypothyroidism and low production of thyroid hormone), • Hyperthyroidism (overactive thyroid), • hypothyroidism (underactive thyroid), and • prolactinoma (overproduction of prolactin by the pituitary gland).
Cardiovascular (or circulatory) system The circulatory system, also called the cardiovascular system or the vascular system, is an organ system that permits blood to circulate and transport nutrients (such as amino acids and electrolytes), oxygen, carbon dioxide, hormones, and blood cells to and from the cells in the body to provide nourishment and help in fighting diseases, stabilize temperature and pH, and maintain homeostasis. • Purpose: to deliver oxygenated blood to the various cells and organ systems in your body so they can undergo cellular respiration • Cell type – Muscle
Cardiovascular System
Major Organ and Function Heart • -the major muscle of the circulatory system • -pumps deoxygenated blood into the lungs, where it gets oxygenated, returned to the heart, and then pumped out through the aorta to the rest of the body • -valve regulate the flow of blood between the chambers
Organ system Interactions • With lungs – exchange O2 & CO2 • With digestive system - pick up nutrients for transport throughout the body • With excretory – blood is filtered to remove toxins and some water • Nervous system – heart-beat regulation & blood pressure
Constitution of CVS • Heart. This muscular organ works to pump blood throughout your body via an intricate network of blood vessels. • Arteries. These thick-walled blood vessels carry oxygenated blood away from your heart. • Veins. These blood vessels carry deoxygenated blood back toward your heart. • Capillaries. These tiny blood vessels facilitate the exchange of oxygen, nutrients, and waste between your circulatory system and your organs and tissues.
Working of CVS • Oxygen-depleted blood returns to the heart (the right side) via the veins. • The heart pumps this blood to the lungs. In the lungs, the blood gets rid of carbon dioxide and picks up fresh oxygen. • Newly oxygenated blood returns to the other side of the heart (the left side), where it’s then pumped into the arteries. • Eventually, the blood enters the capillaries. Here, it releases oxygen and nutrients to the body’s organs and tissues. It then picks up carbon dioxide and other waste products. • The oxygen-depleted blood returns to the heart through the veins, and the cycle begins all over again.
Types of circulation 1)Pulmonary: https://www.youtube.com/watch?v=NDk8fmIl9V8 • In the pulmonary loop, deoxygenated blood exits the right ventricle of the heart and passes through the pulmonary trunk. • The pulmonary trunk splits into the right and left pulmonary arteries. These arteries transport the deoxygenated blood to arterioles and capillary beds in the lungs. • There, carbon dioxide is released and oxygen is absorbed. Oxygenated blood then passes from the capillary beds through venules into the pulmonary veins. • The pulmonary veins transport it to the left atrium of the heart. • The pulmonary arteries are the only arteries that carry deoxygenated blood, and the pulmonary veins are the only veins that carry oxygenated blood.
Cont… 2) Systemic: https://www.youtube.com/watch?v=DNNFA0-fozE • During the systemic loop blood moves through arteries and flows into capillary beds here oxygen is released and diffuses through the capillary wall into tissues meanwhile carbon dioxide diffuses into the bloodstream. • In the systemic loop, oxygenated blood is pumped from the left ventricle of the heart through the aorta, the largest artery in the body. The blood moves from the aorta through the systemic arteries, then to arterioles and capillary beds that supply body tissues. Here, oxygen and nutrients are released and carbon dioxide and other waste substances are absorbed. Deoxygenated blood then moves from the capillary beds through venules into the systemic veins. The systemic veins feed into the inferior and superior venae cavae, the largest veins in the body. The venae cavae flow deoxygenated blood to the right atrium of the heart.
Diseases related to the circulatory system Diseases that can affect the circulatory system include: 1. Atherosclerosis • Atherosclerosis is a hardening of the arteries. • It is typically caused by a diet high in fat, which leaves fatty deposits on the lining of the blood vessels. These fatty deposits stick together and make the arteries hard and less flexible. Atherosclerosis leads to high blood pressure, which can damage the heart and kidneys and even lead to strokes. 2. Heart attack • Myocardial infarction (MI) is the technical term for a heart attack. A heart attack can occur when the blood supply is cut off from the heart, often by a blood clot. Some heart attacks are minor, but others can be life-threatening. 3. Angina pectoris • Angina pectoris means “pain in the chest” and occurs if the heart is not receiving enough blood. People often describe it as a crushing sensation or feeling like their chest is in a vice.
