Chapter 7 - Fitness Is Built On A Foundation Of Frequent, Low-Intensity Movement

Question 1

General everyday low-level movement promotes:

Answer 1

• Health
• Immune function
• Fat metabolism
• Brain function

Question 2

Brief, high-intensity strength and sprint workouts deliver:

Answer 2

An anti-aging effect, by:
- enhancing organ function
- optimizing body composition
- elevating mood and cognitive function
- developing no total body functional fitness

Question 3

A pattern of chronic exercise in pursuit of extreme or narrowly focused fitness goals can trigger:

Answer 3

• increased cravings for quick-energy carbohydrates
• inhibit fat metabolism
• compromise immune function
• exhaust the body’s stress management mechanisms
• break down lean muscle tissue

*in that way, workouts that are too frequent and too stressful to allow for adequate recovery can actually undermine fitness and health

Question 4

Chronic Cardio

Answer 4

A pattern of frequent medium-to-difficult-intensity sustained workouts, especially with insufficient rest between sessions
- describes a pattern of overly stressful cardiovascular workouts that last for too long and are conducted too frequently, with insufficient rest periods in between

*generally speaking, the workout is conducted at a heart rate too high to be considered aerobic

*any exercise can be considered “chronic” if it created excessive stress and does not allow for sufficient recovery

Question 5

Chronic Cardio may promote:

Answer 5

• illness
• injury
• fat storage
• accelerated aging
• declining cognitive function
• and ultimately burnout

*abuses the body’s fight-or-flight stress response

Question 6

Maximum Aerobic Heart Rate

Answer 6

180-age in beats per minute

• where you achieve optimal aerobic, fat-burning benefits

Question 7

Inactivity leads to:

Answer 7

• metabolic and hormonal imbalances that inhibit glucose metabolism
• elevated triglyceride levels
• excess body fat storage
• elevated blood pressure
• disturbed leptin signaling

Question 8

Compromised Leptin Signaling Causes

Answer 8

• an increase in appetite
• an up-regulation of fat-storage genes
• a down-regulation of fat-burning genes

Question 9

People who spend most of the day sitting experience chemical changes in the brain that promote

Answer 9

Inactivity

*while people in the habit of moving have brain wiring that encourages regular movement

Question 10

A leisurely (one mph) 15-min walk after a meal

Answer 10

Lowered by half the two-hour-long blood sugar spike that occurs after a typical meal

Question 11

Engaging in bouts of standup work

Answer 11

Helps to re-engage important muscles and promotes good posture and skeletal alignment + significantly increases caloric expenditure

*but won’t counteract the negative effects of a sedentary lifestyle - it’s still not moving…

Question 12

A pattern of chronic workouts can result in assorted negative consequences, including:

Answer 12

1. Stress
2. Hormone Imbalances
3. Body Composition
4. Inflammation
5. Injuries
6. Fitness

• maxes out adrenal glands
• impairs immune function
• suppresses testosterone
• encourages systemic inflammation
• teaches the body to prefer burning glucose to fat
• increases sugar cravings
• traps you in fat storing mode

Question 13

Excess cortisol production and too much exercise stress in general promotes:

Answer 13

• systemic inflammation
• oxidative damage (via free radical production) by a factor of 10-20 times normal
• suppress immunity
• compromise bone density

Question 14

Hormones effected by chronic exercise

Answer 14

Chronic elevation of cortisol suppresses:
- testosterone
- growth hormone
- other adaptive hormones

This compromises:
- fat burning
- muscle development
- energy levels
- immune function
- sex drive

Question 15

Two antagonistic hormones

Answer 15

Testosterone
- a major adaptive hormone
- muscle building
- mood-elevating
- cognitive performance enhancing
- anti-aging
for both men and women

Cortisol
- the primary catabolic stress hormone

*these two hormones antagonize each other, so chronically elevated cortisol will suppress testosterone

Question 16

Well-planned brief, intense workouts causes

Answer 16

• a quick spike in cortisol
• elevates levels of adaptive hormones (like testosterone + growth hormone) for a longer duration

These adaptive hormones:
- muscle growth
- recovery
- stabilize appetite
- stabilize energy levels
- promote feelings of vitality
- help delay aging process by enhancing organ reserve

