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- 19:47, 1 August 2021 Jeremy talk contribs created page Knee Biomechanics (Created page with "This article discussed knee biomechanics, for a discussion on the anatomy of the joint see Knee Joint. ==Movement== '''Tibiofemoral Joint Movement''' *'''Sagit...") Tag: Visual edit
- 15:35, 1 August 2021 Jeremy talk contribs created page Peripheral Vascular Examination (Created page with "{{stub}} Peripheral vascular disease can mimic musculoskeletal causes of pain. Most patients do not have intermittent claudication but have atypical leg symptoms or no symptom...")
- 15:22, 1 August 2021 Jeremy talk contribs created page Acute Knee Pain (Created page with "==Clinical Features== ===Red Flags=== {{Red flags| *Fracture: history of significant trauma, known osteoporosis or risk factors for same, haematoma, significant pain, positive...")
- 13:38, 1 August 2021 Jeremy talk contribs created page Quiz:Orthopaedic Basic Sciences/Chapter 14 (Created page with "==Pages 2-9== ==Pages 10-17== ==Pages 18-25== <quiz display=simple> {On nonunions |type="[]"} -A fracture can be labeled as a nonunion after no progress in healing has been ca...")
- 11:30, 1 August 2021 Jeremy talk contribs created page File:Cutting cone simplified.png (Idealized structure of cortical BMU in longitudinal section, showing cutting cone, reversal zone and closing cone. Cells of the osteoclast lineage are shown in light to dark orange while cells of the osteoblastic lineage are shown as light to dark green. A capillary is shown at the centre of the BMU within a Haversian canal. Smith DW, Gardiner BS, Dunstan C. Bone balance within a cortical BMU: local controls of bone resorption and formation. PLoS One. 2012;7(7):e40268. doi: 10.1371/journal.p...)
- 11:30, 1 August 2021 Jeremy talk contribs uploaded File:Cutting cone simplified.png (Idealized structure of cortical BMU in longitudinal section, showing cutting cone, reversal zone and closing cone. Cells of the osteoclast lineage are shown in light to dark orange while cells of the osteoblastic lineage are shown as light to dark green. A capillary is shown at the centre of the BMU within a Haversian canal. Smith DW, Gardiner BS, Dunstan C. Bone balance within a cortical BMU: local controls of bone resorption and formation. PLoS One. 2012;7(7):e40268. doi: 10.1371/journal.p...)
- 11:28, 1 August 2021 Jeremy talk contribs created page File:Cortical remodeling unit.png (Longitudinal section through a cortical remodeling unit with corresponding transverse sections A: Multinucleated osteoclasts in Howship lacunae advancing longitudinally from right to left and radially to enlarge a resorption cavity. B: Perivascular spindle-shaped precursor cells. C: Capillary loop. D: Mononuclear cells lining reversal zone. E: Osteoblasts apposing bone centripetally in radial closure and its perivascular precursor cells. F: Flattened cells lining Haversian canal of completed...)
- 11:28, 1 August 2021 Jeremy talk contribs uploaded File:Cortical remodeling unit.png (Longitudinal section through a cortical remodeling unit with corresponding transverse sections A: Multinucleated osteoclasts in Howship lacunae advancing longitudinally from right to left and radially to enlarge a resorption cavity. B: Perivascular spindle-shaped precursor cells. C: Capillary loop. D: Mononuclear cells lining reversal zone. E: Osteoblasts apposing bone centripetally in radial closure and its perivascular precursor cells. F: Flattened cells lining Haversian canal of completed...)
- 10:24, 1 August 2021 Jeremy talk contribs moved page Avascular Necrosis to Osteonecrosis
- 10:24, 1 August 2021 Jeremy talk contribs created page Avascular Necrosis (Created page with "Category:Widespread")
- 10:20, 1 August 2021 Jeremy talk contribs moved page Form and Function of Bone to Bone Biomechanics
- 10:17, 1 August 2021 Jeremy talk contribs created page Bone Structure (Created page with "Bone consists of two forms: woven and lamella {| class="wikitable" |+Woven vs Lamellar Bone !Property !Woven Bone !Lamellar Bone |- |Definition |"Primitive", immature |"Mature...")
