Difference between revisions of "Forelimb - Anatomy & Physiology"
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− | + | <big><center>[[Musculoskeletal System - Anatomy & Physiology|'''BACK TO MUSCULOSKELETAL ANATOMY AND PHYSIOLOGY''']]</center></big> | |
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− | + | ==Common structures of the Proximal Forelimb and Shoulder== | |
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− | + | '''''Scapula''''' | |
− | Medial muscle attachment | + | The Scapula forms the basis of the shoulder region, providing points of attachment of extrinsic and intrinsic muscles. It is held in place by a synsarcosis of muscles and does not form a conventional articulation with the trunk. |
+ | *In ungulates, the dorsal border is extended by a scapular cartilage, which enlarges the area for muscle attachment. This ossifies with age. | ||
+ | *The bone is roughly triangular, with a prominent '''spine''' that can be palpated through the skin | ||
+ | *The spine defines '''Infraspinous''' and '''Supraspinous''' '''Fossae''', inhabited by muscles accordingly | ||
+ | *The spine serves as a point of attachment for the '''trapezius''' muscle | ||
+ | *The spine culminates in the '''acromion''' in all but the horse and pig | ||
+ | *Medial muscle attachment comprises mostly of the '''subscapularis''', with the '''serratus ventralis''' attaching dorsally | ||
+ | *The Scapula articulates with the humerus at the '''Glenoid cavity''' | ||
− | + | '''''Clavicle''''' | |
− | The Clavicle is all but absent in most domestic species, with the notable exception of the avian skeleton. In the dog and cat, a remnant of bone may remain embedded in the fibrous intersection in the brachiocephalicus | + | The Clavicle is all but absent in most domestic species, with the notable exception of the avian skeleton. In the dog and cat, a remnant of bone may remain embedded in the fibrous intersection in the brachiocephalicus, which may prove misleading in radiographic images. |
− | + | '''''Humerus''''' | |
− | The Humerus is the long bone of the | + | The Humerus is the long bone of the forearm, articulating with the scapula to form the shoulder and the radius and ulna to form the elbow. In situ, it lies obliquely along the ventral thorax and is more horizontal in larger species. |
− | The head of the humerus comprises '''greater''' and '''lesser tubercles''', separated by an '''intertubercular groove''' through which runs the tendon of the '''biceps brachii''' | + | *The head of the humerus comprises '''greater''' and '''lesser tubercles''', separated by an '''intertubercular groove''' through which runs the tendon of the '''biceps brachii''' |
− | + | *The shaft of the humerus takes on a characteristically twisted shape via a groove carrying the '''brachialis''' and '''radial nerve''' | |
− | + | *Laterally, the '''deltoid tuberosity''' is palpable through the skin and connects to the head of the humerus via a ridge and merges distally with the '''crest of the humerus''' | |
− | + | *Distally, the humerus culminates in a '''condyle''' which articulates to form the elbow | |
− | + | **In large animals, it meets the radius via a '''trochlea''' | |
− | + | **In dogs and cats, it articulates with the radius medially via a trochlea and the ulna laterally via a '''capitulum''' | |
− | + | **Caudally, all species show an '''olecranon fossa''' which articulates with the '''olecranon''' of the ulna | |
− | Medial and lateral epicondyles provide attachment for flexors and extensors of the carpus and digits | + | *Medial and lateral epicondyles provide attachment for flexors and extensors of the carpus and digits |
==Joints of the Proximal Forelimb== | ==Joints of the Proximal Forelimb== | ||
− | + | '''''Shoulder Joint''''' | |
− | The shoulder joint links the humerus and the scapula at the '''glenoid cavity''', which is much smaller than the head of the humerus. While | + | The shoulder joint links the humerus and the scapula at the '''glenoid cavity''', which is much smaller than the head of the humerus. While structually it is a [[Joints - Anatomy & Physiology#Types of Joints|'''ball and socket''']] joint, it functions as a [[Joints - Anatomy & Physiology#Types of Joints|'''hinge joint''']] due to extensive muscling around the articulation. The joint capsule is enlarged and extends under the tendon of the biceps, acting as a synovial sheath to protect the tendon. |
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− | + | '''''Elbow Joint''''' | |
− | + | Movement of the elbow joint is restricted to the [[Planes and Axes - Anatomy & Physiology|sagittal plane]]. It is bounded medially and laterally by collateral ligaments betweek the humerus and radius, caudally by the olecranon ligament between the humerus and olecranon, and further enforced by the annular radial ligament. The elbow is a compound joint including: | |
