A&P - Subject Specific Vocabulary

Question 1

Define Anticipatory Rise

Answer 1

An increase in heart rate prior to exercise, due to the release of adrenalin.

Question 2

Define AVO2-Diff

Answer 2

The difference in the oxygen content of the blood between the arterial blood and the venous
blood.

Question 3

Define Systolic Blood Pressure

Answer 3

• Systolic blood pressure: Blood pressure while the heart is contracting.

Question 4

Define diastolic blood pressure

Answer 4

• Diastolic blood pressure: Blood pressure while the heart is relaxing.

Question 5

Define Bohr Shift

Answer 5

The Bohr shift is when an oxyhaemoglobin dissociation curve moves to the right during
exercise. An oxyhaemoglobin dissociation curve correlates the oxygen saturation of
haemoglobin across a range of oxygen pressures

Question 6

Define Bradycardia

Answer 6

A reduction in resting heart rate below 60 beats per minute.

Question 7

Define sino-atrial node

Answer 7

the heart’s pacemaker, which sends an impulse through the atria
causing them to contract.

Question 8

Define cardiac conduction system

Answer 8

A group of specialised cardiac muscle cells in the walls of the heart that send signals to the heart
muscle, causing it to contract. The main components of the cardiac conduction system are

Question 9

Define cardiac hypertrophy

Answer 9

Increase in thickness of the muscular heart wall, especially around the left ventricle

Question 10

Define cardiac output

Answer 10

Cardiac output is the amount of blood which leaves the left ventricle per minute. It is calculated
by multiplying heart rate and stroke volume

Question 11

Define heart rate

Answer 11

Heart rate is the number of times the heart contracts per minute

Question 12

Define stroke volume

Answer 12

Stroke volume is the amount of blood which leaves the left ventricle per contraction.

Question 13

Define cardiovascular drift

Answer 13

A reduction in stroke volume when exercising in warm conditions for longer than 10 minutes.
Results in an increase in heart rate to maintain cardiac output.
Occurs due to sweating which reduces blood volume and increases viscosity. This decreases
venous return which, in line with Starling’s law, decreases stroke volume.

Question 14

Define haemoglobin

Answer 14

Found in red blood cells. Haemoglobin combines with oxygen to form oxyhaemoglobin,
transporting it around the body.

Question 15

Define myoglobin

Answer 15

Found in muscle cells, myoglobin stores and transports oxygen. It has a higher affinity for
oxygen than haemoglobin, so it aids transport into muscle cells.

Question 16

Define vasodilation

Answer 16

Vasodilation: Precapillary sphincters will relax, widening the internal diameter of blood
vessels. During exercise this will happen in the vessels leading to working muscles allowing
more oxygen and nutrient rich blood to reach them.

Question 17

Define vasoconstriction

Answer 17

Precapillary sphincters will contract, decreasing the internal diameter of
blood vessels. During exercise this will happen in the vessels leading to non-working
muscles and non-essential organs eg digestive system. This allows more blood to be
available for the working muscles.

Question 18

Define venous return

Answer 18

Increased venous return will result in a higher stroke volume. The is due to the cardiac muscle
being stretched, resulting in a stronger force of contraction and greater ejection fraction.

Question 19

Define ischaemic strokes

Answer 19

occur when a blood clot stops the supply of blood reaching the brain.
These are the most common type.

Question 20

Define Haemorrhagic strokes

Answer 20

• Haemorrhagic strokes are the result of a weakened blood vessel to the brain bursting.

Question 21

Define valves

Answer 21

• Valves: Found in veins that prevent the backflow of blood.

Question 22

Define skeletal muscle pumps

Answer 22

Skeletal muscle pump: Working muscles contract and compress veins to push blood back
towards the heart

Question 23

Define respiratory pumps

Answer 23

Respiratory pump: Increased respiration/changes in pressure in the thorax compress
veins to push blood back towards the heart.

Question 24

Define diffusion

Answer 24

The movement of gases from an area of high partial pressure to an area of low partial pressure.

Question 25

Define expiratory reserve volume

Answer 25

The volume of air which could be forcibly expired in addition to tidal volume.

Question 26

Define inspiratory reserve volume

Answer 26

The volume of air which could be forcibly inspired in addition to tidal volume.

Question 27

Define minute ventilation

Answer 27

Volume of air inspired or expired per minute. Breathing rate x tidal volume.

Question 28

Define partial pressure

Answer 28

The pressure exerted by an individual gas in a mixture of gases.

Question 29

Define residual volume

Answer 29

The volume of air which must remain in the lungs after a maximal expiration. This is to prevent the lungs from collapsing.

Question 30

Define tidal volume

Answer 30

Volume of air breathed in or out per breath.

Question 31

Define all or none law

Answer 31

Impulses arriving at the neuron must reach a threshold level. If they do all of the muscles in that motor unit will contract. If they do none will contract. A motor unit cannot partially contract.

Question 32

Define type IIx muscle fibres

Answer 32

These muscle fibres produce the highest force and speed of contraction, via the anaerobic respiration. They are highly susceptible to fatigue.