Question 17

Chronic cardio’s effect on body composition

Answer 17

Increases appetite and cravings for quick burning carbs, especially if one normally eats a high-carb diet and is not fat-adapted
- workout fueled by glucose

Chronic stress and high cortisol likewise promote:
- hunger and carbohydrate cravings
- fat storage around the abdomen

*cortisol is also associated with insulin resistance

Question 18

Chronic exercise promotes systemic inflammation

Answer 18

Due to excessive and chronic cortisol production

Furthermore, chronic exercisers consume large amounts of carbs - an eating pattern that promotes:
- systemic inflammation
- accelerated oxidation
- free radical damage

Question 19

Injuries and chronic cardio

Answer 19

Due to:
- recurring muscle fatigue
- repetitive impact
- chronic inflammation from excessive catabolic hormones released in response to chronic cardio traumatized joints and connective tissue
—> leading to incidences of both acute and overuse injuries

Question 20

Fitness and chronic cardio

Answer 20

Gets you good at chronic cardio…

Can lead to:
- muscle imbalances
- inflexibility
- recurring stiffness
- recurring soreness

Leaving out other modes of exercise in an optimal fitness program, including the development of:
- power
- speed
- strength
- building lean mass

Question 21

Hormone-sensitive lipase (HSL)

Answer 21

Hormone triggered by exercise

Enables both glycogen and fat to be mobilized from storage and dumped into the bloodstream to be used for fuel during the workout

Levels drop once the workout ends

Question 22

Lipoprotein Lipase (LPL)

Answer 22

Released after HSL levels drop following a workout

Post-exercise elevation promotes the restocking of both glycogen and fat to speed recovery

When levels are elevated, cells reel in nutrients circulating in the bloodstream and lock them away in storage

Question 23

Caloric compensation is particularly relevant when one’s exercise pattern is chronic, because:

Answer 23

A depleted body will become even more inclined to consume additional calories, store them as fat, and conserve energy in every way possible throughout the day…

Conserves energy by:
- reducing NEAT (non-exercise activity)
- slowing metabolic rate

Question 24

One pound of muscle burns approximately

Answer 24

6 calories per day

Question 25

One pound of fat burns

Answer 25

Two calories per day

Question 26

Organs

Answer 26

Accounts for most of the calories burned in our basal metabolic rate

• brain = 20% of (basal) calories burned
• heart = 20%
• liver = 15-20%

*which allocates about 20-30% of total daily caloric expenditure to skeletal muscle

Question 27

The metabolic benefits of adding muscle and reducing fat are:

Answer 27

More hormonal than caloric…

• building lean muscle mass with strength training is known to improve insulin resistance
• losing abdominal fat optimizes hormonal function and improves health

Question 28

Excess abdominal fat cells

Answer 28

Produce abdominal proteins and pro-inflammatory chemicals known as cytokines and release them into the bloodstream

These agents must be processed in the liver, causing more inflammatory agents to be released as a consequence of

Question 29

Engaging in a genetically appropriate exercise program

Answer 29

• minimizes insulin production
• optimizes fat metabolism

*and practicing intermittent fasting can slow the process of cell division and improve cellular repair
- in contrast to an extreme exercise regime (burning lots of calories, replacing those calories, tearing down muscle, rebuilding muscle… can result in accelerated cell division throughout the body - a quintessential marker of aging…)

Question 30

Primal Blueprint Pyramid

Answer 30

Sprint
Lift heavy things
Move frequently

+

Play
Recover

Question 31

Sprint

Answer 31

Several 8-20 second bursts
Every 7-10 days, when 100% energized

Question 32

Lift Heavy Things

Answer 32

Brief, intense resistance exercises
2 times per week for 10-30 minutes

Question 33

Move Frequently

Answer 33

More general daily movement
(avoid prolonged inactivity)

Cardio workouts at “180-age” heart rate
- cycle
- hike
- walk
- walk/jog
- water activities

Flexibility/mobility
- pilates
- yoga
- tai chi
- gymnastics
- dancing
- dynamic rolling/stretching/therapy work

Question 34

Aerobic

Answer 34

Means “with oxygen”