− | + | *The [[Joints - Anatomy & Physiology#Types of Joints|'''hinge joint''']] between the humerus and the radius and ulna | |
− | Movement of the elbow joint is restricted to the [[Planes and Axes - Anatomy & Physiology|sagittal plane]]. It is bounded medially and laterally by collateral ligaments | + | *The [[Joints - Anatomy & Physiology#Types of Joints|'''pivot joint''']] between the radius and ulna |
− | *The [[Joints - Anatomy & Physiology#Types of Joints|'''hinge joint''']] between the humerus and the radius and ulna | + | *The point of the elbow, or the '''olecranon''' is formed by the anconeal process of the ulna inserting into the olecranon fossa of the humerus |
− | *The [[Joints - Anatomy & Physiology#Types of Joints|'''pivot joint''']] between the radius and ulna | ||
− | *The point of the elbow, or the '''olecranon''' is formed by the anconeal process of the ulna inserting into the olecranon fossa of the humerus | ||
+ | ==Common Structures of the Distal Forelimb== | ||
+ | '''''Radius''''' | ||
+ | While in the human the radius and ulna are separated by an interosseus space and articulate only at their extremities, allowing for significant capability of supination and pronation, these movements are much more limited in domestic animals due to the gradual fusing of the two bones. The extreme case is exhibited by the horse. | ||
− | + | *The Radius forms the shaft-like rod of the distal limb, which is bowed to varying degrees amont species | |
− | + | *The radius articulates proximally with the distal humerus, caudally with the ulna, and distally with the carpus | |
+ | *Medially on the distal articular process, a '''styloid process''' projects, which is mirrored laterally by the ulna | ||
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− | + | '''''Ulna''''' | |
− | + | The Ulna's greatest contribution to functional anatomy is in the formation of the '''Olecranon''', or the point of the elbow, which gives rise to the attachment of the '''triceps'''. The olecranon articulates with the humerus via its anconeal process. Distally (where unfused), the '''lateral styloid process''' articulates with the '''ulnar carpal bone'''. | |
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− | + | '''''Carpal bones''''' | |
Carpal bones comprise two rows: | Carpal bones comprise two rows: | ||
− | *Proximally, (mediolaterally), radial, intermediate, ulnar and accessory bones | + | *Proximally, (mediolaterally), radial, intermediate, ulnar and accessory bones |
− | *Distally, bones are numbered 1-5, though 5 is always fused with 4 | + | **The accessory bone serves as a landmark for palpation |
+ | *Distally, bones are numbered 1-5, though 5 is always fused with 4 | ||
+ | *A small [[Bones and Cartilage - Anatomy & Physiology#Types of Bone|'''sesamoid''']] bone embedded in the medial tissues of the joint can sometimes be mistaken as a chip fracture | ||
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− | + | '''''Metacarpal bones''''' | |
− | The number of metacarpals varies widely among species, as the demand for their function changes: '''plantigrade''', or flat-footed, animals requiring the full complement of five metacarpal bones; the number is reduced in the upright stature of '''digitigrade''' animals such as the dog and cat, and shows the extreme in '''unguligrades''' like the horse, | + | The number of metacarpals varies widely among species, as the demand for their function changes: '''plantigrade''', or flat-footed, animals requiring the full complement of five metacarpal bones; the number is reduced in the upright stature of '''digitigrade''' animals such as the dog and cat, and shows the extreme in '''unguligrades''' like the horse, who depends entirely on the third metacarpal bone for its stature. |
− | + | *Colloquially, the third metacarpal of the horse is known as the '''canon''' bone, and the vestigial 2 and 4 as '''splint bones''' | |
− | Colloquially, the third metacarpal of the horse is known as the '''canon''' bone, and the vestigial 2 and 4 as '''splint bones''' | ||
==Joints of the Distal Forelimb== | ==Joints of the Distal Forelimb== | ||
− | + | '''''Carpal Joint''''' | |
The carpal joint is a compound joint composed of: | The carpal joint is a compound joint composed of: | ||
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*The '''carpometacarpal joint''' between the distal carpal bones and the proximal metacarpals | *The '''carpometacarpal joint''' between the distal carpal bones and the proximal metacarpals | ||
− | The joint is a synovial joint, | + | The joint is a synovial joint, comprised of a common outer fibrous capsule and three inner synovial pouches, one for each joint. Numerous ligaments add to the stability of the joint and ensure movement is largely limited to the [[Planes and Axes - Anatomy & Physiology|sagittal plane]], although no collateral ligaments exist in the dog between the radius and the proximal metacarpals. This allows a very small amount of rotation. |
