HBS&DS: Introduction to Human Body PDF
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Summary
This document provides an introduction to human anatomy and physiology, specifically for pharmacy technicians in their first year. It covers major organ systems, homeostasis, and anatomical terms. Basic chemistry concepts are also briefly introduced.
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HBS&DS: Introduction to Human Body Pharmacy Technician Year 1 - group of organs that work together in LESSON 1: ANATOMY AND PHYSIOLOGY: WHAT the body to perform a complex function THEY ARE...
HBS&DS: Introduction to Human Body Pharmacy Technician Year 1 - group of organs that work together in LESSON 1: ANATOMY AND PHYSIOLOGY: WHAT the body to perform a complex function THEY ARE 7. Organism - The human being 1. Anatomy - Studies the structure of the body MAJOR ORGAN SYSTEMS - Came from greek word that means 1. Integumentary System dissect - Consists of skin, hair, and nails - EX: describes what the heart looks like, - Covering for the body how big, etc. - Regulates body temperature 2. Physiology - Contains structures for sensation - Describes how the body functions 2. Skeletal System - Ex: how the heart pumps blood - Basic framework of the body - Pathophysiology: describes the - Consists of bones, joints, and cartilage consequences of the improper - Protects and support body organs functioning of the body - Enables us to move around - Bone Marrow: produce most of the THE BODY’S LEVEL OF ORGANIZATION blood cells 3. Muscular System - Skeletal Muscle: attach to the bones & responsible for movement of skeleton and posture - Cardiac Muscle: found in heart & enable heart to pump blood - Smooth Muscle: found in various organs and tubes, helps move body fluids 4. Nervous System - Consists of brain, spinal cord, nerves, and sense organs - Sensory nerves will bring information to the spinal cord and brain - Our brain performs all those higher-level 1. Atoms functions - the basic particles of the chemical 5. Endocrine System elements - Contains numerous glands that secretes 2. Molecules hormones and chemical substances - a group of two or more atoms that form - Regulates body activities (e.g growth, the smallest identifiable unit reproduction, metabolism, and water 3. Cells balance) - Basic unit of life 6. Circulatory System - Organized larger molecules - Consists of the blood, heart, and blood 4. Tissue vessels - a group of cells that have similar - Pumps and transport blood throughout structure and that function together as a the body unit - Carries nutrients and oxygen to all the 5. Organs body’s cells - a part of the body that is made up of 7. Lymphatic System cells and tissues that perform a specific - Made up of lymph nodes, lymphatic function vessels, lymph, and other lymphatic 6. Organ Systems organs 1 HBS&DS: Introduction to Human Body Pharmacy Technician Year 1 - Important role in fluid balance - Anterior (Ventral) : Toward the front - Defends the body against pathogens surface (e.g belly surface) and foreign substances - Posterior (Dorsal): Toward the back 8. Immune System surface - Defense system that protects the body 3. Medial and Lateral - Widely distributed throughout the body - Imagine a line drawn through the middle 9. Respiratory System of your body, left & right - Contains the lungs and other structures - Mideal: toward the midline of the body that conduct air to the lungs - Lateral: away from the midline of the - The oxygen is picked up by the blood body and distributed throughout the body 10. Digestive System 4. Proximal and Distal - Organs designed to ingest food and - Proximal: nearer to the point of break it down attachment, often the trunk - Distal: part is farther away from the 11. Urinary System point - Consists of kidneys, ureters, bladder 5. Superficial and Deep and urethra - Superficial: located on or near the - Excrete waste products through the surface of the body urine - Deep: away from the surface of the - Control the water, electrocyte, and body acid-base balance in the body 6. Central and Peripheral 12. Reproductive System - Central: the part is located in the center - Enable humans to reproduce - Peripheral: away from the center HOMEOSTASIS: STAYING THE SAME PLANES OF THE BODY Homeostasis - Homeo = Staying, Stasis = Staying - Body’s ability to maintain a stable internal environment in response to a changing environment - Homeostatic Mechanisms: Mechanisms that help to maintain homeostasis - Homeostatic