touch

Question 1

Kinesthesis

Answer 1

The perception of body position and movement of our limbs in space

Question 2

Proprioception

Answer 2

Perception of balance mediated by kinesthetic and vestibular receptors

Question 3

Somatosensation

Answer 3

A collective term for sensory signals from the skin and organs. What we commonly refer to as “touch

Question 4

Touch receptors

Answer 4

Embedded on outer layer (epidermis) and underlying layer (dermis) of skin
* Multiple types of touch receptors

Question 5

Each touch receptor can be categorized by three criteria:

Answer 5

1. Type of stimulation to which the receptor responds
2. Size of the receptive field
3. Rate of adaptation (fast versus slow)

Question 6

Tactile receptors

Answer 6

Called “mechanoreceptors” because they respond to mechanical stimulation: Pressure, vibration, or movement
Meissner corpuscles
Merkel cell disks
Pacinian corpuscles
Ruffini endings ‘

Question 7

Kinesthetic receptors

Answer 7

Play an important role in sense of where limbs are, what kinds of movements are made

Question 8

Muscle spindle

Answer 8

A sensory receptor located in a muscle that senses its tension

Question 9

Importance of kinesthetic receptors

Answer 9

dependent on vision to tell limb positions

Question 10

Thermoreceptors

Answer 10

• Sensory receptors that signal information about changes in skin temperature
• Two distinct populations of thermoreceptors: warmth fibers, cold fibers
• Body is constantly regulating internal temperature
• Thermoreceptors respond when you make contact with an object warmer or colder than your skin

Question 11

Nociceptors:

Answer 11

• Sensory receptors that transmit information about noxious stimulation that causes damage or potential damage to skin
• Two groups of nociceptors:

A-delta fibers: Intermediate-sized, myelinated sensory nerve fibers that transmit pain and temperature signals

C fibers: Narrow-diameter, unmyelinated sensory nerve fibers that transmit pain and temperature signals

Question 12

Benefit of pain perception

Answer 12

• Sensing dangerous objects
• Case of “Miss C” :

Born with insensitivity to pain
Did not sneeze, cough, gag, or blink reflexively
Suffered injuries such as burning herself on radiator and biting tongue while chewing food
Died at age 29 from infections that could have been prevented if she sensed pain

Question 13

Touch sensations travel as far as 2 meters to get from skin and muscles of feet to brain!

Answer 13

• Information must pass through spinal cord
• Axons of various tactile receptors combine into single nerve trunks
• Two major pathways from spinal cord to brain:
  Spinothalamic pathway: Carries most of the information about skin temperature and pain (slower)
  Dorsal column–medial lemniscal (DCML) pathway: Carries signals from skin, muscles, tendons, and joints

Question 14

Touch sensations are represented somatotopically in the brain:

Answer 14

• Primary somatosensory cortex called S1; secondary somatosensory cortex called S2
• Analogous to retinotopy found in vision
• Adjacent areas on skin connect to adjacent areas in brain § Homunculus: Maplike representation of regions of the body in the brain
• Brain contains several sensory maps of body in different areas of S1 and also in S2

Question 15

Phantom limb:

Answer 15

Sensation perceived from a physically amputated limb of the body.

Parts of brain listening to missing limbs not fully aware of altered connections, so they attribute activity in these areas to stimulation from missing limb

Question 16

Pain

Answer 16

• Pain sensations triggered by nociceptors
• Responses to noxious stimuli can be moderated by anticipation, religious belief, prior experience, watching others respond, and excitement

Example: Wounded soldier in battle who does not feel pain until after battle

Question 17

Analgesia:

Answer 17

Decreasing pain sensation during conscious experience

• Soldier in above example: Experienced effect because of endogenous opiates - chemicals released in body to block release or uptake of neurotransmitters transmitting pain sensation to brain
• Externally produces substances have similar effect: Morphine, heroin, codeine

Question 18

Gate control theory of pain

Answer 18

• Description of the system that transmits pain that incorporates modulating signals from the brain.
• Feedback circuit located in substantia gelatinosa of dorsal horn of spinal cord
• Gate neurons that block pain transmission can be activated by extreme pressure, cold, or other noxious stimulation applied to another site distant from the source of pain.

Question 19

Pain sensitization:

Answer 19

• Nociceptors provide signal when there is impending or ongoing damage to body’s tissue: “Nociceptive” pain
• Once damage has occurred, site can become more sensitive: Hyperalgesia
• Pain as a result of damage to or dysfunction of nervous system: Neuropathic
• No single pain medication will alleviate all types of pain

Question 20

Cognitive aspects of pain

Answer 20

• Pain is generally a subjective experience with two components: Sensation of painful stimulus and emotion that accompanies it
• Areas S1 and S2 are responsible for sensory aspects of pain
• Recently, researchers have identified areas of brain that correspond to more cognitive aspects of painful experiences:
  Anterior cingulate: A region of the brain associated with the perceived unpleasantness of pain sensations
  Prefrontal cortex: A region of the brain concerned with cognition and executive control. May contribute to pain sensitization

Question 21

Pleasant touch

Answer 21

Mediated by unmyelinated peripheral C fibers known as “C tactile afferents” (CT afferents)
CT afferents not related to pain or itch
Respond best to slowly moving, lightly applied forces (e.g., petting, tickle)
Processed in orbitofrontal cortex rather than S1 or S2

Question 22

Max von Frey (1852–1932):

Answer 22

measure tactile sensitivity
* Used horse and human hairs
* Modern researchers use nylon monofilaments of varying diameters

Hairs or monofilaments of varying diameters are pressed against the skin to see if the pressure can be sensed
* Sensitivity to mechanical pressure varies over the body
Face is most sensitive
Trunk and upper extremities (arms and fingers) most sensitive after face
Lower extremities (thigh, calf, and foot) less sensitive

Question 23

What is the smallest raised element that can be felt on an otherwise smooth surface?

