Why do we need to know our ZONE Two training zone?

We hear from top influencers as Dr. Peter Attia, Dr. Andrew Huberman, Dr. Rhonda Patrick and Dr. Stacy Sims how we should train (hint- men are different than women!) as we age.

How do you know how you should train to improve fat loss, performance or longevity markers?

Stop guessing and start Testing!

I understand the benefits (details below) of each zone and time in “Zone Two” but not all of us need to spend 80% of our time in Zone Two and 20% doing intervals (Zone 4-5/Zone 1).  For example, Dr. Stacy Sims speaks about aging females would benefit from less Zone 2 LSD (long, steady distance) and more time each week doing sprint interval training.  Men can benefit from more time in Zone two than females… we females need more fast twitch muscle fibers!  If you are an aging athlete as myself who wants to get stronger, faster, leaner and more powerful then we need to change how we train as we age- BUT we need to personalize our training program instead of guessing what is our training zone and how much time do we need to stay there and don’t forget about the other factor- muscle health!  Some of us may benefit from doing more STRENGTH resistance based training workouts over cardio training- especially if short on time and need the minimal effective dose type of workout!

Let’s dive into the five heart rate zones and how we determine YOUR training zone with PNOE metabolism testing assessment (resting and active/exercise test) then do an analysis with me- Coach Debbie.

PNOE Fitness uses metabolic testing data to calculate each heart rate zone by precisely assessing an individual’s metabolic responses to exercise. Here’s how it works:

1. Metabolic Efficiency: PNOE measures your metabolic efficiency by analyzing your oxygen consumption (VO2) and carbon dioxide production (VCO2) during exercise. This data provides insights into how efficiently your body converts oxygen and fuels (carbohydrates and fats) into energy.
2. Substrate Utilization: By analyzing your respiratory exchange ratio (RER), PNOE determines the ratio of carbohydrates to fats being utilized for energy production during exercise. This helps identify which fuel source your body predominantly relies on at different exercise intensities.
3. Lactate Threshold: PNOE measures your lactate threshold, which is the exercise intensity at which lactate starts to accumulate in your bloodstream faster than it can be cleared. This threshold is a key determinant of endurance performance and helps establish Zone 3 (Tempo) and Zone 4 (Threshold).
4. Maximal Oxygen Consumption (VO2 max): PNOE assesses your VO2 max, which represents the maximum amount of oxygen your body can utilize during intense exercise. VO2 max is a critical factor in determining your aerobic capacity and overall fitness level.
5. Heart Rate Response: PNOE correlates your metabolic data with heart rate responses to exercise. By linking metabolic parameters with heart rate zones, PNOE accurately calculates the specific heart rate ranges corresponding to each training zone.
6. Personalization: Based on your individual metabolic profile and fitness goals, PNOE tailors the heart rate zones to optimize your training effectiveness. This personalized approach ensures that each zone aligns with your unique physiology, maximizing the benefits of your workouts.

Overall, PNOE Fitness utilizes advanced metabolic testing data to precisely calculate heart rate zones, allowing for personalized and effective exercise prescription tailored to individual needs and objectives. This comprehensive approach helps individuals train smarter and achieve their fitness goals more efficiently.

In metabolic testing, VT1 and VT2 refer to different thresholds that provide valuable insights into an individual’s exercise performance and metabolic responses.

Here’s what they represent:

1. Ventilatory Threshold 1 (VT1): VT1, also known as the first ventilatory threshold or aerobic threshold, is the point during exercise where ventilation begins to increase disproportionately to oxygen consumption. This threshold marks the transition from predominantly aerobic (utilizing oxygen) to increasing anaerobic (without oxygen) energy production. At VT1, there is a slight increase in blood lactate levels, but it remains relatively stable. VT1 typically corresponds to the upper limit of Zone 2 (Endurance) training.
2. Ventilatory Threshold 2 (VT2): VT2, also known as the second ventilatory threshold or lactate threshold, represents the point where lactate accumulation in the bloodstream increases significantly. This threshold signifies the onset of anaerobic metabolism, where the body relies more on glycogen breakdown for energy production. VT2 is associated with a noticeable increase in breathing rate and a shift towards greater reliance on carbohydrate metabolism. It typically corresponds to the lower end of Zone 4 (Threshold) training.

