Musculoskeletal System - Joint Development: Difference between revisions
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In the adult, the region where two skeletal bones meet and articulate is called a "{{joint}}", that are classified based upon their: anatomical structure, mobility and shape. | In the adult, the region where two skeletal bones meet and articulate is called a "{{joint}}", that are classified based upon their: anatomical structure, mobility and shape. | ||
In the embryo, the majority of the vertebrate skeleton is initially formed as a cartilage template, that is later replaced by bone except at the interface between two adjacent bones, leaving in the adult a layer of cartilage in this region. The musculoskeletal system consists of skeletal muscle, bone, and cartilage and is mainly mesoderm in origin with some neural crest contribution. | In the embryo, the majority of the vertebrate skeleton is initially formed as a {{cartilage}} template, that is later replaced by {{bone}} except at the interface between two adjacent bones, leaving in the adult a layer of cartilage in this region. The musculoskeletal system consists of skeletal muscle, bone, and cartilage and is mainly mesoderm in origin with some neural crest contribution. | ||
{{Joint Links}} | {{Joint Links}} | ||
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{{Musculoskeletal Links}} | {{Musculoskeletal Links}} | ||
==Some Recent Findings== | ==Some Recent Findings== | ||
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* '''f''' - Joint health in adult life is affected by genetics and environmental factors such as nutrition and exercise. Loss of joint homeostasis can trigger degenerative joint diseases such as osteoarthritis, which is characterized by degradation of articular and meniscal cartilage, formation of bone spurs and pain. | * '''f''' - Joint health in adult life is affected by genetics and environmental factors such as nutrition and exercise. Loss of joint homeostasis can trigger degenerative joint diseases such as osteoarthritis, which is characterized by degradation of articular and meniscal cartilage, formation of bone spurs and pain. | ||
Figure from recent BMP review. | Figure from recent {{BMP}} review.{{#pmid:26893264|PMID26893264}} | ||
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==Joint Abnormalities== | ==Joint Abnormalities== | ||
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Historic clinical term for a symmetrical joint swelling occurring in patients of both sexes between 5 to 20 years of age with congenital syphilis. Joint swelling is usually in the knees, but can also affect the ankles, elbows, wrists and fingers. Named after Henry Hugh Clutton who first described the condition in 1886. | Historic clinical term for a symmetrical joint swelling occurring in patients of both sexes between 5 to 20 years of age with congenital syphilis. Joint swelling is usually in the knees, but can also affect the ankles, elbows, wrists and fingers. Named after Henry Hugh Clutton who first described the condition in 1886. | ||
:'''Links:''' | |||
:'''Links:''' {{syphilis}}) | |||
== References == | == References == |
Revision as of 09:01, 15 May 2018
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Introduction
In the adult, the region where two skeletal bones meet and articulate is called a "joint", that are classified based upon their: anatomical structure, mobility and shape.
In the embryo, the majority of the vertebrate skeleton is initially formed as a cartilage template, that is later replaced by bone except at the interface between two adjacent bones, leaving in the adult a layer of cartilage in this region. The musculoskeletal system consists of skeletal muscle, bone, and cartilage and is mainly mesoderm in origin with some neural crest contribution.
Joint Links: joint | synovial joint | temporomandibular joint | musculoskeletal | cartilage | Category:Joint | ||
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Some Recent Findings
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More recent papers |
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This table allows an automated computer search of the external PubMed database using the listed "Search term" text link.
More? References | Discussion Page | Journal Searches | 2019 References | 2020 References Search term: Joint Development <pubmed limit=5>Joint Development</pubmed> |
Joint Types
Classification
- Fibrous (synarthrodial) - immoveable joints found in cranial vault and teeth
- Cartilagenous (synchondroses and sympheses) - partially moveable joints
- Synovial (diarthrosis) - freely moveable joints are the most common found in the skeleton
Movement
- Hinge - (elbow and knee) Flexion/Extension
- Pivot - (neck, atlas and axis bones) Rotation of one bone around another
- Ball and Socket - (shoulder and hip)
- Saddle - (thumb)
- Condyloid - (wrist joints)
- Gliding - (intercarpal joints) Gliding movements
Synovial Joint Development
Skeletal joint cavity development (cavitation) occurs along planes of the future articular surfaces of synovial joints. A number of different markers have been shown to be present in the interzone at the time of cavitation (hyaluronan and hyaluronan synthase, but not chondroitin sulphates).