Imbalance: results in disease or dysfunction ANATOMICAL POSITION - Body is standing erect 1. Sagittal Plane - Face forward - Divides the body lengthwise - Arms at the side - Right and left portions - Toes and palms of the hands directed forward 2. Frontal Plane - Divides the body into anterior and RELATIVE POSITIONS posterior - Front and back 1. Superior and Inferior - Also called as Coronal Plane - Superior: Above another part or closer 3. Transverse Plane to head (e.g head is superior to chest) - Divides the body horizontally - Inferior: Below another part or closer to - Upper and lower body feet (e.g chest is inferior to head) 2. Anterior and Posterior 2 HBS&DS: Introduction to Human Body Pharmacy Technician Year 1 REGIONAL TERMS DIVISIONS INTO FOUR QUADRANTS AND NINE REGIONS CAVITIES OF THE BODY - The organs (viscera) are located within the LESSON 2: BASIC CHEMISTRY cavities of the body Matter Two Major Cavities: - Anything that occupies space and has weight 1. Dorsal Cavity - Chemistry is the study of matter - Located toward the back of the body - Three states - Has two divisions a. Solid: definite shape and volume a. Cranial Cavity b. Liquid: takes the shape of the container b. Spinal (vertebral) Cavity c. Gas: has neither shape nor volume 2. Ventral Cavity - Two Changes: - Located toward the front of the body a. Physical Change - Two divisions: b. Chemical Change a. Thoracic Cavity b. Abdominopelvic Cavity Elements - Matter composed of atoms that have the same number of positive charges in their nuclei - All matter, living or dead, is composed of elements - Four elements that make up about 96% of human body weight: a. Carbon b. Hydrogen c. Oxygen d. Nitrogen - Trace Elements: present in tiny amounts, but essential for life 3 HBS&DS: Introduction to Human Body Pharmacy Technician Year 1 - Atomic Number: the number of protons in the Atoms nucleus - Smallest unit of an element with that element’s - Atomic Mass: sum of the numbers of protons chemical characteristics and neutrons in the nucleus of an atom - Elements are composed of atoms, the basic unit - Isotope of matter a. A different form of the same atom; - Three Subatomic Particles: same atomic number, different atomic a. Protons: carry a positive electrical mass charge b. Often unstable and their nuclei break b. Neutrons: carry no electrical charge down or decay c. Electrons: carry a negative electrical c. Radioisotopes: unstable isotopes charge d. Radioactivity: spontaneous break down (decay) Electron Shells - Surround nucleus in orbits called electron shells or energy levels - Each shell can hold a specific number of electrons: a. Inner (1st) shell: 2 electrons b. 2nd and 3rd shell: 8 electrons each - The only electrons that are important for chemical bonding are the electrons in the outermost shell Chemical Bonds - Atoms are attracted to each other because they want to achieve a stable outer electron shell - Electrical attraction between atoms Three types of Chemical Bond 1. Ionic Bond: caused by a transfer of electrons between atoms 2. Covalent Bond: Involves a sharing of electrons by the outer shells of the atoms (next page) 4 HBS&DS: Introduction to Human Body Pharmacy Technician Year 1 3. Hydrogen Bond: an intermolecular attraction, not caused by transfer of electrons or sharing of electrons by outer shells of the atoms Electrolytes and Ionization - When an electrolyte breaks apart in solution, the electrolyte is said to dissociate or ionize Ions - Atoms or groups of atoms that carry an electrical charge - Ions are formed when electrons in the outer shell are lost or gained - Two types of Ions a. Cations: positively charged b. Anions: negatively charged - Electrocytes a. substance that forms ions when it is dissolved in water Molecules and Compound b. Capable of conducting an electrical - Molecule: when two or more atoms bonded current together - Compound: Molecules formed by two or more different atoms - Water is considered both a molecule and a compound 5 HBS&DS: Introduction to Human Body Pharmacy Technician Year 1 - Alkalosis Some Important Compounds and Molecules a. Too few H+ ions 1. Water b. pH greater than 7.45 - Most abundant compound in the body - Universal solvent - Temperature regulator - Ideal lubricant - Crucial part of most chemical reactions - Protective mechanism 2. Oxygen - Composed of two oxygen atoms and exists in nature as a gas - The air we breathe contains 21% oxygen 3. Carbon Dioxide - Compound that consists of one carbon atom and two