Difference between revisions of "Bovine Hindlimb - Anatomy & Physiology"

From WikiVet English
Jump to navigation Jump to search
m
 
(14 intermediate revisions by 4 users not shown)
Line 1: Line 1:
{{toplink
+
{{OpenPagesTop}}
|backcolour =CDE472
 
|linkpage =Musculoskeletal System - Anatomy & Physiology
 
|linktext =Musculoskeletal System
 
|maplink = Musculoskeletal System (Content Map) - Anatomy & Physiology
 
|pagetype =Anatomy
 
|sublink1=Hindlimb - Anatomy & Physiology
 
|subtext1=HINDLIMB
 
}}
 
<br>
 
 
 
 
==Pelvic Girdle and Hip==
 
==Pelvic Girdle and Hip==
 
===Bones===
 
===Bones===
The pelvic girdle is formed by two hip bones which are joined ventrally at the cartilagenous '''pelvic symphysis''' and articulate dorsally with the sacrum. The three components of each hip bone are the [[Ilium - Anatomy and Physiology|Ilium]], [[Pubis - Anatomy & Physiology|pubis]] and [[Ischium - Anatomy & Physiology|ischium]].  
+
The pelvic girdle is formed by two hip bones which are joined ventrally at the cartilagenous '''pelvic symphysis''' and articulate dorsally with the sacrum. The three components of each hip bone are the [[Hindlimb - Anatomy & Physiology#Ilium |Ilium]], [[Hindlimb - Anatomy & Physiology#Pubis|pubis]] and [[Hindlimb - Anatomy & Physiology#Ischium|ischium]].  
  
The bone that articulates with the hip bones to form the hip joint is the [[Femur - Anatomy & Physiology|Femur]].
+
The bone that articulates with the hip bones to form the hip joint is the [[Hindlimb - Anatomy & Physiology#Femur|Femur]].
  
 
====Bovine Bone Specifics====
 
====Bovine Bone Specifics====
  
*'''[[Ilium - Anatomy and Physiology|Ilium]]'''   
+
*'''[[Hindlimb - Anatomy & Physiology#Ilium|Ilium]]'''   
 
**In the cow the '''tuber coxae''' is visible and is readily palpable.  
 
**In the cow the '''tuber coxae''' is visible and is readily palpable.  
 
**The '''sacral tuber''' has two prominences; the cranial and caudal dorsal iliac spines.   
 
**The '''sacral tuber''' has two prominences; the cranial and caudal dorsal iliac spines.   
Line 24: Line 14:
 
**The '''ileal wing''' is orientated in a vertical manner.
 
**The '''ileal wing''' is orientated in a vertical manner.
  
*'''[[Ischium - Anatomy & Physiology|Ischium]]'''
+
*'''[[Hindlimb - Anatomy & Physiology#Ischium|Ischium]]'''
 
** The '''ischial tuberosity''' is triangular in shape.
 
** The '''ischial tuberosity''' is triangular in shape.
  
*'''[[Femur - Anatomy & Physiology|Femur]]'''
+
*'''[[Hindlimb - Anatomy & Physiology#Femur|Femur]]'''
 
** The '''greater trochanter''' extends further dorsally compared to the femoral head.
 
** The '''greater trochanter''' extends further dorsally compared to the femoral head.
 
** The medial and lateral condylar ridges are very assymetrical with the medial ridge being larger.
 
** The medial and lateral condylar ridges are very assymetrical with the medial ridge being larger.
Line 38: Line 28:
 
* The '''sacrotuberous ligament''' is a broad sheet-like ligament, which extends between the lateral aspect of the sacrum and the dorsal border of ischium and ilium. In this ligament are the '''lesser and greater ischiatic foramen''', these are present to allow for blood vessels, nerves and tendons. The caudal border of this ligament is visible subcutaneously.
 