Question 33

Define type IIa muscle fibres

Answer 33

These muscle fibres produce a high force and speed of contraction, primarily via the anaerobic respiration. However, a limited degree of aerobic capacity allows some fatigue resistance.

Question 34

Define golgi tendon organ

Answer 34

Proprioceptors which are activated when there are high levels of tension in a muscle. They can initiate autogenic inhibition, which is a sudden relaxation of a muscle. This can override the stretch reflex in PNF stretching.

Question 35

Define motor units

Answer 35

A motor neuron and its muscle fibres.

Question 36

Define muscle spindles

Answer 36

Proprioceptors which detect how far or fast a muscle is stretching.

Question 37

Define PNF

Answer 37

An advanced stretching technique. Considered to be one of the most effective methods for increasing range of motion at a joint.

Question 38

Define spatial summation

Answer 38

The addition of impulses received at the same time, but at different location on the neuron. If, when added together, the impulses are large enough an action potential will be released.

Question 39

Define tetanic contraction

Answer 39

A smooth sustained muscle contraction. Not a muscle twitch.

Question 40

Define wave summation

Answer 40

Repeated nerve impulse which does not allow the muscle fibres time to fully relax. This results in a tetanic contraction.

Question 41

Define abduction

Answer 41

The movement of a limb away from the midline of the body.

Question 42

Define adduction

Answer 42

The movement of a limb towards the midline of the body.

Question 43

Define agonist

Answer 43

The muscle responsible for the movement which is occurring.

Question 44

Define antagonist

Answer 44

The muscle working in opposition to the agonist to help produce a smooth movement.

Question 45

Define articulating bones

Answer 45

Where two or more bones meet to allow movement at a joint.

Question 46

Define longitudinal axis

Answer 46

* Longitudinal axis (through the top of the head down and out the bottom of the feet)

Question 47

Define dorsi flexion

Answer 47

Decreasing the angle at the ankle joint.

Question 48

Defin extension

Answer 48

Increasing the angle at a joint.

Question 49

Define flexion

Answer 49

Decreasing the angle at a joint.

Question 50

Define horizontal abduction

Answer 50

Movement of a limb away from the midline of the body while held parallel to the ground.

Question 51

Define horizontal adduction

Answer 51

Movement of a limb towards the midline of the body while held parallel to the ground.

Question 52

Define hyperextension

Answer 52

Increasing the angle at a joint beyond 180 degrees.

Question 53

Define isometric contraction

Answer 53

The muscle contracts but no movement occurs.

Question 54

Define plantar flexion

Answer 54

Increasing the angle at the ankle.

Question 55

Define beta oxidation

Answer 55

Beta oxidation: Stored fat is broken down into fatty acids before being converted into acetyl-coenzyme A

Question 56

Define Krebs Cycle

Answer 56

Oxidation of acetyl-coenzyme-A/citric acid. This resynthesises 2 ATP and produces carbon dioxide as a waste product.

Question 57

Define electron transport chain

Answer 57

Transfer of electrons down a carrier chain/hydrogen is oxidised. Resynthesises 34 ATP and produces water as a waste produce.

Question 58

Define altitude training

Answer 58

Training at altitude where there is less oxygen. The body adapts by making more EPO which results in more red blood cells to carry oxygen. These additional red blood cells are an advantage for endurance athletes returning to sea level to compete.

Question 59

Define EPOC

Answer 59

Increased rate of oxygen intake following activity, intended to pay back the oxygen deficit.

Question 60

Define fast component of EPOC

Answer 60

Oxygen is used for the resynthesis of ATP and PC, and the resaturation of myoglobin

Question 61

Define slow component of EPOC

Answer 61

Lactic acid is removed via excretion and conversion back to blood glucose via the Cori cycle in the liver.

Question 62

Define HIIT training

Answer 62

Alternating periods of short high intense anaerobic exercise with less intense, aerobic, recovery periods.D

Question 63

Defin indirect calorimetry

Answer 63

A technique that provides an estimation of energy expenditure from the amount of carbon dioxide produced and oxygen consumed during rest and steady-state exercise.

Question 64

Define lactate sampling

Answer 64

A tiny blood sample is taken to be analysed by a device. This measures how much lactate is present in the blood.

Question 65

Define lactate threshold

Answer 65

The point at which lactic acid accumulates quickly in the blood.

Question 66

Define OBLA

Answer 66

The point at which lactic acid exceeds 4mmols per litre in the blood.

Question 67

Define oxygen deficit

Answer 67

The difference between the oxygen required during exercise and the oxygen supplied and utilised. Occurs at the onset of exercise.

Question 68

Define plyometrics

Answer 68

Anaerobic training method based on the concept that muscles contract with more force following an eccentric contraction. Movements such as hopping, bounding, depth jumps are used.

Question 69

Define respiratory exchange ratio

Answer 69

The ratio of carbon dioxide produced to the oxygen consumed. A ratio nearer 0.7 suggests the body is using fats as its primary fuel, while 1.0 would indicate carbohydrates.

Question 70

Define VO2 Max

Answer 70

The maximum amount of oxygen that can be taken in, transported, and used by the body per minute. Measured in millilitres for each kilogram body weight each minute (ml/kg/min).