Cont… 4. Arrhythmia and dysrhythmia • Arrhythmia and dysrhythmia are often used interchangeably, and both refer to abnormal heart rates and rhythms. In general, arrhythmia means “no rhythm” and dysrhythmia means “abnormal rhythm.” 5. Heart failure • Heart failure means that the heart is not pumping blood around the body as efficiently as it should. It can lead to fatigue, shortness of breath, and coughing. • Some people with heart failure find it difficult to do things such as walking, climbing stairs, or carrying groceries. 6. High blood pressure (hypertension) • High blood pressure or hypertension means the force or pressure of the blood flowing through the vessels is consistently too high. High blood pressure can lead to stroke, loss of vision, heart failure, heart attack, kidney disease, and reduced sexual function. 7. Stroke • A stroke can happen when one of the vessels that lead to the brain either becomes blocked by a blood clot or bursts. This stops blood flow and prevents oxygen from getting to the brain.
Muscular system • They make 1/3rd weight of body. Blood vessels and nerves run to every muscle, helping control and regulate each muscle’s function. • Purpose: works with the skeletal and nervous system to produce movement, also helps to circulate blood through the human body • Cells: muscle cells are fibrous -- muscle contractions can be voluntary or involuntary makes up to 40 – 50% of the body mass
Components
Major Muscles in Human Body
Types of Muscles Three types of muscles: • skeletal - attach to and move bones by contracting and relaxing in response to voluntary messages from the nervous system. They have *striated structure • 1. smooth - internal organs (except heart), one nucleus, non-striated, involuntary control • 2. cardiac - heart, one nucleus, striated, involuntary control, has its own pacemaker • 3. Skeleton- Arms and Legs
Working of muscular system • Muscle contraction begins when the nervous system generates a signal. • The signal, an impulse called an action potential, travels through a type of nerve cell called a motor neuron. • The neuromuscular junction is the name of the place where the motor neuron reaches a muscle cell. Skeletal muscle tissue is composed of cells called muscle fibers. • When the nervous system signal reaches the neuromuscular junction, a chemical message is released by the motor neuron. • The chemical message, a neurotransmitter called acetylcholine, binds to receptors on the outside of the muscle fiber. That starts a chemical reaction within the muscle, to make it contract. https://www.youtube.com /watch?v=VVL-8zr2hk4
Cont.. • A multistep molecular process within the muscle fiber begins when acetylcholine binds to receptors on the muscle fiber membrane. • The proteins inside muscle fibers are organized into long chains that can interact with each other, reorganizing to shorten and relax. • When acetylcholine reaches receptors on the membranes of muscle fibers, membrane channels open and the process that contracts a relaxed muscle fibers begins. • When the stimulation of the motor neuron providing the impulse to the muscle fibers stops, the chemical reaction that causes the rearrangement of the muscle fibers proteins is stopped. • This reverses the chemical processes in the muscle fibers and the muscle relaxes
Common muscular disorder Common muscular disorder is- • Muscular dystrophy: Group of inherited diseases characterized by weakness and wasting away of muscle tissue, with or without the breakdown of nerve tissue. • Neuromuscular disorders: Spinal muscular atrophies, Inflammatory myopathies, Diseases of peripheral nerve.
Lymphatic (or immune) system • Immune system is a biological structures and processes within an organism that protect against disease by identifying and killing pathogens and cancer-cells. • Purpose: to remove infectious diseases and other pathogens from the human body • Cell type - Epithelial
Lymphatic (or immune) system Our immune system is essential for our survival. Without an immune system, our bodies would be open to attack from bacteria, viruses, parasites, and more. It is our immune system that keeps us healthy as we drift through a sea of pathogens.
Major Organs of the immune system and Their Functions • Skin: also called the integumentary system, the skin is the body’s first line of defense • White Blood Cells: --recognize disease agents (antigens) and create antibodies to tag and remove these antigens --phagocytes are the white blood cell type that actually eats and destroys these antigens • Lymph Nodes: help restore fluid lost by the blood and return it to the circulatory system • Spleen: produces and stores white blood cells • Thymus: site of white blood cell maturation
Distribution & Mechanism of immune system: • For detail working of immune system watch this video @ https://www.youtube.com/watch?v=PzunOgYHeyg • Our body has a powerful army that protects it from various types of threats. These threats can come in the form of mechanical injuries, the entry of germs, or the entry of other foreign particles like dust. This personal army is called the immune system. • Every day, we encounter a huge number of bacteria, viruses and other disease-causing organisms. However, we don't fall ill every other day. Which is due to our immune system - an army of cells that is always roaming our body, ready to fight off any attack. https://www.youtube.com/watch?v=lxC-3MpIMUo&t=146s
Immunity types
Classification of immune system The immune system can be broadly divided into two parts - innate and adaptive immunity. 1) Innate immunity or non-specific immunity is the body's first natural defense to any intruder. This system doesn't care what it is killing. • Its primary goal is to prevent any intruder from entering the body, and if it does enter, then the immune system kills this intruder. It doesn't differentiate between one pathogen and another. First line of action: Physical barriers: • a) The first component of this defensive system is your skin. Any organism trying to get into the body is stopped by the skin, our largest organ, which covers us. • b) Secondly, there is the mucous lining of all our organs. The sticky, viscous fluid of this lining traps any pathogens trying to get past it.
