Nervous System PDF

Summary

This document provides a detailed overview of the nervous system, covering its structure, functions, and key components such as the brain, spinal cord, and peripheral nerves. It explains how the nervous system regulates bodily functions and responses.

Full Transcript

Nervous System
1. Introduction to the Nervous System ▪ Brainstem:
Controls vital
Definition: The nervous system is a
functions
complex network of specialized cells
(heart rate,
(neurons and glial cells) that coordinates the
breathing) and
body's actions and responses by
relays signals
transmitting signals between different parts
between the
of the body.
brain and
Functions: spinal cord.

o Control and Regulation: Maintains ▪ Spinal Cord: Transmits
homeostasis by regulating internal signals to and from the brain;
processes. contains reflex centers.

o Communication: Enables Peripheral Nervous System (PNS):
communication between different
o Components: All nerves outside the
body parts through electrical and
CNS, including cranial nerves (12
chemical signals.
pairs) and spinal nerves (31 pairs).
o Integration: Processes sensory
o Functions: Connects the CNS to
information and generates
limbs and organs, facilitating
appropriate responses
communication.
Somatic Nervous System: Controls
2. Major Divisions of the Nervous System voluntary movements through skeletal
muscles.
Central Nervous System (CNS):
Autonomic Nervous System:
o Components: Regulates involuntary functions.
▪ Brain: The control center for ▪ Sympathetic Nervous
processing information and System: Activates "fight or
coordinating responses. flight" responses during
▪ Regions of the stress.
Brain: ▪ Parasympathetic Nervous
▪ Cerebrum: System: Activates "rest and
Largest part, digest" activities, promoting
responsible for relaxation and conservation
higher brain of energy.
functions
(thinking,
memory, CNS: Brain
emotion).
1. Cerebrum
▪ Cerebellum:
The largest part of the brain, divided into two
Coordinates
hemispheres (left and right) and further divided into
movement lobes.
and balance;
important for Frontal Lobe:
motor
o Functions:
learning.
 ▪ Executive functions o Coordination of voluntary
(planning, reasoning). movements (balance and posture).
▪ Motor control (voluntary o Motor learning (fine-tuning
movements). movements).
▪ Speech production (Broca's o Regulation of muscle tone.
area).
o Integration of sensory information for
▪ Personality and emotional smooth execution of movements.
regulation.
3. Brainstem
Parietal Lobe:
Connects the brain to the spinal cord and regulates
o Functions: vital functions.
▪ Processing sensory Midbrain:
information (touch,
o Functions:
temperature, pain).
▪ Visual and auditory reflexes
▪ Spatial awareness and
navigation. (e.g., turning the head toward
a sound).
▪ Integration of sensory input
▪ Regulation of motor control
(e.g., recognizing objects by
(involvement in dopamine
touch).
pathways).
Temporal Lobe:
Pons:
o Functions:
o Functions:
▪ Auditory processing
(hearing). ▪ Relays information between
the cerebrum and
▪ Memory formation cerebellum.
(hippocampus).
▪ Regulation of sleep and
▪ Language comprehension respiratory functions.
(Wernicke's area).
Medulla Oblongata:
▪ Emotion regulation
o Functions:
(amygdala).
▪ Control of autonomic
Occipital Lobe:
functions (heart rate, blood
o Functions: pressure, breathing).
▪ Visual processing ▪ Reflex centers for coughing,
(interpreting visual sneezing, and swallowing.
information).
4. Diencephalon
▪ Recognition of shapes and
colors. Located beneath the cerebrum and above the
brainstem.
2. Cerebellum
Thalamus:
Located at the back of the brain, beneath the
o Functions:
cerebrum.
Functions:
 ▪ Relay station for sensory Cerebrum: Higher cognitive functions,
information (except smell) to sensory processing, motor control,
the cerebral cortex. emotional regulation.
▪ Regulation of consciousness, Cerebellum: Coordination, balance, and
sleep, and alertness. fine motor skills.
Hypothalamus: Brainstem: Autonomic functions, reflexes,
and basic survival functions.
o Functions:
Diencephalon: Sensory relay, homeostasis,
▪ Regulation of homeostasis
and circadian rhythms.
(temperature, hunger, thirst).
Limbic System: Emotions, memory
▪ Control of the endocrine processing, and motivation.
system (via the pituitary
gland). Basal Ganglia: Motor control and learning
of routines/habits.
▪ Regulation of circadian
rhythms.
5. Limbic System 3. Cranial Nerves
A complex set of structures located beneath the The 12 pairs of cranial nerves are essential for
cerebrum. various sensory and motor functions:
Amygdala: 1. Olfactory Nerve (I): Smell.
o Functions: 2. Optic Nerve (II): Vision.
▪ Processing emotions (fear, 3. Oculomotor Nerve (III): Eye movement,
pleasure). pupil constriction.
▪ Involvement in memory and 4. Trochlear Nerve (IV): Eye movement.
emotional responses.
5. Trigeminal Nerve (V): Sensation from the
Hippocampus: face, chewing.
o Functions: 6. Abducens Nerve (VI): Eye movement.
▪ Critical for memory formation 7. Facial Nerve (VII): Facial expressions,
and spatial navigation. taste, salivary glands.
▪ Involved in learning and 8. Vestibulocochlear Nerve (VIII): Hearing
contextual memory. and balance.
6. Basal Ganglia 9. Glossopharyngeal Nerve (IX): Taste,
swallowing, salivary glands.
A group of nuclei located deep within the cerebral
hemispheres. 10. Vagus Nerve (X): Heart rate, digestive
tract, and parasympathetic control.
Functions:
11. Accessory Nerve (XI): Shoulder and neck
o Regulation of voluntary motor movement.
movements and procedural learning.
