Peripheral Nervous System
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Jan 23, 2021
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About This Presentation
Peripheral Nervous System
Slide Content
Peripheral Nervous System
Prof. MukulSharma
Medi-Caps University, Indore
Prof. MukulSharma
Medi-Caps University, Indore
Introduction
Nervous system coordinates Voluntary and Involuntary movements of
human body and transmits signals between different body parts.
•Functions-Detect changes inside and outside of body.
•Maintains homeostasis.
•Regulate various activities of the body by rapidly using nerve impluses.
The branch of medical science that deals with structure, Functions and
diseases of nervous system is calledNeurology.
Nervous system
•1. Central nervous system 2. Peripheral Nervous system
Brain and Spinal cord Somatic SNS and Autonomic ANS
(Thoughts, Emotions, Memories)(SNS-Voluntary-sensory and motor neuron)
Prof. Mukul Sharma
Nervous system coordinates Voluntary and Involuntary movements of
human body and transmits signals between different body parts.
•Functions-Detect changes inside and outside of body.
•Maintains homeostasis.
•Regulate various activities of the body by rapidly using nerve impluses.
The branch of medical science that deals with structure, Functions and
diseases of nervous system is calledNeurology.
Nervous system
•1. Central nervous system 2. Peripheral Nervous system
Brain and Spinal cord Somatic SNS and Autonomic ANS
(Thoughts, Emotions, Memories)(SNS-Voluntary-sensory and motor neuron)
Prof. Mukul Sharma
Prof. Mukul Sharma
Fig 1: Components of Nervous System
Fig 1: Components of Nervous System
Prof. Mukul Sharma
Neurons: Structural and Functional unit of Nervous tissue.
Fig: Myelinated and Non-myelinated
neurons
Sensory neuron-Convey information from smells, taste, limbs etc. tothe CNS.
Motor neuron-Impulse from the CNS toskeletal muscles.
Neurons: Structural and Functional unit of Nervous tissue.
Fig: Myelinated and Non-myelinated
neurons
Sensory neuron-Convey information from smells, taste, limbs etc. tothe CNS.
Motor neuron-Impulse from the CNS toskeletal muscles.
Prof. Mukul Sharma
Table: Cranial Nerves (12 pairs)
Originate from nuclei in
the inferior surface of
brain, some sensory,
some motor and mixed.
Table: Cranial Nerves (12 pairs)
Originate from nuclei in
the inferior surface of
brain, some sensory,
some motor and mixed.
Prof. Mukul Sharma
Fig: Types of Neurons and Neural Junctions
Fig: Types of Neurons and Neural Junctions
Prof. Mukul Sharma
Hypoglossal (XII)
Motor
Accessory XI (Motor)
Fig: Connection between
Cranial nerves with Brain
•12 pairs of cranial nerves
•31 spinal nerve pairs,
•basis of the peripheral
nervous system.
Hypoglossal (XII)
Motor
Accessory XI (Motor)
Fig: Connection between
Cranial nerves with Brain
•12 pairs of cranial nerves
•31 spinal nerve pairs,
•basis of the peripheral
nervous system.
Spinal nerves
•Thesecondsetofperipheralnervesarespinalnerves.
•Thereare31pairs:(C8,T12,L5,S5,Co1)
•Theirnumberingrelatestothevertebralcolumnexitlevel;
cervicalspinalnervesarenumberedaccordingtothevertebra
locatedbelow,whilealltherestaccordingtothevertebra
situatedabove.
Prof. Mukul Sharma
•Thesecondsetofperipheralnervesarespinalnerves.
•Thereare31pairs:(C8,T12,L5,S5,Co1)
•Theirnumberingrelatestothevertebralcolumnexitlevel;
cervicalspinalnervesarenumberedaccordingtothevertebra
locatedbelow,whilealltherestaccordingtothevertebra
situatedabove.
Prof. Mukul Sharma
Prof. Mukul Sharma
Fig: Spinal Nerves
Fig: Spinal Nerves
Autonomic Nervous System
•The autonomic nervous system controls specific body processes, such as
circulation of blood, digestion, breathing, urination, heartbeat, etc. The
autonomicnervous system is named so, because it works autonomously,
i.e., without a person’s conscious effort.
•The primary function of the autonomic nervous system is homeostasis.
Apart from maintaining the body’s internal environment, it is also involved
in controlling and maintaining the following life processes:
•Digestion
•Metabolism
•Urination
•Defecation
Prof. Mukul Sharma
•The autonomic nervous system controls specific body processes, such as
circulation of blood, digestion, breathing, urination, heartbeat, etc. The
autonomicnervous system is named so, because it works autonomously,
i.e., without a person’s conscious effort.
•The primary function of the autonomic nervous system is homeostasis.
