Hand and Wrist Anatomy PDF

Summary

This document provides a detailed overview of hand and wrist anatomy, covering topics such as bones, joints, muscles, blood supply, and innervation. It's designed to be a study guide for students learning about this human body part.

Full Transcript

XY2141: Hand and Wrist

Gemma-Louise Tibbitts PA-R
[email protected]
Learning Outcomes

Describe the bones and regions of the wrist, hand and fingers

Identify and name the joints of the wrist and fingers

Describe and demonstrate the movements of the wrist (radiocarpal),

metacarpophalangeal and interphalangeal joints and those of the thumb

Name the intrinsic (short) muscles and function across the wrist and within the hand

Discuss the blood supply and innervation to the wrist and hand

Apply anatomical knowledge to clinical correlations related to the wrist, hand and

fingers
The Hand

The hand is the most distal part of the upper limb. It is subdivided into three parts:
The wrist (carpus)
The palm (metacarpus)
The digits (fingers) Index

Middle

Ring

Resting position - fingers form a flexed arcade, with the Little

little finger flexed the most and the index finger the Thumb

least
Surfaces and regions of the Hand

Palmar surface - palm side

Dorsal surface - back of the hand

Ulnar side - towards the little finger

Radial side - towards the thumb

Heel - area of the hand at the bases of the metacarpal bones on the palmar side
Bones of the Hand
There are 27 bones of the hand

5

4

5

5

8
Carpal bones - (wrist bones)
8 small, irregularly shaped bones that work together to allow for movement of the wrist.
Starting at the thumb and moving in an anticlockwise direction

Scaphoid So

Lunate Long

Triquetrum To

Pisiform Pinky

Hamate Here

Capitate Comes

Trapezoid The

Trapezium Thumb
Carpal bones - (wrist bones)

Proximal row of carpal bones:

Scaphoid - articulates proximally with the radius to form the radial border of the

carpal tunnel.

Lunate - articulates proximally with the radius

Triquetrum - lies on the medial side of the

proximal row of carpal bones

Pisiform - forms the ulnar border of the

carpal tunnel
Carpal bones - (wrist bones)

Distal row of carpal bones:

Hamate - articulates with 4 carpal bones and

the 4th and 5th metacarpals

Capitate - largest carpal bone, articulates with 4

carpal bones and the 3rd metacarpal

Trapezoid - articulates with 3 carpal bones and the 2nd metacarpal

Trapezium - articulates with the scaphoid and the trapezoid as well as the 1st and

2nd metacarpal. The trapezium has a distinct tubercle on the palmar surface which

projects anteriorly.
Clinical relevance - Scaphoid bone fracture
The scaphoid bone is the most commonly fractured carpal bone - typically by
falling on an outstretched hand. Fracture passes through the narrowest part of the
bone.

Pain is typically felt in and around the ‘anatomical snuffbox’ - triangular depression
found on the lateral aspect of the dorsum.

Scaphoid bone
Anatomical snuffbox fracture
Metacarpal bones - (palm bones)
Each palm has 5 metacarpal bones that articulate proximally with one of the with one
of the distal carpal bones forming a carpometacarpal joint. They also articulate
distally with the phalanges forming a metacarpophalangeal joint.

Each metacarpal has a head, body and base

Our knuckles are formed by the head of each
metacarpal

The first metacarpal bone is separated from all Metacarpo-
the other metacarpal bones which form the base Head
phalangeal joint
of the hand. This allows free movement of the Body
Carpometacarpal
first metacarpal, independent of all the other
Base joint
metacarpals bones.
Phalanges (bones that make up the fingers)

The term phalange originates from the Greek work ‘phalanx’ which means a compact
body of heavily armed men in battle array (Greek military formation). In other words
the bones that make up our fingers are lined up in a similar way to the way soldiers
stand side by side, several rows deep.