Innate immunity or non-specific immunity Chemical barriers: • a) such as the lysozyme in the eyes that comes out with tears, • b) or the acid in the stomach, which kill pathogens trying to gain entry into organs of the body. • c) The genitourinary tract and other places have their own normal flora, or microbial community. These compete with pathogens for space and food, and therefore also act as a barrier.
Innate immunity or non-specific immunity The next line of defence are: • which is done by mast cells. These cells are constantly searching for suspicious objects in the body. When they find something, they release a signal in the form of histamine molecules. These alert the body, and blood is rushed to the problem area. This causes inflammation (eg. Mosquito bite) and also brings leukocytes, or white blood cells, which are soldiers in our body's cellular army. Once they come, all hell breaks loose! • Sometimes however, the intruder may not be germ, but rather a harmless thing like a dust particle. The body still causes a full immune reaction to this intruder, which is how allergic reactions occur.
https://www.youtube.com/watch?v=PSRJfaAY kW4 https://www.youtube.com/watch?v=lxC-3MpIMUo&t=146s
Cont…. • In our body, the leukocytes are VIPs and they have an access to the whole body, except, to the brain and spinal cord. • Our leukocytes come in many types. • Those that belong to the innate system are the (i) phagocytes. These cells can either patrol your body, or they can stay in certain places and wait for their turn to act. • (ii)Neutrophils are the most abundant cells. They patrol the body and can therefore get to attack site very quickly. These cellular soldiers kill the infectious cell and then die, which leads to pus formation.
• (iii)There are also the macrophages. These cells are like hungry monsters who simply engulf unwanted pathogens. Instead of roaming freely in our blood, they are collected in certain places. These cells can consume about 100 pathogens before they die, but they can also detect our own cells that have been infected, such as cancer cells, and kill them too. • (iv) Beyond that, we also have the Natural Killer Cells (NKC). These cells can efficiently detect when our own cells have gone infected. NKCs detect a protein produced by normal cells, called the Major Histocompatibility Complex (MHC). Basically, whenever a cell isn't normal, it stops producing this protein. The NKCs move around constantly, checking our cells for this type of deficiency, and when they find an abnormal cell, they simply bind to it and release chemicals that will destroy it.
Cont… • (v) The last cells of our innate immune system are the dendritic cells. These are found in places that come in contact with the outside environment, such as the nose, lungs, etc. They are the link between our innate and adaptive immune systems. They eat a pathogen, and then carry information about it to our adaptive immune system cells. This information is produced and shared in the form of antigens. Antigens are the traces that pathogens leave around. They are molecules found on the surface on pathogens that can be detected by our adaptive immune system for recognition. The dendritic cells pass on this information to our T cells. However, macrophages can also perform this function.
Adaptive or acquired immune system. 2) Adaptive or acquired immune system • This system is more efficient, as it can differentiate between different types of pathogens. It has 2 main components - B lymphocytes (B-cells) and T lymphocytes (T-cells). Together they form humoral immune response. • B-cells join the fight when the pathogens have entered, but haven't yet caused any disease. T-cells come into play when an infection has already occurred, thus bringing about the cell-mediated immune response. • T lymphocytes (T-cells): Some T-cells take signals from the dendritic cells or macrophages, and are thus called helper T-cells. They perform two key tasks: forming effector T-cells, which are basically cells that cycle through the body and call in the other soldier cells to fight, namely white blood cells.
Cont… • Helper T-cells also form memory T-cells, which keep a record of this antigen for future reference. • Sometimes, the same cells of our body know that they have lost the battle. Essentially, the affected area or organ become heavily infected with pathogens, so there is no hope for such infected cells. At this point, the immune system brings out the cytotoxic t cells. These cells rush over and perform a mercy killing for the infected and dying cell. • B lymphocytes (B-cells): They produce chemicals called antibodies, which fit on the antigens of pathogens, like a lock and key fitting. These antibodies crowd around a pathogen and act like tags. They signal the macrophages to come and kill the marked pathogen. • B-cells also produce memory B-cells when they encounter an antigen.