Apart from maintaining the body’s internal environment, it is also involved
in controlling and maintaining the following life processes:
•Digestion
•Metabolism
•Urination
•Defecation
Prof. Mukul Sharma
ANS
•Blood pressure
•Sexual response
•Body temperature
•Heartbeat
•Breathing rate
•Fluid balance
•There are two types of autonomic nervous system:
•Sympathetic autonomic nervoussystem
•Parasympathetic autonomic nervoussystem
Prof. Mukul Sharma
•Blood pressure
•Sexual response
•Body temperature
•Heartbeat
•Breathing rate
•Fluid balance
•There are two types of autonomic nervous system:
•Sympathetic autonomic nervoussystem
•Parasympathetic autonomic nervoussystem
Prof. Mukul Sharma
Autonomic Nervous System: (Involuntary)
•The ANS is responsible for providing sensory and motor innervation
tosmooth muscles,blood vessels, glands, and internal organs.As such, it
provides a coordinated regulation of visceral and glandular functions,
playing a role in maintaininghomeostasis.
•Symphathetic
•Parasymphetic
•Enteric
•Pre-ganglionic: The portion of the nerve before the ganglion is referred to
aspre-ganglionicand carries the impulse towards the cluster of cell bodies.
•Postganglionic: The portion located from the ganglion onwards is
calledpostganglionicand carries the impulse away from the cell bodies.
Prof. Mukul Sharma
•The ANS is responsible for providing sensory and motor innervation
tosmooth muscles,blood vessels, glands, and internal organs.As such, it
provides a coordinated regulation of visceral and glandular functions,
playing a role in maintaininghomeostasis.
•Symphathetic
•Parasymphetic
•Enteric
•Pre-ganglionic: The portion of the nerve before the ganglion is referred to
aspre-ganglionicand carries the impulse towards the cluster of cell bodies.
•Postganglionic: The portion located from the ganglion onwards is
calledpostganglionicand carries the impulse away from the cell bodies.
Prof. Mukul Sharma
Symphathetic and Parasymphathetic
•Thesympathetic divisionprepares the body for dealing with
periods of increased physical activity through actions such as
regulating blood vessels (often, but not always, vasoconstriction),
dilating pupils, increasing heart rate and blood pressure, and
decreasing peristalsis.
•Theparasympatheticdivisionhelps the body to conserve energy, it
has ‘rest and digest’, feeding, and breeding functions. This is carried
out by actions that slow thecardiovascular system, stimulates
gland secretion and increases peristalsis. It also involved in sexual
arousal and lacrimation (crying).
Prof. Mukul Sharma
•Thesympathetic divisionprepares the body for dealing with
periods of increased physical activity through actions such as
regulating blood vessels (often, but not always, vasoconstriction),
dilating pupils, increasing heart rate and blood pressure, and
decreasing peristalsis.
•Theparasympatheticdivisionhelps the body to conserve energy, it
has ‘rest and digest’, feeding, and breeding functions. This is carried
out by actions that slow thecardiovascular system, stimulates
gland secretion and increases peristalsis. It also involved in sexual
arousal and lacrimation (crying).
Prof. Mukul Sharma
Sympathetic Nervous System
•Thepreganglionic fibersof the sympathetic nerves leave the spinal cord
through theT1 to L2 anterior roots, entering the corresponding spinal
nerve.
•The fibers then travel through thewhite rami communicantesto
paravertebral ganglia of thesympathetic trunks, located on either side of
the vertebral column.
•Some fibers synapse here, while others travel through it without synapsing,
exiting the sympathetic trunks as thesplanchnic nerves(greater, lesser,
least, lumbar, sacral).
•These splanchnic nerves synapse closer to their target organs
inprevertebral gangliacalled celiac, aorticorenal, and mesenteric (superior
and inferior).
Prof. Mukul Sharma
•Thepreganglionic fibersof the sympathetic nerves leave the spinal cord
through theT1 to L2 anterior roots, entering the corresponding spinal
nerve.
•The fibers then travel through thewhite rami communicantesto
paravertebral ganglia of thesympathetic trunks, located on either side of
the vertebral column.
•Some fibers synapse here, while others travel through it without synapsing,
exiting the sympathetic trunks as thesplanchnic nerves(greater, lesser,
least, lumbar, sacral).
•These splanchnic nerves synapse closer to their target organs
inprevertebral gangliacalled celiac, aorticorenal, and mesenteric (superior
and inferior).
Prof. Mukul Sharma
Symphathetic Nervous System
•Thepostganglionic fibersthen project onto their target structures
either directly, or by returning through thegrey ramus
communicantesand following the path of spinal nerves throughout
the body.
•Target organs include blood vessels, sweat glands, arrector pili, the
iris, and internal organs.
•Example : Target organ is theadrenal gland.Sympathetic nervous
system activity stimulates the release of epinephrine/adrenaline via
the sympathetic-adrenal medullary system.
Prof. Mukul Sharma
•Thepostganglionic fibersthen project onto their target structures
either directly, or by returning through thegrey ramus
communicantesand following the path of spinal nerves throughout
the body.
•Target organs include blood vessels, sweat glands, arrector pili, the
iris, and internal organs.
•Example : Target organ is theadrenal gland.Sympathetic nervous
system activity stimulates the release of epinephrine/adrenaline via
the sympathetic-adrenal medullary system.
Prof. Mukul Sharma
Parasympathetic Nervous System
•Theparasympathetic nervoussystem is divided into cranial and
sacral outflows.
•The preganglionic fibers of thecranial outflowexit the
brainstem within the oculomotor, facial, glossopharyngeal, and
vagus cranial nerves.
