Chapter One

Chapter One Introduction to Anatomy and Physiology

Relationship Between Anatomy and Physiology Anatomy: study of thestructure and shape of the body and their relationship to one another Physiology: study of how the body and its parts work or function STRUCTURE DETERMINES FUNCTION

The Specialties of Anatomy • Anatomy can be divided into gross and microscopic: • Forms of Gross Anatomy • Surface anatomy – study of superficial marking • Regional anatomy – study of specific area • Systemic anatomy – study of system • Developmental anatomy – study changes from conception to physical maturity. • Microscopic anatomy includes two major subdivisions • Cytology – study of cell • Histology – study of tissue

Comparative Anatomy • All vertebrates share a basic pattern of organization, most noticeable during embryology.

The Specialties of Physiology • Physiology is the study of the normal function of cell, tissue, organs, systems and organisms • Physiology can be divided into the following specialties: • Cell physiology – study of cell • Special physiology - study of specific organ • Systemic physiology – study of system • Pathological physiology – study of the effect of disease on cell, tissue, organ and system.

Levels of Organization

Organ Systems

Characteristics of Life • Responsiveness • permits an organism to sense, monitor, and respond to changes in its • external environment • b. highly developed in nerve and muscle cells • Conductivity • a. capacity of living cells and tissues to selectively transmit or propagate • a wave of excitation from one point to another within the body • b. highly developed in nerve and muscle cells • Growth • a. normal increase in size or number of cells • b. produces an increase in size (person, organ, part) • c. little change in the shape • Respiration • a. Involves processes in absorption, transport, utilization, or exchange of respiratory gases between an organism and its environment • b. Internal vs. external • Digestion • a. Complex food products are broken down into simpler substances that can be absorbed and • used by organism • Absorption • a. Movement of digested nutrients through the wall of the digestive tube and into body fluids for transport to cells

Characteristics of Life • 7.Secretion • a. Production and delivery of specialized substances (digestive juices, hormones) for diverse body • functions • Excretion • a. Removal of wastes produced during body functions (breakdown and use of nutrients in the cell) • Circulation • a. Movement of body fluids and many other substances (nutrients, hormones, waste products) from one body area to another • Reproduction • a. Formation of new individual and new cells (cell division) • b. Permits growth, wound repair, and replacement of dead/aging cells • Metabolism – describes the various processes by which life is made possible • - breakdown of nutrients • - produce energy • - transform one material into another • - required to make complex cpds out of simple cpds

How can you remember the list? • I am walking to McDonalds (movement) • I stop at the traffic light (response) • My body is growing (growth) • I am breathing air (respiration) • My body absorbs the hamburger (absorption) • The hamburger circulates in my body (circulation) • The hamburger is changed to things my body needs (assimilation) • Eventually, I go to the bathroom (excretion) • Someday I may reproduce (reproduction)

Anatomical Position/Bilateral Symmetry Anatomical Position – erect; palms, head and feet forward Bilateral Symmetry – right and left sides are mirror images

General Organization • Axial= Head, neck, trunk • Appendicular= Arms and legs

Regional Terms Anterior: front Posterior: back

Directional Terms

Directional Terms Superior – toward the head Inferior – toward the feet Anterior/ventral – front Posterior /dorsal– back Medial – toward the midline Lateral – toward the side/away from midline Proximal – toward or nearest the trunk or point of origin Distal – away from or farthest from trunk or point of origin Superficial – nearest the surface Deep – farther away from surface

Body Planes Sagittal– lengthwise, front to back, divides body into left and right sides, * Midsagittal (sagittal section in middle) Coronal/Frontal – lengthwise, side to side, divides body into anterior and posterior portions; frontal plane Transverse – crosswise, divides body or parts into upper and lower parts; horizontal plane

Body Cavities • Body cavities are internal chambers holding vital organs • Cavities protect vital organs • Cavities allow organs to change in shape and size • Two body cavities • Dorsal body cavity (back side) includes the cranial cavity and the spinal cavity • Ventral body cavity (front side) includes the thoracic cavity (chest) and the abdominopelvic (stomach and lower abdomen) cavity

Body Cavities

Abdominopelvic Regions 4 Quadrants Doctors divide torso into quadrants to describe the site of pain and/or locate internal pathology (tumor) 1. Right upper quadrant (RUQ) 2. Left upper quadrant (LUQ) 3. Right lower quadrant (RLQ) 4. Left lower quadrant (LLQ)

Abdominal Regions Superficial Organs Right hypochondriac – right lobe of liver, gallbladder 2. Epigastric – right and left lobes of liver, stomach Left hypochondriac – stomach, large intestine Right lumbar – large and small intestine 5. Umbilical – transverse colon, small intestine 6. Left lumbar – small intestine, colon Right iliac – cecum, small intestine Hypogastric– small intestine, bladder, appendix 9. Left iliac – colon, small intestine

Homeostasis • Homeostasis is a stable internal environment • Every organism must maintain homeostasis for survival • Homeostatic regulation is responsible for keeping internal environment within certain limits. • Internal environment (ie. body temp, pH, glucose level) • External environment (ie. Weather, fluid surrounding cells)

Two general points: • Autoregulation or intrinsic regulation – results when cell, organ or system adjusts its activity automatically. • Extrinsic regulation - results from activity of nervous system or endocrine system

Homeostatic regulation involves • A homeostatic regulatory mechanism consist of : • A receptor – senses an environmental change or stimuli. • A control center –processes information supplied by receptor and generates a response (command) • An effector – an organ or cell that responds to the command of control center. • A variation outside the desired range triggers an automatic response to correct the situation • Negative feedback

Efferent= exits Afferent= approaches

Negative Feedback: The Control of Body Temperature Negative feedback: system is shut off

Positive Feedback: Blood Clotting • In positive feedback an initial stimulus produces a response that enhances the change in the original condition. For instance: • Damage to blood vessel wall will cause release of chemicals. • Chemicals will trigger blood clotting • Clotting process increases release of chemicals • More chemicals means accelerated clotting • Accelerated clotting means more chemicals Positive feedback: reaction continues at a faster rate

Negative Feedback • Inhibitor • Oppose change by creating response opposite in direction of initial disturbance • change – temperature drop • response – heat production • initial disturbance – temp fall below normal set point • Stabilize physiological variables • Maintain constant internal environment • Ex: goosebumps, sweating • Positive Feedback • Stimulatory • Amplifies/reinforces change which can be harmful and disastrous • Cause instability and disrupt homeostasis (continuous temp increase) • Ex: sneezing, birth of baby, immune response to infection, blood clot

Chapter One

Chapter One

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Chapter One

CHAPTER ONE

Chapter One

Chapter One

Chapter One

Chapter One

Chapter One

CHAPTER ONE

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