12. Hypoglossal Nerve (XII): Tongue
o Involvement in habit formation and movement.
reward processing.
Summary of Brain Functions
4. Spinal Nerves
There are 31 pairs of spinal nerves categorized by o Axon Terminals (Synaptic
region: Boutons): End of the axon where
neurotransmitters are released into
Cervical Nerves (C1-C8): Control head, the synaptic cleft.
neck, diaphragm, arms.
Thoracic Nerves (T1-T12): Control trunk
and abdominal muscles. 6. Neurotransmitters
Lumbar Nerves (L1-L5): Control lower Definition: Chemical messengers released
back and legs. by neurons to transmit signals across
synapses.
Sacral Nerves (S1-S5): Control pelvis and
legs. Mechanism of Action:
Coccygeal Nerve (Co1): Innervates the o Neurotransmitters are released from
tailbone area. the presynaptic neuron into the
synaptic cleft.
o They bind to receptors on the
5. Structure of Neurons
postsynaptic neuron, generating
Types of Neurons: excitatory or inhibitory postsynaptic
potentials.
o Unipolar Neurons: One process
extending from the cell body, Examples:
commonly found in sensory
o Acetylcholine: Involved in muscle
pathways.
activation and memory.
o Bipolar Neurons: Two processes
o Dopamine: Affects mood, reward
(one axon and one dendrite);
pathways, and motor control;
typically involved in sensory
implicated in Parkinson’s and
functions (e.g., vision).
addiction.
o Multipolar Neurons: Many
o Serotonin: Regulates mood, sleep,
dendrites and a single axon; most
and appetite; low levels are
common type, found in motor and
associated with depression.
interneurons.
o Norepinephrine: Involved in arousal
Main Parts:
and the fight or flight response.
o Cell Body (Soma): Contains the
nucleus, cytoplasm, and organelles
(e.g., mitochondria, ribosomes). 7. Reflex Formation
o Dendrites: Receive signals from Definition: A reflex is an automatic,
other neurons; contain receptors for involuntary response to a stimulus that
neurotransmitters. involves a reflex arc.
o Axon: Long projection that conducts Components of a Reflex Arc:
electrical impulses (action potentials)
away from the cell body. 1. Receptor: Detects the stimulus
(e.g., pain, pressure).
▪ Node of Ranvier: Gaps in
2. Sensory Neuron: Transmits the
the myelin sheath where
signal from the receptor to the spinal
action potentials are
cord.
regenerated, facilitating rapid
signal transmission. 3. Interneuron (in spinal cord):
Processes the information and
 connects sensory and motor of Ranvier to another, increasing the
neurons (may be absent in simple speed of transmission.
reflexes).
4. Motor Neuron: Sends the signal
9. Protective Structures
from the spinal cord to the effector
(muscle or gland). Meninges: Three protective membranes
surrounding the brain and spinal cord:
5. Effector: The muscle or gland that
responds to the motor neuron signal o Dura Mater: Tough outer layer;
(e.g., muscle contracts). provides protection and structure.
Example of a Reflex: The knee-jerk reflex o Arachnoid Mater: Middle layer;
(patellar reflex) involves tapping the patellar web-like and contains cerebrospinal
tendon, which stretches the quadriceps fluid (CSF).
muscle, causing a quick contraction.
o Pia Mater: Delicate inner layer;
closely adheres to the surface of the
brain and spinal cord.
8. Action Potential
Cerebrospinal Fluid (CSF):
Definition: An action potential is a rapid
change in the membrane potential of a o Functions: Cushions the brain,
neuron, allowing the transmission of provides nutrients, removes waste,
electrical signals along the axon. and acts as a barrier against
infection.
Phases of Action Potential:
1. Resting Potential: The neuron is at
rest (-70mV), with higher 10. Diseases and Disorders
concentrations of Na⁺ outside and K⁺
inside the cell. Multiple Sclerosis (MS): An autoimmune
disorder that damages the myelin sheath,
2. Depolarization: A stimulus causes disrupting communication between neurons.
Na⁺ channels to open, allowing Na⁺
to flow into the neuron, making the Alzheimer’s Disease: A progressive
inside more positive (up to +30mV). neurodegenerative disorder characterized
by memory loss and cognitive decline due
3. Repolarization: Na⁺ channels close, to neuron death and plaque formation.
and K⁺ channels open, allowing K⁺
to flow out, returning the membrane Parkinson’s Disease: A movement
potential to a negative value. disorder caused by the loss of dopamine-
producing neurons in the substantia nigra,
4. Hyperpolarization: The membrane leading to tremors and rigidity.
potential becomes more negative
than resting potential due to excess
K⁺ outflow. 11. Diagnostic Tools
5. Return to Resting Potential: The Electroencephalogram (EEG): Measures
sodium-potassium pump restores electrical activity of the brain; useful for
the original concentrations of Na⁺ diagnosing epilepsy and sleep disorders.
and K⁺.
Magnetic Resonance Imaging (MRI):
Propagation of Action Potential: Provides detailed images of brain
o Action potentials propagate along structures; helps detect tumors, lesions, and
myelinated axons through saltatory other abnormalities.
conduction, jumping from one Node
 Computed Tomography (CT) Scan: Uses
X-rays to create cross-sectional images;
helpful in identifying bleeding or structural
changes.

12. Conclusion
Importance of the Nervous System:
Essential for survival, enabling organisms to
perceive their environment, respond to
stimuli, and maintain homeostasis.
Future Directions: Ongoing research aims
to better understand the complexities of the
nervous system, including the development
of therapies for neurodegenerative diseases
and mental health disorders.