Chapter 1- Introduction

Question 1

Anatomy

Answer 1

the structures of the body and their relationship to one another- physically attached or location relative to the other.

Question 2

Gross (macroscopic) anatomy

Answer 2

the study of large body structures that we can see. Examples include the heart and the kidneys.

Question 3

Regional anatomy

Answer 3

all structures (muscles, bones, blood vessels, nerves) in a particular region of the body (abdomen, leg etc) are examined at the same time.

Question 4

Systemic anatomy

Answer 4

body structure is studied system by system. When studying the cardiovascular system, you would look at the heart and all of the blood vessels in the body.

Question 5

Surface anatomy

Answer 5

how internal structures relate to the overlying skin surface (can be used to locate blood vessels to feel pulses and draw blood).

Question 6

Microscopic anatomy

Answer 6

studies smaller structures that would need to be examined with a microscope. Subdivisions include cytology and histology

Question 7

Cytology

Answer 7

The study of cells

Question 8

Histology

Answer 8

The study of tissues

Question 9

Physiology

Answer 9

how body parts work or function on a normal level
Often considered at the cellular/molecular level
For example, cells might secrete substances that help with the organ’s function. The stomach secretes HCl that helps with digestion

Question 10

Principle of complementarity of structure and function

Answer 10

What an organ can do depends on its form
Hard bones (from calcium) are necessary for their function (support)

Question 11

Structural organization of the body

Answer 11

Chemical-cellular-tissue-organ-organ system-organism

Question 12

Necessary life functions (8)

Answer 12

1. Maintaining boundaries
2. Movement
3. Responsiveness/excitability
4. Digestion
5. Metabolism
6. Excretion
7. Reproduction
8. Growth

Question 13

Maintaining boundaries- life function

Answer 13

On the cellular level, a boundary between organelles and the extracellular fluid is established using the plasma membrane. On the organismal level, the skin establishes a boundary between the organs of the boundary and the external environment

Question 14

Movement- life function

Answer 14

Skeletal and muscular systems work together to coordinate actions
Can be conscious (skeletal muscle) or unconscious (smooth and cardiac muscle)
Movement also occurs when substances such as blood and food move inside the body.

Question 15

Responsiveness/excitability- life function

Answer 15

Sensing environmental changes and respond to them, in addition to awareness of internal environment- pain, etc.
All body cells are excitable to an extent and have an electrical charge
Example- withdrawal reflex in response to painful stimuli

Question 16

Which body system is most important in responding to stimuli?

Answer 16

Central nervous system. The cells of the nervous system are highly excitable and communicate with each other

Question 17

Digestion- life function

Answer 17

Food is broken down into simple molecules- absorbed in blood, delivered to tissues

Question 18

Metabolism- life function

Answer 18

Sum of all chemical reactions. Depends on the digestive and respiratory systems to make nutrients and oxygen available to the blood. The cardiovascular system will transport these throughout the body

Question 19

Types of chemical reactions in the body (3)

Answer 19

1. Catabolic
2. Anabolic
3. Cellular respiration

Question 20

Catabolic reactions

Answer 20

Breaking down substances into smaller parts

Question 21

Anabolic reactions

Answer 21

Creating larger substances

Question 22

Excretion- life function

Answer 22

Removal of waste produced during digestive and metabolic functions- byproducts we don’t want to or can’t have in the body.
Metabolic reactions can produce chemicals that are removed in urine

Question 23

Reproduction- cellular level

Answer 23

cells must divide for organisms to survive on individual level- cells must be replaced when they die. Cells in the stomach are frequently damaged and must be replaced.

Question 24

Reproduction- organismal level

Answer 24

production of offspring. Must occur on the population level to prevent extinction

Question 25

Growth-life function

Answer 25

Increase in the number of body cells or increase in the size of individual cells
Building must occur faster than destruction (breaking down/getting rid of stuff). Anabolic reactions must exceed catabolic reactions

Question 26

Survival needs (5)

Answer 26

Necessary in order to carry out life functions on an optimal level

1. Nutrients
2. Oxygen- cells can only survive for a few minutes without oxygen
3. Water
4. Endothermy
5. Atmospheric pressure- breathing and gas exchange occur at an appropriate atmospheric pressure

Question 27

Which nutrients are necessary for survival?

Answer 27

Include carbs, fats, proteins, vitamins and minerals
Lipids necessary for structure- cellular membranes
Minerals are important structurally and chemically
Vitamins are important for multiple reactions like cellular respiration

Question 28

Why is water important in the body?