- 09:21, 1 August 2021 Jeremy talk contribs created page File:Cartilage extracellular matrix.png (Components of the extracellular matrix (ECM). Source. This figure is is licensed under the Creative Commons Attribution-Share Alike 4.0 International license from Kassidy veasaw.)
- 09:21, 1 August 2021 Jeremy talk contribs uploaded File:Cartilage extracellular matrix.png (Components of the extracellular matrix (ECM). Source. This figure is is licensed under the Creative Commons Attribution-Share Alike 4.0 International license from Kassidy veasaw.)
- 09:21, 1 August 2021 Jeremy talk contribs uploaded a new version of File:Chondrocyte receptors.jpg
- 09:20, 1 August 2021 Jeremy talk contribs created page File:Chondrocyte receptors.jpg (From https://commons.wikimedia.org/wiki/File:Chondrocyte_receptors.jpg)
- 09:20, 1 August 2021 Jeremy talk contribs uploaded File:Chondrocyte receptors.jpg (From https://commons.wikimedia.org/wiki/File:Chondrocyte_receptors.jpg)
- 16:55, 31 July 2021 Jeremy talk contribs created page File:Facet joint components.jpg (Facet joint structure and blowup of cartilage with different layers Copyright ยฉ 2011 by ASME Jaumard, Nicolas V et al. โSpinal facet joint biomechanics and mechanotransduction in normal, injury and degenerative conditions.โ Journal of biomechanical engineering vol. 133,7 (2011): 071010. doi:10.1115/1.4004493)
- 16:55, 31 July 2021 Jeremy talk contribs uploaded File:Facet joint components.jpg (Facet joint structure and blowup of cartilage with different layers Copyright ยฉ 2011 by ASME Jaumard, Nicolas V et al. โSpinal facet joint biomechanics and mechanotransduction in normal, injury and degenerative conditions.โ Journal of biomechanical engineering vol. 133,7 (2011): 071010. doi:10.1115/1.4004493)
- 16:47, 31 July 2021 Jeremy talk contribs created page File:Synovial joint.jpg (From https://commons.wikimedia.org/wiki/File:907_Synovial_Joints.jpg)
- 16:47, 31 July 2021 Jeremy talk contribs uploaded File:Synovial joint.jpg (From https://commons.wikimedia.org/wiki/File:907_Synovial_Joints.jpg)
- 16:39, 31 July 2021 Jeremy talk contribs created page File:Aggrecan function.png (Proteoglycan aggregates are depicted as being entrapped by collagen fibrils. In the relaxed state the aggregates swell as the anionic chondroitin sulfate and keratan sulfate chains draw water into the tissue until an equilibrium is attained in which swelling is balance by tensile forces in the collagen fibrils. Under compression, water is displaced and the chondroitin sulfate and keratan sulfate chains are brought into closer proximity, so increasing their swelling potential and balancing the...)
- 16:39, 31 July 2021 Jeremy talk contribs uploaded File:Aggrecan function.png (Proteoglycan aggregates are depicted as being entrapped by collagen fibrils. In the relaxed state the aggregates swell as the anionic chondroitin sulfate and keratan sulfate chains draw water into the tissue until an equilibrium is attained in which swelling is balance by tensile forces in the collagen fibrils. Under compression, water is displaced and the chondroitin sulfate and keratan sulfate chains are brought into closer proximity, so increasing their swelling potential and balancing the...)