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− | The metacarpal joint is defined by the presence of palmar [[Bones - Anatomy & Physiology#Types of Bone|'''sesamoids''']], which allow the flexor tendons to pass over the sharp change in angle presented by the joint. | + | '''''Metacarpal Joint''''' |
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+ | The metacarpal joint is defined by the presence of palmar [[Bones and Cartilage - Anatomy & Physiology#Types of Bone|'''sesamoids''']], which allow the flexor tendons to pass over the sharp change in angle presented by the joint. These are paired on each digit, with the exception of the first digit where it exists. | ||
==Muscles of the Forelimb== | ==Muscles of the Forelimb== | ||
− | ===Extrinsic Musculature=== | + | ===Extrinsic Musculature Forelimb=== |
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− | + | These muscle are responsible for joining tht forelimb to the trunk, forming a synsarcosis rather than a conventional joint. Collectively, they act to transfer the weight of the body to the forelimbs as well as stabilize the scapula. | |
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− | ''''' | + | '''''Trapezius''''' |
− | : | + | *Origin: mid-dorsal raphe and supraspinous ligament |
− | : | + | *Insertion: spine of the scapula |
− | : | + | *Body: two parts, cervical and thoracic separated by aponeurosis |
− | + | *Action: raises scapula against the trunk and swings cranially to advance the limb | |
− | ''''' | + | '''''Brachiocephalic m.''''' |
− | + | *Two parts separated by the clavicle | |
− | : | + | *Caudal: '''cleidobrachialis''' |
− | + | **passes between clavicle and humerus and functions as part of the deltoideus | |
− | + | *Cranial: | |
− | + | **passes cranially to clavicle to several attachments in the head and neck | |
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− | + | '''''Omotransversarius''''' | |
− | + | *Origin: transverse processes of the atlas | |
− | + | *Insertion: acromion and adjacent scapula | |
− | + | *Action: advancing the limb | |
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− | :Action: | ||
− | + | '''''Latissimus dorsi''''' | |
− | + | '''''Pectoral mm.''''' | |
− | + | '''''Serratis ventralis''''' | |
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− | ''''' | + | '''[[Deep Musculature Forelimb - Anatomy & Physiology|Deep Musculature]]''' |
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− | + | '''[[Muscles of the Elbow - Anatomy & Physiology|Muscles of the Elbow]]''' | |
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+ | '''[[Muscles of Supination and Pronation - Anatomy & Physiology|Muscles of Supination and Pronation]]''' | ||
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− | + | '''[[Muscles of the Carpal and Digital Joints - Anatomy & Physiology|Muscles of the Carpal and Digital Joints]]''' | |
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==Species Specifics== | ==Species Specifics== | ||
− | + | *[[Canine Forelimb - Anatomy & Physiology|Canine Forelimb]] | |
− | + | *[[Equine Forelimb - Anatomy & Physiology|Equine Forelimb]] | |
− | + | *[[Bovine Forelimb - Anatomy & Physiology|Bovine Forelimb]] | |
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Revision as of 14:04, 14 August 2008
Common structures of the Proximal Forelimb and Shoulder
Scapula
The Scapula forms the basis of the shoulder region, providing points of attachment of extrinsic and intrinsic muscles. It is held in place by a synsarcosis of muscles and does not form a conventional articulation with the trunk.
- In ungulates, the dorsal border is extended by a scapular cartilage, which enlarges the area for muscle attachment. This ossifies with age.
- The bone is roughly triangular, with a prominent spine that can be palpated through the skin
- The spine defines Infraspinous and Supraspinous Fossae, inhabited by muscles accordingly
- The spine serves as a point of attachment for the trapezius muscle
- The spine culminates in the acromion in all but the horse and pig
- Medial muscle attachment comprises mostly of the subscapularis, with the serratus ventralis attaching dorsally
- The Scapula articulates with the humerus at the Glenoid cavity
Clavicle
The Clavicle is all but absent in most domestic species, with the notable exception of the avian skeleton. In the dog and cat, a remnant of bone may remain embedded in the fibrous intersection in the brachiocephalicus, which may prove misleading in radiographic images.
Humerus
The Humerus is the long bone of the forearm, articulating with the scapula to form the shoulder and the radius and ulna to form the elbow. In situ, it lies obliquely along the ventral thorax and is more horizontal in larger species.
