Exam #1 chapter 1 part 1

Question 1

the scientific discipline that investigates the body’s structures

Answer 1

anatomy

Question 2

what is an example of anatomy?

Answer 2

the shape and size of bones

Question 3

what is an example of anatomy of bones?

Answer 3

the hard mineralized substance enables the bones to provide strength and support.

Question 4

studies the structural changes that occur between conception and adulthood

Answer 4

developmental anatomy

Question 5

a subspecialty of developmental anatomy, considers the changes from conception to the end of the 8th week of development

Answer 5

embryology

Question 6

examines the structural features of cells

Answer 6

cytology

Question 7

examines the tissues, whch are composed of cells and the materials surrouonding them

Answer 7

histology

Question 8

the study of structures that can be examined without the aid of a microscope and can be approached systemically or regionally

Answer 8

gross anatomy

Question 9

how is the body studied in systemic anatomy?

Answer 9

system by systsem

Question 10

how is the body studies in regional anatomy?

Answer 10

area by area

Question 11

how are systems sutdied in regional anatomy?

Answer 11

simoultanously

Question 12

involves looking at the exterior of the body to visualize structures deeper inside the body

Answer 12

surface anatomy

Question 13

whata is an example of surface anatomy?

Answer 13

the sternum and parts of the ribs can be seen and palpated on the front of the chest.

Question 14

the scientific investigation of the processes or functions of living things

Answer 14

physiology

Question 15

what are the major goals when studying physiology?

Answer 15

to understand and preict the body’s responses to stimuli and to understand how the body maintains conditions withn a narrow range of values in constantly changing environment

Question 16

examines the processes occurring in cells

Answer 16

cell physiology

Question 17

considers the functions of organ systems

Answer 17

systemic physiology

Question 18

what are the 6 levels of organization that the body can be studied at?

Answer 18

1) chemical
2) cell
3) tissue
4) organ
5) organ system
6) whole organism

Question 19

basic structural and functional units of plants and animals

Answer 19

cells

Question 20

what do molecules form to combine?

Answer 20

organelles

Question 21

small structures inside cells

Answer 21

organelles

Question 22

what is an example of an organelle?

Answer 22

the nucleus and mitochondria

Question 23

an organelle that contains the cell’s hereditary information

Answer 23

nucleus

Question 24

an organelle that manufacture ATP

Answer 24

mitochandria

Question 25

a molecule which cells use for energy

Answer 25

adenosine triphoshpate (ATP)

Question 26

composed of a group of similar cells and the materials surrounding them

Answer 26

tissue

Question 27

composed of two or more tissue types that perform one or more common functions

Answer 27

organ

Question 28

whatare some examples of organs?

Answer 28

the urinary bladder, heart, stomach and lung

Question 29

what is an example of an organ system?

Answer 29

the urinary system which consists of kidneys, ureter, urinary bladder and urethra.

Question 30

any living thing considered as a whole whether composed of one cell such as bacterium or trillions such as a human

Answer 30

organism

Question 31

what are the four types of tissues that the body is made up of?

Answer 31

1) epithelial
2) connective
3) muscle
4) nervous

Question 32

what is the most common feature of all organisms?

Answer 32

life

Question 33

the existence and maintenance of a relatively constant environment

Answer 33

homeostasis

Question 34

what are some homeostatic mechanisms?

Answer 34

sweating or shivering

Question 35

what do homeostatic mechanisms maintain?

Answer 35

body temperature near an ideal normal value or set point.

Question 36

what are most systems of the body regulated by that maintains homeostasis

Answer 36

negative-feedback

Question 37

what does negative mean in negative-feedback?

Answer 37

when any deviation from the set point is made smaller or is resisted

Question 38

what does the response to the original stimulus result in during negative-feedback?

Answer 38

deviation from the set point, becoming smaller.

Question 39

what is an example of important negative feedback mechanisms in the body?

Answer 39

those maintaining normal body temperature

Question 40

what are the three components that most negative-feedback mechanisms have?