Determining VT1 and VT2 during metabolic testing allows for a more precise understanding of an individual’s metabolic responses to exercise. These thresholds help establish training zones, optimize workout intensity, and tailor training programs to specific fitness goals. Additionally, VT1 and VT2 can provide valuable information for athletes and fitness enthusiasts seeking to improve performance, enhance endurance, and maximize training efficiency.

Metabolic efficiency refers to the body’s ability to efficiently convert energy substrates (such as carbohydrates and fats) into usable energy during exercise. It reflects how effectively the body can produce ATP (adenosine triphosphate), the energy currency of cells, to support physical activity.

PNOE testing helps determine metabolic efficiency by analyzing various metabolic parameters during graded exercise testing.

Here’s how PNOE testing assesses metabolic efficiency:

1. Measurement of Oxygen Consumption (VO2): PNOE measures the volume of oxygen consumed by the body during exercise. This provides valuable insights into the rate of aerobic energy production, which is a key indicator of metabolic efficiency.
2. Analysis of Carbon Dioxide Production (VCO2): PNOE also measures the volume of carbon dioxide produced by the body during exercise. By comparing VO2 and VCO2, PNOE calculates respiratory exchange ratios (RER), which indicate the relative contribution of carbohydrates and fats to energy metabolism.
3. Assessment of Substrate Utilization: Based on RER values, PNOE determines the ratio of carbohydrates to fats being utilized for energy production. This helps identify the body’s preference for specific fuel sources at different exercise intensities and provides insights into metabolic efficiency.
4. Identification of Ventilatory Thresholds: PNOE identifies ventilatory thresholds, such as VT1 and VT2, which indicate the transition points between aerobic and anaerobic metabolism. These thresholds help assess how efficiently the body can sustain exercise intensity before relying more heavily on anaerobic energy pathways.
5. Calculation of Maximal Fat Oxidation (Fat Max): PNOE determines the exercise intensity at which maximal fat oxidation occurs. This represents the point where the body optimally utilizes fat as a fuel source, reflecting metabolic efficiency during aerobic exercise.

By analyzing these metabolic parameters, PNOE testing provides a comprehensive assessment of an individual’s metabolic profile and efficiency during exercise.

This data enables personalized exercise prescription, optimization of training intensity, and targeted interventions to improve metabolic health and performance.

How we use PNOE Metabolic Active Test to determine your ZONES

PNOE uses metabolic testing to determine your five heart rate training zones based on your individual physiology and metabolic profile.

Here’s how it works:

Zone 1 – Recovery Zone:

• This zone is characterized by very light intensity exercise, typically ranging from 50-60% of your maximum heart rate.
• It’s beneficial for active recovery, promoting blood flow to aid in recovery and enhancing overall circulation.
• In this zone, your body primarily uses fat as a fuel source.

Zone 2 – Endurance Zone:

• Falling between 60-70% of your maximum heart rate, this zone improves your aerobic base and endurance.
• It enhances fat metabolism and improves cardiovascular function.
• The primary fuel source in this zone is also fat, although carbohydrates start to contribute more significantly.

Zone 3 – Tempo Zone:

• This zone corresponds to 70-80% of your maximum heart rate and is ideal for increasing aerobic and anaerobic threshold, improving lactate clearance, and enhancing overall aerobic capacity.
• Your body relies more on carbohydrates for fuel in this zone, with some contribution from fat.

Zone 4 – Threshold Zone:

• At 80-90% of your maximum heart rate, this zone is effective for improving lactate threshold, increasing speed and power, and enhancing cardiovascular fitness.
• Carbohydrates become the primary fuel source in this zone, with minimal contribution from fat.

Zone 5 – Maximum Zone:

• This zone, ranging from 90-100% of your maximum heart rate, is utilized for maximum effort intervals and peak performance training.
• It improves maximal oxygen consumption (VO2 max), speed, and power.
• Carbohydrates are the predominant fuel source in this zone.

The science behind personalized heart rate zones with PNOE metabolism testing lies in its ability to accurately measure your individual metabolic responses to exercise.

