Characteristics of Skeletal, Smooth & Cardiac Muscles | Humans | Biology

In this article we will discuss about the characteristics of skeletal, smooth and cardiac muscles of human body.

Characteristics of Skeletal Muscle:

Histology:

1. Size and Shape:

Cylindrical; 1-40 mm long, 10 to 100 μ in diameter.

2. Striations:

Transverse, longitudinal.

3. Sarcolemma:

Present and complete.

4. Nucleus:

Multiple, just under the Sarcolemma.

5. Sarcotubular System:

Present, T-systems are at junctions of A-l band (in mammals). Terminal cisternae is prominent.

6. Branch:

Nil.

7. Cell-to-Cell Conduction:

Nil.

Properties:

1. Rhythmicity:

Nil.

2. Conductivity:

Very fast.

a. All-or-None Law:

True for single fibre.

3. Contractility:

Simple muscle curve with characteristic features.

4. Refractory Period:

Short-within latent period.

a. Tetanus:

Possible

b. Fatigue:

Possible

5. Tonicity:

Tone depends on nerves.

Composition:

1. Protein:

Maximum.

2. Glycogen:

Less.

3. ATP and Phosphagen:

Present.

4. Carnosine:

Maximum.

5. Fats:

Mostly neutral fats.

6. Inorganic:

Na/K-1/5.Ca⁺⁺

Action of Ions:

1. Sodium:

Excitation

2. Calcium:

Present mostly in sarcoplasmic reticulum and stimulates ATP-ase activity during muscular contraction.

3. Potassium

Reduces excitability and hastens fatigue.

Metabolism:

1. Carbohydrates:

a. Lactic Acid:

Oxidised less easily than glucose and often incomplete.

b. Glycogen:

Reduced in Starvation and Diabetes Mellitus.

2. Blood Supply and O₂ Consumption

Moderate.

Distribution:

Skeletal

Control:

Under the will, so voluntary.

Nerve Supply:

Somatic with special nerve endings.

Characteristics of Smooth Muscle:

Histology:

1. Size and Shape:

Elongated, fusiform, length 0.2 mm (aver.), width—6 μ (central portion).

2. Striations:

Longitudinal (special preparation).

3. Sarcolemma:

Present and complete.

4. Nucleus:

Single, at the centre with distinct nucleoli.

5. Sarcotubular System:

Present but not so characterised.

6. Branch:

Nil

7. Cell-to-Cell Conduction:

Through nexus.

Properties:

1. Rhythmicity:

Present

2. Conductivity:

Slower.

a. All-or-None Law:

True for single fibre.

3. Contractility:

Slow and worm-like. All periods of the curve longer.

4. Refractory Period:

Longer than smooth.

a. Tetanus:

Not so.

b. Fatigue:

Possible, Difficult to demonstrate.

5. Tonicity:

Independent of nerve

Composition:

1. Protein:

Less.

2. Glycogen:

More.

3. ATP and Phosphagen:

Present.

4. Carnosine:

Less.

5. Fats:

Mostly neutral fats

6. Inorganic:

About same

Action of Ions:

1. Sodium:

Probably same.

2. Calcium:

Same as skeletal.

3. Potassium:

Probably same.

Metabolism:

1. Carbohydrates:

a. Lactic acid:

Oxidised less easily than glucose and often incomplete.

b. Glycogen:

Reduced in Starvation and Diabetes Mellitus.

2. Blood Supply and O₂ Consumption:

Less

Distribution:

Hollow viscera, capsules, skin, etc.

Control:

Not so, involuntary

Nerve Supply:

Autonomic with ganglia and free nerve terminals.

Characteristics of Cardiac Muscle:

Histology:

1. Size and Shape:

Short cylindrical, rectangular in longitudinal section, polyhedral in transverse section.

2. Striations:

Both longitudinal and transverse.

3. Sarcolemma:

Present and complete.

4. Nucleus:

Single and central.

5. Sarcotubular System:

Present but without terminal cisternae. T-system is more prominent and present at Z-line (in mammals).

6. Branch:

Multiple branches. In all directions three dimensional network without cytoplasmic continuity (false syncytial appearance).

7. Cell-to-cell Conduction:

Through specialised areas of intercalated use.

Properties:

1. Rhythmicity:

Present and characteristic.

2. Conductivity:

Slower, different in different parts.

a. All-or-None Law:

True for the whole heart, because of functional syncytium.

3. Contractility:

Characteristic muscle curve. Contraction, longer than relaxation.

4. Refractory Period:

Longest, whole contraction period is absolute refractory.

a. Tetanus:

Impossible

b. Fatigue:

None. Long refractory period ensures recovery.

5. Tonicity:

Independent of nerve.

Composition:

1. Protein:

Less.

2. Glycogen:

More.

3. ATP and Phosphagen:

Present.

4. Carnosine:

Less.

5. Fats:

More phosphatides and cholesterol than in other

6. Inorganic:

Na/K-1/2 i.e., more Na Ca⁺⁺

Action of Ions:

1. Sodium:

Initiates and maintains heartbeat.

2. Calcium:

Increases strength of contraction and duration of systole.

3. Potassium:

Inhibits contraction and produces relaxation.

Metabolism:

1. Carbohydrates:

a. Lactic Acid:

Completely and more readily than glucose.

b. Glycogen:

Increased.

2. Blood Supply and O₂ Consumption:

High.

Distribution:

Only in heart.

Control:

Not so, involuntary.

Nerve Supply:

Same as in involuntary.