Conducted at an effort level that allows sufficient oxygen to be available to burn predominantly fat for energy

*fat metabolism requires oxygen

Question 35

Anaerobic

Answer 35

Means “without oxygen”

Indicates an effort level that is difficult enough to cause an oxygen shortage, prompting the burning of a greater percentage of glucose for fuel

*since glucose metabolism does not require oxygen

Question 36

Metabolic effects of a workout varies by:

Answer 36

Intensity level

Question 37

An aerobic workout:

Answer 37

• is comfortably paced
• burns primarily fat
• is minimally stressful to the body

*any exercise conducted at or below a heart rate of 180-age = aerobic zone

Question 38

An anaerobic workout:

Answer 38

• burns primarily glucose
• stimulates the release of stress hormones into the bloodstream
• causes lactic acid production in the muscles (a byproduct of performing work efforts without adequate oxygen)

Question 39

Exercising at high intensity and triggering the fight-or-flight response promotes:

Answer 39

Optimal gene expression when efforts are brief and conducted in an optimal pattern that always balances stress with sufficient rest

*brief, intense workouts deliver hormetic, or adaptive, stressors

Question 40

Hormesis

Answer 40

Is a two-phased dose-response relationship to an environmental agent whereby low-dose amounts have a beneficial effect and high-dose amounts are either inhibitory to function or toxic… (Wikipedia)

Defined as an adaptive response of cells and organisms to a moderate (usually intermittent) stress
*examples: isometric preconditioning, exercise, dietary energy restriction, and exposures to low doses of certain phytochemicals

Question 41

Benefits of aerobic exercise:
(HR Zone = 180-age)

Answer 41

• stimulates the metabolic action of the body at a level more than twice that of normal resting rate
• optimize fat metabolism both during the workout and throughout the day
• improved cardiovascular function
• improved lung capacity
• strengthens bones and connective tissue - thereby, enhancing performance and recovery
• minimizes injury risk
• makes the body more resilient for high intensity workouts
• boosts the immune system, by —>
• optimizing flow of anti-aging
  hormones, and —>
• building a more efficient circulatory system
• stimulates mitochondrial biogenesis
• up-regulates the enzymic activity necessary to become an efficient fat-burner
• fat metabolism
• mitochondria
• cardiovascular function
• musculoskeletal strength & resilience
• mitochondrial biogenesis
• synthesizing mitochondria

Question 42

Chronic exercise at heart rates above aerobic maximum causes:

Answer 42

• the body to prefer glucose as fuel, both during the exercise and throughout the day
• obstruct immune system function
• destroy white blood cells
• elevated cortisol levels
• suppress testosterone levels
• trigger chronic systemic inflammation
  —> which compromises immune function and hormone balance and elevated risk for many diseases

*while high-intensity workouts are critical for peak performance and longevity, the key is to make them brief, interspersed with extensive recovery, and conducted only in the presence of a strong aerobic conditioning base

Question 43

Any workout regime that fervently pursues fitness or lofty performance goals without respecting a proper balance of stress and rest

Answer 43

Can compromise health and disturb delicate hormone balance

Question 44

With plenty of oxygen available to make fat the preferred fuel source in aerobic exercise

Answer 44

Mitochondria produce energy more efficiently than when glucose is the primary fuel source

Question 45

Building more mitochondria through aerobic exercise means:

Answer 45

Cells can handle a greater workload without getting overwhelmed, and fewer free radicals are produced in the process of ATP energy production

Question 46

The net result of sensible aerobic exercise is you:

Answer 46

• burn energy more efficiently
• minimize free radical damage
• and consequently, delay the biological aging process

Question 47

Cardiovascular function and sensible aerobic exercise

Answer 47

• increases capillary network (blood vessels that supply the muscle cells with fuel and oxygen)
• raises the stroke volume of your heart (more blood pumped with each beat)
• improves lung capacity (as a function of receiving more oxygen from the cardiovascular system)

Question 48

Aerobic exercise and musculoskeletal strength and resilience

Answer 48

• strengthens bones, joints and connective tissue (so you can absorb increasing stress loads without breaking down)… critical to exercise recovery

