Page 1
Introduction
? The human body has several organs. These organs cannot perform their functions
independently. In order to maintain homeostasis for the normal physiology of the
human body, functions of these organs/organ systems in our body must be
coordinated, so that they can work in proper manner.
? Coordination is the process through which two or more organs interact and
complement the functions of one another. On the other hand, integration is a process,
which makes two or more organs to work as a functional unit in harmony.
? For instance, when we do exercise, we observe significant increase in the rate of
respiration, heart beat, blood flow, sweating, etc., to meet enhanced need of nutrients
and energy for increased activities of lungs, heart, muscles and many other body
organs. Thus, during exercise, functions of various organs of the body are
coordinated and integrated.
? In higher animals (including human), two types of systems have been developed for
the control, coordination and integration, i.e., nervous system and endocrine system.
The nervous system provides an organised network of point to point connections for
quick neural coordination. The endocrine system provides chemical integration
through hormones.
Page 2
Introduction
? The human body has several organs. These organs cannot perform their functions
independently. In order to maintain homeostasis for the normal physiology of the
human body, functions of these organs/organ systems in our body must be
coordinated, so that they can work in proper manner.
? Coordination is the process through which two or more organs interact and
complement the functions of one another. On the other hand, integration is a process,
which makes two or more organs to work as a functional unit in harmony.
? For instance, when we do exercise, we observe significant increase in the rate of
respiration, heart beat, blood flow, sweating, etc., to meet enhanced need of nutrients
and energy for increased activities of lungs, heart, muscles and many other body
organs. Thus, during exercise, functions of various organs of the body are
coordinated and integrated.
? In higher animals (including human), two types of systems have been developed for
the control, coordination and integration, i.e., nervous system and endocrine system.
The nervous system provides an organised network of point to point connections for
quick neural coordination. The endocrine system provides chemical integration
through hormones.
NEURAL SYSTEM
? The neural system is the control system of the body which consists of highly
specialized cells called neurons. The sensory neurons detect and receive information
from different sense organs (receptors) in the form of stimuli and transmit the
stimuli to the Central Neural System (CNS) through sensory nerve fibers. In CNS
the processing of information is done and a conclusion is drawn
? The conclusion is sent to different organs (effectors) through motor nerves. These
effectors then show the response accordingly.
? The neural or nervous system is present in most of the multi cellular animals. Its
complexity increases from lower to higher animals.
? Invertebrates have relatively simpler nervous system than the vertebrates.
Page 3
Introduction
? The human body has several organs. These organs cannot perform their functions
independently. In order to maintain homeostasis for the normal physiology of the
human body, functions of these organs/organ systems in our body must be
coordinated, so that they can work in proper manner.
? Coordination is the process through which two or more organs interact and
complement the functions of one another. On the other hand, integration is a process,
which makes two or more organs to work as a functional unit in harmony.
? For instance, when we do exercise, we observe significant increase in the rate of
respiration, heart beat, blood flow, sweating, etc., to meet enhanced need of nutrients
and energy for increased activities of lungs, heart, muscles and many other body
organs. Thus, during exercise, functions of various organs of the body are
coordinated and integrated.
? In higher animals (including human), two types of systems have been developed for
the control, coordination and integration, i.e., nervous system and endocrine system.
The nervous system provides an organised network of point to point connections for
quick neural coordination. The endocrine system provides chemical integration
through hormones.
NEURAL SYSTEM
? The neural system is the control system of the body which consists of highly
specialized cells called neurons. The sensory neurons detect and receive information
from different sense organs (receptors) in the form of stimuli and transmit the
stimuli to the Central Neural System (CNS) through sensory nerve fibers. In CNS
the processing of information is done and a conclusion is drawn
? The conclusion is sent to different organs (effectors) through motor nerves. These
effectors then show the response accordingly.
? The neural or nervous system is present in most of the multi cellular animals. Its
complexity increases from lower to higher animals.
? Invertebrates have relatively simpler nervous system than the vertebrates.
HUMAN NEURAL SYSTEM
? The whole nervous system of human being is derived from embryonic ectoderm.
The human neural system is divided into two parts
1. Central Neural System (CNS)
2. Peripheral Neural System (PNS)
? The CNS includes the brain and the spinal cord and is the site of information
processing and control.
? The PNS comprises of all the nerves of the body associated with the CNS (brain and
spinal cord).
? The nerve fibres of the PNS are of two types
3. Afferent Fibres They transmit impulses from tissues/organs to the CNS.
4. Efferent Fibres They transmit regulatory impulses from the CNS to the concerned
peripheral tissues/organs.
Page 4
Introduction
? The human body has several organs. These organs cannot perform their functions
independently. In order to maintain homeostasis for the normal physiology of the
human body, functions of these organs/organ systems in our body must be
coordinated, so that they can work in proper manner.
? Coordination is the process through which two or more organs interact and
complement the functions of one another. On the other hand, integration is a process,
which makes two or more organs to work as a functional unit in harmony.
? For instance, when we do exercise, we observe significant increase in the rate of
respiration, heart beat, blood flow, sweating, etc., to meet enhanced need of nutrients
and energy for increased activities of lungs, heart, muscles and many other body
organs. Thus, during exercise, functions of various organs of the body are
coordinated and integrated.