Each finger apart from the thumb has 3 phalanges - proximal, intermediate and distal
The thumb (pollux) only has 2 phalanges

There are 14 phalanges in total that make up
the bones of the fingers and thumb
Distal phalanges
These are the bones that run from the intermediate
phalanges until the end of the hand - (thumb is an
exception)- 5

Intermediate phalanges
These are the bones that run from the proximal
phalanges until the second joint - 4

Proximal phalanges
These are the bones that run from the metacarpals
until the first joint - 5
Joints - phalanges
In between each phalange is a joint
Joints - Interphalangeal joints
Synovial hinge joints that sit between the phalanges

Since the thumb only has a proximal and distal phalanx, the joint between them
is simply known as the interphalangeal joint of the thumb
Distal
interphalangeal
joint
Digits 2-5 have a proximal, middle and distal
phalanx so they have 2 interphalangeal joints.
These are the proximal interphalangeal joint (PIP) Proximal
and distal interphalangeal joint (DIP) interphalangeal
joint

Interphalangeal joint of the
thumb
Joints - Interphalangeal joints
Movements: flexion and extension (flexion is much more achievable than extension
in these joints). Extension in PIPJ is up to 2° and in the DIPJ up to 5°

Typical range of motion at the proximal interphalangeal joint (PIPJ) and the distal interphalangeal joint (DIPJ)
Joints - Metacarpophalangeal joint

This joint is an articulation between the metacarpal head and the base of the proximal
phalanx. All of the movements at the joint are produced by muscles of the forearm and
hand

Movements of digits 2-5 = Flexion, extension, adduction, abduction
Joints - Metacarpophalangeal joint

Movements of the thumb = flexion, extension, adduction, abduction, axial rotation

Flexion Extension Adduction Abduction
Joints - Radiocarpal joint

Radiocarpal joint (main wrist joint) - A synovial joint that lies between the radius
and the three proximal carpal bones (scaphoid, lunate and triquetrum)

An ellipsoid joint – allows for movement along two
planes – back and front, and side to side
 Radiocarpal joint movement

Flexion Extension

Adduction/ulnar flexion Abduction/radial flexion
Palmar aponeurosis (Palmar fascia)
Transverse fibres of
palmar aponeurosis

Palmar aponeurosis is a triangular shaped sheet of
connective fibres that lie just beneath the skin. It
converges near the wrist and radiates out to the base
of the fingers.

Apex of the triangle is continuous with the palmaris
longus tendon.

Its function is to protect underlying structures such
as the tendons, vessels and nerves.

Flexor retinaculum

Palmaris longus
tendon
Clinical relevance - Dupuytren’s contracture

Dupuytren’s contracture is caused by proliferation of collagen within the palmar
facia. It causes the palmar aponeurosis to thicken and contract, causing the little
and ring finger to flex.

Treatment is with physiotherapy, steroid injection or even surgical excision of the
bands in advanced cases
Flexor retinaculum & Carpal tunnel

Flexor reticulum is a strong fibrous band on the
palmar side that arches over the carpal bones and
turns it into a tunnel known as the carpal tunnel

Flexor retinaculum
Clinical relevance - Carpal Tunnel Syndrome

The median nerve travels through the Carpal Tunnel. Pressure on the median nerve
within the carpal tunnel causes pain, numbness and tingling in the distribution of the
median nerve.

Causes:
Overuse
Swelling of tendons and tendon sheaths
(e.g rheumatoid arthritis)
Cysts at carpal joints
Compressed
nerve
Flexor reticulum
Carpal ligament
Carpal arch Carpal tunnel
Median nerve

Carpal tunnel
Muscles
The muscles that act on the hand can be divided into two groups:

Extrinsic muscles - long muscles that originate in the forearm and insert in the
hand, responsible for forcefully gripping

Intrinsic muscles - short muscles located within the hand, execute precision
movements of the fingers and thumb or fine motor functions of the hand
Muscles

The intrinsic muscles of the hand consist of five groups:
Thenar muscles
Hypothenar muscles
Lumbricals
Palmar interossei
Dorsal interossei
Thenar muscles
Three short muscles located at the base of the thumb, make up the thenar eminence

Flexor Pollicis Brevis

Abductor Pollicis Brevis

Opponens Pollicis
Thenar muscles - Flexor Pollicis Brevis

Origin: tubercle of the trapezium & flexor retinaculum

Insertion: base of the proximal phalanx of the thumb

Actions: flexes the metacarpophalangeal joint of the
thumb (bends the thumb)

Innervation: Median and ulnar nerve
Thenar muscles - Abductor Pollicis Brevis

Origin: tubercle of the scaphoid and trapezium &
flexor retinaculum

Insertion: base of the proximal phalanx of the thumb

Actions: abducts the thumb (moves the thumb away
from the hand)