Answer 28

Provides an environment for chemical reactions, fluid base for secretion and excretion. Plasma in blood is mostly water as are urine and cerebrospinal fluid

Question 29

Why is endothermy important in the body?

Answer 29

Body temperature needs to be maintained for chemical processes to occur

Question 30

Which body system is most important in promoting movement?

Answer 30

The muscular system promotes these activities- includes running and finger movement. Occurs when muscles pull on bones.

Question 31

Metabolism is regulated by

Answer 31

Hormones secreted by the endocrine system

Question 32

Homeostasis

Answer 32

The ability of the body to maintain stable internal conditions even though the external world changes continuously. Dynamic state of equilibrium within narrow limits- we make changes constantly
The body is considered to be in homeostasis when its needs are met and it’s functioning smoothly. All of the organ systems work together to accomplish this

Question 33

How is homeostasis controlled?

Answer 33

Regulated by the nervous system (neural impulses) and the endocrine system (hormones).
The brain sends messages to parts of the body and tells organs how to change activity.
The endocrine system releases hormones that tells individual cells to change their activity

Question 34

Variable

Answer 34

The event or factor being regulated during homeostasis

Question 35

3 components of the variable

Answer 35

1. Receptor
2. Control center
3. Effector

Question 36

Receptor

Answer 36

Receives a message about the state of the variable. Body temp uses a thermoreceptor. Sends the message to the control center along the afferent pathway.

Question 37

Control center

Answer 37

The brain. For body temp it’s the hypothalamus. Interprets the message as the body is too hot, too cold, or just right. Sends a message to an effector organ along the efferent pathway

Question 38

Effector

Answer 38

Receives the message from the brain, changes its activity to maintain homeostasis. If the brain gets the message the body is too cold, it sends the message to skeletal muscle tissue and you start to shiver. It raises the body temperature. If the body is too hot, the sweat glands are the effector organs and produce sweat that lowers body temp through evaporation. The effector is never the same thing as the receptor.

Question 39

Negative feedback mechanisms

Answer 39

the variable changes in a direction opposite of the initial change. Prevents severe changes in the body. Examples include thermoregulation and hormones. A hormonal negative feedback system includes the control of glucose by insulin. When blood sugar rises, the receptors sense this change and the pancreas (control center) secretes insulin into the blood. The body cells absorb more glucose and blood sugar falls, so the stimulus for insulin secretion ends.

Question 40

Positive feedback mechanisms

Answer 40

the initial response enhances the original stimulus to produce a greater response. The variable deviates further from the original range. These mechanisms typically control events that do not need continuous readjustments, and set off a series of linked events- the results of each reaction feed into the next.
Examples- labor and blood clotting- when a blood vessel has been damaged, platelets stick to the injured site and release chemicals that attract more platelets. Ends when a clot is formed. If clotting was a negative feedback loop, the brain would say the clotting response was “too much” and you would just keep bleeding- need the feedback to be positive in this situation

Question 41

What causes disease?

Answer 41

Homeostatic imbalances. Aging causes the body’s control systems to become less efficient. When negative feedback mechanisms are overwhelmed, destructive positive feedback mechanisms take over (heart failure)

Question 42

Negative feedback mechanisms overridden by positive feedback mechanisms example

Answer 42

Autoimmune diseases are examples- the immune system launches a reaction against things in the body that shouldn’t be there. For autoimmune diseases, the white blood cells lack the ability to differentiate between cells and attack the body’s cells

Question 43

Anatomical position

Answer 43

the body is in a standing position with feet slightly apart. The palms face forward and thumbs point away from the body. Used as a reference for anatomical terms.

Question 44

There are 2 fundamental divisions of your body

Answer 44

1. Axial

2. Appendicular

Question 45

Axial division

Answer 45

makes up the main axis of our body (head, neck, trunk)

Question 46

Appendicular division

Answer 46

consists of the appendages (limbs) attached to the axial part

Question 47

Sagittal plane

Answer 47

divides the body into left and right

Question 48

Medial/midsagittal plane

Answer 48

divides the body exactly in half

Question 49

Frontal/coronal plane

Answer 49

divides body into anterior and posterior parts

Question 50

Transverse plane (cross section)

Answer 50

divides the body into superior and inferior parts

Question 51

Parasagittal planes

Answer 51

All other planes than medial/midsagittal

Question 52

Superior (cranial)

Answer 52

Toward the head

Question 53

Inferior (caudal)

Answer 53

Away from the head

Question 54

Anterior (ventral)