•They synapse in the ciliary, otic, submandibular,
andentericganglia.
•The postganglionic fibers ultimately innervate salivary glands
of the head, iris andciliary musclesof theeye.
Prof. Mukul Sharma
•Theparasympathetic nervoussystem is divided into cranial and
sacral outflows.
•The preganglionic fibers of thecranial outflowexit the
brainstem within the oculomotor, facial, glossopharyngeal, and
vagus cranial nerves.
•They synapse in the ciliary, otic, submandibular,
andentericganglia.
•The postganglionic fibers ultimately innervate salivary glands
of the head, iris andciliary musclesof theeye.
Prof. Mukul Sharma
Parasympathetic Nervous System
•The preganglionic fibers of thesacral outfloware much more
restricted, only exiting the spinal cord through the anterior
roots of theS2-S4 spinal nerves.
•They travel with thepelvic splanchnic nerves, ultimately
innervating the pelvic viscera (descendingcolon, sigmoid
colon,rectum,bladder,penis/clitoris).
Prof. Mukul Sharma
•The preganglionic fibers of thesacral outfloware much more
restricted, only exiting the spinal cord through the anterior
roots of theS2-S4 spinal nerves.
•They travel with thepelvic splanchnic nerves, ultimately
innervating the pelvic viscera (descendingcolon, sigmoid
colon,rectum,bladder,penis/clitoris).
Prof. Mukul Sharma
Prof. Mukul Sharma
Difference Between Parasymphathetic and Sympathetic
Difference Between Parasymphathetic and Sympathetic
TheEnteric Nervous System(ENS)
•lies within the walls of thegastrointestinal tractand consists of
themyenteric (Auerbach)andsubmucosal (Meissner)
plexuses.
•They work together to control peristalsis within the digestive
system.
•This system is often described as the second brain because it
acts independently while only being influenced by impulses
from the ANS.
Prof. Mukul Sharma
•lies within the walls of thegastrointestinal tractand consists of
themyenteric (Auerbach)andsubmucosal (Meissner)
plexuses.
•They work together to control peristalsis within the digestive
system.
•This system is often described as the second brain because it
acts independently while only being influenced by impulses
from the ANS.
Prof. Mukul Sharma
Highlights and important notes
Locations of Neurons
1. Multipolar neuron-Several dendrites and one axon.
•Eg: present in Brain, Spinal cord
2. Bipolar Neuron-One dendrite and one axon
Eg: Retoma pf eye, Inner ear, olfactory area of brain
3. Unipolar neuron-axon and dendrite fuse into a single process that
divides into two branches a short distance from the cell body.
•Sensory neuron that begin in the embryo as bipolar neurons.
Prof. Mukul Sharma
Locations of Neurons
1. Multipolar neuron-Several dendrites and one axon.
•Eg: present in Brain, Spinal cord
2. Bipolar Neuron-One dendrite and one axon
Eg: Retoma pf eye, Inner ear, olfactory area of brain
3. Unipolar neuron-axon and dendrite fuse into a single process that
divides into two branches a short distance from the cell body.
•Sensory neuron that begin in the embryo as bipolar neurons.
Prof. Mukul Sharma
Neuroglia (Glia)
•Neuroglia: Half the volume of CNS. They are smaller than neurons. They
donot generate action potential and they can multiply and divide in the
mature nervous system
•support, nourish and protect neurons and maintain homeostasis in
intestinal fluid that bathes neurons.
•Types:
•Astrocytes(Star shaped with many process), Maintain environment for
generation of nerve impulse, provide nutrients to neurons, help in blood
brain barrier.
•Oligodendriocytes: small than astrocytes with fewer process, round and
oval body. Form supporting network around CNS network, produce myline
shealth.
Prof. Mukul Sharma
•Neuroglia: Half the volume of CNS. They are smaller than neurons. They
donot generate action potential and they can multiply and divide in the
mature nervous system
•support, nourish and protect neurons and maintain homeostasis in
intestinal fluid that bathes neurons.
•Types:
•Astrocytes(Star shaped with many process), Maintain environment for
generation of nerve impulse, provide nutrients to neurons, help in blood
brain barrier.
•Oligodendriocytes: small than astrocytes with fewer process, round and
oval body. Form supporting network around CNS network, produce myline
shealth.
Prof. Mukul Sharma
Neuroglia
•Microglia: small cells with few process, derived from
macrophages and monocytes. Protect CNS cells from diseases.
•Ependymal cells: cuboidal and colluminar cells arranged in
single layer.
Forms Cerebruspinal fluid, present in brain and spinal cord.
•Schwann cells: flattended cells that encircle PNS axon.
Participation in regeneration of PNS axon.
•Satellite cells: flattended cells arranged around the cell bodies
of neurons in ganglia.
Prof. Mukul Sharma
•Microglia: small cells with few process, derived from
macrophages and monocytes. Protect CNS cells from diseases.
•Ependymal cells: cuboidal and colluminar cells arranged in
single layer.
Forms Cerebruspinal fluid, present in brain and spinal cord.
•Schwann cells: flattended cells that encircle PNS axon.
Participation in regeneration of PNS axon.
•Satellite cells: flattended cells arranged around the cell bodies
of neurons in ganglia.
