FSc Notes Class XI Biology Circulatory System

FSc Notes Class XI Biology Circulatory System 1st Year Biology Notes Online Taleem Ilmi Hub  Class 11

FSc Notes Class XI Biology Circulatory System fscnotes0

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Circulatory System

HUMAN HEART

INTRODUCTION

Heart, the most powerful organ in the circulatory system is conical, hollow & muscular organ, situated in middle mediastinum.

POSITION OF HEART

Heart lies in the thoracic cavity between the lungs slightly towards left, enclosed with in ribcage with the sternum in front & vertebral column behind.

SIZE & WEIGHT

The heart measures about 3 ½ Inches & weighs about 300 gm in males & 250 gm in females.

MAIN FUNCTION OF HEART

Heart works continuously like a muscular pump & pumps the blood to various parts of the body to meet their nutritive requirements.

COVERING OF HEART PERICARDIUM

Heart is surrounded by a double layered pericarcdium. The outer layer is called Fibrous pericardium & inner layer is called as serous pericardium.

PERICARDIAL FLUID

Fluid is secreted in b/w the two layers of pericardium which is known as pericardial fluid.

FUNCTION

Pericardial fluid acts as LUBRICANT & reduces friction b/w heart walls & surrounding tissues during beating of heart.

STRUCTURE OF HEART

Human heart consists of four chambers.

CHAMBERS OF HEART

1. RIGHT ATRIUM

Right Atrium is the right upper chamber of heart & acts as thin walled low pressure pump.

OPENINGS (INLETS) OF RIGHT ATRIUM

  1. Superior Vena Cava
  2. Infenior Vena Cava
  3. Coronary Sinus

FUNCTION

It receives venous blood from the whole body & pump it to the right ventricle through the right atrioventricular (tricuspid opening) valve.

2. LEFT ATRIUM

Left atrium is upper triangular chamber which is present posteriorly. It also acts as low pressure pump.

OPENINGS (INLETS) OF LEFT ATRIUM

  • Two pairs of pulmonary veins.

FUNCTION

It receives oxygenated blood from the lungs through 4 pulmonary veins and pumps it to the left ventricle through the left atrioventricular orifice (mitral or bicuspid).

3. RIGHT VENTRICLE

Right ventricle is the right lower chamber of heart, which is triangular in shape.

OPENINGS OF RIGHT VENTRICLE

  • Tricuspids valve
  • Pulmonary Aorta through pulmonary valve.

THICKNESS OF WALL

The wall of right ventricle is thinner than that of left ventricle in a ratio of 1:3

SIZE OF CAVITY

Cavity of right ventricle is broader than left because of thin muscular walls, and both of these features are due to the fact that right ventricle has to pump the blood into lungs only against low pressure system (i.e. pulmonary circulation).

FUNCTION

Right ventricle receives deoxygenated blood from right Atrium and pumps it to the lungs through pulmonary aorta for oxygenation.

4. LEFT VENTRICLE

Left ventricle is the most thick walled chamber and forms the apex of heart.

OPENING OF LEFT VENTRICLE

  • Bicuspid or Mitral valve
  • Systemic Aorta through aortic valve.

THICKNESS OF WALL

The walls of left ventricle are 3 times thicker than those of right ventricle. Blood pressure is 6 times high.

SIZE OF CAVITY

The cavity of left ventricle is narrower than the right ventricle because of more muscular walls. It is due to the fact that left ventricle has to pump the blood to the entire body against high pressure system (Systemic Circulation).

FUNCTION

It receives oxygenated blood from left atrium & pumps it into the aorta.

INTERNAL STRUCTURE OF VENTRLES

Interior of ventricles show two parts

  1. Rough in flowing part
  2. Smooth out flowing part

1. ROUGH PART

TRABECULAE CARNEAE

Inflowing part of each ventricle is rough due to presence of muscular ridges called as Trabeculae carneae.

2. SMOOTH PART

Out flowing part of each ventricle is smooth which gives origin to pulmonary trunk in right ventricle & Ascending Aorta in left ventricle.

PAPILLARY MUSCLES

Papillary muscles are the type of Trabeculae carneae being attached by their bases to ventricular walls, & their apices are connected to, the cusps of valves through chorda tendinae.

CHORDA TENDINAE:

These are delicate fibrous chords, which connect the papillary muscles to the cusps of Atriovertritcular valves.

FUNCTION

Chorda Tendinae don’t left the valves open back into the atria when the ventricles contract.

SEPTUM OF HEART

1. INTERATRIAL SEPTUM

Internally, the right & left atria are separated by a vertical membranous septum called as Interatrial septum.

2. INTERVENTRICULAR SEPTUM:

The right & left verticals are also separated by a thick muscular septum called as Interventricular septum.

3. ATRIOVENTRICULAR SEPTUM

Atria lie above & behind the ventricles & are separated from ventricles by Atrioven-tricular septum.

HEART VALVES

Heart possesses two types of valves, which regulate the flow of blood with in the heart.

TYPES OF HEART VALVES

  1. Atrioventricular valves -> Bicuspid, Tricuspid
  2. Semilunar vlaves -> Aortic valve, Pulmonary valve

1. ATRIOVENTRICULAR VALVES

INTRODUCTION

Valves, which are present in b/w the Atria & ventricles are called Atrioventricular valves.

TYPES OF ATRIOVENTRICULAR VALVES

They are of two types.

  1. Bicuspid or Mitral
  2. Tricuspid.

1. BICUSPID OR MITRAL VALVE

Blood flows from left Atrium to the left ventricle through left atrioventricular on orifice, which is guarded by bicuspid or Mitral valves.

CUSPS

It has tow (2) cusps so it is called as bicuspid.

2.TRICUSPID VALVE

Blood flows from right Atrium to the Right ventricle through right Atrioventricular orifice, which is guarded by Tricuspid.

CUSPS

It has 3 cusps so it is called as TRICUSPID.

2. SEMILUNAR VALVES

This is the second category of heart valves, which guard the emergence of pulmonary & systemic Aorta.

TYPES OF SEMILUNAR VALVES

It has Two Types:

  1. Aortic Valve
  2. Pulmonary Valve

1. AORTIC VALVE

This valve guards the Aortic orifice in left ventricle

CUSPS

It consists of 3 Semilunar cusps.

2. PULMONARY VALVE

This valve guards the pulmonary orifice in right ventricle.

CUSPS

It also consists of 3 semi lunar cusps.

FUNCTIONS OF VALVES

Heart valves maintain unidirectional flow of the blood & prevents its regurgitation in the opposite direction.

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