Cont… • Further The B- and T- memory cells jointly maintain a record of all encountered infections, and thus strengthen and solidify the body’s immune response to these infections. • Our innate immune response is quicker, though non-specific. It gets into action within hours and is quite strong. However, when things get out of hand, the innate system calls for help from the acquired immune system. This system can take days to start a response, but the next time we encounter that pathogen, it won’t make us get sick. • In short, every day that we spend being healthy is all thanks to our immune system.
What is herd Immunity? • Herd immunity', also known as 'population immunity', is the indirect protection from an infectious disease that happens when a population is immune either through vaccination or immunity developed through previous infection. • WHO supports achieving 'herd immunity' through vaccination, not by allowing a disease to spread through any segment of the population, as this would result in unnecessary cases and deaths. • Herd immunity against COVID-19 should be achieved by protecting people through vaccination, not by exposing them to the pathogen that causes the disease.
Common immune system disorders There are two types of immunodeficiency disorders: those you are born with (primary), and those that are acquired (secondary). Anything that weakens your immune system can lead to a secondary immunodeficiency disorder. Immunodeficiency disorders prevent your body from fighting infections and diseases. This type of disorder makes it easier for you to catch viruses and bacterial infections. Examples of primary immunodeficiency disorders include: • X-linked agammaglobulinemia (XLA) • common variable immunodeficiency (CVID) • severe combined immunodeficiency (SCID), which is known as alymphocytosis or “boy in a bubble” disease
Diseases Examples of secondary immunodeficiency disorders include: • AIDS • cancers of the immune system, like leukemia • immune-complex diseases, like viral hepatitis • multiple myeloma (cancer of the plasma cells, which produce antibodies)
• End

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Top 5 Body Systems

  • 1. Unit -3 Different Types of Intelligent body systems
  • 2. Topics to be covered 1. Hormonal System 2. Cardiovascular System 3. Muscular system 4. Immune System 5. Lecture: 5h 6. Tutorial: 2h
  • 3. Human body organization The human body is organized in several levels, from the simplest to the most complex: 1. Cells – the basic unit of life 2. Tissues – clusters of cells performing a similar function 3. Organs – made of tissues that perform one specific function 4. Systems – groups of organs that perform a specific purpose in the human body All these above levels work in coordination to one another and allows the maintenance & regulation of the stability and constancy needed to function properly. In other words, they function towards keeping a body in good shape of health.
  • 4. Types of Tissues Human tissues are categorized in 4 types: 1. muscle tissue 2. epithelial tissue 3. connective tissue 4. nervous tissue https://www.youtube.com/watch?v=dva-f_btvlk
  • 5. Human body systems The 11 human body systems are as follows: 1. Nervous system 2. Integumentary system 3. lymphatic (or immune) system 4. Endocrine (or hormonal) system 5. Respiratory system 6. Circulatory (or cardiovascular) system 7. Muscular system 8. Digestive system 9. Excretory system 10.Reproductive system 11.Skeletal system
  • 6. Hormonal System The hormonal system (also called the endocrine system) is a network of glands and organs in the body that produce hormones. Purpose: to control growth, development, metabolism and reproduction through the production and secretion of hormones Cell type – epithelial Major organs: 1. hypothalamus 2. pituitary gland 3. thyroid 4. parathyroid 5. adrenal glands 6. pancreas 7. testes 8. ovaries
  • 7. Importance of Endocrine System  Controls all the metabolic activities of the body.  Made up of a series of glands: organs which produce and release chemical messengers, generally into the bloodstream.  The chemical messengers are called hormones and they affect the behavior of cells.  Only cells with receptors respond to hormones https://www.youtube.com/watch?v=vLdNX5Te1Xo
  • 8. Control of Endocrine Activity The concentration of hormone as seen by target cells is determined by three factors: Rate of production: Synthesis and secretion of hormones are the most highly regulated aspect of endocrine control. Such control is mediated by positive and negative feedback circuits.  Rate of delivery: An example of this effect is blood flow to a target organ or group of target cells - high blood flow delivers more hormone than low blood flow.  Rate of degradation and elimination: Hormones, like all biomolecules, have characteristic rates of decay, and are metabolized and excreted from the body through several routes. Shutting off secretion of a hormone having very short halflife causes circulating hormone concentration to rapidly fall down, but if a hormone's biological half-life is long, effective concentrations persist for some time after secretion ceases.
