File:Endochondral bone cartoon.jpg: Difference between revisions

From Embryology
mNo edit summary
mNo edit summary
Line 1: Line 1:
==Endochondral Bone Development==
==Endochondral Bone Development==


Longitudinal views depicting key steps of endochondral bone formation in mouse limbs. a | Prx1+ progenitors from lateral plate mesoderm proliferate to populate the emerging limb bud. b | Cells nearest the centre undergo mesenchymal condensation, express Col2a1 as they enter a chondrogenic differentiation program, and deposit a cartilage template. c | to d | Differentiating cells upregulate Col10a1 as they become hypertrophic, which triggers local formation of a bone collar and vascularization of the cartilage template. Invading blood vessels deliver an influx of haematopoietic cells that give rise to osteoclasts which excavate the cartilage template, and Osx1+ osteoblast progenitors and other blood cell types that populate the newly formed marrow cavity. d | A longitudinal growth axis is established when vascularization and osteoclast-mediated resorption bisect the presumptive skeletal element, producing two growth plates with opposing directionality. A perpendicular growth axis is driven by periosteal osteoblasts and allows the bone to grow in width. e | Within the remodelled cartilage template, bone-forming osteoblasts are derived from Osx1+ cells arriving with the invading vasculature, as well as hypertrophic Col10a1+ chondroctyes that transdifferentiate as they exit the growth plate into the marrow cavity. As bones grow in length and width, a second wave of vascularization forms the secondary ossification centres. f | Mature endochondral bone.  
Longitudinal views depicting key steps of endochondral bone formation in mouse limbs.  


* '''a''' - Prx1+ progenitors from lateral plate mesoderm proliferate to populate the emerging limb bud.
* '''b''' - Cells nearest the centre undergo mesenchymal condensation, express Col2a1 as they enter a chondrogenic differentiation program, and deposit a cartilage template.
* '''c''' to '''d''' -  Differentiating cells upregulate Col10a1 as they become hypertrophic, which triggers local formation of a bone collar and vascularization of the cartilage template. Invading blood vessels deliver an influx of haematopoietic cells that give rise to osteoclasts which excavate the cartilage template, and Osx1+ osteoblast progenitors and other blood cell types that populate the newly formed marrow cavity.
* '''d''' - A longitudinal growth axis is established when vascularization and osteoclast-mediated resorption bisect the presumptive skeletal element, producing two growth plates with opposing directionality. A perpendicular growth axis is driven by periosteal osteoblasts and allows the bone to grow in width.
* '''e''' - Within the remodelled cartilage template, bone-forming osteoblasts are derived from Osx1+ cells arriving with the invading vasculature, as well as hypertrophic Col10a1+ chondroctyes that transdifferentiate as they exit the growth plate into the marrow cavity. As bones grow in length and width, a second wave of vascularization forms the secondary ossification centres.
* '''f''' - Mature endochondral bone.


{{Musculoskeletal Links}} [[Mouse Development]]
===Reference===
===Reference===
<pubmed>26893264</pubmed>
<pubmed>26893264</pubmed>

Revision as of 10:46, 12 September 2016

Endochondral Bone Development

Longitudinal views depicting key steps of endochondral bone formation in mouse limbs.

  • a - Prx1+ progenitors from lateral plate mesoderm proliferate to populate the emerging limb bud.
  • b - Cells nearest the centre undergo mesenchymal condensation, express Col2a1 as they enter a chondrogenic differentiation program, and deposit a cartilage template.
  • c to d - Differentiating cells upregulate Col10a1 as they become hypertrophic, which triggers local formation of a bone collar and vascularization of the cartilage template. Invading blood vessels deliver an influx of haematopoietic cells that give rise to osteoclasts which excavate the cartilage template, and Osx1+ osteoblast progenitors and other blood cell types that populate the newly formed marrow cavity.
  • d - A longitudinal growth axis is established when vascularization and osteoclast-mediated resorption bisect the presumptive skeletal element, producing two growth plates with opposing directionality. A perpendicular growth axis is driven by periosteal osteoblasts and allows the bone to grow in width.
  • e - Within the remodelled cartilage template, bone-forming osteoblasts are derived from Osx1+ cells arriving with the invading vasculature, as well as hypertrophic Col10a1+ chondroctyes that transdifferentiate as they exit the growth plate into the marrow cavity. As bones grow in length and width, a second wave of vascularization forms the secondary ossification centres.
  • f - Mature endochondral bone.


Musculoskeletal Links: Introduction | mesoderm | somitogenesis | limb | cartilage | bone | bone timeline | bone marrow | shoulder | pelvis | axial skeleton | skull | joint | skeletal muscle | muscle timeline | tendon | diaphragm | Lecture - Musculoskeletal | Lecture Movie | musculoskeletal abnormalities | limb abnormalities | developmental hip dysplasia | cartilage histology | bone histology | Skeletal Muscle Histology | Category:Musculoskeletal
Historic Embryology - Musculoskeletal  
1853 Bone | 1885 Sphenoid | 1902 - Pubo-femoral Region | Spinal Column and Back | Body Segmentation | Cranium | Body Wall, Ribs, and Sternum | Limbs | 1901 - Limbs | 1902 - Arm Development | 1906 Human Embryo Ossification | 1906 Lower limb Nerves and Muscle | 1907 - Muscular System | Skeleton and Limbs | 1908 Vertebra | 1908 Cervical Vertebra | 1909 Mandible | 1910 - Skeleton and Connective Tissues | Muscular System | Coelom and Diaphragm | 1913 Clavicle | 1920 Clavicle | 1921 - External body form | Connective tissues and skeletal | Muscular | Diaphragm | 1929 Rat Somite | 1932 Pelvis | 1940 Synovial Joints | 1943 Human Embryonic, Fetal and Circumnatal Skeleton | 1947 Joints | 1949 Cartilage and Bone | 1957 Chondrification Hands and Feet | 1968 Knee

Mouse Development

Reference

<pubmed>26893264</pubmed>

Copyright

Your order details and publisher terms and conditions are available by clicking the link below: http://s100.copyright.com/CustomerAdmin/PLF.jsp?ref=33184fc8-b8d8-4793-8362-2b8e22fcb6c4

Order Details Licensee: Mark A Hill License Date: Sep 11, 2016 License Number: 3946190772930 Publication: Nature Reviews Endocrinology Title: BMP signalling in skeletal development, disease and repair Type Of Use: post on a website

Cite this page: Hill, M.A. (2024, April 19) Embryology Endochondral bone cartoon.jpg. Retrieved from https://embryology.med.unsw.edu.au/embryology/index.php/File:Endochondral_bone_cartoon.jpg

What Links Here?
© Dr Mark Hill 2024, UNSW Embryology ISBN: 978 0 7334 2609 4 - UNSW CRICOS Provider Code No. 00098G

File history

Click on a date/time to view the file as it appeared at that time.

Date/TimeThumbnailDimensionsUserComment
current10:20, 12 September 2016Thumbnail for version as of 10:20, 12 September 2016946 × 513 (127 KB)Z8600021 (talk | contribs)==Endochondral Bone Development== Longitudinal views depicting key steps of endochondral bone formation in mouse limbs. a | Prx1+ progenitors from lateral plate mesoderm proliferate to populate the emerging limb bud. b | Cells nearest the centre under...

You cannot overwrite this file.

Retrieved from ‘https://embryology.med.unsw.edu.au/embryology/index.php?title=File:Endochondral_bone_cartoon.jpg&oldid=246890
Powered by MediaWiki