* The '''sacrotuberous ligament''' is a broad sheet-like ligament, which extends between the lateral aspect of the sacrum and the dorsal border of ischium and ilium. In this ligament are the '''lesser and greater ischiatic foramen''', these are present to allow for blood vessels, nerves and tendons. The caudal border of this ligament is visible subcutaneously.
  
====[[Coxafemoral/Hip Joint - Anatomy & Physiology|Coxafemoral/Hip Joint]]====
+
====[[Hindlimb - Anatomy & Physiology#Coxafemoral/Hip Joint|Coxafemoral/Hip Joint]]====
 
* The cow has the most limited range of movement compared other domestic species in its hip. This is mainly restricted to flexion and extension and is a result of the conformation of its femoral head, intraarticular ligaments and a large muscle mass around the joint.
 
* The cow has the most limited range of movement compared other domestic species in its hip. This is mainly restricted to flexion and extension and is a result of the conformation of its femoral head, intraarticular ligaments and a large muscle mass around the joint.
 
* Cattle also have an extra acetabular notch on it's cranioventral aspect.
 
* Cattle also have an extra acetabular notch on it's cranioventral aspect.
Line 46: Line 36:
 
The muscles affecting the pelvic girdle and hip can be divided into two distinct groups:
 
The muscles affecting the pelvic girdle and hip can be divided into two distinct groups:
  
* '''[[Girdle Musculature - Anatomy & Physiology|Girdle Musculature]]'''
+
* '''[[Hindlimb - Anatomy & Physiology#Girdle Musculature|Girdle Musculature]]'''
 
** '''Psoas minor''' - the muscle is marked by many tendinous intersections
 
** '''Psoas minor''' - the muscle is marked by many tendinous intersections
 
** '''Iliac muscle''' - a fleshy muscle that is cross-sectionally flat cranially and round caudally. It originates from two heads; a strong lateral head from the wing of the ilium and a small medial one from the ileal shaft. They enclose the '''greater psoas''' and will unite to form a common tendon for insertion.
 
** '''Iliac muscle''' - a fleshy muscle that is cross-sectionally flat cranially and round caudally. It originates from two heads; a strong lateral head from the wing of the ilium and a small medial one from the ileal shaft. They enclose the '''greater psoas''' and will unite to form a common tendon for insertion.
Line 52: Line 42:
  
  
* '''[[Rump Muscles - Anatomy & Physiology|Rump Muscles]]'''
+
* '''[[Hindlimb - Anatomy & Physiology#Rump Muscles|Rump Muscles]]'''
 
** '''Superficial gluteal'''
 
** '''Superficial gluteal'''
 
*** It is totally fused with the biceps muscle of the thigh forming the '''gluteobiceps'''.
 
*** It is totally fused with the biceps muscle of the thigh forming the '''gluteobiceps'''.
Line 80: Line 70:
 
===Bones===
 
===Bones===
  
The bones immediately distal to the [[Femur - Anatomy & Physiology|femur]] are the [[Hindlimb - Anatomy & Physiology#Tibia|tibia]], [[Fibula - Anatomy & Physiology|fibula]], [[Patella - Anatomy & Physiology|patella]] and some minor sesamoid bones. Some of these are involved in the stifle joint, weight-bearing and providing attachment for muscles.
+
The bones immediately distal to the [[Hindlimb - Anatomy & Physiology#Femur|femur]] are the [[Hindlimb - Anatomy & Physiology#Tibia|tibia]], [[Hindlimb - Anatomy & Physiology#Fibula|fibula]], [[Hindlimb - Anatomy & Physiology#Patella|patella]] and some minor sesamoid bones. Some of these are involved in the stifle joint, weight-bearing and providing attachment for muscles.
  
Distal to these bones are the complex series of bones that make up the tarsus, these are the [[Tarsal bones - Anatomy & Physiology|tarsal bones]] and [[Metatarsals - Anatomy & Physiology|metatarsals]].
+
Distal to these bones are the complex series of bones that make up the tarsus, these are the [[Hindlimb - Anatomy & Physiology#Tarsal bones|tarsal bones]] and [[Hindlimb - Anatomy & Physiology#Metatarsals|metatarsals]].
  