oxygen atoms - CO2 is a waste product and must be eliminated from the body Chemical Reactions - The interaction of atoms of molecules or compounds to form new chemical combinations - Catalysts: chemical substances that speed up the rate of a chemical reaction - Enzymes: Proteins that serve as catalysts - Most chemical reaction require a catalysts 1. Acids - An electrolyte that dissociates into H+ (Hydrogen Ion) and an anion - Sour - Hydrochloric Acid can cause severe burns Energy 2. Bases - Ability to perform work - Substance,m, often OH- (hydroxyl ion), - Our body depends on a continuous supply of that combines with H+ to make a energy solution less acidic - Without energy, the body ceases to function - Base has a bitter taste and is slippery - Chemical energy stored in the muscle is like a soap converted into a mechanical energy - The conversion of energy in the body is The pH Scale generally accompanied by the release of heat - pH: Unit of measurement indicating how many hydrogen ions are in a solution Six Forms of Energy - pH scale: ranges from 0 to 14 1. Mechanical: Energy that causes movement - Midpoint of scale: pH 7, or neutral 2. Chemical: Energy stored in chemical bonds - Acidosis 3. Electrical: energy released from the movement a. Too many H+ ions of charged particles b. pH less than 7.35 4. Radiant: energy that travels in wave 6 HBS&DS: Introduction to Human Body Pharmacy Technician Year 1 5. Thermal: energy transferred because of a - Two types of Solutions temperature difference a. Aqueous Solutions: if water is the 6. Nuclear: energy released during the decay of solvent radioactive substances such as isotopes b. Tinctures: if alcohol is the solvent Suspensions and Precipitates Energy Transfer - Mixtures with relatively large particles - Energy used to power the body comes from the - Colloidal Suspension: particles remain food we eat suspended within the liquid - Adenosine Triphosphate (ATP): Energy - Precipitates: Solids are formed and fall out of transfer molecule solution during a chemical reaction - Three parts of ATP a. Base LESSON 3: CELLS b. Sugar c. Three phosphate groups Cells - Basic units of living matter Source of Energy - The structural and functional unit of all living - As the food is broken down, energy is released matter - This energy is transferred to ATP so that it can - Considerably in size, shape, and function be used by the cells of the body - Cell structures reflect their specialized functions Storage of Energy Mixtures - Combination of two or more substances that can be separated by ordinary physical means Cell Membrane - Ex: A sugar-iron mixture can be separated by a - Also called plasma membrane magnet - Encases the cell - Separates intracellular material from Solutions extracellular - Have two parts that remain evenly distributed - Chief function: selection of substances allowed (e.g., normal saline) to enter or leave the cell a. Solute: substance present in smaller - Since the membrane chooses the substances amount; is the substance being allowed to cross it, the membrane is dissolved semipermeable b. Solvent: part of solution present in - Substances can move across in two ways: greater amount; does the dissolving 7 HBS&DS: Introduction to Human Body Pharmacy Technician Year 1 a. They can dissolve in the lipid portion of - Composed of: the membrane, as do oxygen and a. Cytosol: medium composed of water carbon dioxide and dissolved solute; organelles b. By flowing through the pores (water and suspended in the cytosol electrically charged substances) b. Organelles: little organs - Found outside the Cell membrane a. Cilia: contains the cellular contents; Mitochondria selects what enter and leaves the cell - Power house/plant of the cell b. Flagellum: single long hair for - Tiny, slipper-shaped organelles swimming movement of the sperm - The more metabolically active the cell, the c. Microvilli: accordion-like folds in the greater the number of mitochondria membrane; increase transport of water - Site of the adenosine triphosphate production and dissolved solute - Two Layers a. Outer Layer: Smooth b. Inner Layer: Has many folds called cristae Inside the Cell Nucleus Ribosomes - Control center of the cell (controls the workings - Sites of protein synthesis of the entire cell) - Fixed Ribosomes: attached to the endoplasmic - Contains the genetic information and controls all reticulum protein synthesis - Free Ribosomes: float freely within the - Surrounded by double-layered nuclear cytoplasm