  • 9. Hormones Groups There are three basic group of hormones. 1. Amino acid derivatives: These are small molecules and they come from amino acids like tyrosine and tryptophan. One hormone derived from tryptophan is melatonin. A hormone involved in our sleepwake cycles. You can get tryptophan from foods like turkey, chocolate or milk. 2. Peptide hormones: Peptide hormones are made up of a bunch of amino acids. Examples would be some thyroid-stimulating hormone, oxytocin or prolactin. 3. Lipid derivatives or steroid hormones: Lipid derivatives or steroid hormones are considered lipophilic meaning they have an affinity for lipid structures. They circulate in the blood bound to carrier proteins so they usually last in the circulation longer than other types of hormones.
  • 10. Mechanism of Hormone action The endocrine system is a very important and very involved system within our bodies. It allows our body to communicate over long distances and is a major player in regulating a stable environment or in other words preserving homeostasis (good health). This system employs the use of hormones which are chemicals secreted from glands and enter the bloodstream where they circulate until exerting an effect on a downstream target cell. Specifically, there are two types of mechanisms in which hormones exert their effect on target cells: https://www.youtube.com/watch?v=TgNwxF3aQpE
  • 11. non-steroid(Peptide) hormone • The first is by and non-steroid action. This mechanism is employed by an amino acid hormone or a peptide hormone. These hormones cannot freely cross a membrane on a target cell so it first acts by binding a cell surface receptor. There is then an intracellular signaling cascade that occurs in order for the desired effect to take place. • There are proteins on the intracellular side of the target cell that are associated with the receptor. Most often this involves what's called a G-protein. This G protein is found next to an enzyme that converts ATP (adenosine triphosphate) to a molecule called cyclic AMP (Cyclic adenosine monophosphate) or cAMP. This is something that makes this mechanism unique. Cyclic AMP is called a second messenger because it signals a cascade of events that eventually change the enzymatic activity in a cell to cause the target cell response. • Examples of hormones that use the cyclic AMP • second messenger system include ACTH (Adrenocorticotropic Hormone), calcitonin, epinephrine, glucagon, parathyroid hormone and ADH (Antidiuretic hormone).
  • 12. Steroid Hormones • The second mechanism is the steroid action. Because lipid derivative or steroid hormones are lipophilic, they can freely move through the membrane and into the cell. From there they can either bind to a receptor within the cell or they can move freely into the nucleus where the hormone or hormone complex causes a change in gene activity. This then increases transcription (Transcription is the process by which the information in a strand of DNA is copied into a new molecule of messenger RNA (mRNA)) and mRNA production which then leads to an increase in protein production within the cell. • Examples of hormones that exert effects via steroid hormone Mechanisms are testosterone, estrogen, progesterone, aldosterone, and calcitriol.
  • 13. Common endocrine disorders Common endocrine disorders include: • Diabetes mellitus, acromegaly (overproduction of growth hormone), • Addison’s disease (decreased production of hormones by the adrenal glands), • Cushing’s syndrome (high cortisol levels for extended periods of time), • Graves’ disease (type of hyperthyroidism resulting in excessive thyroid hormone production), • Hashimoto’s thyroiditis (autoimmune disease resulting in hypothyroidism and low production of thyroid hormone), • Hyperthyroidism (overactive thyroid), • hypothyroidism (underactive thyroid), and • prolactinoma (overproduction of prolactin by the pituitary gland).
  • 14. Cardiovascular (or circulatory) system The circulatory system, also called the cardiovascular system or the vascular system, is an organ system that permits blood to circulate and transport nutrients (such as amino acids and electrolytes), oxygen, carbon dioxide, hormones, and blood cells to and from the cells in the body to provide nourishment and help in fighting diseases, stabilize temperature and pH, and maintain homeostasis. • Purpose: to deliver oxygenated blood to the various cells and organ systems in your body so they can undergo cellular respiration • Cell type – Muscle
  • 16. Major Organ and Function Heart • -the major muscle of the circulatory system • -pumps deoxygenated blood into the lungs, where it gets oxygenated, returned to the heart, and then pumped out through the aorta to the rest of the body • -valve regulate the flow of blood between the chambers
  • 17. Organ system Interactions • With lungs – exchange O2 & CO2 • With digestive system - pick up nutrients for transport throughout the body • With excretory – blood is filtered to remove toxins and some water • Nervous system – heart-beat regulation & blood pressure
  • 18. Constitution of CVS • Heart. This muscular organ works to pump blood throughout your body via an intricate network of blood vessels. • Arteries. These thick-walled blood vessels carry oxygenated blood away from your heart. • Veins. These blood vessels carry deoxygenated blood back toward your heart. • Capillaries. These tiny blood vessels facilitate the exchange of oxygen, nutrients, and waste between your circulatory system and your organs and tissues.