  
Line 88: Line 78:
  
  
*'''[[Patella - Anatomy & Physiology|Patella]]'''
+
*'''[[Hindlimb - Anatomy & Physiology#Patella|Patella]]'''
 
** The patella is extended medially by fibrocartilage.
 
** The patella is extended medially by fibrocartilage.
  
  
 
*'''[[Hindlimb - Anatomy & Physiology#Tibia|Tibia]]'''
 
*'''[[Hindlimb - Anatomy & Physiology#Tibia|Tibia]]'''
** The lateral aspect of the condyle has no articular facet as the [[Fibula - Anatomy & Physiology|fibula]] is directly fused to the [[Hindlimb - Anatomy & Physiology#Tibia|tibia]] at this point.
+
** The lateral aspect of the condyle has no articular facet as the [[Hindlimb - Anatomy & Physiology#Fibula|fibula]] is directly fused to the [[Hindlimb - Anatomy & Physiology#Tibia|tibia]] at this point.
 
** The lateral aspect of the cochlea has an articular facet as the '''malleolar bone''', the remnant of the distal fibula, articulates here.
 
** The lateral aspect of the cochlea has an articular facet as the '''malleolar bone''', the remnant of the distal fibula, articulates here.
  
  
*'''[[Fibula - Anatomy & Physiology|Fibula]]'''
+
*'''[[Hindlimb - Anatomy & Physiology#Fibula|Fibula]]'''
 
** The shaft of the fibula is totally absent.
 
** The shaft of the fibula is totally absent.
 
** The proximal head is fused to the tibia.
 
** The proximal head is fused to the tibia.
Line 103: Line 93:
  
  
*'''[[Tarsal bones - Anatomy & Physiology#Talus|Talus]]'''
+
*'''[[Hindlimb - Anatomy & Physiology#Tarsal bones#Talus|Talus]]'''
 
** The trochlear ridges lie in a sagittal direction and articulates with the medial malleolus medially and the mlleolar bone laterally.
 
** The trochlear ridges lie in a sagittal direction and articulates with the medial malleolus medially and the mlleolar bone laterally.
 
** The distal trochlear is well defined, articulating with the combined 4th and central tarsal bones.
 
** The distal trochlear is well defined, articulating with the combined 4th and central tarsal bones.
  
  
*'''[[Tarsal bones - Anatomy & Physiology|Calcaneus]]'''
+
*'''[[Hindlimb - Anatomy & Physiology#Tarsal bones|Calcaneus]]'''
 
** The calcaneal tuberosity's proximal aspect is roughened and hollowed out.
 
** The calcaneal tuberosity's proximal aspect is roughened and hollowed out.
  
  
*'''[[Tarsal bones - Anatomy & Physiology#Distal Row of Tarsal Bones| Distal Row of Tarsal Bones]]'''
+
*'''[[Hindlimb - Anatomy & Physiology#Tarsal bones#Distal Row of Tarsal Bones| Distal Row of Tarsal Bones]]'''
 
** The cow only has three bones in the distal row, with the 1st tarsal bone being the only one left unfused. The 2nd and 3rd tarsal bones are fused together. The central and 4th tarsal bones are also fused.
 
** The cow only has three bones in the distal row, with the 1st tarsal bone being the only one left unfused. The 2nd and 3rd tarsal bones are fused together. The central and 4th tarsal bones are also fused.
  
Line 118: Line 108:
  
  
'''[[Stifle Joint - Anatomy & Physiology|Stifle Joint]]'''
+
'''[[Hindlimb - Anatomy & Physiology#Stifle Joint|Stifle Joint]]'''
  
 
* Like the horse the cow has three patellar ligaments; the '''middle patellar ligament''', the '''lateral patellar ligament''' and the '''medial patellar ligament'''.  
 