Answer 23

• People can detect a bump only 1 micrometer high at 75% accuracy!
• Dot triggers FA I receptors, which also help detect slippage of objects while being grasped

Surface with many dots a fraction of a micrometer high can be detected when moved across the skin via FA II receptors deep in skin

Question 24

How finely can we resolve spatial details?

Answer 24

• Two-point threshold: The minimum distance at which two stimuli are just perceptible as separate
• Like sensitivity to pressure, spatial acuity varies across the body
  Extremities (fingertips, face, and toes) show the highest acuity

Question 25

How finely can we resolve temporal details?

Answer 25

• Two tactile pulses can be delivered over time, in a manner analogous to spatially separated two-point threshold stimuli
• Touch: Sensitive to time differences of only 5 ms
• Vision: Sensitive to time differences of 25 ms
• Audition: Sensitive to time differences of 0.01 ms!

Question 26

Haptic perception:

Answer 26

• Knowledge of the world that is derived from sensory receptors in skin, muscles, tendons, and joints, usually involving active exploration

Question 27

Perception for action

Answer 27

Using somatosensation to control our impressive ability to grasp and manipulate objects in a stable and highly coordinated manner and to maintain proper posture and balance

Question 28

Action for perception

Answer 28

Using our hands to actively explore the world of surfaces and objects outside our bodies

Question 29

Exploratory procedure

Answer 29

A stereotyped hand movement pattern used to contact objects in order to perceive their properties; each exploratory procedure is best for determining one or more object properties

Question 30

The What system of touch

Answer 30

• Geometric properties of objects are most important for visual recognition.
• Material properties of objects are crucial for haptic recognition
  Two-dimensional pictures of objects are recognized easily visually but poorly haptically

Question 31

Haptic search

Answer 31

Task: Recognize presence of material properties that are presented haptically to the fingers with a special device

• Do some material properties “pop out”?

Yes: Rough among smooth, hard among soft, cool among warm, edged surfaces among smooth surfaces

No: Horizontal lines among vertical lines
“Pop out” stimuli for vision and touch are different

Question 32

Perceiving patterns with the skin

Answer 32

• Braille alphabet consists of raised dots
• Jack Loomis: Touch acts like blurred vision when the fingertips explore a raised pattern

Visual stimuli blurred to match the acuity of fingertip skin

Visual stimuli and haptic stimuli showed same confusion errors

Question 33

Tactile agnosia:

Answer 33

• The inability to identify objects by touch
• Caused by lesions to the parietal lobe
• Patient documented by Reed and Caselli (1994):

Tactile agnosia with right hand but not left hand
Could not recognize objects such as a key chain in right hand, but could with left hand or visually » Rules out a general loss of knowledge about objects
Other sensory abilities were normal in both hands

Question 34

The Where system of touch:

Answer 34

• Knowing where objects are in the environment when only using touch perception
• Example: Finding snooze button on alarm clock in the morning
• Frame of reference: The coordinate system used to define locations in space
• Egocenter: The center of a reference frame used to represent locations relative to the body.

Question 35

Body image: The impression of our body in space

Answer 35

• Our body image is highly changeable
• It is possible to induce an out-of-body experience:
  Subject wears stereo goggles that receive input from camera behind subject

Experimenter strokes subject’s chest with a plastic rod while simultaneously moving a rod in the same manner to stroke the subject’ s “phantom chest”
Subject reports viewing their own body from behind

Question 36

Spence, Pavani, and Driver (2000):

Answer 36

Spatial cueing paradigm used to test integration of visual and tactile modalities

• Arrow indicated which hand might receive a vibration
  Vibration could be a pulse or sustained. Task was to identify which occurred
• Most cues valid, some invalid § Participants faster with valid cues and slower with invalid cues

Question 37

Spence, Nicholls, and Driver (2001)

Answer 37

performed a cross-modal version of the Spence, Pavani, and Driver (2000) experiment
Led participants to expect a stimulus to be presented in one modality and sometimes presented it in another
* Greatest cost for invalid cues occurred when tactile stimulus expected but visual or auditory stimulus presented instead
Implies that sense of touch may have a very restricted attentional channel

Question 38

Tadoma

Answer 38

Method by which those who are both deaf and blind can perceive speech in real time using their hands

Question 39

Tactuator

Answer 39

Virtual display device that mimics sensations from Tadoma method
* Virtual surgery

Question 40

Anterior cingulate cortex

Answer 40

responsible for pain (central region of the brain )

Question 41

Prefrontal cortex

Answer 41

calms down anterior cingulate cortex

Question 42

OFC

Answer 42

is for pleasure