- 15:40, 31 July 2021 Jeremy talk contribs created page File:Aggrecan domains.png (The proteoglycan aggregate is depicted as a central hyaluronan (HA) filament with aggrecan and link proteins (LP) attached to it. The domains of the aggrecan core protein are indicated. G1, G2 and G3, globular regions; IGD, interglobular domain; KS, keratan sulfate-rich domain; CS1 and CS2, chondroitin sulfate-rich domains Roughley, P.J., Mort, J.S. The role of aggrecan in normal and osteoarthritic cartilage. J EXP ORTOP 1, 8 (2014). https://doi.org/10.1186/s40634-014-0008-7)
- 15:40, 31 July 2021 Jeremy talk contribs uploaded File:Aggrecan domains.png (The proteoglycan aggregate is depicted as a central hyaluronan (HA) filament with aggrecan and link proteins (LP) attached to it. The domains of the aggrecan core protein are indicated. G1, G2 and G3, globular regions; IGD, interglobular domain; KS, keratan sulfate-rich domain; CS1 and CS2, chondroitin sulfate-rich domains Roughley, P.J., Mort, J.S. The role of aggrecan in normal and osteoarthritic cartilage. J EXP ORTOP 1, 8 (2014). https://doi.org/10.1186/s40634-014-0008-7)
- 13:21, 31 July 2021 Jeremy talk contribs created page File:Proteoglycan network in articular cartilage.jpg (A schematic representation of the collagen network interacting with the proteoglycan network in AC. They have complex macromolecules, also known as aggrecans an elongated protein core to which long glycosaminoglycan chains attach. These carry numerous negative charges and are via chondroitin-4-sulphate, chondroitin-6-sulphate, and keratan sulphate covalently with the aggrecan chain connected. The interstices of this porous solid matrix are filled with water and dissolved ions Eschweiler J, H...)
- 13:21, 31 July 2021 Jeremy talk contribs uploaded File:Proteoglycan network in articular cartilage.jpg (A schematic representation of the collagen network interacting with the proteoglycan network in AC. They have complex macromolecules, also known as aggrecans an elongated protein core to which long glycosaminoglycan chains attach. These carry numerous negative charges and are via chondroitin-4-sulphate, chondroitin-6-sulphate, and keratan sulphate covalently with the aggrecan chain connected. The interstices of this porous solid matrix are filled with water and dissolved ions Eschweiler J, H...)
- 13:01, 31 July 2021 Jeremy talk contribs created page Cartilage Biomechanics (Created page with "Category:Biomechanics") Tag: Visual edit
- 12:44, 31 July 2021 Jeremy talk contribs created page File:Articular cartilage zones.jpg (Schematic, cross-sectional diagram of healthy articular cartilage: cellular organization in the zones of articular cartilage Eschweiler J, Horn N, Rath B, Betsch M, Baroncini A, Tingart M, Migliorini F. The Biomechanics of Cartilage-An Overview. Life (Basel). 2021 Apr 1;11(4):302. doi: 10.3390/life11040302. PMID: 33915881; PMCID: PMC8065530.)
- 12:44, 31 July 2021 Jeremy talk contribs uploaded File:Articular cartilage zones.jpg (Schematic, cross-sectional diagram of healthy articular cartilage: cellular organization in the zones of articular cartilage Eschweiler J, Horn N, Rath B, Betsch M, Baroncini A, Tingart M, Migliorini F. The Biomechanics of Cartilage-An Overview. Life (Basel). 2021 Apr 1;11(4):302. doi: 10.3390/life11040302. PMID: 33915881; PMCID: PMC8065530.)
- 12:36, 31 July 2021 Jeremy talk contribs created page File:Zones and constituents of articular cartilage.png (Zones and constituents of articular cartilage. A schematic representation of the different matrix components and their organization throughout articular cartilage. Baer K, Kieser S, Schon B, Rajendran K, Ten Harkel T, Ramyar M, Lรถbker C, Bateman C, Butler A, Raja A, Hooper G, Anderson N, Woodfield T. Spectral CT imaging of human osteoarthritic cartilage via quantitative assessment of glycosaminoglycan content using multiple contrast agents. APL Bioeng. 2021 Apr 1;5(2):026101. doi: 10.1063...)
