BIO 21001

Chapter 1 AN INTRODUCTION TO THE HUMAN BODY

I. Understanding the human body

A. Anatomy: study of structure

1. Gross: large body structures visible to the naked eye

2. Cytology: cells

3. Histology: tissues

4. developmental: change in structure from conception to old age

5. embryology : changes before birth

B. Physiology: study of function

1. neurophysiology

2. renal physiology

3. cardiovascular physiology

4. etc. by the various systems of the body

C. Principle of Complementarity

1. structure often determines function

D. Hierarchy of Structural Organization

Structural levels:

1. Chemical

a. Atoms and molecules (chapter 2)

2. Cell

a. the living structural and functional unit

b. ex. a muscle cell (also called muscle fiber)

3. tissue

a. groups of similar cells

b. ex. cardiac muscle made up of many muscle cells

4. organ

a. two or more tissues that perform a function

b. ex. heart: cardiac muscle and endothelium lining

5. organ systems

a. several organs to perform a function

b. ex. cardiovascular system includes heart,

blood vessels, nerves and requires

assistance from lungs and kidneys

6. Organism

a. sum of all levels

b. ex. individual

REVIEW ORGAN SYSTEMS IN LAB

E. Classification of a living system

1. Movement

a. contraction of muscle

2. Reproduction

a. produce offspring to continue the species through reproductive system

3. Responsiveness

a. sense changes and respond to the environment

b. nervous system, endocrine system (hormones)

4. Metabolism

a. sum of all chemical reactions or activities in the body

b. catabolic reactions: break down

c. anabolic reactions: build up

d. includes:

1. respiration

a. to generate ATP (body’s energy source) by breaking down nutrients (Cellular respiration)

b. also refers to gas exchange

5. other processes associated with metabolism

a. ingestion or taking in food

b. digestion or breaking down food

c. excretion or removal of wastes

d. growth by building up reactions

e. differention of unspecialized cells developing into a specialized cells or tissue

F. Homeostasis

1.the cell's ability to maintain a stable internal

environment in face of a changing external environment

2.Maintains a dynamic balance (always changing as compared to static)

3.Involves communication

a. nervous system and endocrine system (hormones)

b. this is being responsive and integrates the information to maintain

homeostasis by:

1. control center: areas of the brain

2. receptor: sensor to monitor the environment

3. effector: organ that responds

SIGNAL > RECEPTOR > CONTROL CENTER > EFFECTOR

4. Examples of homeostasis

a. negative feedback

1. response is in opposite direction of signal

b. body fluid levels

1. intracellular fluid ICF

2. extracellular fluid ECF

a. interstitial fluid

3. cells must regulate volume of fluid for normal function

4. thirst, urination

c. blood pressure

1. high signal at a receptor and the response will lower

2. low signal response is to increase

d. blood sugar

1. high signal response is to lower

2. low signal response to raise

e. positive feedback is unusual in homeostasis

1. response is in direction of signal

2. example: release of oxytocin (hormone) to increase

contractions during labor

c. homeostatic imbalances

1. occur with diseases and aging

2.hypertension can be improper functioning of

negative feedback system to regulate BP

II. Anatomical terminology

A. Standard Anatomical Position

1. body standing erect

2. palms forward

3. thumbs out

B. Directional terms

1. to describe where one body part is in reference to another

a. distal : far

b. proximal : near

c. lateral : to the side

d. intermediate : between

e. medial : closer to the middle of the body

f. anterior, ventral : front

g. posterior, dorsal : back

h. inferior : below

i. superior : above

j. superficial : near the surface

k. deep : below the surface

C. Regional terms

1. axial

a. main axis

2. appendicular

b. appendages or limbs

D. Planes divide body into portions

1. sagittal: longitudinal Right/left

2. midsagittal : down midline right = left side

3. parasagittal : not = right and left sides

4. frontal (coronal): longitudinal plane divides body into anterior and posterior

portions

5. transverse (horizontal): inferior and superior

6. oblique : at an angle

E. Body Cavities

1. Dorsal body cavity : posterior divided into

a. cranial cavity ( brain)

b. vertebral cavity ( spinal cord)

2.Ventral body cavity: houses internal organs divided into thoracic and abdominopelvic cavities:

a. thoracic cavity

divided into:

1. pleural cavity (lungs)

2. mediastinum

a. pericardial cavity (heart)

b. thoracic organs (esophagus,trachea,etc)

b. abdominopelvic cavity divided into:

1. abdominal cavity

a.stomach, intestines, liver,etc.

2. pelvic cavity

b.bladder,reproductive organs

c. diaphram separates thoracic and abdominopelvic cavities

d. ventral cavity wall covered with a double serous membrane

1. parietal serosa : covers wall

2. visceral serosa covers organs

3. serous fluid fills space between the two membranes

a. fluid decreases friction on the moving organ

4. The pericardium is the membrane surrounding the heart in

the thoracic cavity and has a parietal and visceral serosa.

3. Other cavities

a. oral

b. nasal

c. orbital

d. synovial (fluid filled cavity around a joint)

F. Location of organs in the abdominopelvic cavity

1. 9 regions

rt hypochondriac epigastric lt hypochondriac

rt. lumbar umbilical lt lumbar

rt. iliac hypogastric lt iliac (inguinal)

2. Quadrants (most commonly used regions of abdominopelvic cavity)

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