  • 19. Working of CVS • Oxygen-depleted blood returns to the heart (the right side) via the veins. • The heart pumps this blood to the lungs. In the lungs, the blood gets rid of carbon dioxide and picks up fresh oxygen. • Newly oxygenated blood returns to the other side of the heart (the left side), where it’s then pumped into the arteries. • Eventually, the blood enters the capillaries. Here, it releases oxygen and nutrients to the body’s organs and tissues. It then picks up carbon dioxide and other waste products. • The oxygen-depleted blood returns to the heart through the veins, and the cycle begins all over again.
  • 20. Types of circulation 1)Pulmonary: https://www.youtube.com/watch?v=NDk8fmIl9V8 • In the pulmonary loop, deoxygenated blood exits the right ventricle of the heart and passes through the pulmonary trunk. • The pulmonary trunk splits into the right and left pulmonary arteries. These arteries transport the deoxygenated blood to arterioles and capillary beds in the lungs. • There, carbon dioxide is released and oxygen is absorbed. Oxygenated blood then passes from the capillary beds through venules into the pulmonary veins. • The pulmonary veins transport it to the left atrium of the heart. • The pulmonary arteries are the only arteries that carry deoxygenated blood, and the pulmonary veins are the only veins that carry oxygenated blood.
  • 21. Cont… 2) Systemic: https://www.youtube.com/watch?v=DNNFA0-fozE • During the systemic loop blood moves through arteries and flows into capillary beds here oxygen is released and diffuses through the capillary wall into tissues meanwhile carbon dioxide diffuses into the bloodstream. • In the systemic loop, oxygenated blood is pumped from the left ventricle of the heart through the aorta, the largest artery in the body. The blood moves from the aorta through the systemic arteries, then to arterioles and capillary beds that supply body tissues. Here, oxygen and nutrients are released and carbon dioxide and other waste substances are absorbed. Deoxygenated blood then moves from the capillary beds through venules into the systemic veins. The systemic veins feed into the inferior and superior venae cavae, the largest veins in the body. The venae cavae flow deoxygenated blood to the right atrium of the heart.
  • 22. Diseases related to the circulatory system Diseases that can affect the circulatory system include: 1. Atherosclerosis • Atherosclerosis is a hardening of the arteries. • It is typically caused by a diet high in fat, which leaves fatty deposits on the lining of the blood vessels. These fatty deposits stick together and make the arteries hard and less flexible. Atherosclerosis leads to high blood pressure, which can damage the heart and kidneys and even lead to strokes. 2. Heart attack • Myocardial infarction (MI) is the technical term for a heart attack. A heart attack can occur when the blood supply is cut off from the heart, often by a blood clot. Some heart attacks are minor, but others can be life-threatening. 3. Angina pectoris • Angina pectoris means “pain in the chest” and occurs if the heart is not receiving enough blood. People often describe it as a crushing sensation or feeling like their chest is in a vice.
  • 23. Cont… 4. Arrhythmia and dysrhythmia • Arrhythmia and dysrhythmia are often used interchangeably, and both refer to abnormal heart rates and rhythms. In general, arrhythmia means “no rhythm” and dysrhythmia means “abnormal rhythm.” 5. Heart failure • Heart failure means that the heart is not pumping blood around the body as efficiently as it should. It can lead to fatigue, shortness of breath, and coughing. • Some people with heart failure find it difficult to do things such as walking, climbing stairs, or carrying groceries. 6. High blood pressure (hypertension) • High blood pressure or hypertension means the force or pressure of the blood flowing through the vessels is consistently too high. High blood pressure can lead to stroke, loss of vision, heart failure, heart attack, kidney disease, and reduced sexual function. 7. Stroke • A stroke can happen when one of the vessels that lead to the brain either becomes blocked by a blood clot or bursts. This stops blood flow and prevents oxygen from getting to the brain.
