User:David Hume/sandbox: Difference between revisions
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The pisiform bone may provide mechanical stability to the ulnar column of the wrist by preventing triquetral subluxation. So one might assume that surgical excision of the pisiform would cause loss of function to the wrist. However, patients, who have undergone pisiformectomy for pisotriquetral joint dysfunction, experience no significant differences in grip strength, wrist movement, static strength or dynamic power in the long run. Around 75% of patients experience complete relief of symptoms, while the rest continue to have mild discomfort. | The pisiform bone may provide mechanical stability to the ulnar column of the wrist by preventing triquetral subluxation. So one might assume that surgical excision of the pisiform would cause loss of function to the wrist. However, patients, who have undergone pisiformectomy for pisotriquetral joint dysfunction, experience no significant differences in grip strength, wrist movement, static strength or dynamic power in the long run. Around 75% of patients experience complete relief of symptoms, while the rest continue to have mild discomfort. | ||
== | ==Syndromes== | ||
''' | '''Racquet player's pisiform:''' | ||
This is an injury to the wrist involving a chondromalacia (literally "soft cartilage"), or roughening of the articular cartilage, between the pisiform and triquetral bones (the piso-triquetral joint). It is thought to be due to repeated torsional stresses on the piso-triquetral joint by sharp and powerful supination-pronation movements performed by racquet players, especially squash | |||
This is an injury to the wrist involving a chondromalacia (literally "soft cartilage"), or roughening of the articular cartilage, between the pisiform and triquetral bones (the piso-triquetral joint). It is thought to be due to repeated torsional stresses on the piso-triquetral joint by sharp and powerful supination-pronation movements performed by racquet players, especially squash and badminton players; and sometimes golfers, who use a lot of wrist action. Tennis players are less prone as they tend to make strokes using the shoulder. | |||
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Sesamoid bones are typically found in locations where a tendon passes over a joint, such as the hand, knee, and foot. Functionally, they act to protect the tendon and to increase its mechanical effect. The presence of the sesamoid bone holds the tendon slightly further away from the center of the joint and thus increases its moment arm. The sesamoid prevents the tendon from flattening into the joint as the tendon tension increases and therefore also maintains a more consistent moment arm through a variety of possible tendon loads. | Sesamoid bones are typically found in locations where a tendon passes over a joint, such as the hand, knee, and foot. Functionally, they act to protect the tendon and to increase its mechanical effect. The presence of the sesamoid bone holds the tendon slightly further away from the center of the joint and thus increases its moment arm. The sesamoid prevents the tendon from flattening into the joint as the tendon tension increases and therefore also maintains a more consistent moment arm through a variety of possible tendon loads. | ||
==Topics in Anatomy== | ==Topics in Anatomy== |
Revision as of 17:16, 28 February 2007
pisiform bone (os pisiforme)
parent article - wrist or carpus
The pisiform bone (os pisiforme) can be distinguished by its small size, and having a single articular facet. It is pea-shaped and is situated anteriorly to the other bones of the wrist. Its dorsal surface presents a smooth oval facet, for articulation with the triquetral bone. This facet approaches the superior, but not the inferior border of the bone. The palmar (volar) surface is rounded and rough, giving attachment to the transverse carpal ligament, and to the flexor carpi ulnaris and abductor digiti quinti. The lateral and medial surfaces are also rough, the former being concave, the latter usually convex.
Articulation: the pisiform bone articulates only with one other bone, the triquetral.
etymology
The pisiform bone, Latin os pisiforme, has also been sometimes referred to as the lentiform bone. The word pisiform comes from the Latin pisum meaning "pea", while the word lentiform comes form the word lentil.
function
The pisiform bone is usually classified as a sesamoid bone, although it is atypical in having a facet for articulation with another bone and not being wholly embedded within just one tendon. Sesamoid bones are typically found in places where a tendon passes over a joint, like in the hand, the knee, or the foot. They act to protect the tendon and to increase its mechanical effect. The sesamoid bone acts to hold the tendon a bit further away from the middle of the joint, which increases its leverage. Sesamoid bones also prevent a tendon from flattening against the joint under tension and hence maintain a more consistent leverage throughout the range of possible loads. The pisiform bone may provide mechanical stability to the ulnar column of the wrist by preventing triquetral subluxation. So one might assume that surgical excision of the pisiform would cause loss of function to the wrist. However, patients, who have undergone pisiformectomy for pisotriquetral joint dysfunction, experience no significant differences in grip strength, wrist movement, static strength or dynamic power in the long run. Around 75% of patients experience complete relief of symptoms, while the rest continue to have mild discomfort.
Syndromes
Racquet player's pisiform:
This is an injury to the wrist involving a chondromalacia (literally "soft cartilage"), or roughening of the articular cartilage, between the pisiform and triquetral bones (the piso-triquetral joint). It is thought to be due to repeated torsional stresses on the piso-triquetral joint by sharp and powerful supination-pronation movements performed by racquet players, especially squash and badminton players; and sometimes golfers, who use a lot of wrist action. Tennis players are less prone as they tend to make strokes using the shoulder.
Volar: Pertaining to both the palm and sole. It comes from word "vola" which the ancient Romans used for "the palm of the hand and the sole of the foot."
cf palmar (palm side of hand)and plantar (sole of foot)
The Triangular Bone (os triquetrum; cuneiform bone)
lentiform bone The etymology derives from the Latin pīsum which means "pea."
By comparison, the term "palm" applies to only the palm (the grasping side) of the hand. The Romans actually used the word "palma" for the outstretched palm of the hand.
In anatomy, a sesamoid bone is a bone embedded within a tendon.
Sesamoid bones are typically found in locations where a tendon passes over a joint, such as the hand, knee, and foot. Functionally, they act to protect the tendon and to increase its mechanical effect. The presence of the sesamoid bone holds the tendon slightly further away from the center of the joint and thus increases its moment arm. The sesamoid prevents the tendon from flattening into the joint as the tendon tension increases and therefore also maintains a more consistent moment arm through a variety of possible tendon loads.
Topics in Anatomy
SYSTEMIC ANATOMY Introduction and Systemic Overview
- Anatomical Nomenclature
- Basic Structure and Function of Cells
- Integrating Cells into Tissues
Systemic Overview
- Nervous System
- Blood, Lymphoid Tissues and Haemopoiesis
- Functional Anatomy of the Musculoskeletal System
- Smooth Muscle and the Cardiovascular and Lymphatic systems
- Skin and its Appendages
- Endocrine System
- Principles of Hormone Production and Secretion
- Embryology
- Embryogenesis
- Prenatal and Neonatal Growth
- full skeleton
- axial skeleton
- skull
- vertebral column
- ribcage
- appendicular skeleton
- shoulder & arm
- hand & wrist
- pelvis
- leg & ankle
- foot
- full body
- muscle histology
- head & neck
- thorax
- shoulder & upper arm
- biceps brachii
- forearm & hand
- abdomen
- pelvis
- thigh & knee
- leg & foot
- endocrine system
- hypothalamus & pituitary
- thyroid & parathyroids
- adrenal glands
- pancreas
- ovaries
- testes