By assessing your metabolic efficiency, substrate utilization, and lactate threshold, PNOE can precisely determine the intensity zones that optimize your training for specific goals such as fat loss, endurance, or performance.

The evidence base for PNOE metabolism testing and personalized heart rate zones is supported by studies demonstrating the effectiveness of individualized training prescriptions in improving performance, metabolic efficiency, and overall fitness outcomes.

Research has shown that tailoring exercise intensity based on metabolic parameters can lead to superior results compared to generic training approaches.

Individualized exercise program benefits & the importance of testing.

Achieving someone’s goals requires an individualized exercise program that will combine all three exercise modalities, namely resistance, cardio, and interval training.

• VO2max testing is the gold standard for individualized exercise prescription based on tailored training zones.
• All people, irrespective of their fitness level, may be eligible for all types of exercise, with the adequate adaptations that will allow for progressive overload.

Exercise not only maintains physical and psychological health but also helps our bodies respond to the negative consequences of several diseases, such as diabetes, hypertension, and cardiovascular disease.

Exercise is also a valuable adjunct to diet for people trying to lose weight and, in general, combat overweight and obesity.

However, most people opt for the most effortless methods of diet (a few days of fasting, detox diets) and exercise (electrical muscle stimulation, body therapies) because they do not want to bother that much.

Such an approach mostly leads to the opposite outcomes because they are not fruitful, cause frustration, and eventually impede any weight management endeavor even more.

Exercise as an integral part of weight management

In a previous Blogpost about weight management in terms of weight loss and maintenance, we focused on energy balance and the fundamental pillars of a sustainable weight loss program, one of them being exercise.

It was acknowledged that although energy restriction is the most vital part of the weight loss process, exercise can have additional benefits when combined with an adequate calorie deficit.

In particular, weight loss efforts are typically subsumed under the adaptive biological mechanisms that forcefully fight against them.

As a result, these mechanisms sooner or later lead to weight loss plateau and subsequently weight regain.

This is where exercise could act as the lifeline to attenuate these devastating effects.

Most health organizations have highlighted the importance of exercise. Specifically, the American Heart Association (AHA), for disease prevention, improved quality of life, and overall health and well-being, recommends that we get at least 150 minutes per week of moderate-intensity aerobic activity or 75 minutes per week of vigorous-intensity aerobic activity, or a combination of both in combination with resistance training on at least two days per week.

However, these recommendations are pretty generic.

Someone who enters a weight loss program should remember that to achieve their goals, they should aim for an individualized exercise program from an exercise specialist that will combine all three exercise modalities.

Training zones

Three distinct types of exercise can all be valuable tools for a dieter’s quiver.

Therefore, all should be involved in the appropriate amounts in an individualized exercise regime for weight loss.

These are

• Resistance training
• Cardio training
• Interval training.

Resistance training involves exercises designed to improve muscular strength, endurance, and muscle size.

• Cardio training is any cardiovascular exercise that will increase your breathing and heart rate and involves using oxygen for energy supply to the working muscles.
• Interval training involves alternating short high-intensity aerobic exercise bouts interspersed with low-intensity or rest recovery periods.
• Cardio and interval training are governed by some training principles, which are reduced to the training zones.

The gold standard method to determine someone’s training zones is implementing cardiopulmonary exercise testing (CPET), also known as VO2max testing.

• VO2max is the maximal rate of oxygen uptake during exercise.
• It is the gold standard for individualized exercise prescription.
• The training zones determined through such an approach are five and are described based on two variables; the maximum heart rate (HRmax) during a VO2max testing or the anaerobic threshold (VT2).
• VT2 is where during VO2max testing, your body must switch from aerobic to anaerobic metabolism for energy supply.
• VT2 differs from VT1 (ventilatory threshold), which can also be determined through VO2max testing and refers to the point during exercise where ventilation increases faster than oxygen uptake.