  • 24. Muscular system • They make 1/3rd weight of body. Blood vessels and nerves run to every muscle, helping control and regulate each muscle’s function. • Purpose: works with the skeletal and nervous system to produce movement, also helps to circulate blood through the human body • Cells: muscle cells are fibrous -- muscle contractions can be voluntary or involuntary makes up to 40 – 50% of the body mass
  • 26. Major Muscles in Human Body
  • 27. Types of Muscles Three types of muscles: • skeletal - attach to and move bones by contracting and relaxing in response to voluntary messages from the nervous system. They have *striated structure • 1. smooth - internal organs (except heart), one nucleus, non-striated, involuntary control • 2. cardiac - heart, one nucleus, striated, involuntary control, has its own pacemaker • 3. Skeleton- Arms and Legs
  • 28. Working of muscular system • Muscle contraction begins when the nervous system generates a signal. • The signal, an impulse called an action potential, travels through a type of nerve cell called a motor neuron. • The neuromuscular junction is the name of the place where the motor neuron reaches a muscle cell. Skeletal muscle tissue is composed of cells called muscle fibers. • When the nervous system signal reaches the neuromuscular junction, a chemical message is released by the motor neuron. • The chemical message, a neurotransmitter called acetylcholine, binds to receptors on the outside of the muscle fiber. That starts a chemical reaction within the muscle, to make it contract. https://www.youtube.com /watch?v=VVL-8zr2hk4
  • 29. Cont.. • A multistep molecular process within the muscle fiber begins when acetylcholine binds to receptors on the muscle fiber membrane. • The proteins inside muscle fibers are organized into long chains that can interact with each other, reorganizing to shorten and relax. • When acetylcholine reaches receptors on the membranes of muscle fibers, membrane channels open and the process that contracts a relaxed muscle fibers begins. • When the stimulation of the motor neuron providing the impulse to the muscle fibers stops, the chemical reaction that causes the rearrangement of the muscle fibers proteins is stopped. • This reverses the chemical processes in the muscle fibers and the muscle relaxes
  • 30. Common muscular disorder Common muscular disorder is- • Muscular dystrophy: Group of inherited diseases characterized by weakness and wasting away of muscle tissue, with or without the breakdown of nerve tissue. • Neuromuscular disorders: Spinal muscular atrophies, Inflammatory myopathies, Diseases of peripheral nerve.
  • 31. Lymphatic (or immune) system • Immune system is a biological structures and processes within an organism that protect against disease by identifying and killing pathogens and cancer-cells. • Purpose: to remove infectious diseases and other pathogens from the human body • Cell type - Epithelial
  • 32. Lymphatic (or immune) system Our immune system is essential for our survival. Without an immune system, our bodies would be open to attack from bacteria, viruses, parasites, and more. It is our immune system that keeps us healthy as we drift through a sea of pathogens.
  • 33. Major Organs of the immune system and Their Functions • Skin: also called the integumentary system, the skin is the body’s first line of defense • White Blood Cells: --recognize disease agents (antigens) and create antibodies to tag and remove these antigens --phagocytes are the white blood cell type that actually eats and destroys these antigens • Lymph Nodes: help restore fluid lost by the blood and return it to the circulatory system • Spleen: produces and stores white blood cells • Thymus: site of white blood cell maturation
  • 34. Distribution & Mechanism of immune system: • For detail working of immune system watch this video @ https://www.youtube.com/watch?v=PzunOgYHeyg • Our body has a powerful army that protects it from various types of threats. These threats can come in the form of mechanical injuries, the entry of germs, or the entry of other foreign particles like dust. This personal army is called the immune system. • Every day, we encounter a huge number of bacteria, viruses and other disease-causing organisms. However, we don't fall ill every other day. Which is due to our immune system - an army of cells that is always roaming our body, ready to fight off any attack. https://www.youtube.com/watch?v=lxC-3MpIMUo&t=146s
  • 36. Classification of immune system The immune system can be broadly divided into two parts - innate and adaptive immunity. 1) Innate immunity or non-specific immunity is the body's first natural defense to any intruder. This system doesn't care what it is killing. • Its primary goal is to prevent any intruder from entering the body, and if it does enter, then the immune system kills this intruder. It doesn't differentiate between one pathogen and another. First line of action: Physical barriers: • a) The first component of this defensive system is your skin. Any organism trying to get into the body is stopped by the skin, our largest organ, which covers us. • b) Secondly, there is the mucous lining of all our organs. The sticky, viscous fluid of this lining traps any pathogens trying to get past it.
  • 37. Innate immunity or non-specific immunity Chemical barriers: • a) such as the lysozyme in the eyes that comes out with tears, • b) or the acid in the stomach, which kill pathogens trying to gain entry into organs of the body. • c) The genitourinary tract and other places have their own normal flora, or microbial community. These compete with pathogens for space and food, and therefore also act as a barrier.
  • 38. Innate immunity or non-specific immunity The next line of defence are: • which is done by mast cells. These cells are constantly searching for suspicious objects in the body. When they find something, they release a signal in the form of histamine molecules. These alert the body, and blood is rushed to the problem area. This causes inflammation (eg. Mosquito bite) and also brings leukocytes, or white blood cells, which are soldiers in our body's cellular army. Once they come, all hell breaks loose! • Sometimes however, the intruder may not be germ, but rather a harmless thing like a dust particle. The body still causes a full immune reaction to this intruder, which is how allergic reactions occur.