Innervation: Median and ulnar nerve
Thenar muscles - Opponens Pollicis

Origin: tubercle of the trapezium & flexor retinaculum

Insertion: 1st metacarpal bone

Actions: thumb flexion, abduction, and medial
rotation resulting in a combined movement called
opposition (allows the tip of the thumb to touch the
tips of the other fingers on the same hand)

Innervation: Median nerve
Adductor pollicis
Although found in the thenar region is does not form part of the thenar muscle group

One muscle comprised of two heads

Origin - palmar base of the second metacarpal bone,

third metacarpal bone and the capitate bone

Insertion - base of the first proximal phalanx

Function - adduction of the thumb
Hypothenar muscles

Three short muscles located at the base of the little finger (medial side of the palm),
makes up the hypothenar eminence

Flexor digiti
minimi brevis Opponens digiti
Abductor digiti minimi
minimi
Hypothenar muscles - Abductor digiti minimi

The most superficial of the hypothenar muscle group

Origin: Pisiform and tendon of the flexor carpi ulnaris

Insertion: Base of the proximal phalanx of the little
finger

Actions: Abducts the little finger

Innervation: Ulnar nerve
Hypothenar muscles - Flexor digiti minimi brevis

Lies laterally to the abductor digiti minimi

Origin: Hook of hamate and adjacent flexor
retinaculum

Insertion: Base of the proximal phalanx of the little
finger

Actions: Flexes the metacarpophalangeal joint of
the little finger

Innervation: Ulnar nerve
Hypothenar muscles - Opponens digiti minimi

Lies deep to the other hypothenar muscles

Origin: Hook of hamate and associated flexor
retinaculum

Insertion: Medial margin of metacarpal 5

Actions: Rotates the metacarpal of the little finger
towards the palm

Innervation: Ulnar nerve
Palmaris brevis

Thin, short, quadrangular shaped muscle that lies over the hypothenar muscles

Origin: Palmar aponeurosis and flexor reticulum

Insertion: Dermis of the skin on the medial margin
of the hand

Action: Helps the hand to form a cup shape which
improves grip

Innervation: Ulnar nerve Palmaris brevis
Mid-hand muscles
There are 3 groups of mid-hand muscles

Lumbricals - There are 4 lumbricals in the hand, each associated with a finger and
found between the metacarpal bones, deep to the palmar fascia

They are essential for finger movement. They flex the
fingers at the metacarpophalangeal joints and extend
them at the interphalangeal joints. These actions
allow for the hands to grip. 2
3
1
4
Lumbricals
Each lumbrical muscle arises from one or two adjacent tendons of the flexor digitorum
profundus muscle

Lumbricals 1 and 2 are usually
unipennate, meaning their fibers arise
obliquely from one tendon.

Lumbricals 3 and 4 are bipennate, 2
3
meaning their fibers arise from two 1
4
adjacent tendons

Tendons of the flexor digitorum profundus muscle
Lumbricals
Lumbrical 1 = arises from the radial side of the tendon of the index finger

Lumbrical 2 = arises from the radial side of the tendon of
the middle finger

Lumbrical 3 = arises from the ulnar side of the middle
finger tendon and the radial side of the ring finger tendon

Lumbrical 4 = arises from the ulnar side of the ring 2
3
finger tendon and the radial side of the little finger 1
4
tendon

All pass distally along radial side of corresponding
finger and attach onto the lateral margin of the
proximal phalanges, digits 2-5
Lumbricals

Nerve innervation:
2
1st and 2nd lumbrical supplied by median nerve 3
1
4
3rd and 4th lumbricals supplied by ulnar nerve
Dorsal interossei

4 short bipennate muscles found on the dorsal aspect 2 3 4
(back) of the hand. They occupy the space between the 5
metacarpal bones. Think interossei (inbetween)
1
bipennate (feather like)

2 heads that converge distally before attaching
onto a central tendon 2 3
4
1
Dorsal interossei - origin and insertion

1 - arises from metacarpal bones 1 & 2. Fibers converge
distally before inserting onto the radial side of the base of
the 2nd digit proximal phalanx 3 4
2
2 - arises from metacarpal bones 2 & 3. Fibers converge 5
distally before inserting onto the radial side of the base of
1
the 3rd digit proximal phalanx

3 - arises from metacarpal bones 3 & 4. Fibers converge
distally before inserting onto the ulnar side of the base of 2 3
4
the 3rd digit proximal phalanx 1