Answer 54

toward the front of the body, in front of

Question 55

Posterior (dorsal)

Answer 55

toward the back of the body, behind

Question 56

Medial

Answer 56

toward or at the midline of the body, on the inner side of

Question 57

Lateral

Answer 57

away from the midline of the body, on the outer side of

Question 58

Intermediate

Answer 58

between a more lateral and more medial structure- the collarbone is intermediate between the breastbone and the shoulder

Question 59

Proximal

Answer 59

closer to the point of origin or point of attachment of a limb to the body

Question 60

Distal

Answer 60

farther from the point of origin

Question 61

Superficial (external)

Answer 61

toward or at the body surface- the skin is superficial to the skeletal muscles

Question 62

Deep (internal)

Answer 62

away from the body surface- the lungs are deep to the skin

Question 63

Dorsal body cavity

Answer 63

protects the organs of the nervous system. Two subdivisions

Question 64

Subdivisions of the dorsal body cavity (2)

Answer 64

1. Cranial cavity

2. Vertebral spinal cavity

Question 65

Cranial cavity

Answer 65

in the skull, surrounds the brain

Question 66

Vertebral/spinal cavity

Answer 66

in the vertebral column, surrounds the spinal cord

Question 67

Ventral body cavity

Answer 67

more anterior body cavity, contains the visceral organs (viscera). Two subdivisions

Question 68

2 subdivisions of the ventral body cavity

Answer 68

1. Thoracic cavity

2. Abdominopelvic cavity

Question 69

Thoracic cavity

Answer 69

surrounded by ribs and the muscles of the chest. Divided into the lateral pleural cavity and the medial mediastinum

Question 70

What separates the thoracic cavity from the abdominopelvic cavity?

Answer 70

The diaphragm

Question 71

Lateral pleural cavities

Answer 71

Each contain a lung

Question 72

Medial mediastinum

Answer 72

contains the pericardial cavity which encloses the heart, also contains the esophagus, trachea, and other thoracic organs.

Question 73

Abdominopelvic cavity

Answer 73

inferior cavity, the two parts are not separated by a muscle or membrane. Contains the abdominal and pelvic cavities

Question 74

Abdominal cavity

Answer 74

contains the stomach, intestines, spleen, liver, and other organs

Question 75

Pelvic cavity

Answer 75

lies in the pelvis, contains the urinary bladder, some reproductive organs, and the rectum

Question 76

Serous membrane

Answer 76

Serous membrane- double layered membrane covering internal organs (visceral serosa) and the walls of the cavities (parietal serosa)
Separated by serous fluid that allows the membranes to rub against each other. Named according to location

Question 77

Pleura

Answer 77

Serosa associated with the lungs

Question 78

Pericardium

Answer 78

Serosa associated with the heart

Question 79

Peritoneum

Answer 79

abdominopelvic cavity

Question 80

Visceral serosa

Answer 80

Covers internal organs

Question 81

Parietal serosa

Answer 81

Covers the walls of the body cavity

Question 82

Parietal pericardium

Answer 82

attached to the pericardial cavity (surrounds the heart).

Question 83

Serous fluid

Answer 83

the layer of lubricating fluid that separates the serous membranes. It’s secreted by both membranes. Allows organs to easily slide across each other and cavity walls, very important for moving organs like the heart and stomach.

Question 84

Serous cavity

Answer 84

the very small space between membranes, filled with serous fluid.

Question 85

The 4 abdominopelvic quadrants

Answer 85

One approach to dividing the abdomen. RUQ, LUQ, RLQ, LLQ. The lower quadrants contain the intestines, rectum, reproductive organs

Question 86

9 abdominopelvic regions

Answer 86

One approach to dividing the abdomen.

1. Right hypochondriac region
2. Epigastric region
3. Left hypochondriac region
4. Right lumbar region
5. Umbilical region
6. Left lumbar region
7. Right iliac (inguinal) region
8. Hypogastric (pubic) region
9. Left iliac (inguinal) region

Question 87

Organs in left hypochondriac region

Answer 87

Diaphragm, part of stomach, part of liver

Question 88

Organs in epigastric region

Answer 88

Diaphragm, part of stomach, part of liver

Question 89

Organs in right hypochondriac region

Answer 89

Liver, diaphragm, pancreas, gallbladder

Question 90

Synovial cavities

Answer 90

joint cavities enclosed in fibrous capsules that surround the movable joints of the body like the knees. The membranes lining these cavities secrete lubricating fluid.