The training zones are described as follows:

• Zone 1 (recovery/easy):
  • 55%-65% of HRmax or 75%-80% of HR at VT2.
  • This zone is used to get your body moving with minimal exertion.
  • It may be appropriate for an easy training day, warm-up, and cool-down.
• Zone 2 (aerobic/base):
  • 65%-75% of HRmax or 81%-89% of HR at VT2.
  • This zone is used for longer training sessions, such as endurance sports.
  • Subjects working in this zone can improve their mitochondrial function and fat-burning efficiency.
• Zone 3 (tempo):
  • 80%-85% of HRmax or 96%-100% of HR at VT2.
  • This zone can be used to build up speed and strength.
  • It can also be appropriate for people who suffer cardiopulmonary limitations since it can help them strengthen their pulmonary muscles and improve their cardiovascular system.
• Zone 4 (anaerobic threshold):
  • 85%-88% of HRmax or 102%-105% of HR at VT2.
  • This is the zone where lactic acid, as a by-product of the anaerobic metabolism, builds up, and thus fatigue kicks in.
  • Training in this zone helps your body improve its VO2max and efficiency when working at its maximum sustainable pace.
• Zone 5 (aerobic-anaerobic):
  • 90% plus of HRmax or 106% plus of HR at VT2.
  • This zone can only be maintained for a minimal time (60-120 seconds).
  • It can improve your VO2max, your peak power output capability (e.g., maximum speed or wattage), and increase your fatigue threshold at maximum intensities.

As demonstrated above, each training zone elicits different physiological adaptations to the human body, and training zones may vary significantly from person to person.

This is why it is strongly recommended that zones be determined through VO2max testing and not using predictive values.

Exercise modalities in a nutshell

Resistance exercise

It’s a form of exercise that increases muscular strength and endurance by exercising a muscle or a muscle group against external resistance. This external resistance might be resistance bands of different weights, dumbbells, machines, barbells, kettlebells, and even bodyweight.

• Different adaptations associated with a resistance training program include muscular endurance, muscle size (hypertrophy), and strength (explosive training).
• All types of resistance training contribute to muscle mass increase and enhanced metabolism since muscle mass is the primary metabolically active tissue.
• Each of these adaptations is characterized by a group of variables, namely the number of sets, the number of reps, tempo, time of rest, and intensity (in terms of 1RM).

Anyone at any fitness level can perform resistance training.

It’s all about finding the right exercise variations and the proper resistance that will allow you to progressively overload and complete all reps with good form.

However, compared to a muscular endurance program, the number of sets and the intensity increases, whereas the number of reps decreases for the hypertrophy and maximum strength phases of a resistance training program.

• Maximum strength/Explosive training can significantly improve VO2max, power output at VT1 and VT2, and movement economy, namely an enhanced caloric burn during low-level movements (NEAT).
• It can also increase the fatigue threshold at maximum intensities and improve the rate of force development, namely, an athlete’s explosive strength.
• On the other hand, hypertrophy training can significantly increase muscle size and enhance force development.
• However, it can reduce VO2max and the formation and development of blood vessels in the muscles trained.

Muscular endurance training can significantly improve VO2max and power output at VT1 and VT2.

Irrespective of each different type described above, resistance training can increase bone density and boost metabolism through increased muscle mass, which is the primary metabolically active tissue in the body.

A well-rounded resistance training program could encompass all its different adaptations in separate exercise sessions, depending on the subject’s training goals and the restraints identified through VO2max testing.

Cardio training

Cardio training, also known as aerobic endurance training, is the most basic form of exercise since it can be as simple as walking. It is a continuous steady state exercise that can contribute to building cardiovascular endurance and weight loss when used wisely and not excessively. It is the main form of exercise recommended by the American Heart Association (AHA) for overall health and well-being.

Cardio training can further be categorized into base-long, base-medium, moderate, and heavy continuous, based on the %HRmax intensity of the exercise.

• Base-long cardio training or zone 2 (65%-75% HRmax) may last 120-240 minutes and can improve movement economy and fat-burning efficiency.
  • It can also secondarily enhance the speed at VT1 and lower the heart rate at submaximal intensities over time.
• Base-medium cardio training between zone 2 and zone 3 (70%-79% HRmax) may last 60-120 minutes and can significantly improve the speed at VT1 and lower the heart rate at submaximal intensities over time.
• • • It can also secondarily enhance movement economy and fat-burning efficiency.