4 - arises from metacarpal bones 4 & 5. Fibers converge
distally before inserting onto the ulnar side of the base of
the 4th digit proximal phalanx
Dorsal interossei - function & innervation

Function - Abduction of the index, middle and
ring fingers at the metacarpophalangeal joints 2 3 4
5
Innervation - all are innervated by the ulnar nerve
1

2 3
4
1
Palmar interossei

3 unipennate muscles that lie on the palmar surface, occupying the space between
the metacarpal bones 3
2
4
1 arises from the ulna side of metacarpal bone 2 and
inserts onto the ulna side of the base of the proximal 5
phalanx of digit 2
1
2 arises from the radial side of metacarpal bone 4 and
inserts onto the radial side of the base of the proximal
phalanx of digit 4 1 2
3
3 arises from the radial side of metacarpal bone 5 and
inserts onto the radial side of the base of the proximal
phalanx of digit 5
Palmar interossei - function and innervation

3
Function - Abduction of the digits at the 2
4
metacarpophalangeal joints

5
Innervation - Ulnar nerve

1

1 2
3
Intrinsic muscles - Summary

Thenar: Hypothenar: Mid-hand:
Flexor pollicis brevis Flexor digiti minimi brevis Lumbricals
Abductor pollicis brevis Abductor digiti minimi Dorsal interossei
Opponens pollicis Opponens digiti minimi Palmar interossei

Thenar region: Hypothenar region:
Adductor pollicis Palmaris brevis
Blood supply of the hand

The two main sources of blood supply to the
hand are the ulnar and radial arteries, both of
which originate from the brachial artery.

Both the ulnar and radial arteries branch
and continue into the hand forming a
complex vascular network that can be
divided into palmar and dorsal
components
Blood supply - Superficial palmar arch

Main continuation of the ulnar artery but
has a minor supply from the radial artery.

Gives rise to the common digital
arteries which then divide into the
proper digital arteries at the web
spaces. These proper digital arteries run
either side of the finger to supply the
fingers with blood.
Blood supply - Deep palmar arch

Main continuation of the radial artery but
has a minor supply from the ulnar artery.

Gives rise to the princeps pollicis artery
and the radial artery of index finger.

Supplies the deep hand
structures

The thumb and the radial side of the
index finger are exceptions. They
receive branches directly from the
radial artery before it forms the deep
palmar arch
Clinical relevance - Allens test

Allens test is a test used in clinical practice to check for adequate anastomoses
(connections) between the radial and ulnar arteries
Venous drainage - dorsal view

Just like the arteries the hand contains interconnected networks of superficial and
deep veins.

Dorsal digital veins drain into the dorsal
Dorsal digital veins
metacarpal veins which then drains into the
dorsal venous network that lies on the back
of the hand over the metacarpal bones

Dorsal metacarpal
Cephalic vein originates from the lateral side veins

of the dorsal venous network
Dorsal venus network

Basilic vein originates from the medial side of
the dorsal venous network

Cephalic vein Basilic vein
Venous drainage - palmar view

Deep veins accompany the major arteries of the hand and as a result tend to have
the same name as their arterial counterparts

Palmar digital veins drain blood from
the palmar aspect of the fingers. They
empty into both the superficial venous
palmar arch and the dorsal digital
veins
Palmar digital veins

Palmar metacarpal veins drain Palmar digital veins
into the dorsal metacarpal veins
Palmar metacarpal
and the deep venous palmar arch veins

Superficial venous
palmar arch
Deep venous
palmar arch
Innervation of the hand

The nerves of the hand and wrist originate from the brachial
plexus (located at the root of the neck)

There are 3 nerves from the brachial plexus that go on to
innervate the hand and wrist. These are the:
Median nerve
Ulnar nerve
Radial nerve
Median nerve

Ulnar nerve
Ulnar nerve
Innervation of the hand

Median Nerve - supplies sensation to the radial 3 and a half fingers on the palmar
aspect and 2 and a half finger nail beds on the dorsal aspect. Also supplies the radial
2/3rds of the palm through the palmar cutaneous branch.

Radial Nerve - supplies sensation to the radial 3 and a half fingers on the dorsal
surface through the dorsal sensory branch

Ulnar Nerve - supplies the
Median nerve
ulnar 1 and a half fingers
on both the palmar and
dorsal aspects

Ulnar nerve
Ulnar nerve
References