* Like the horse the cow has three patellar ligaments; the '''middle patellar ligament''', the '''lateral patellar ligament''' and the '''medial patellar ligament'''.  
* The '''middle patellar ligament''' connects the the cranial aspect of the [[Patella - Anatomy & Physiology|patella]] apex to the tibial tuberosity. It has one associated bursae; one between the ligament and the groove on the tibial tuberosity. It is palpable just proximal to the tibial plateau.
+
* The '''middle patellar ligament''' connects the the cranial aspect of the [[Hindlimb - Anatomy & Physiology#Patella|patella]] apex to the tibial tuberosity. It has one associated bursae; one between the ligament and the groove on the tibial tuberosity. It is palpable just proximal to the tibial plateau.
 
* The '''medial patellar ligament''' connects the parapatellar fibrocartilage to the medial aspect of the tibial tuberosity.
 
* The '''medial patellar ligament''' connects the parapatellar fibrocartilage to the medial aspect of the tibial tuberosity.
* The '''lateral patellar ligament''' the cranio-lateral aspect of the [[Patella - Anatomy & Physiology|patella]] to the lateral aspect of the tibial tuberosity.
+
* The '''lateral patellar ligament''' the cranio-lateral aspect of the [[Hindlimb - Anatomy & Physiology#Patella|patella]] to the lateral aspect of the tibial tuberosity.
 
* The medial and lateral femorotibial joint capsules communicate and the medial femorotibial communicates with the femoropatellar.
 
* The medial and lateral femorotibial joint capsules communicate and the medial femorotibial communicates with the femoropatellar.
  
  
'''[[Tarsal Joint/Hock - Anatomy & Physiology|Tarsal Joint/Hock]]'''
+
'''[[Hindlimb - Anatomy & Physiology#Tarsal Joint/Hock|Tarsal Joint/Hock]]'''
  
 
* The cow has some degree of flexion and extension in its proximal intertarsal joint.
 
* The cow has some degree of flexion and extension in its proximal intertarsal joint.
Line 134: Line 124:
 
===Musculature===
 
===Musculature===
  
'''[[Muscles of the Stifle - Anatomy & Physiology|Muscles of the Stifle]]'''
+
'''[[Hindlimb - Anatomy & Physiology#Muscles of the Stifle|Muscles of the Stifle]]'''
  
 
'''[[Muscles of the Bovine Crus - Anatomy & Physiology|Muscles of the Bovine Crus]]'''
 
'''[[Muscles of the Bovine Crus - Anatomy & Physiology|Muscles of the Bovine Crus]]'''
 
 
  
 
==Vasculature of the Hindlimb==
 
==Vasculature of the Hindlimb==
  
'''[[Arteries of the Hindlimb - Anatomy & Physiology|Arteries of the Hindlimb]]'''
+
'''[[Arteries of the Hindlimb - Anatomy & Physiology#Arteries of the Hindlimb|Arteries of the Hindlimb]]'''
  
 
* The essential difference between the bovine arterial system of the hindlimb and that of the dog is the supply to the distal hindlimb.
 
* The essential difference between the bovine arterial system of the hindlimb and that of the dog is the supply to the distal hindlimb.
Line 154: Line 142:
  
 
'''[[Lymphatics of the Hindlimb - Anatomy & Physiology|Lymphatics of the Hindlimb]]'''
 
'''[[Lymphatics of the Hindlimb - Anatomy & Physiology|Lymphatics of the Hindlimb]]'''
 +
 +
==Webinars==
 +
<rss max="10" highlight="none">https://www.thewebinarvet.com/orthopaedics/webinars/feed</rss>
 +
 +
[[Category:Musculoskeletal System - Anatomy & Physiology]][[Category:Musculoskeletal Anatomy - Cattle]]

Latest revision as of 19:39, 27 October 2022


Pelvic Girdle and Hip

Bones

The pelvic girdle is formed by two hip bones which are joined ventrally at the cartilagenous pelvic symphysis and articulate dorsally with the sacrum. The three components of each hip bone are the Ilium, pubis and ischium.