Prof. Mukul Sharma
Structure and Functions of Special
Sensory organs
Sensory organs
Special Sensory Organs
•TONGUE
•EYE
•NOSE
•EAR
Prof. Mukul Sharma
•TONGUE
•EYE
•NOSE
•EAR
Prof. Mukul Sharma
Tongue
•The tongue is a muscular organ in the mouth. The tongue is covered with
moist, pink tissue called mucosa. Tiny bumps called papillae give the
tongue its rough texture. Thousands of taste buds cover the surfaces of the
papillae. Taste buds are collections of nerve-like cells that connect to
nerves running into the brain.
•The tongue is anchored to the mouth by webs of tough tissue and mucosa.
The tether holding down the front of the tongue is called the frenum. In
the back of the mouth, the tongue is anchored into the hyoid bone. The
tongue is vital for chewing and swallowing food, as well as for speech.
•The four common tastes are sweet, sour, bitter, and salty.
•Tongueis vital for chewing and swallowing food, as well as for speech.
Prof. Mukul Sharma
•The tongue is a muscular organ in the mouth. The tongue is covered with
moist, pink tissue called mucosa. Tiny bumps called papillae give the
tongue its rough texture. Thousands of taste buds cover the surfaces of the
papillae. Taste buds are collections of nerve-like cells that connect to
nerves running into the brain.
•The tongue is anchored to the mouth by webs of tough tissue and mucosa.
The tether holding down the front of the tongue is called the frenum. In
the back of the mouth, the tongue is anchored into the hyoid bone. The
tongue is vital for chewing and swallowing food, as well as for speech.
•The four common tastes are sweet, sour, bitter, and salty.
•Tongueis vital for chewing and swallowing food, as well as for speech.
Prof. Mukul Sharma
Prof. Mukul Sharma
Structure of Tongue
Structure of Tongue
Tongue disorders
•Thrush(candidiasis):Candida albicans(a yeast) grows over the
surface of the mouth and tongue. Thrush can occur in almost
anyone, but it occurs more often in people taking steroids or with
suppressed immune systems, the very young, and the elderly.
•Oral cancer: A growth or ulcer appears on the tongue and grows
steadily. Oral cancer is more common in people who smoke and/or
drink alcohol heavily.
•Macroglossia(big tongue): These include inflammatory, traumatic,
cancerous, and metabolic causes. Thyroid disease, lymphangiomas,
and congenital abnormalities are among some of the causes of an
enlarged tongue.
Prof. Mukul Sharma
•Thrush(candidiasis):Candida albicans(a yeast) grows over the
surface of the mouth and tongue. Thrush can occur in almost
anyone, but it occurs more often in people taking steroids or with
suppressed immune systems, the very young, and the elderly.
•Oral cancer: A growth or ulcer appears on the tongue and grows
steadily. Oral cancer is more common in people who smoke and/or
drink alcohol heavily.
•Macroglossia(big tongue): These include inflammatory, traumatic,
cancerous, and metabolic causes. Thyroid disease, lymphangiomas,
and congenital abnormalities are among some of the causes of an
enlarged tongue.
Prof. Mukul Sharma
Tongue disorders
•Geographic tongue: Ridges and colored spots migrate over the
surface of the tongue, periodically changing its appearance.
Geographic tongue is a harmless condition.
•Burning mouth/burning tongue syndrome: a relatively common
problem. The tongue feels burned or scalded, or strange tastes or
sensations develop. Apparently harmless, burning mouth syndrome
may be caused by a mild nerve problem.
•Atrophic glossitis (bald tongue): The tongue loses its bumpy
texture, becoming smooth. Sometimes this is due to anemia or a B
vitamin deficiency.
Prof. Mukul Sharma
•Geographic tongue: Ridges and colored spots migrate over the
surface of the tongue, periodically changing its appearance.
Geographic tongue is a harmless condition.
•Burning mouth/burning tongue syndrome: a relatively common
problem. The tongue feels burned or scalded, or strange tastes or
sensations develop. Apparently harmless, burning mouth syndrome
may be caused by a mild nerve problem.
•Atrophic glossitis (bald tongue): The tongue loses its bumpy
texture, becoming smooth. Sometimes this is due to anemia or a B
vitamin deficiency.
Prof. Mukul Sharma
Tongue disorders
•Canker sores(aphthous ulcers): Small, painful ulcers appear periodically on the
tongue or mouth. A relatively common condition, the cause of canker sores is
unknown; they are unrelated to the cold sores caused by herpes viruses. Canker
sores are not contagious.
•Oral leukoplakia: White patches appear on the tongue that can’t be scraped off.
Leukoplakia may be benign, or it can progress to oral cancer.
•Hairy tongue: Papillae can overgrow the surface of the tongue, giving it a white
or black appearance. Scraping off the papillae corrects this harmless condition.
•Herpes stomatitis: The herpes virus can uncommonly cause cold sores on the
tongue. Herpes virus cold sores are usually on the lip.
•Lichen planus:A harmless condition that can affect the skin or the mouth. The
cause is unknown; however, it is believed to be caused by the immune system
attacking the skin and lining of the mouth.