  • 40. Cont…. • In our body, the leukocytes are VIPs and they have an access to the whole body, except, to the brain and spinal cord. • Our leukocytes come in many types. • Those that belong to the innate system are the (i) phagocytes. These cells can either patrol your body, or they can stay in certain places and wait for their turn to act. • (ii)Neutrophils are the most abundant cells. They patrol the body and can therefore get to attack site very quickly. These cellular soldiers kill the infectious cell and then die, which leads to pus formation.
  • 41. • (iii)There are also the macrophages. These cells are like hungry monsters who simply engulf unwanted pathogens. Instead of roaming freely in our blood, they are collected in certain places. These cells can consume about 100 pathogens before they die, but they can also detect our own cells that have been infected, such as cancer cells, and kill them too. • (iv) Beyond that, we also have the Natural Killer Cells (NKC). These cells can efficiently detect when our own cells have gone infected. NKCs detect a protein produced by normal cells, called the Major Histocompatibility Complex (MHC). Basically, whenever a cell isn't normal, it stops producing this protein. The NKCs move around constantly, checking our cells for this type of deficiency, and when they find an abnormal cell, they simply bind to it and release chemicals that will destroy it.
  • 42. Cont… • (v) The last cells of our innate immune system are the dendritic cells. These are found in places that come in contact with the outside environment, such as the nose, lungs, etc. They are the link between our innate and adaptive immune systems. They eat a pathogen, and then carry information about it to our adaptive immune system cells. This information is produced and shared in the form of antigens. Antigens are the traces that pathogens leave around. They are molecules found on the surface on pathogens that can be detected by our adaptive immune system for recognition. The dendritic cells pass on this information to our T cells. However, macrophages can also perform this function.
  • 43. Adaptive or acquired immune system. 2) Adaptive or acquired immune system • This system is more efficient, as it can differentiate between different types of pathogens. It has 2 main components - B lymphocytes (B-cells) and T lymphocytes (T-cells). Together they form humoral immune response. • B-cells join the fight when the pathogens have entered, but haven't yet caused any disease. T-cells come into play when an infection has already occurred, thus bringing about the cell-mediated immune response. • T lymphocytes (T-cells): Some T-cells take signals from the dendritic cells or macrophages, and are thus called helper T-cells. They perform two key tasks: forming effector T-cells, which are basically cells that cycle through the body and call in the other soldier cells to fight, namely white blood cells.
  • 44. Cont… • Helper T-cells also form memory T-cells, which keep a record of this antigen for future reference. • Sometimes, the same cells of our body know that they have lost the battle. Essentially, the affected area or organ become heavily infected with pathogens, so there is no hope for such infected cells. At this point, the immune system brings out the cytotoxic t cells. These cells rush over and perform a mercy killing for the infected and dying cell. • B lymphocytes (B-cells): They produce chemicals called antibodies, which fit on the antigens of pathogens, like a lock and key fitting. These antibodies crowd around a pathogen and act like tags. They signal the macrophages to come and kill the marked pathogen. • B-cells also produce memory B-cells when they encounter an antigen.
  • 45. Cont… • Further The B- and T- memory cells jointly maintain a record of all encountered infections, and thus strengthen and solidify the body’s immune response to these infections. • Our innate immune response is quicker, though non-specific. It gets into action within hours and is quite strong. However, when things get out of hand, the innate system calls for help from the acquired immune system. This system can take days to start a response, but the next time we encounter that pathogen, it won’t make us get sick. • In short, every day that we spend being healthy is all thanks to our immune system.
  • 46. What is herd Immunity? • Herd immunity', also known as 'population immunity', is the indirect protection from an infectious disease that happens when a population is immune either through vaccination or immunity developed through previous infection. • WHO supports achieving 'herd immunity' through vaccination, not by allowing a disease to spread through any segment of the population, as this would result in unnecessary cases and deaths. • Herd immunity against COVID-19 should be achieved by protecting people through vaccination, not by exposing them to the pathogen that causes the disease.
  • 47. Common immune system disorders There are two types of immunodeficiency disorders: those you are born with (primary), and those that are acquired (secondary). Anything that weakens your immune system can lead to a secondary immunodeficiency disorder. Immunodeficiency disorders prevent your body from fighting infections and diseases. This type of disorder makes it easier for you to catch viruses and bacterial infections. Examples of primary immunodeficiency disorders include: • X-linked agammaglobulinemia (XLA) • common variable immunodeficiency (CVID) • severe combined immunodeficiency (SCID), which is known as alymphocytosis or “boy in a bubble” disease
  • 48. Diseases Examples of secondary immunodeficiency disorders include: • AIDS • cancers of the immune system, like leukemia • immune-complex diseases, like viral hepatitis • multiple myeloma (cancer of the plasma cells, which produce antibodies)