The bone that articulates with the hip bones to form the hip joint is the Femur.

Bovine Bone Specifics

  • Ilium
    • In the cow the tuber coxae is visible and is readily palpable.
    • The sacral tuber has two prominences; the cranial and caudal dorsal iliac spines.
    • The iliac crest is thin and concave.
    • The ileal wing is orientated in a vertical manner.
  • Ischium
    • The ischial tuberosity is triangular in shape.
  • Femur
    • The greater trochanter extends further dorsally compared to the femoral head.
    • The medial and lateral condylar ridges are very assymetrical with the medial ridge being larger.

Joints and Synovial Structures

Sacroiliac Joint

  • In cattle the short branch of the dorsal sacroiliac ligaments connects the sacral tuberosity to the spinous processes of the sacrum.
  • The sacrotuberous ligament is a broad sheet-like ligament, which extends between the lateral aspect of the sacrum and the dorsal border of ischium and ilium. In this ligament are the lesser and greater ischiatic foramen, these are present to allow for blood vessels, nerves and tendons. The caudal border of this ligament is visible subcutaneously.

Coxafemoral/Hip Joint

  • The cow has the most limited range of movement compared other domestic species in its hip. This is mainly restricted to flexion and extension and is a result of the conformation of its femoral head, intraarticular ligaments and a large muscle mass around the joint.
  • Cattle also have an extra acetabular notch on it's cranioventral aspect.

Musculature

The muscles affecting the pelvic girdle and hip can be divided into two distinct groups:

  • Girdle Musculature
    • Psoas minor - the muscle is marked by many tendinous intersections
    • Iliac muscle - a fleshy muscle that is cross-sectionally flat cranially and round caudally. It originates from two heads; a strong lateral head from the wing of the ilium and a small medial one from the ileal shaft. They enclose the greater psoas and will unite to form a common tendon for insertion.
    • Quadrate Lumbar - a thin tendinous muscle whose origin is at the proximal end of the last rib and the transverse process of the cranial lumbar vertebrae. Its insertion is the transverse processes of the caudal lumbar vertebrae and the sacral wing.


  • Rump Muscles
    • Superficial gluteal
      • It is totally fused with the biceps muscle of the thigh forming the gluteobiceps.
    • Middle Gluteal
      • Origin - the gluteal surface of the ilium. The muscle is flat at its origin and so the iliac crest is very palpable.
      • Insertion - The short portion inserts on the greater trochanter, the deep portion inserts on both the greater trochanter and distal and medial to it.
    • Deep Gluteal
      • Insertion - distal to the greater trochanter on the craniolateral aspect of the femur.
    • Tensor Muscle of the Fascia Lata
      • Origin - coxal tuberosity
      • Insertion - it joins the fascia lata and so indirectly attaches to the patella, lateral pattelar ligament and cranial border of the tibia. A caudodorsal detachment joins the superficial gluteal and so attaches to the greater trochanter.
    • Gluteobiceps
      • Origin - Vertebral head - caudal sacral vertebrae, sacrotuberous ligament and ischial tuberosity. Pelvic head - venterolateral aspect of the ischium from the ischiatic tuberosity to the obturator foramen.
      • Insertion - the two bellies unite and the redivide at mid-tibia level. The cranial belly attaches to the fascia lata and crural fascia and so inserts on the patella, the lateral patellar ligament and the tibial tuberosity. The cranial part forms the tarsal tendon and so inserts on the calcaneal tuberosity.
      • A synovial bursa exists between the tarsal tendon and lateral femoral condyle.
    • Semitendinous
      • Origin - caudoventral aspect of the ischial tuberosity.
      • Insertion - via a flat aponeurotic tendon to the cranial border of the proximal tibia, the crural fascia and the tendinous insertion of the gracilis muscle. An accessory tendon also inserts on the calcaneal tendon.
    • Semimembranous
      • Origin - it just has one from the pelvic head.
    • Sartorius
      • Origin - It is divided briefly into two heads because of the passage of femoral vessels.
    • External Obturator
      • Cattle have an extra intrapelvic part that originates from the ilial body, the pubis and ischium. This then inserts with the rest of the muscle on the trochantic fossa.