Prof. Mukul Sharma
•Canker sores(aphthous ulcers): Small, painful ulcers appear periodically on the
tongue or mouth. A relatively common condition, the cause of canker sores is
unknown; they are unrelated to the cold sores caused by herpes viruses. Canker
sores are not contagious.
•Oral leukoplakia: White patches appear on the tongue that can’t be scraped off.
Leukoplakia may be benign, or it can progress to oral cancer.
•Hairy tongue: Papillae can overgrow the surface of the tongue, giving it a white
or black appearance. Scraping off the papillae corrects this harmless condition.
•Herpes stomatitis: The herpes virus can uncommonly cause cold sores on the
tongue. Herpes virus cold sores are usually on the lip.
•Lichen planus:A harmless condition that can affect the skin or the mouth. The
cause is unknown; however, it is believed to be caused by the immune system
attacking the skin and lining of the mouth.
Prof. Mukul Sharma
Sensory Organ-EYE
EYE
Prof. Mukul Sharma
EYE Anatomy
•Each eye constantly adjusts the amount of light it lets in, focuses on objects near and far,
and produces continuous images that are instantly transmitted to the brain.
•Theorbitis the bony cavity that contains the eyeball, muscles, nerves, and blood vessels, as
well as the structures that produce and drain tears. Each orbit is a pear-shaped structure
that is formed by several bones.
•The outer covering of the eyeball consists of a relatively tough, white layer called
thesclera(or white of the eye).
•Near the front of the eye, in the area protected by the eyelids, the sclera is covered by a
thin, transparent membrane (conjunctiva), which runs to the edge of the cornea. The
conjunctiva also covers the moist back surface of the eyelids and eyeballs.
•
Prof. Mukul Sharma
•Each eye constantly adjusts the amount of light it lets in, focuses on objects near and far,
and produces continuous images that are instantly transmitted to the brain.
•Theorbitis the bony cavity that contains the eyeball, muscles, nerves, and blood vessels, as
well as the structures that produce and drain tears. Each orbit is a pear-shaped structure
that is formed by several bones.
•The outer covering of the eyeball consists of a relatively tough, white layer called
thesclera(or white of the eye).
•Near the front of the eye, in the area protected by the eyelids, the sclera is covered by a
thin, transparent membrane (conjunctiva), which runs to the edge of the cornea. The
conjunctiva also covers the moist back surface of the eyelids and eyeballs.
•
Prof. Mukul Sharma
•Lightenterstheeyethroughthecornea,theclear,curvedlayerinfrontof
theirisandpupil.Thecorneaservesasaprotectivecoveringforthefront
oftheeyeandalsohelpsfocuslightontheretinaatthebackoftheeye.
•Afterpassingthroughthecornea,lighttravelsthroughthepupil(theblack
dotinthemiddleoftheeye).
•Theiris—thecircular,coloredareaoftheeyethatsurroundsthepupil—
controlstheamountoflightthatenterstheeye.Theirisallowsmorelight
intotheeye(enlargingordilatingthepupil)whentheenvironmentisdark
andallowslesslightintotheeye(shrinkingorconstrictingthepupil)when
theenvironmentisbright.
•Thus,thepupildilatesandconstrictsliketheapertureofacameralensas
theamountoflightintheimmediatesurroundingschanges.
Prof. Mukul Sharma
theirisandpupil.Thecorneaservesasaprotectivecoveringforthefront
oftheeyeandalsohelpsfocuslightontheretinaatthebackoftheeye.
•Afterpassingthroughthecornea,lighttravelsthroughthepupil(theblack
dotinthemiddleoftheeye).
•Theiris—thecircular,coloredareaoftheeyethatsurroundsthepupil—
controlstheamountoflightthatenterstheeye.Theirisallowsmorelight
intotheeye(enlargingordilatingthepupil)whentheenvironmentisdark
andallowslesslightintotheeye(shrinkingorconstrictingthepupil)when
theenvironmentisbright.
•Thus,thepupildilatesandconstrictsliketheapertureofacameralensas
theamountoflightintheimmediatesurroundingschanges.
Prof. Mukul Sharma
EYE Anatomy
•The size of the pupil is controlled by the action of the pupillary sphincter muscle
and dilator muscle.
•Behind the iris sits thelens. By changing its shape, the lens focuses light onto the
retina. Through the action of small muscles (called the ciliary muscles), the lens
becomes thicker to focus on nearby objects and thinner to focus on distant
objects.
•Theretinacontains the cells that sense light (photoreceptors) and the blood
vessels that nourish them. The most sensitive part of the retina is a small area
called themacula, which has millions of tightly packed photoreceptors (the type
called cones). The high density of cones in the macula makes the visual image
detailed, just as a high-resolution digital camera has more megapixels.
•
Prof. Mukul Sharma
•The size of the pupil is controlled by the action of the pupillary sphincter muscle
and dilator muscle.
•Behind the iris sits thelens. By changing its shape, the lens focuses light onto the
retina. Through the action of small muscles (called the ciliary muscles), the lens
becomes thicker to focus on nearby objects and thinner to focus on distant
objects.