Fibroblast-like cells (and/or adjacent chondrocytes) with uridine-diphospho glucose dehydrogenase (UDPGD) activity contribute to glycosaminoglycan levels (increases in hyaluronan). These cells are located on the intimal surface of the synovial lining and have been suggested as the possible cavitation mechanism, switching from cellular cohesion to dissociation.[6] |
Shoulder
This timeline data comes from a recent study of 32 human embryos (Carnegie stages 16-23) and 26 fetuses (9-13 weeks.[2]
Carnegie Stage | Event |
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17 | chondrogenic progenitor of the humerus and the medial border of the scapula can be observed. |
18 | chondrogenic progenitor for rest of the scapula appears. |
19 | glenohumeral joint will begin delaminating and showing a looser central band (interzone). Denser lateral bands will join the humeral head (caput humeri) and the margins of the articular surface of the scapula, thus forming the glenoid labrum (glenoid ligament). |
21 | long head of the biceps tendon present |
22 | glenoid labrum (glenoid ligament) present |
23 | coracohumeral ligament present |
Week | |
Fetal Week 10 | osteogenic process begins in the humeral head. Primitive glenohumeral ligament present |
Fetal Week 11 | osteogenic process begins in the scapula |
Links: shoulder | joint | limb | timeline Data from human histological study.[2] |
Knee
In human embryo at week 7 the femur and tibia cartilage template is present (stage 18), by week 8 the posterior cruciate ligament appears (stage 21), and by stage 23 the knee cavity and the anterior cruciate ligament are both also present.[7]
Knee Morphogenesis
|
Joint Abnormalities
FGFR-Related Craniosynostosis Syndromes
Pfeiffer syndrome, Apert syndrome, Crouzon syndrome, Beare-Stevenson syndrome, FGFR2-related isolated coronal synostosis, Jackson-Weiss syndrome, Crouzon syndrome with acanthosis nigricans (AN), and Muenke syndrome
Multiple Epiphyseal Dysplasia
Arthrogryposis
Arthrogryposis (arthrogryposis multiplex congenital, AMC) is a congenital joint contracture occurring in two or more body regions.
Large range of causes including:
- single-gene disorders autosomal recessive, autosomal dominant or X-linked traits.
- part of chromosomal disorders (Trisomy 18, many microdeletions and micro duplications)
- connective tissue disorders
Temporomandibular Disorders
Osteoarthritis
Clutton's joints
Historic clinical term for a symmetrical joint swelling occurring in patients of both sexes between 5 to 20 years of age with congenital syphilis. Joint swelling is usually in the knees, but can also affect the ankles, elbows, wrists and fingers. Named after Henry Hugh Clutton who first described the condition in 1886.
- Links: syphilis)
References
- ↑ Singh PNP, Shea CA, Sonker SK, Rolfe RA, Ray A, Kumar S, Gupta P, Murphy P & Bandyopadhyay A. (2018). Precise spatial restriction of BMP signaling in developing joints is perturbed upon loss of embryo movement. Development , 145, . PMID: 29467244 DOI.
- ↑ 2.0 2.1 2.2 Hita-Contreras F, Sánchez-Montesinos I, Martínez-Amat A, Cruz-Díaz D, Barranco RJ & Roda O. (2018). Development of the human shoulder joint during the embryonic and early fetal stages: anatomical considerations for clinical practice. J. Anat. , 232, 422-430. PMID: 29193070 DOI.
- ↑ Giorgi M, Carriero A, Shefelbine SJ & Nowlan NC. (2014). Mechanobiological simulations of prenatal joint morphogenesis. J Biomech , 47, 989-95. PMID: 24529755 DOI.
- ↑ Khan IM, Redman SN, Williams R, Dowthwaite GP, Oldfield SF & Archer CW. (2007). The development of synovial joints. Curr. Top. Dev. Biol. , 79, 1-36. PMID: 17498545 DOI.
- ↑ Iwamoto M, Tamamura Y, Koyama E, Komori T, Takeshita N, Williams JA, Nakamura T, Enomoto-Iwamoto M & Pacifici M. (2007). Transcription factor ERG and joint and articular cartilage formation during mouse limb and spine skeletogenesis. Dev. Biol. , 305, 40-51. PMID: 17336282 DOI.
- ↑ Edwards JC, Wilkinson LS, Jones HM, Soothill P, Henderson KJ, Worrall JG & Pitsillides AA. (1994). The formation of human synovial joint cavities: a possible role for hyaluronan and CD44 in altered interzone cohesion. J. Anat. , 185 ( Pt 2), 355-67. PMID: 7525525
- ↑ <pubmed>9185992</pubmed>
- ↑ Salazar VS, Gamer LW & Rosen V. (2016). BMP signalling in skeletal development, disease and repair. Nat Rev Endocrinol , 12, 203-21. PMID: 26893264 DOI.
Online Textbooks
Developmental Biology Gilbert, Scott F. Sunderland (MA): Sinauer Associates, Inc. ; c2000 Forming the joints
Reviews
Articles
<pubmed>15492776</pubmed> <pubmed>10645964</pubmed> <pubmed>7544653</pubmed> <pubmed>7525525</pubmed>
Search PubMed
Search July 2010 "Joint Development" All (19900) Review (3137) Free Full Text (3325)
Search Pubmed: Joint Development
Additional Images
External Links
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Cite this page: Hill, M.A. (2024, June 16) Embryology Musculoskeletal System - Joint Development. Retrieved from https://embryology.med.unsw.edu.au/embryology/index.php/Musculoskeletal_System_-_Joint_Development
- © Dr Mark Hill 2024, UNSW Embryology ISBN: 978 0 7334 2609 4 - UNSW CRICOS Provider Code No. 00098G