GENERAL EXTERORECEPTORS
| A | A alpha | |
| B | A beta | |
| C | A gamma | |
| D | A delta |
| A | A alpha | |
| B | A beta | |
| C | A gamma | |
| D | A delta |
A delta
Ruffini end organ is associated with sensation of:
| A |
Pain |
|
| B |
Heat |
|
| C |
Stretch |
|
| D |
Pressure |
Ruffini’s corpuscles are Stretch receptors. They are spindle shaped encapsulated structures located in the lower part of the dermis and resembles the golgi tendon organs in the musculotendineous junction. They respond to stimulation over large areas of skin. They are associated with slowly adapting (SA) fibers that respond as long as the stimulus is present.
- Low-threshold (or high-sensitivity) mechanoreceptors: because even weak mechanical stimulation of the skin induces them to produce action potentials. All low-threshold mechanoreceptors are innervated by relatively large myelinated axons (type Aβ;, ensuring the rapid central transmission of tactile information.
Classification of the cutaneous mechanoreceptors by function
|
Receptor type |
Anatomy |
Axon type |
Location |
Function |
Rate of adaptation |
Threshold of activation |
|
Freenerve endings |
Minimally specializednerve endings |
C, Aδ |
All skin |
Pain, temperature, crude touch |
Slow |
High |
|
Meissner’s corpuscles |
Encapsulated Between dermal papillae |
Aβ 6–12 μm |
Principally glabrous skin |
Touch, pressure (dynamic) |
Rapid |
Low |
|
Pacinian corpuscles |
Encapsulated Onionlike covering |
Aβ 6–12 μm |
Subcutaneous tissue, interosseous membranes, viscera |
Deep pressure, vibration (dynamic) |
Rapid |
Low |
|
Merkel’s disks |
Associated with peptide- releasing cells |
Aβ |
All skin, hair follicles |
Touch, pressure (static) |
Slow |
Low |
|
Ruffini’s corpuscles |
Encapsulated Oriented along stretch lines |
Aβ 6–12 μm |
All skin |
Stretching of skin |
Slow |
Low |
Ref: Neuroscience, 2nd edition, Edited by Dale Purves, George J Augustine, chapter 9.
| A | A beta fiber | |
| B |
A delta fiber |
|
| C |
B fiber |
|
| D |
C fiber |
Ruffini end organ is associated with sensation of:
| A |
Sustained Pressure |
|
| B |
Heat |
|
| C |
Touch |
|
| D |
None of the above |
Which of the following phrase adequately describes Pacinian corpuscles
| A |
A type of pain receptors |
|
| B |
Slowly adapting touch receptors |
|
| C |
Rapidly adapting touch receptors |
|
| D |
Located in the joints |
Pacinian corpuscles are rapidly acting touch receptors. They are ovoid structures about 1mm in length. They contain the axon terminal which is surrounded by several concentric lamellae made of very thin flat cells separated by narrow gel filled spaces.
| A |
Total loss of pain sensation |
|
| B |
Total loss of touch sensation |
|
| C |
Loss of tactile localization but not of two point discrimination |
|
| D |
Loss of tactile localization and two point discrimination |
D i.e. Loss of tactile localization & two point discrimination
Functions & Lesions
Somatosensory area I (SI)
Primary somatosensory area (SI) is Brodmann’s area 1, 2, 3 situated in postcentral gyrus. Ablation of SI would lead to cortical pattern of sensory loss. Lesion in this area produce contralateral impairment of:
– TouchQ – Sterognosis
– Pressure – Barognosis
– Proprioception – Cutaneographia
– Two point discrimationQ
|
Spinal cord lesion |
Brainstem lesion |
Thalamic lesion |
Cortical lesion |
|
Five patterns are seen depending |
Loss of pain & temperature |
Hemisensory loss of |
Patients is able to recognize all |
|
upon whether there is: |
on ipsitateral face and |
all modalitiesQ |
sensation but localizes them |
|
– Complete transaction |
opposite side of bodyQ. |
|
poorly |
|
– Hemisection |
(Lateral medullary |
|
– Loss of two point |
|
– Central cord section |
syndrome)Q |
|
discriminationQ |
|
– Posterior column section |
[Mn: TOP = Temp & Pain |
|
– AsteregnosisQ (loss of touch |
|
– Anterior column section |
Opposite side] |
|
sensation) |
|
|
|
|
– Sensory inattention |
Pacinian corpuscles transmit which sensation:
| A | Touch | |
| B | Taste | |
| C |
Cold |
|
| D |
Heat |
A i.e. Touch
Kinesthetic sensation is:
| A |
Transmitted by the (3-type of sensory nerve) |
|
| B |
Located in Merkl’s disc |
|
| C |
Transmitted by Meissner’s corpuscles |
|
| D |
Means abnormal perception of sensation |
A i.e. Transmitted by the 13- type of sensory nerve
Kinesthetic sensation is ability to perceive the extent, direction or rate of movements. i.e. perception of touch and pressure and is therefore transmitted by Afl type of fibersQ.
September 2009
| A |
Meissner corpuscles |
|
| B |
Merkel cells |
|
| C |
Ruffini corpuscles |
|
| D |
Pacician corpuscles |
Ans. A: Meissner corpuscles
Sensory organs and their responses:
- Meissner corpuscles-Responds to changes in texture and slow vibrations
- Merkel cells-responds to sustained pressure and touch
- Ruffini corpuscles-respond to sustained pressure
- Pacician corpuscles-respond to deep pressure and fast vibration
| A | Meissner’s corpuscle | |
| B |
Merkel’s disc |
|
| C |
Pacinian corpuscle |
|
| D |
Ruffini’s end organ |
Ans. is ‘c’ i.e., Pacinian corpuscle
Tactile (touch) receptors
These are general exteroreceptors for epicritic senses. These are divided into superficial and deep receptors.
Superficial receptors are present in the epidermis or papillary layer of dermis. In glabrous (nonhairy) skin these receptors are Merkel’s disc (slowly adapting) and Meissner ‘s corpuscle (rapidly adapting). In hairy skin there are hair follicle receptors.
Deep receptors are present in deeper dermis or in the subcutaneous tissues. The deep receptors are same in both hair and nonhairy skin and include Ruffini’s end organ (slowly adapting) and Pacinian corpuscle (Rapidly adapting).
Touch, pressure and vibration are different forms of same sensation. Pressure is felt when the force applied on the skin is sufficient to reach the deep receptors, whereas touch is felt when the force is insufficent to reach the deep receptors, therefore detected by superficial receptors (Merkel’s disc, meissner’s corpuscle). Vibrations are rhythmic variations in pressure (i.e. rhymic variations of force that reaches the deep receptors). Whether a tactile receptor senses pressure or vibration depends on whether the receptor is slowly adapting or slowly adaping :‑
i) Slowly adapting (Ruffini’s end organ) :- Are meant to detect sustained pressure; they are useless for vibrations.
ii) Rapidly adapting (Pacinian corpuscle) :- Stop discharge in response to sustained pressure; they are useful only when the pressure fluctuates rapidly, i.e. during vibrations. The higher the rate of adaptation of a receptor, the greater is the vibration frequency it can detect.
Thus, tactile (touch) sensation can be divided into :‑
A) Superficial (generally considered as touch) :- Detected by Meissner ‘s corpuscle (detect texture of surface, i.e. rough or smooth) and Merkel’s disc (detect two point discrimination).
B) Deep
i) Pressure (Deep touch) :- Detected by Ruffini’s end organ.
ii) Vibrations :- Detected by Pacinian corpuscle