*maintaining strength and skeletal integrity is a hallmark of healthy aging

Question 49

Mitochondrial biogenesis and aerobic exercise

Answer 49

Both aerobic-level and appropriate high-intensity exercise increase the number and size of mitochondria within the cells

*moving, lifting, and sprinting transforms previously sluggish metabolisms into efficient fat-burning machines by optimizing mitochondrial function

Question 50

Mitochondria Function

Answer 50

Primary role:
- produce adenosine triphosphate (ATP) —> used as energy for virtually every cellular process

Other important roles:
- synthesize the important sex hormones: testosterone & estradiol
- regulate insulin levels in cells
- regulate calcium levels in cells
- metabolize fat and glucose into usable energy
-

Question 51

The more mitochondria

Answer 51

The more cleanly and efficiently the body produces and burns energy

Question 52

Mitochondrial Myopathy

Answer 52

Gene mutations that damage mitochondria

*chronic cardio and overtraining have this degenerative effect…

Question 53

The downside of ATP production

Answer 53

The process generates free radicals
- which accelerate the aging process by increasing oxidative stress

*as long as there are a sufficient number of healthy mitochondria and naturally produced antioxidants such as glutathione to counteract free radical damage, cells remain intact

*if mitochondrial function is compromised, or if the number of mitochondria is too low, free radicals escape and wreak havoc of the body

Question 54

Synthesizing Mitochondria

Answer 54

The body’s adaptive stress response stimulates mitochondrial biogenesis
- responding to a stress demand by multiplying and improving efficiency

Exercise and muscle mitochondria have a synergistic relationship…
- resistance and endurance training improve mitochondrial function and increase resistance to degradation, while optimal mitochondrial function enhances exercise performance

when the body is challenged by a demand (such as weight training repetitions) structural and neuron neurokinetic changes occur… mitochondria

Question 55

Mitochondrial function is measured by:

Answer 55

The presence of AMP-activated protein kinase (AMPK)
- a metabolic regulator that increases mitochondrial biogenesis

Question 56

Exercise in a depleted state helps kick in:

Answer 56

AMP-activated kinase (AMPK)
- which increases mitochondrial biogenesis in response to lack of cellular energy as an adaptation to applied stress

Question 57

Sprinting for mitochondria

Answer 57

Recent research that sprinting and HIIT training is just as effective, if not more effective at activating mitochondrial biogenesis than steady state endurance…

*slow twitch muscle fibers contain the most mitochondria… thus, it has been known that endurance training (slow, long distance jog, or cycling) increases mitochondria

Question 58

Resting Heart Rate

Answer 58

Beats per minute at rest

• average RHR = 72bpm
• a fit person may have a RHR of 40bpm, or around 20-30% of maximum HR
• smokers and highly unfit people may have a RHR that exceeds 100bpm

*athletes have a higher stroke volume than an unfit person does (thus, a lower RHR)

Question 59

Stroke Volume

Answer 59

More blood pumped per beat

Question 60

Aerobic maximum heart rate
(180-age)

Answer 60

Aerobic threshold or “FatMax”

The upper limit for exercise intensity that maximizes fat burning
- beyond this point, the rate of fat burning decreases rapidly, and the rate of glucose burning increases proportionally

*for an unfit person, the most basic movement like walking to the mailbox can easily elevate heart rate up to aerobic maximum

*a fit person can perhaps climb hills comfortably on a bike or maintain a steady pace during a run while still registering a heart rate below 180-age

Question 61

The Black Hole

Answer 61

The range of 180age to 85% of maximum heart rate
- for sustained workouts, this level is too difficult to en aerobic in nature but not difficult enough to be categorized as truly high-intensity

*chronic cardio is almost always conducted in the black hole

Question 62

Chronic exercise in the black hole results in:

Answer 62

• excessive production of stress hormones
• suppression of immune function
• increased injury risk
• promotion of carbohydrate dependency instead of fat-adaptation

Question 63

Occasional challenging workouts that exceed maximum aerobic limits and drift into the black hole and up to aerobic threshold zones:

Answer 63

Can produce outstanding fitness benefits when sufficient recovery follows
- the key is to avoid a pattern of chronically exercising in the Black Hole and introducing an elevated pattern of burnout…