• Moderate cardio training or zone 3 cardio training (80%-85% HRmax) may last 40-60 minutes and will chiefly improve the speed at VT2.
  • It can also secondarily enhance movement economy, fat-burning efficiency, and speed at VT1.
• Heavy continuous cardio training or zone 4 cardio training (85%-90% HRmax) may last 20-40 minutes and can significantly improve the speed at VT2 and VO2max.

Cardio training is the simplest form of exercise and can be used by anyone, irrespective of their fitness level and medical history.

Deconditioned people and/or those with cardiorespiratory limitations should start at lower cardio training intensities (base-long and base-medium) and progressively move to more intense cardio training workouts.

However, it should be noted that all categories of cardio training may be useful for different training goals that a subject may have.

Therefore, they can coexist in a cardio training program.

Interval training

Interval training involves repeated workout periods (intervals) at an intensity between 83%-100% of your maximum heart rate.

In terms of training zones, such intensities correspond to zone 4 and zone 5.

It can further be categorized into short, medium, and long based on the duration of each interval.

• Short interval training encompasses 10 seconds to 1-minute intervals and may last 8-12 minutes in total.
  • It can mainly improve VO2max.
• Medium interval training encompasses 1- to 4-minute intervals and may last 12-24 minutes.
  • It can mainly improve VO2max and, secondarily, the speed at VT2.
• Long interval training encompasses 4-minute to 10-minute intervals and may last 20-30 minutes.
  • It can significantly improve VO2max.
• Short interval training is highly mechanically demanding and is recommended to be mainly performed by well-trained subjects.
• Medium and long interval training is also aimed at subjects with lower fitness levels.

A less trained subject may start with the lower time limits and progressively reach 10 and 4 minutes, respectively.

Interval training can either involve a single exercise, i.e., running on a treadmill or biking or rowing, or multiple activities of different levels of difficulty, i.e., free or lightly-to-moderately weighted squats + lifts with an empty barbell or lifts with a lightly or moderately loaded barbell + jumping ropes, etc.

• All these parameters are determined by the subject’s goals, fitness level, and potential limitations identified in the VO2max exercise testing.
• HIIT training, like cardio training, is considered a cardiovascular exercise where subjects can improve their cardiovascular and respiratory function and lose fat.
• Its main advantage compared to cardio training is that it can be completed in a maximum of 30 minutes, including the warm-up.

In other words, it can save a considerable amount of time for those whose argument for not working out regularly is the time constraints.

Interval training can essentially be used by anyone who wishes to reap the benefits of this type of exercise.

However, for severely deconditioned subjects who at the same time suffer metabolic, cardiovascular, and/or respiratory limitations and their doctor has advised them not to participate in vigorous exercise, it’s more prudent that they embark on base-long and base-medium cardio training, namely low-moderate intensity cardio training first, and gradually proceed with more intense interval workouts.

Cardiopulmonary exercise testing (CPET)

As stated above, the gold standard for exercise prescription is CPET. It should be performed by anyone who wishes to enter a congruous exercise program and achieve their weight loss and/or training goals as efficiently as possible.

Generally speaking, a well-rounded exercise program should involve all three exercise modalities since they serve different training goals and result in various training adaptations. However, CPET can precisely determine the level of exercise performance of the subject that undertakes it through the combination of multiple variables, including ventilatory, musculoskeletal, cardiovascular, and metabolic characteristics. Based on those, it can provide a tailored exercise prescription with a specific workout breakdown and define contraindications to an exercise program.

For example, the exercise prescription will promote hypertrophy training if someone has a low metabolism.

If cardiovascular limitations (e.g., low VO2max) are found, the exercise prescription will promote long intervals and base-long cardio training.

The exercise prescription will promote base-medium cardio training if low movement economy and/or low-fat burning efficiency are found.

Key PNOE takeaways

1. Exercise can help people struggling with weight loss plateau and tend always to regain the lost weight, accomplished through diet programs alone.
2. All three types of exercise, i.e., resistance training, cardio training, and interval training, should be involved in an individualized exercise regime for weight loss.
3. The amounts for each exercise modality should ideally be determined through cardiopulmonary exercise testing, which is the gold standard for exercise prescription.
4. The exercise prescription should not only be in line with the person’s exercise and weight goals but also with their limitations, which are distinctly defined through CPET.

Individualized exercise program benefits & the importance of testing.