membrane - Contains large pores Endoplasmic Reticulum (ER) - Found inside the nucleus - Network of membranes within the cytoplasm a. Nucleoplasm: gel-like substance - It form channels through which substances b. Nucleolus: involved in synthesis of move ribosomes - Two Types: c. Chromatin: threadlike structure that a. Rough Endoplasmic Reticulum contains genes (RER): Fixed ribosomes on surface; d. Chromosomes: DNA-containing rough sandpaper-like appearance structures b. Smooth Endoplasmic Reticulum e. Nuclear Membrane: separates (SER): No ribosomes; site of lipid and nucleoplasm from the cytoplasm steroid synthesis Cytoplasm Golgi Apparatus - A gel-like substance found inside the cell but - Puts finishing touches on protein after synthesis outside the nucleus on RER 8 HBS&DS: Introduction to Human Body Pharmacy Technician Year 1 - Pachanges protein in Golgi Membrane 2. Facilitated Diffusion - A helper molecule within the membrane Lysosomes assist with the movement of substances - Breakdown waste for “housekeeping” within the from higher to lower concentration cell - Membranous sacs containing powerful enzymes - Lysosomal enzymes breakdown intracellular water and debris Cytoskeleton - Microfilaments and microtubules that form spindles and help separate the chromosomes during mitosis - Helps maintain the shape of the cell and assists the cell in various forms of cellular movement Centrioles - Paired, rod-shaped, and short microtubular 3. Osmosis structure - Movement of water (solvent) from area - Help separate chromosomes during mitosis with more water to area with less water - The water compartments are separated Passive Transport Mechanism by a semipermeable membrane 1. Diffusion - Movement of a substance from an area of higher concentration to one of lower concentration - Equilibrium: point at which concentration is equal and no further net diffusion occurs 9 HBS&DS: Introduction to Human Body Pharmacy Technician Year 1 2. Endocytosis 4. Tonicity - Taking in or ingestion of substances by - Ability of a solution to affect the volume the cell membrane and pressure within a cell - Phagocytosis: engulfing of solid particles by the cell membrane (cellular eating) - Pinocytosis: Engulfing of liquid droplets (cellular drinking) 5. Filtration - Movement of water and dissolved substances from an area of higher pressure to an area of lower pressure - Water and dissolved substances are pushed 3. Exocytosis – secretion of cellular products out of the cell (protein, debris) Cell Division - Types of Cell Reproduction a. Mitosis: bodily growth and repair b. Meiosis: sex cells only - Cell Cycle: the sequence of events that a cell Active Transport goes through one mitotic division to the next 1. Pumps - Move substances from area of lower Two phases of cell cycle concentration to area of higher 1. Interphase concentration a. First gap phase (G1) - Require input of energy (ATP) b. Phase (S) c. Second gap phase (G2) 10 HBS&DS: Introduction to Human Body Pharmacy Technician Year 1 Cell Differentiation 2. Mitosis Stem Cells - Relatively undifferentiated or unspecialized cells whose only function is the production of additional unspecialized cells - The rate of stem cell division varies with the tissue type a. The stem cells within the bone marrow and skin are capable of diving more than once a day b. The stem cells in adult cartilage may Mitosis (M Phase) remain inactive for years - Four Phases a. Prophase Disorders of Cellular Growth b. Metaphase - Abnormal cell growth creates tumors c. Anaphase a. Benign (noncancerous) d. Telophase b. Malignant (cancerous) - Chromosomes line up and split into two identical - Cells extend and invade surrounding tissue sets (chromatids) - Apoptosis leads to cell death - Ends with cytokinesis: Cell membrane pinches a. Helps rid the body of old, unnecessary, to create two identical cells and unhealthy cells - *Necrosis: death of cells or group of cells LESSON 4: CELL METABOLISM Metabolism - Series of chemical reactions necessary for the use of raw materials - Anabolism a. Reactions that build larger, more complex substances from simpler substances b. Require an input of energy in the form of ATP 11 HBS&DS: Introduction to Human Body Pharmacy Technician Year 1 - Catabolism 2. Disaccharides a. Reactions that break down larger, more - Double-sugar compounds complex substances into simpler - Made when two monosaccharides are substance linked together b. Releases energy that is converted into ATP and used to run the