Answer 40

1) receptor
2) control center
3) effector

Question 41

monitors the value of a variable such as body temperature

Answer 41

receptor

Question 42

such as part of the brain, which establishes the set point around which the variable is maintained through communication with the receptors and effetors

Answer 42

control center

Question 43

can adjust the value of the variable usually back toward the set point such as sweat glands

Answer 43

effector

Question 44

what does normal body temperature depend on?

Answer 44

the coordination of multiple structures

Question 45

what are the multiple structures regulated by to maintain a normal body temp?

Answer 45

the control center or hypothalamus in the brain

Question 46

what happens when body temp rises?

Answer 46

sweat glands (the effectors) produce sweat and body cools

Question 47

what happens when body temp falls?

Answer 47

sweat glands do no produce sweatn

Question 48

what does the stepwise process that regulates body temp involve?

Answer 48

the interaction of receptors, the control center and effectors.

Question 49

often there is more than one effector what must intergrate them?

Answer 49

the control center

Question 50

in the case of elevated body temp what does the thermoreceptors in the skin and hypothalamus do?

Answer 50

detect the increase in temp and send the information to the hypolthalamus control center

Question 51

when the hypothalamus receives the information about the increased temp what happens next?

Answer 51

the hypothalamus stimulates blood vessels in the skin to relax and sweat glands to produce sweat

Question 52

after the blood vessels in the skin relax and sweat glands produce sweat in the case of an evlevated body temp, what happens?

Answer 52

more blood is sent to the body’s surface for the radiation of heat away from the body

Question 53

in the case of the response to an elevated body temp what are the skin and blood vessels considered in this scenario?

Answer 53

the effectors

Question 54

once body temp returns to normal what does the control center signal?

Answer 54

the sweat glands to reduce sweat production and the blood vessels to constrict to their normal diameter

Question 55

if body temp drops what happens/

Answer 55

the control center does not stimulate sweat glands and instead the skin blood vessels constrict more than normal and blood is directed to deeper regions of the body, conserving heat in the interior of the body

Question 56

what else does the hypothalamus do when body temp drops?

Answer 56

stimulates shivering, quick cycles of skeletal muscle contractions which generate a great amount of heat

Question 57

what stops once the body temp returns to normal

Answer 57

the effectors

Question 58

in both cases of temperature rising and falling what happens with the effectors?

Answer 58

they do not produce their responses indefinitely and are controlled by negataive feedback

Question 59

even though homeostasis maintains normal range what can be beneficial?

Answer 59

deviation from usual range of values

Question 60

what is an example of it being beneficial to deviate from homeostasis?

Answer 60

during exercise, the normal range for blood pressure differs from the range under resting conditions and the blood pressure is significantly elevated.

Question 61

what do muscle cells require?

Answer 61

increased oxygen and nutrients and the removal of waste products to support their heightned level of activity during exercise

Question 62

what does increased blood pressure increase during exercise ?

Answer 62

the delivery of blood to muscles, increasing the delivery of oxygen and nutrientsand the removal of waste products, ultimately maintaining muscle cell homeostasis

Question 63

mechanisms occur when a response to the original stimulus results in the deviation from the set point becoming even greater

Answer 63

positive feedback

Question 64

two basic principles to remembers about negative and positive feedback

Answer 64

1) many disease states result from the failure of negative-feedback mechanisms to maintain homeostasis
2) some positive-feeback mechanisms can determined detrimental instead of helpful

Question 65

what does a plane do?

Answer 65

divides or sections the body to make it possible to “look inside” and observe the structures

Question 66

runs vertically through the body, separating it into right and left portions

Answer 66

sagittal plane

Question 67

what does the term sagital really mean?