•Theretinacontains the cells that sense light (photoreceptors) and the blood
vessels that nourish them. The most sensitive part of the retina is a small area
called themacula, which has millions of tightly packed photoreceptors (the type
called cones). The high density of cones in the macula makes the visual image
detailed, just as a high-resolution digital camera has more megapixels.
•
Prof. Mukul Sharma
EYE Anatomy
•Each photoreceptor is linked to a nerve fiber. The nerve fibers from the photoreceptors are
bundled together to form theoptic nerve. The optic disk, the first part of the optic nerve, is
at the back of the eye.
•Thephotoreceptorsin the retina convert the image into electrical signals, which are carried
to the brain by the optic nerve. There are two main types of photoreceptors: cones and
rods.
•Conesare responsible for sharp, detailed central vision and color vision and are clustered
mainly in the macula.
•Rodsare responsible for night and peripheral (side) vision. Rods are more numerous than
cones and much more sensitive to light, but they do not register color or contribute to
detailed central vision as the cones do. Rods are grouped mainly in the peripheral areas of
the retina.
•
Prof. Mukul Sharma
•Each photoreceptor is linked to a nerve fiber. The nerve fibers from the photoreceptors are
bundled together to form theoptic nerve. The optic disk, the first part of the optic nerve, is
at the back of the eye.
•Thephotoreceptorsin the retina convert the image into electrical signals, which are carried
to the brain by the optic nerve. There are two main types of photoreceptors: cones and
rods.
•Conesare responsible for sharp, detailed central vision and color vision and are clustered
mainly in the macula.
•Rodsare responsible for night and peripheral (side) vision. Rods are more numerous than
cones and much more sensitive to light, but they do not register color or contribute to
detailed central vision as the cones do. Rods are grouped mainly in the peripheral areas of
the retina.
•
Prof. Mukul Sharma
Eye Anatomy
•The eyeball is divided into two sections, each of which is filled with fluid.
The pressure generated by these fluids fills out the eyeball and helps
maintain its shape.
•The front section (anterior segment) extends from the inside of the cornea
to the front surface of the lens. It is filled with a fluid called theaqueous
humor, which nourishes the internal structures.
•The anterior segment is divided into two chambers. The front (anterior)
chamber extends from the cornea to the iris. The back (posterior) chamber
extends from the iris to the lens.
•Normally, the aqueous humor is produced in the posterior chamber, flows
slowly through the pupil into the anterior chamber, and then drains out of
the eyeball through outflow channels located where the iris meets the
cornea.
Prof. Mukul Sharma
•The eyeball is divided into two sections, each of which is filled with fluid.
The pressure generated by these fluids fills out the eyeball and helps
maintain its shape.
•The front section (anterior segment) extends from the inside of the cornea
to the front surface of the lens. It is filled with a fluid called theaqueous
humor, which nourishes the internal structures.
•The anterior segment is divided into two chambers. The front (anterior)
chamber extends from the cornea to the iris. The back (posterior) chamber
extends from the iris to the lens.
•Normally, the aqueous humor is produced in the posterior chamber, flows
slowly through the pupil into the anterior chamber, and then drains out of
the eyeball through outflow channels located where the iris meets the
cornea.
Prof. Mukul Sharma
Eye Anatomy
•The back section (posterior segment) extends from the back
surface of the lens to the retina. It contains a jellylike fluid
called thevitreous humor.
•Facts:
6 Millions Cones and 120 Millions Rods present in each eye.
Prof. Mukul Sharma
•The back section (posterior segment) extends from the back
surface of the lens to the retina. It contains a jellylike fluid
called thevitreous humor.
•Facts:
6 Millions Cones and 120 Millions Rods present in each eye.
Prof. Mukul Sharma
Disorders of Eye
Cataracts
•Cataracts are a degenerative form of eye disease in which the lens
gradually becomes opaque and vision mists over.
Colour blindness:
•Colour blindness is not actually blindness in the true sense but rather is a
colour vision deficiency—people who are affected by it simply do not
agree with most other people about colour matching.
Strabismus:
•Crossed eyes (or strabismus) occur when a person's eyes are not able to
align on the same point at the same time, and appear to be misaligned or
pointed in different directions.
Prof. Mukul Sharma
Cataracts
•Cataracts are a degenerative form of eye disease in which the lens
gradually becomes opaque and vision mists over.
Colour blindness:
•Colour blindness is not actually blindness in the true sense but rather is a
colour vision deficiency—people who are affected by it simply do not
agree with most other people about colour matching.
Strabismus:
•Crossed eyes (or strabismus) occur when a person's eyes are not able to
align on the same point at the same time, and appear to be misaligned or
pointed in different directions.
Prof. Mukul Sharma
Disorder of Eye
Glaucoma:
•Glaucoma occurs when a build-up of fluid in the eye creates pressure,
damaging the optic nerve.
•Ratinal Detechment :
•When the retina detaches, light sensitive membrane in the back of the eye
becomes separated from the nerve tissue and blood supply underneath it.
•Conjuctivitis
•Pink eye (conjunctivitis) is an inflammation or infection of the transparent
membrane (conjunctiva) that lines your eyelid and covers the white part of
your eyeball. When small blood vessels in the conjunctiva become
inflamed, they're more visible and seems in red/pink in color.