- The head of the humerus comprises greater and lesser tubercles, separated by an intertubercular groove through which runs the tendon of the biceps brachii
- The shaft of the humerus takes on a characteristically twisted shape via a groove carrying the brachialis and radial nerve
- Laterally, the deltoid tuberosity is palpable through the skin and connects to the head of the humerus via a ridge and merges distally with the crest of the humerus
- Distally, the humerus culminates in a condyle which articulates to form the elbow
- In large animals, it meets the radius via a trochlea
- In dogs and cats, it articulates with the radius medially via a trochlea and the ulna laterally via a capitulum
- Caudally, all species show an olecranon fossa which articulates with the olecranon of the ulna
- Medial and lateral epicondyles provide attachment for flexors and extensors of the carpus and digits
Joints of the Proximal Forelimb
Shoulder Joint
The shoulder joint links the humerus and the scapula at the glenoid cavity, which is much smaller than the head of the humerus. While structually it is a ball and socket joint, it functions as a hinge joint due to extensive muscling around the articulation. The joint capsule is enlarged and extends under the tendon of the biceps, acting as a synovial sheath to protect the tendon.
Elbow Joint
Movement of the elbow joint is restricted to the sagittal plane. It is bounded medially and laterally by collateral ligaments betweek the humerus and radius, caudally by the olecranon ligament between the humerus and olecranon, and further enforced by the annular radial ligament. The elbow is a compound joint including:
- The hinge joint between the humerus and the radius and ulna
- The pivot joint between the radius and ulna
- The point of the elbow, or the olecranon is formed by the anconeal process of the ulna inserting into the olecranon fossa of the humerus
Common Structures of the Distal Forelimb
Radius
While in the human the radius and ulna are separated by an interosseus space and articulate only at their extremities, allowing for significant capability of supination and pronation, these movements are much more limited in domestic animals due to the gradual fusing of the two bones. The extreme case is exhibited by the horse.
- The Radius forms the shaft-like rod of the distal limb, which is bowed to varying degrees amont species
- The radius articulates proximally with the distal humerus, caudally with the ulna, and distally with the carpus
- Medially on the distal articular process, a styloid process projects, which is mirrored laterally by the ulna
Ulna
The Ulna's greatest contribution to functional anatomy is in the formation of the Olecranon, or the point of the elbow, which gives rise to the attachment of the triceps. The olecranon articulates with the humerus via its anconeal process. Distally (where unfused), the lateral styloid process articulates with the ulnar carpal bone.
Carpal bones
Carpal bones comprise two rows:
- Proximally, (mediolaterally), radial, intermediate, ulnar and accessory bones
- The accessory bone serves as a landmark for palpation
- Distally, bones are numbered 1-5, though 5 is always fused with 4
- A small sesamoid bone embedded in the medial tissues of the joint can sometimes be mistaken as a chip fracture
Metacarpal bones
The number of metacarpals varies widely among species, as the demand for their function changes: plantigrade, or flat-footed, animals requiring the full complement of five metacarpal bones; the number is reduced in the upright stature of digitigrade animals such as the dog and cat, and shows the extreme in unguligrades like the horse, who depends entirely on the third metacarpal bone for its stature.
- Colloquially, the third metacarpal of the horse is known as the canon bone, and the vestigial 2 and 4 as splint bones
Joints of the Distal Forelimb
Carpal Joint
The carpal joint is a compound joint composed of:
- The antebrachiocarpal joint between the radius/ulna and the proximal carpal bones
- The middle carpal joint between the two rows of carpal bones
- The carpometacarpal joint between the distal carpal bones and the proximal metacarpals
The joint is a synovial joint, comprised of a common outer fibrous capsule and three inner synovial pouches, one for each joint. Numerous ligaments add to the stability of the joint and ensure movement is largely limited to the sagittal plane, although no collateral ligaments exist in the dog between the radius and the proximal metacarpals. This allows a very small amount of rotation.
Metacarpal Joint
The metacarpal joint is defined by the presence of palmar sesamoids, which allow the flexor tendons to pass over the sharp change in angle presented by the joint. These are paired on each digit, with the exception of the first digit where it exists.
Muscles of the Forelimb
Extrinsic Musculature Forelimb
These muscle are responsible for joining tht forelimb to the trunk, forming a synsarcosis rather than a conventional joint. Collectively, they act to transfer the weight of the body to the forelimbs as well as stabilize the scapula.
Trapezius
- Origin: mid-dorsal raphe and supraspinous ligament
- Insertion: spine of the scapula
- Body: two parts, cervical and thoracic separated by aponeurosis
- Action: raises scapula against the trunk and swings cranially to advance the limb
Brachiocephalic m.
- Two parts separated by the clavicle
- Caudal: cleidobrachialis
- passes between clavicle and humerus and functions as part of the deltoideus
- Cranial:
- passes cranially to clavicle to several attachments in the head and neck
Omotransversarius
- Origin: transverse processes of the atlas
- Insertion: acromion and adjacent scapula
- Action: advancing the limb
Latissimus dorsi Pectoral mm. Serratis ventralis
Muscles of Supination and Pronation
Muscles of the Carpal and Digital Joints