Hypertrophy vs Strength Training: Pros and Cons
Hypertrophy vs Strength: Hypertrophy refers to increasing the muscle size, while strength refers to improving the muscle power.
Here you can see the key features and differences:
| Aspect | Hypertrophy | Strength |
|---|---|---|
| Benefits | Increasing muscle size and improving muscle aesthetics. | Enhancing the ability of muscles to exert force and improve functional strength. |
| Pros | Visible results in muscle growth, Improved muscular endurance | Increased muscle strength, Improved joint health and bone density, Enhanced athletic |
| Cons | Require higher volume training which can be time-consuming and can lead to overuse injuries. | increased risk of injury with heavier weights, May not increase muscle size as hypertrophy training |
| Training Focus | Higher repetition ranges (5-30), Muscle fatigue and time under tension | Lower repetition ranges (1-6), Focus on lifting heavier weights |
| Rest Periods | Shorter rest periods | Longer rest periods |
| Example Exercises | Bicep curls, leg extension, dumbbell flyes | Squats, deadlifts, bench presses |
Hypertrophy vs Strength: The Basics
Muscle hypertrophy signifies more than just an increase in muscle size; it represents a complex biological process involving the growth and increase in the volume of muscle cells.
Key to hypertrophy training is the manipulation of volume (total amount of work done), intensity (the load or resistance), and frequency (how often a muscle group is trained).
On the other side, strength training zeroes in on increasing the muscle’s ability to exert force, emphasizing the enhancement of overall functional strength over mere size.
5 Differences Between Hypertrophy and Strength Training
Primary Goal
If your primary goal is to increase muscle size and improve aesthetic appearance, you should choose hypertrophy training.
If your goal is to improve muscle strength and maximum force a muscle can produce, you should choose strength training.
Rest Periods
Hypertrophy training: Shorter rest periods (1-2min) between your sets. Why? You want to maintain a high level of muscle fatigue and metabolic stress.
Strength training: Longer rest intervals (2-5min). Why? You want to recover between those heavy sets.
Repetition and Load
Hypertrophy training: Use from 65% to 85% of 1RM (one repetition maximum). Reps range from 5-30.
Strength training: Use from 85% to 95% of 1RM (one repetition maximum). Reps range from 1-6.
Exercise Selection
Hypertrophy training: You’re targeting specific muscle groups, meaning you choose isolated exercises to achieve most tension of a certain muscles. (most of the time)
Strength training: You’re focusing on the compound movements like squats, deadlifts and similar. You prefer movement before targeting isolated muscles.
Training Outcome and Adaptations
Hypertrophy Training leads to muscular adaptations more oriented towards increased cross-sectional area of muscle fibers and enhanced endurance capacity.
Strength Training induces adaptations that improve the muscle’s ability to generate force. These include neurological adaptations that enhance muscle recruitment and coordination, as well as increases in tendon strength and bone density.
Hypertrophy vs Strength: Impact on Muscle Size and Strength
How Hypertrophy Occurs
Hypertrophy training is primarily aimed at increasing muscle size.
This is achieved through exercises that lead to muscle fiber damage, which, during recovery, results in muscle growth.
Here are some key factors influencing muscle hypertrophy:
- Mechanical Tension: Generated through exercises that stretch and contract the muscle under load, mechanical tension is critical for muscle growth.
- Metabolic Stress: This occurs when muscle cells are deprived of oxygen during prolonged resistance training, leading to the accumulation of metabolites like lactate and hydrogen ions. Metabolic stress triggers an anabolic response, including the release of growth factors like IGF-1, which further promotes muscle growth.
- Muscle Damage: Resistance training causes microscopic tears in muscle fibers, a process known as muscle damage. This damage initiates an inflammatory response, activating satellite cells to repair and grow the muscle fibers thicker and stronger than before. This repair process is crucial for muscle hypertrophy.
How Muscle Strength Increases
Increasing muscle strength involves enhancing the muscle’s ability to generate force. The improvements in strength are attributed to both neural adaptations and muscular adaptations.
- Neural Adaptations: Early gains in strength training are largely due to improved neuromuscular efficiency. This includes increased motor unit recruitment, enhanced motor unit synchronization, and reduced coactivation of antagonist muscles. These neural changes allow for more forceful muscle contractions without a significant increase in muscle size.
- Muscular Adaptations: Over time, strength training leads to muscular adaptations that contribute to increased force production. This includes myofibrillar hypertrophy, where the number and size of myofibrils (the contractile elements of muscle fibers) increase. Unlike sarcoplasmic hypertrophy, which increases muscle size, myofibrillar hypertrophy enhances the muscle’s structural capacity to generate force.
- Bone and Connective Tissue Adaptations: Strength training also strengthens the bones, tendons, and ligaments, contributing to overall force production capabilities. These adaptations improve the transfer of force from muscle to bone, enhancing lifting efficiency and reducing injury risk.
Hypertrophy vs Strength: Weight Management (How to Lose or Gain Weight)
For weight gain, especially in muscle mass, hypertrophy training is key.
Your focus on moderate to high volume (8-12 reps) at 65-85% of your 1RM, ensuring a caloric surplus to fuel muscle growth.
Nutrition should prioritize protein to support muscle synthesis alongside sufficient carbs and fats for energy and recovery.
To lose weight, incorporate a mix of hypertrophy and strength training within a caloric deficit, aiming to preserve muscle mass while shedding fat.
This approach should include high protein intake to maintain muscle, with adjustments in carbs and fats to create a sustainable energy deficit.
Regardless of the goal, adjusting caloric intake and macro-nutrient distribution in alignment with your training regimen is crucial for effective weight management and achieving your desired physique.
When to Choose Hypertrophy or Strength Training?
Hypertrophy training:
- You’re aiming to increase muscle size for aesthetic purposes, such as bodybuilding or simply wanting a more muscular physique.
- Your focus is on enhancing muscle endurance and capacity for sustained efforts over longer periods.
- You’re interested in boosting your metabolism through increased muscle mass, potentially aiding in weight management.
- You want to target specific muscle groups for growth to improve body symmetry and proportion.
- You’re recovering from an injury and need to gradually rebuild muscle mass or are new to weightlifting and looking to build a solid muscle foundation.
Strength training:
- Your primary goal is to increase overall strength and power, beneficial for athletes or anyone looking to improve functional daily activities.
- You’re preparing for a competition or sport that requires maximal strength output, such as powerlifting, strongman competitions, or certain athletic sports.
- You wish to enhance your performance in compound movements like squats, deadlifts, and bench presses, focusing on improving your one-rep max (1RM).
- Your interest lies in optimizing neural adaptations, including motor unit recruitment and synchronization, for more efficient muscle contractions.
- You’re aiming to increase bone density, joint stability, and tendon strength, contributing to overall health and injury prevention.
Downsides of Hypertrophy and Strength Training
Hypertrophy training:
- Risk of Overtraining
- Imbalanced Physique
- Plateaus in Strength Gains
Strength training:
- Higher Injury Risk
- Limited Aesthetic Growth
Resources
Author