Prof. Mukul Sharma
Glaucoma:
•Glaucoma occurs when a build-up of fluid in the eye creates pressure,
damaging the optic nerve.
•Ratinal Detechment :
•When the retina detaches, light sensitive membrane in the back of the eye
becomes separated from the nerve tissue and blood supply underneath it.
•Conjuctivitis
•Pink eye (conjunctivitis) is an inflammation or infection of the transparent
membrane (conjunctiva) that lines your eyelid and covers the white part of
your eyeball. When small blood vessels in the conjunctiva become
inflamed, they're more visible and seems in red/pink in color.
Prof. Mukul Sharma
Disorder of Eye
Anemia:
•At the macula, hemorrhages, edema, or hard exudates can cause
impairment ofvision. Alternatively,visionloss may occur due to
disc edema or optic neuropathy.
•Cotton wool spots: Retinal nerve fiber layer infarction due to
retinal hypoxia inanemiacauses these superficial fluffy white
lesions.
Cataract:
•cataractis a dense, cloudy area that forms in the lens of the eye.
This diseasesthat are linked with the development
ofcataractsinclude glaucoma and diabetes.
Prof. Mukul Sharma
Anemia:
•At the macula, hemorrhages, edema, or hard exudates can cause
impairment ofvision. Alternatively,visionloss may occur due to
disc edema or optic neuropathy.
•Cotton wool spots: Retinal nerve fiber layer infarction due to
retinal hypoxia inanemiacauses these superficial fluffy white
lesions.
Cataract:
•cataractis a dense, cloudy area that forms in the lens of the eye.
This diseasesthat are linked with the development
ofcataractsinclude glaucoma and diabetes.
Prof. Mukul Sharma
Sensory organ-Ear
Prof. Mukul Sharma
Anatomy of Ear
The ear is the organ of hearing and balance. The parts of the ear
include:
External or outer ear, consisting of:
–Pinna or auricle.This is the outside part of the ear.
–External auditory canal or tube.This is the tube that connects the outer
ear to the inside or middle ear.
•Tympanic membrane (eardrum).The tympanic membrane divides
the external ear from the middle ear.
Prof. Mukul Sharma
The ear is the organ of hearing and balance. The parts of the ear
include:
External or outer ear, consisting of:
–Pinna or auricle.This is the outside part of the ear.
–External auditory canal or tube.This is the tube that connects the outer
ear to the inside or middle ear.
•Tympanic membrane (eardrum).The tympanic membrane divides
the external ear from the middle ear.
Prof. Mukul Sharma
Anatomy of Ear
Middle ear (tympanic cavity)
•Ossicles.Three small bones that are connected and transmit the sound
waves to the inner ear. The bones are called:
•Malleus
•Incus
•Stapes
–Eustachian tube.A canal that links the middle ear with the back of the nose. The
eustachian tube helps to equalize the pressurein the middle ear.Equalized
pressure is neededfor the proper transfer of sound waves. The eustachian tube
is lined with mucous, just like the inside of the nose and throat.
Inner ear, consisting of:
–Cochlea.This contains the nerves for hearing.
–Vestibule.This contains receptors for balance.
–Semicircular canals.This contains receptors for balance.
Prof. Mukul Sharma
Middle ear (tympanic cavity)
•Ossicles.Three small bones that are connected and transmit the sound
waves to the inner ear. The bones are called:
•Malleus
•Incus
•Stapes
–Eustachian tube.A canal that links the middle ear with the back of the nose. The
eustachian tube helps to equalize the pressurein the middle ear.Equalized
pressure is neededfor the proper transfer of sound waves. The eustachian tube
is lined with mucous, just like the inside of the nose and throat.
Inner ear, consisting of:
–Cochlea.This contains the nerves for hearing.
–Vestibule.This contains receptors for balance.
–Semicircular canals.This contains receptors for balance.
Prof. Mukul Sharma
Mechanism of Ear
•Hearing starts with the outer ear. When a sound is made outside the outer
ear, the sound waves, or vibrations, travel down the external auditory canal
and strike the eardrum (tympanic membrane). The eardrum vibrates.
•The vibrations are then passed to 3 tiny bones in the middle ear called the
ossicles. The ossicles amplify the sound. They send the sound waves to the
inner ear and into the fluid-filled hearing organ (cochlea).
•Once the sound waves reach the inner ear, they are converted into
electrical impulses. The auditory nerve sends these impulses to the brain.
The brain then translates these electrical impulses as sound.
Functions of Ear: Hearing and body balance.
Prof. Mukul Sharma
•Hearing starts with the outer ear. When a sound is made outside the outer
ear, the sound waves, or vibrations, travel down the external auditory canal
and strike the eardrum (tympanic membrane). The eardrum vibrates.
•The vibrations are then passed to 3 tiny bones in the middle ear called the
ossicles. The ossicles amplify the sound. They send the sound waves to the
inner ear and into the fluid-filled hearing organ (cochlea).
•Once the sound waves reach the inner ear, they are converted into
electrical impulses. The auditory nerve sends these impulses to the brain.
The brain then translates these electrical impulses as sound.
Functions of Ear: Hearing and body balance.
Prof. Mukul Sharma
Ear disorders
•A variety of conditions may affect your hearing orbalance:
•Ear infectionsare the most common illness in infants and young children.