Answer 67

“flight of an arrow” referring to the way the bodywould be split by an arrow passing anteriorly and posteriorlly

Question 68

a saggital plane that passes through the midline of the body, dividing it into equal right and left halves

Answer 68

median plane

Question 69

runs parallel to the ground, dividing the body into superior and inferior portions

Answer 69

transverse (horizontal) plane

Question 70

runs vertically to divide the body into anterior (front) and posterior (back) parts

Answer 70

frontal (coronal) plane

Question 71

what are x-rays often used for?

Answer 71

to visualize a broken bone or at the dentist

Question 72

what is the major limitation of radiographs (x-rays)?

Answer 72

they give only flat, 2-D images of the body

Question 73

technique that uses high-frequency sound waves, which are emitted from a transmitter-receiver placed on the skin over the area to be scanned. the sound waves strike internal organs and bounce back to a receiver on the skin.

Answer 73

ultrasound

Question 74

once a computer analyzes the pattern of reflected soundwaves what happens?

Answer 74

the information is transferred to a monitor to be visualized as a sonogram.

Question 75

what is one of the more recent advances in ultrasound technology?

Answer 75

the ability of more advanced computers to analyze changes in position through “real time” movements.

Question 76

what is ultrasound commonly used to evaluate?

Answer 76

the condition of the fetus during pregnancy

Question 77

computer analyzed x-ray images. a low-intensity x-ray tube is rotated through a 360-degree arc around the patient and the images are fed into a computer. the computer then consstructs the image of a “slice” through the body at the point where the x-ray beam was focused and rotated.

Answer 77

computed tomographic (CT) scans

Question 78

what are some computers able to do with CT scans?

Answer 78

to take several scans short distances apart and stack the slices to produce a 3-D image of a body part

Question 79

one step beyond CT scanning. A 3-D radiographic image of an organ such as the brain is made and stored in a computer. then a radiopaque dye is injected into the blood and a second radiographic image is made. The first image is subtracted from the second one, greatly enhancing the differences revealed by the injected dye.

Answer 79

Digital subtraction angiography (DSA)

Question 80

directs radio waves at a person lying iniside a large electromagnetic field. the magnetic field causes the protons of various atoms to align. when the radio wavs are turned off, the hydrogen atoms realign in accordance with the magnetic field. the time it takes to realign is different for different tissues. these differences can be analyzed by a computer to produce very clear sections through the body.

Answer 80

Magnetic Resonance Imaging (MRI)

Question 81

since we have large amounts of water in our body what does that help with during an MRI?

Answer 81

alignment of hydrogen atom protons

Question 82

what is DSA most commonly used for?

Answer 82

angioplasty

Question 83

what does MRIs detect that some CT scans can’t?

Answer 83

it’s very senstive in detecting some forms of cancer

Question 84

when cells are active, they are using energy. the energy they need is supplied by the breakdown of glucose. if radioactivity treated glucose is given to the patient, the active cells take up the glucose. As the radioactivity in the glucose decays, positively charged subatomic particles called positrons are emitted. when the positrons collide with electrons, the two particles annihilate each other and gamma rays are given off. the gamma rays can be detected, pinpointing cells that are metobolicaly active.

Answer 84

Positron emission tomographic (PET) scan

Question 85

what can PET scans see?

Answer 85

metabolic states of various tissues

Question 86

what is PET scans particularly useful in analyzing?

Answer 86

the brain

Question 87

the outer part of the balloon wall

Answer 87

parietal serous membrane

Question 88

the inner balloon wall in contact with your fist covering the organ

Answer 88

visceral serous membrane

Question 89

three serous membranes of the thoracic cavity

Answer 89

1) pericardial cavity around the heart

2) pleural cavity around the two lungs

Question 90

serous membrane of the abdominopelvic cavity

Answer 90

the peritoneal

Question 91

specialized membranes in the abdominopelvic cavity that anchor the organs to the body wall and provide a pathway for nerves and blood vessels to reach organs

Answer 91

mesentaries

Question 92

specialied membranes in the abdominopelvic cavity that are behind the peritoneum, this includes the kidneys, adrenal glands, the pancreas, parts of the intestines and urinary bladder

Answer 92

retroperitoneal