? In higher animals (including human), two types of systems have been developed for
the control, coordination and integration, i.e., nervous system and endocrine system.
The nervous system provides an organised network of point to point connections for
quick neural coordination. The endocrine system provides chemical integration
through hormones.
NEURAL SYSTEM
? The neural system is the control system of the body which consists of highly
specialized cells called neurons. The sensory neurons detect and receive information
from different sense organs (receptors) in the form of stimuli and transmit the
stimuli to the Central Neural System (CNS) through sensory nerve fibers. In CNS
the processing of information is done and a conclusion is drawn
? The conclusion is sent to different organs (effectors) through motor nerves. These
effectors then show the response accordingly.
? The neural or nervous system is present in most of the multi cellular animals. Its
complexity increases from lower to higher animals.
? Invertebrates have relatively simpler nervous system than the vertebrates.
HUMAN NEURAL SYSTEM
? The whole nervous system of human being is derived from embryonic ectoderm.
The human neural system is divided into two parts
1. Central Neural System (CNS)
2. Peripheral Neural System (PNS)
? The CNS includes the brain and the spinal cord and is the site of information
processing and control.
? The PNS comprises of all the nerves of the body associated with the CNS (brain and
spinal cord).
? The nerve fibres of the PNS are of two types
3. Afferent Fibres They transmit impulses from tissues/organs to the CNS.
4. Efferent Fibres They transmit regulatory impulses from the CNS to the concerned
peripheral tissues/organs.
? The PNS is divided into two divisions
1. Somatic neural system
2. Autonomic neural system.
? The somatic neural system relays impulses from the CNS to skeletal muscles
? The autonomic neural system transmits impulses from the CNS to the involuntary
organs and smooth muscles of the body.
? The autonomic neural system is further classified into
3. Sympathetic neural system
4. Parasympathetic neural system.
Page 5
Introduction
? The human body has several organs. These organs cannot perform their functions
independently. In order to maintain homeostasis for the normal physiology of the
human body, functions of these organs/organ systems in our body must be
coordinated, so that they can work in proper manner.
? Coordination is the process through which two or more organs interact and
complement the functions of one another. On the other hand, integration is a process,
which makes two or more organs to work as a functional unit in harmony.
? For instance, when we do exercise, we observe significant increase in the rate of
respiration, heart beat, blood flow, sweating, etc., to meet enhanced need of nutrients
and energy for increased activities of lungs, heart, muscles and many other body
organs. Thus, during exercise, functions of various organs of the body are
coordinated and integrated.
? In higher animals (including human), two types of systems have been developed for
the control, coordination and integration, i.e., nervous system and endocrine system.
The nervous system provides an organised network of point to point connections for
quick neural coordination. The endocrine system provides chemical integration
through hormones.
NEURAL SYSTEM
? The neural system is the control system of the body which consists of highly
specialized cells called neurons. The sensory neurons detect and receive information
from different sense organs (receptors) in the form of stimuli and transmit the
stimuli to the Central Neural System (CNS) through sensory nerve fibers. In CNS
the processing of information is done and a conclusion is drawn
? The conclusion is sent to different organs (effectors) through motor nerves. These
effectors then show the response accordingly.
? The neural or nervous system is present in most of the multi cellular animals. Its
complexity increases from lower to higher animals.
? Invertebrates have relatively simpler nervous system than the vertebrates.
HUMAN NEURAL SYSTEM
? The whole nervous system of human being is derived from embryonic ectoderm.
The human neural system is divided into two parts
1. Central Neural System (CNS)
2. Peripheral Neural System (PNS)
? The CNS includes the brain and the spinal cord and is the site of information
processing and control.
? The PNS comprises of all the nerves of the body associated with the CNS (brain and
spinal cord).
? The nerve fibres of the PNS are of two types
3. Afferent Fibres They transmit impulses from tissues/organs to the CNS.
4. Efferent Fibres They transmit regulatory impulses from the CNS to the concerned
peripheral tissues/organs.
? The PNS is divided into two divisions
1. Somatic neural system
2. Autonomic neural system.
? The somatic neural system relays impulses from the CNS to skeletal muscles
? The autonomic neural system transmits impulses from the CNS to the involuntary
organs and smooth muscles of the body.
? The autonomic neural system is further classified into
3. Sympathetic neural system
4. Parasympathetic neural system.
NEURON
? Neurons are the longest cells in the body. Human neural system has about 100 billion
neurons. Majority of the neurons occur in the brain. Fully formed neurons never
divide and remain in interphase throughout life.
? A neuron is a microscopic structure composed of three major parts
? 1. Cell Body (Cyton or Soma)
Like a typical cell it consists of cytoplasm, nucleus and cell membrane. The
cytoplasm has typical cell organelles like mitochondria, Golgi apparatus, rough
endoplasmic reticulum, ribosomes, lysosomes, certain granular bodies, neurofibrils,
neurotubules and Nissl’s granules.
? Presence of neurofibrils and Nis s l’ s granules is the characteristic to all neurons.
? Neurofibrils play a role in the transmission of impulses.
Read More