2. Prehension Introduction
• Grip
1. Prehension (gripping) is an
advanced skill in humans,
resulting largely from the
ability of the thumb to oppose
the fingers.
2. Two types of grip may be
described, ‘precision’ involving
the thumb and fingers and
‘power’, involving the whole
hand.
3. Power grip
Power grip is the result of a sequence of
(1) opening the hand,
(2) positioning the fingers,
(3) bringing the fingers to the object, and
(4) maintaining a static phase that actually constitutes the grip.
Cylindrical Grip
4. Spherical Grip
used to hold round objects against an
arched palm, wrist stability and intrinsic
and extrinsic hand muscle strength
contribute to the ability to hold an apple,
a ball or a round doorknob.
5. Hook Grip (Cylindrical Grasp)
occurs when an object is stabilized against
the palm by finger flexion, intrinsic and
thenar muscles are essential to the power of
this grasp.ex: include holding a drinking
glass, hammer, or pot handle.
The major muscular activity is provided by
the flexor digitorum profundus and flexor
digitorum superficialis muscles.
The load may be sustained completely by
one muscle or the other or by both muscles
6. Lateral prehension
• Contact occurs between two
adjacent fingers.
metacarpophalangeal and
interphalangeal joints are usually
maintained in extension as the
contiguous metacarpophalangeal
joints simultaneously abduct and
adduct.
• Lateral prehension is included
here as a form of power grip
because lateral grip involves the
static holding of an object that is
then moved by the more
proximal joints of the upper
extremity
7. Precision Handling
The positions and muscular requirements of precision handling are
somewhat more variable than those of power grip, require much
finer motor control, and are more dependent on intact sensation.
The three varieties of precision handling that exemplify
this mode of prehension
8. Pad-to-pad prehension
• Pad-to-pad prehension involves opposition of the pad, or
pulp, of the thumb to the pad, or pulp, of th
• The pad of the distal phalanx of each digit has the greatest
concentration of tactile corpuscles found e finger
• The thumb in pad-to-pad prehension is held in
carpometacarpal flexion, abduction, and rotation
(opposition).
• The first metacarpophalangeal and interphalangeal joints
may be partially flexed or fully extended. The thenar
muscle control is provided by the opponens pollicis, flexor
pollicis brevis, and abductor pollicis brevis muscles, each of
which is innervated by the median nerve. The adductor
pollicis activity (ulnar nerve innervated) increases with
increased pressure of pinch. In ulnar nerve paralysis, loss
of adductor pollicis function (as well as loss of function of
the first dorsal interossei and first volar interossei muscles)
makes the thumb less stable and affects the precision of
the grasp activity
9. tip-to-tip prehension,
•The MCP joint of the opposing finger
must also be ulnarly deviated (with
fingertip pointed radially) to present the
tip of the finger to the thumb. In the first
finger, the ulnar deviation occurs as MCP
joint adduction. In the remaining fingers,
MCP abduction produces ulnar deviation
•Activity of the flexor digitorum
profundus, flexor pollicis longus, and
interossei muscles
10. Pad to-side prehension
•Also known as key grip (or lateral pinch)
because a key is held between the pad of the
thumb and side of the index finger.
The activity level of the flexor pollicis brevis
muscle increases and that of the opponens
pollicis muscle decreases, in comparison with
tip-to-tip prehension.
11. FUNCTIONAL POSITION OF THE WRIST
AND HAND
• The functional position is
(1) wrist complex in slight extension
(20°) and slight ulnar deviation (10˚)
(2) fingers moderately flexed at the
metacarpophalangeal joints (45°)
and proximal interphalangeal joints
(30°) and slightly flexed at the distal
interphalangeal joints
• The wrist position optimizes the
power of the finger flexors so that
hand closure can be accomplished
with the least possible effort.