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14.15:

Types of Skeletal Muscle Fibers

JoVE Core
Anatomy and Physiology
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JoVE Core Anatomy and Physiology
Types of Skeletal Muscle Fibers

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A skeletal muscle comprises different motor units, each containing slow or fast contracting fibers.

Slow fibers possess slow-functioning myosin ATPases, which steadily hydrolyze the ATP and take longer to reach peak tension.

These fibers generate ATP via aerobic respiration and are also called slow oxidative fibers.

They produce large amounts of ATP and can gradually utilize them for prolonged activities, such as maintaining postures.

In contrast, fast fibers are thicker than slow fibers and possess fast-functioning myosin ATPases to support rapid contractions.

Based on their source of ATP, fast fibers are categorized into oxidative and glycolytic fibers.

Fast oxidative fibers primarily support their contractions using aerobic respiration.

However, due to the high energy demands of daily activities like walking, these fibers also rely on their glycogen stores to produce additional ATP through anaerobic glycolysis.

In contrast, the fast glycolytic fibers rely exclusively on anaerobic glycolysis for their ATP supply, which releases quick but limited energy.

As a result, these fibers are used for short bursts of intense activity like sprinting and weightlifting.

14.15:

Types of Skeletal Muscle Fibers

Skeletal muscles comprise various fibers, each with distinct characteristics and roles in movement and stability. They are mainly categorized into three types — fast-twitch, slow-twitch, and intermediate.

Fast-twitch fibers

Fast-twitch fibers, or Type II fibers, are designed for quick, powerful bursts of speed and strength. They reach peak tension within approximately 0.01 seconds following stimulation. Characterized by a large diameter and densely packed myofibrils, these fibers contain abundant glycogen reserves for rapid energy access. However, their relatively low mitochondrial content limits their endurance, making them prone to quick fatigue. Fast-twitch fibers primarily rely on anaerobic metabolism, consuming high levels of ATP quickly, and are best suited for short, intense activities like sprinting or heavy lifting.

Slow-twitch fibers

In contrast, slow-twitch fibers, or Type I fibers, are the endurance powerhouses of the muscle. With a smaller diameter, these fibers are packed with capillaries, high levels of myoglobin, and numerous mitochondria. This combination allows for efficient oxygen transport and utilization, supporting prolonged aerobic activity and ATP production. Slow-twitch fibers contract more slowly and can sustain contractions for extended periods, making them ideal for endurance activities like long-distance running or cycling. They are less reliant on anaerobic metabolism due to their enhanced oxygen reserves and blood supply.

Intermediate fibers

Intermediate fibers bridge the gap between fast and slow-twitch fibers. They resemble fast-twitch fibers in appearance, with minimal myoglobin content and a lighter color. However, they boast a more developed capillary network and a higher mitochondrial density than fast-twitch fibers. This endows them with greater resistance to fatigue and a capacity for both anaerobic and aerobic energy production. Intermediate fibers are adaptable and can change their characteristics with endurance or strength training, making them versatile components in various physical activities.