•Tinnitus,a roaring in your ears, can be the result of loud noises, medicines
or a variety of other causes.
•Meniere's diseasemay be the result of fluid problems in your inner ear; its
symptoms include tinnitus and dizziness.
•Ear barotraumais an injury to your ear because of changes in barometric
(air) or water pressure.
•Ear blockage: Due to excess wax production or any obstacles in passage.
•Deafness: Loss of hearing.
Prof. Mukul Sharma
•A variety of conditions may affect your hearing orbalance:
•Ear infectionsare the most common illness in infants and young children.
•Tinnitus,a roaring in your ears, can be the result of loud noises, medicines
or a variety of other causes.
•Meniere's diseasemay be the result of fluid problems in your inner ear; its
symptoms include tinnitus and dizziness.
•Ear barotraumais an injury to your ear because of changes in barometric
(air) or water pressure.
•Ear blockage: Due to excess wax production or any obstacles in passage.
•Deafness: Loss of hearing.
Prof. Mukul Sharma
Prof. Mukul Sharma
Structure of Nose
Structure of Nose
Nose
•The nasal cavity extends from the external opening, the nostrils, to
thepharynx(the upper section of the throat), where it joins the
remainder of the respiratory system.
•It is separated down the middle by thenasal septum, a piece of
cartilage which shapes and separates the nostrils.
•Each nostril can be further divided into roof, floor, and walls.
•The nasal cavity can be divided into the vestibule, respiratory and
olfactory sections.
•
Prof. Mukul Sharma
•The nasal cavity extends from the external opening, the nostrils, to
thepharynx(the upper section of the throat), where it joins the
remainder of the respiratory system.
•It is separated down the middle by thenasal septum, a piece of
cartilage which shapes and separates the nostrils.
•Each nostril can be further divided into roof, floor, and walls.
•The nasal cavity can be divided into the vestibule, respiratory and
olfactory sections.
•
Prof. Mukul Sharma
Anatomy of Nose
•Nasal vestibule
Thenasal vestibuleis the dilated area at the nostril opening.
•Respiratory section
The respiratory section of the nasal cavity refers to the passages through
which air travels into the respiratory system. The respiratory section of
each nostril contains fourconchae (protrusions or bumps) which are also
referred to as turbinate bones or lobes and are covered by the nasal
mucosa. Underlying these conchae are meatuses(passages to interior
body structures). The meatuses of the nasal cavity connect to the
paranasal sinuses.
•Olfactory region
The olfactory receptors (receptors for smell sensations) are found in this
section of the nasal cavity.Bowman’s glandsare also found in this section
of the nasal cavity.
Prof. Mukul Sharma
•Nasal vestibule
Thenasal vestibuleis the dilated area at the nostril opening.
•Respiratory section
The respiratory section of the nasal cavity refers to the passages through
which air travels into the respiratory system. The respiratory section of
each nostril contains fourconchae (protrusions or bumps) which are also
referred to as turbinate bones or lobes and are covered by the nasal
mucosa. Underlying these conchae are meatuses(passages to interior
body structures). The meatuses of the nasal cavity connect to the
paranasal sinuses.
•Olfactory region
The olfactory receptors (receptors for smell sensations) are found in this
section of the nasal cavity.Bowman’s glandsare also found in this section
of the nasal cavity.
Prof. Mukul Sharma
Nose Common Disorder
Sinusitis:sinus infections, congestion, and airway blockage.
•Symptoms : Pain in your face, upper teeth or in your ear, and
drainage that is obstructed or abnormal, or nasal congestion.
Symptoms of congestion include feelings of pressure in your
head, headaches, and dizziness. Airway blockage of the nose is
not being able to breathe properly through the nose.
•Reasons : Allergies, to viral or bacterial infections produced
septum.
Prof. Mukul Sharma
Sinusitis:sinus infections, congestion, and airway blockage.
•Symptoms : Pain in your face, upper teeth or in your ear, and
drainage that is obstructed or abnormal, or nasal congestion.
Symptoms of congestion include feelings of pressure in your
head, headaches, and dizziness. Airway blockage of the nose is
not being able to breathe properly through the nose.
•Reasons : Allergies, to viral or bacterial infections produced
septum.
Prof. Mukul Sharma
References
•Waugh Anne, Grant Allison, Ross & Wilson: Anatomy and
physiology in health & illness 2006, edition 10
th
, Elsevier
publication.
•Tortora GJ, Derrickson B, Principles of anatomy & physiology
2007, edition 11
th
, John wiley & sons. Inc.
•Ingawale K D., Mandlik K. S., Human Anatomy and Physiology,
Fourth edition, 2018, Nirali pakashan.
Prof. Mukul Sharma
•Waugh Anne, Grant Allison, Ross & Wilson: Anatomy and
physiology in health & illness 2006, edition 10
th
, Elsevier
publication.
•Tortora GJ, Derrickson B, Principles of anatomy & physiology
2007, edition 11
th
, John wiley & sons. Inc.
•Ingawale K D., Mandlik K. S., Human Anatomy and Physiology,
Fourth edition, 2018, Nirali pakashan.
Prof. Mukul Sharma
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