Question 64

High-Intensity Zone

Answer 64

90% of maximum heart rate and beyond

Optimal zone for occasional brief, all-out efforts

• bursts under 8sec: primary fuel = ATP
• efforts between 8-30sec: preferred fuel = lactate
• medium-to-high intensity over 30sec to several minutes: preferred fuel = glucose

Question 65

High-intensity zone workout benefits:

Answer 65

• support enhanced organ function
• accelerate metabolism
• delay physiological aging

Question 66

Aerobic maximum heart rate

Answer 66

Unless you are conducting a brief, all-out, high-intensity effort (e.g. sprinting), you should be strict about limiting workout intensity to the aerobic maximum
- the only way to insure you aren’t in the black hole is to use a heart rate monitor…

*180-age

Question 67

FatMax

Answer 67

The threshold at which maximum fat burning occurs
- as the heart rate climbs beyond that point, the proportion of glucose burning rapidly increases, while fat burning decreases accordingly

Studies suggest it occurs at around 60-65% of max heart rate
- (in contrast, VT occurs around 77% of MHR in well trained athletes and 75% in lesser trained athletes)

*180-age

*also called “aerobic threshold” - but this can get confused with ventilatory threshold (VT)

Question 68

Ventilatory Threshold (VT)

Answer 68

Represents the point where increased effort would cause a non-linear spike in:
- ventilation
- glucose metabolism
- lactate accumulation
- fight-or-flight hormone release
- recruitment of oxidative fast-twitch (type IIa) muscle fibers

Occurs at 77% of MHR in well trained athletes and 75% in lesser trained athletes

*this calculation is typically too high a percentage to train at and it’s advised to stay at 180age to avoid burnout…

Question 69

As you become fitter…

Answer 69

Your speed at maximum aerobic heart rate will improve, as will the amount of fat you burn at that heart rate
- you will be able to train at higher speeds although your intensity (HR) remains the same —> relative difficulty remains similar

Question 70

Maffetone 180-âge formula adjustment factors

Answer 70

• Subtract 10: recovering from illness, surgery, disease, or taking regular medication
• Subtract 5: recent injury or regression in training, get more that two colds annually, allergies, asthma, inconsistent training, or recently returning to exercise
• No Adjustments: training consistently (4x/week) for two years, free from aforementioned problems
• Add 5: successful training for two years or more, plus success in competition, with no injuries

*when it comes to calculating your MAF rate, it is always better to err on the conservative side… if you’re not sure if you should adjust down, then go ahead and do it…

*likewise, if you suspect you are on the cusp of overtraining, subtract 10 beats to allow for recuperation

Question 71

What is the lower limit of a so-called aerobic exercise “zone”?

Answer 71

The Primal Blueprint suggests that any level of low-level movement contributes to your aerobic development… (walking to the mailbox, walking the dog around the block… can be considered beneficial aerobic movement…)

*Aerobic energy-producing enzymes and muscle fibers are recruited for any activity starting from the most basic effort on up…

*when endurance athletes routinely skip over the easy stuff in favor of chronic exercise (or jumping right up to aerobic max at the beginning of a workout) they miss out on optimal development of low-end aerobic-energy-producing enzymes and muscle fibers used at higher intensities

Question 72

Monitoring training HR

Answer 72

• Best = wireless HR monitor that consists of a chest strap that transmits to a wristwatch or your smartphone
• Less effective = placing a finger on the carotid artery on the neck, count to ten, multiply beats by 6
• Decent way, but inaccurate as well = nasal breathing (breath only through the nose)
• Last resort = perceived exertion signs… you may break a moderate sweat, easily able to converse an extended period of time without getting short of breath

*perceived exertion is still important… because a workout that results in fatigue and sugar cravings is ill-advised, regardless of the heart rate zone in which it was conducted

Question 73

Maximum HR Calculation
*least objectionable

Answer 73

206 - (0.7 x Age)

*margin of error = 6.4 bpm

Question 74

Heart Rate Variability (HRV)

Answer 74

Measures the time gap between your heartbeats
- also known as “R-R Intervals”
- fluctuates in how often your heart beats inside of your average bpm