Proximal Hindlimb including Stifle and Tarsus

Bones

The bones immediately distal to the femur are the tibia, fibula, patella and some minor sesamoid bones. Some of these are involved in the stifle joint, weight-bearing and providing attachment for muscles.

Distal to these bones are the complex series of bones that make up the tarsus, these are the tarsal bones and metatarsals.


Bovine Bone Specifics

  • Patella
    • The patella is extended medially by fibrocartilage.


  • Tibia
    • The lateral aspect of the condyle has no articular facet as the fibula is directly fused to the tibia at this point.
    • The lateral aspect of the cochlea has an articular facet as the malleolar bone, the remnant of the distal fibula, articulates here.


  • Fibula
    • The shaft of the fibula is totally absent.
    • The proximal head is fused to the tibia.
    • The distal part remains as the malleolar bone, which articulates with the tibia.


  • Talus
    • The trochlear ridges lie in a sagittal direction and articulates with the medial malleolus medially and the mlleolar bone laterally.
    • The distal trochlear is well defined, articulating with the combined 4th and central tarsal bones.


  • Calcaneus
    • The calcaneal tuberosity's proximal aspect is roughened and hollowed out.


  • Distal Row of Tarsal Bones
    • The cow only has three bones in the distal row, with the 1st tarsal bone being the only one left unfused. The 2nd and 3rd tarsal bones are fused together. The central and 4th tarsal bones are also fused.

Joints and Synovial Structures

Stifle Joint

  • Like the horse the cow has three patellar ligaments; the middle patellar ligament, the lateral patellar ligament and the medial patellar ligament.
  • The middle patellar ligament connects the the cranial aspect of the patella apex to the tibial tuberosity. It has one associated bursae; one between the ligament and the groove on the tibial tuberosity. It is palpable just proximal to the tibial plateau.
  • The medial patellar ligament connects the parapatellar fibrocartilage to the medial aspect of the tibial tuberosity.
  • The lateral patellar ligament the cranio-lateral aspect of the patella to the lateral aspect of the tibial tuberosity.
  • The medial and lateral femorotibial joint capsules communicate and the medial femorotibial communicates with the femoropatellar.


Tarsal Joint/Hock

  • The cow has some degree of flexion and extension in its proximal intertarsal joint.
  • Like the dog the cow has an extra branch to its short medial collateral ligament that extends to the medial metatarsal bones.

Musculature

Muscles of the Stifle

Muscles of the Bovine Crus

Vasculature of the Hindlimb

Arteries of the Hindlimb

  • The essential difference between the bovine arterial system of the hindlimb and that of the dog is the supply to the distal hindlimb.
  • Unlike horses and dogs the saphenous artery doesn't have cranial and caudal branches. Instead it continues down the plantar aspect of the foot and splits into the medial and lateral plantar digital arteries.
  • The dorsal metatarsal artery III sits in the groove between metatarsal III andd IV and becomes the dorsal common digital artery III near the fetlock.
  • An interdigital artery exists that connects the dorsal common digital artery III and the plantar common digital artery III by passing through the interdigital space.
  • There are axial and abaxial digits that run on their respective sides of the digits.


Veins of the Hindlimb

Lymphatics of the Hindlimb

Webinars

Failed to load RSS feed from https://www.thewebinarvet.com/orthopaedics/webinars/feed: Error parsing XML for RSS