body 3. Polysaccharides - Many-sugar compounds - Linked together in straight chains, and others in branched chains Carbohydrates - Are organic compounds composed of Carbon, Hydrogen, and Oxygen - Sugars: shorter monosaccharides and disaccharides - Starches: longer chain polysaccharides Carbohydrates are classified according to size: 1. Monosaccharides - Single-sugar compounds - Sugars containing 3-56 carbons 12 HBS&DS: Introduction to Human Body Pharmacy Technician Year 1 - Many hormones secreted by endocrine glands Uses of Glucose stimulate gluconeogenesis - Burned immediately for fuel - Stored as glycogen and burned as fuel later Lipids (Fats) - Stored as fat and burned as fuel later - Organic compounds commonly called fats and oils Breakdown of Glucose - Fats are solid at room temperature, oils are 1. Anaerobic Catabolism: Oxygen absent liquid - Glycolysis: anaerobic process occurs - Lipids found most commonly in the body: in the cytoplasm a. Triglycerides: three long chains of fatty - Glucose → lactic acid acids attached to one small glycerol 2. Aerobic Catabolism: Oxygen Present molecule - Glucose → carbon dioxide, water, and b. Phospholipids: formed when ATP phosphorus containing group attaches to one of the glycerol sites c. Steroids: Cholesterol body can also synthesize cholesterol in the body Uses of Lipids 1. Source of energy Making of Glucose 2. Component of cell membranes and myelin - The body must have a constant supply of sheath glucose for fuel 3. Synthesis of steroids - Glucose can be broken down in the cells as a 4. Long-term storage of energy source of energy - Glucose can be made from non-carbohydrate Good and Bad Cholesterol substances 1. Very low-density lipoprotein (VLDL) - Glucogenesis: Making glucose from - Contain mostly triglycerides non-glucose sources (such as, protein) - Role: transport triglyceride to adipose a. Important in blood sugar regulation tissue and muscle 13 HBS&DS: Introduction to Human Body Pharmacy Technician Year 1 Uses of Proteins 2. Low-density lipoprotein (LDL) - Synthesis of hormones, enzymes, antibodies, - Cholesterol is the core lipid plasma, and muscle proteins, hemoglobin, and - Role: Deliver cholesterol to non-hepatic most cell membranes tissue - If needed, can be broken down as source or 3. High-density lipoprotein (HDL) energy for ATP production - Cholesterol is the core lipid - If needed, can be broken down and converted to - Role: carry cholesterol from peripheral glucose (gluconeogenesis) tissues to liver for excretion Urea Protein - Waste product of amino acid breakdown - Most abundant organic matter in the body - Most nitrogen is recycled for new amino acids - Almost every chemical reaction in the body is - Extra nitrogen forms toxic ammonia regulated by an enzymes - Liver removes NH3 from blood and converts it to - Proteins are essential to life urea - Participate in every body function - Kidney excrete urea in urine a. Enzymes b. Hormones c. Hemoglobin d. Contractile muscle protein e. Plasma proteins f. Antibodies g. Structural proteins Amino Acids - Building blocks of Protein - All amino acids have an amine group and acid group - Joined by peptide bonds, amino acids build peptides and proteins - Essential Amino Acids: must be included in diet - Nonessential Amino Acids: body can Nucleotides and Nucleic Acids synthesize these - Nucleotide: Composed of a sugar, a phosphate - Amino acids are joined together by peptide group and a base bonds a. Adenine - Peptide bond: formed when the amine group of b. Thymine amino acid joined with the acid group c. Guanine - Polypeptide: many amino acids are joined d. Cytosine together - Nucleic Acids: DNA and RNA - Proteins can bond with other organic a. Composed of nucleotides compounds 14 HBS&DS: Introduction to Human Body Pharmacy Technician Year 1 - tRNA reads code on mRNA (translation) Base Pairing - Amino acids are correctly aligned to form - DNA is a double-stranded nucleotide (ladder) peptides and proteins - Rungs of the DNA ladder are formed by base pairing a. Adenine with thymine b. Cytosine with guanine Base Sequencing: Genetic Code - Genetic information for protein synthesis stores on one strand - Order of three bases= code for one amino acid mRNA: Code copier for protein synthesis - mRNA uses base pairing to copy the code on a DNA strand (transcription) - mRNA detaches, leaves the nucleus, and goes to the ribosomes in cytoplasm tRNA: Code reader for protein synthesis - tRNA connects to a single amino acid in cytoplasm 15