A high HRV score on a scale of 1-100 - meaning more variability in the time gap between heart beats - indicates a healthy, fit, well-rested heart

Had gained populatity as an accurate method of tracking recovery from stressful exercise and identifying a state of:
- overtraining
- cardiovascular fitness progress
- cardiovascular disease risk

Question 75

A low HRV value

Answer 75

A heart beating closer to a fixed rhythm

Believed to be an indication of a poorly functioning heart… perhaps belonging to:
- an overtrained athlete
- a person who is unfit
- an over-stressed person
- someone who has developed cardiac disease risk factors

Question 76

HRV values are fairly subjective and highly individualized - there are no established optimal ranges

Answer 76

While a higher score is better than a lower score, everything must be referenced off an individual baseline range established over months of daily tracking

*values fluctuate l throughout the day… they should, therefore, be taken at the same time (under similar circumstances) each day

*influenced strongly by age and gender

A lower than normal value can alert you to:
- excessive stress
- burnout
- insufficient recovery

Question 77

When the parasympathetic and sympathetic nervous system achieve a healthy balance

Answer 77

Your heart can essentially relax into a more natural rhythm, whereby routine variability occurs due to assorted environmental stimuli

Question 78

Two bands of the HRV spectrum

Answer 78

1. LF (low frequency)
2. HF (high frequency)

Question 79

Low Frequency (LF) HRV Level

Answer 79

Represents both sympathetic and parasympathetic activity

Question 80

High Frequency (HF) HRV Level

Answer 80

Represents the parasympathetic nervous system

Question 81

High power levels for both LF and HF

Answer 81

A well functioning nervous system and cardiovascular system

Question 82

Low HRV score and high LF reading

Answer 82

Suggests a prolonged state of fight-or-flight/ sympathetic nervous system dominance

Question 83

A high LF value in relation to his or her HF value… or a high LF:HF ratio suggests

Answer 83

Someone who is stressed

Question 84

Low HRV score and a low LF reading suggests

Answer 84

A state of general burnout:
- the fight-or-flight response has been exhausted
- adrenal glands are producing lower-than normal levels of cortisol
- parasympathetic and sympathetic nervous system are dysfunctional

Question 85

Ideally, relating to HRV, one would like to see:

Answer 85

• a high HRV score = parasympathetic and sympathetic nervous system working in balance
• a high HF value in relation to LF = stress response and stress hormones moderated/optimized

Question 86

When one is functioning in a heightened state or peak performance zone due to positive and enjoyable stressors:

Answer 86

This is reflected in increased levels of both HF and LF power, as well as a high HRV score
- this is true even when the sympathetic nervous system is dominating because of the highly stimulatory environment

Question 87

Abnormally low LF value suggests

Answer 87

An excess of high-intensity exercise

Question 88

Anaerobic Threshold (AT) and LF/HF Spectrums

Answer 88

LF/HF power spectrums can help identify the anaerobic threshold (AT) during a workout

• HF power output rises sharply when AT intensity is reached —> a counterintuitive phenomenon of the parasympathetic nervous system kicking into high gear when you reach red line pace… perhaps, as a safeguard against extreme stress on the heart (and other organs?), but the reason not completely known to scientists

Question 89

Anaerobic Threshold (AT)

Answer 89

The intensity level at which lactic acid accumulates in the bloodstream faster than it can be removed
- this is the byproduct of a sharply accelerated rate of glucose burning caused by increases in pace that leave insufficient oxygen to burn fatty acids

*know as the “red line” = the point at which athletes can maintain the highest possible sustained intensity level without succumbing to the lactic acid burn and declining performance that occur if you exceed AT pace…

*also referred to as lactate acid threshold (LT/LT2)

Question 90

Conduct the majority exercise in the fat-burning aerobic heart rate zone (180-age) to:

Answer 90

• optimize cardiovascular function
• increase stroke volume of the heart so that more blood pumped with each beat
• improve lung capacity

Question 91

High-intensity exercise

Answer 91

• promotes gene expression
• closely mimics the movements of Primal ancestors
• build muscle
• support enhanced organ function
• accelerate metabolism

*as long as they are brief, relatively infrequent, and coupled with sufficient periods of rest and recovery