- 12:36, 31 July 2021 Jeremy talk contribs uploaded File:Zones and constituents of articular cartilage.png (Zones and constituents of articular cartilage. A schematic representation of the different matrix components and their organization throughout articular cartilage. Baer K, Kieser S, Schon B, Rajendran K, Ten Harkel T, Ramyar M, Lรถbker C, Bateman C, Butler A, Raja A, Hooper G, Anderson N, Woodfield T. Spectral CT imaging of human osteoarthritic cartilage via quantitative assessment of glycosaminoglycan content using multiple contrast agents. APL Bioeng. 2021 Apr 1;5(2):026101. doi: 10.1063...)
- 11:39, 31 July 2021 Jeremy talk contribs created page Synovial Joints (Created page with "Category:Anatomy")
- 15:27, 28 July 2021 Jeremy talk contribs created page Paediatric Chest Wall Deformities (Created page with "*{{#pmid:19853763}} *{{#pmid:23883250}} *{{#pmid:10478254}} *{{#pmid:9051041}} Category:Chest Wall")
- 15:10, 27 July 2021 Jeremy talk contribs uploaded a new version of File:C6 and C7 radicular pain.png (Sensory impairment not pain)
- 16:10, 26 July 2021 Jeremy talk contribs created page Osteomalacia (Created page with "{{stub}} ==See Also== *{{#pmid:31289164}} ==References== <references/> {{Reliable sources}} Category:Widespread") Tag: Visual edit: Switched
- 19:22, 25 July 2021 Jeremy talk contribs created page File:Stress strain curve bone in tension.png (A typical stress-strain curve for cortical bone in tension. Note how the yield and ultimate strengths are similar. Orthopaedic Basic Science - 2nd edition page 336)
- 19:22, 25 July 2021 Jeremy talk contribs uploaded File:Stress strain curve bone in tension.png (A typical stress-strain curve for cortical bone in tension. Note how the yield and ultimate strengths are similar. Orthopaedic Basic Science - 2nd edition page 336)
- 18:58, 25 July 2021 Jeremy talk contribs created page Material Properties (Created page with "Category:Biomechanics") Tag: Visual edit
- 16:46, 25 July 2021 Jeremy talk contribs created page Form and Function of Bone (Created page with "{{stub}} Category:Anatomy")
- 19:14, 23 July 2021 Jeremy talk contribs created page File:Adams forward bending with scoliometer.png (The inclination of the scoliosis is measured by placing the scoliometer on the back hump according to Adamโs forward bending test)
- 19:14, 23 July 2021 Jeremy talk contribs uploaded File:Adams forward bending with scoliometer.png (The inclination of the scoliosis is measured by placing the scoliometer on the back hump according to Adamโs forward bending test)
- 18:52, 23 July 2021 Jeremy talk contribs created page File:Scoliosis cobb angle measurement.png (The magnitude of a scoliosis curve is given by the Cobb angle. To measure the Cobb angle, one must first identify the โend vertebrae,โ the top and bottom-most vertebral bodies in the curve. (As shown in the figure, this spine has 2 offsetting curves, denoted by green and red vertebral bodies.) Lines are then drawn along the superior endplate of the highest vertebral body (A) and the inferior endplate of the lowest vertebral body (B). These lines are then extended until they intersect; the ang...)
- 18:52, 23 July 2021 Jeremy talk contribs uploaded File:Scoliosis cobb angle measurement.png (The magnitude of a scoliosis curve is given by the Cobb angle. To measure the Cobb angle, one must first identify the โend vertebrae,โ the top and bottom-most vertebral bodies in the curve. (As shown in the figure, this spine has 2 offsetting curves, denoted by green and red vertebral bodies.) Lines are then drawn along the superior endplate of the highest vertebral body (A) and the inferior endplate of the lowest vertebral body (B). These lines are then extended until they intersect; the ang...)
- 06:41, 23 July 2021 Jeremy talk contribs created page Idiopathic Scoliosis (Created page with "Scoliosis is defined as a coronal spinal curvature of at least 10ยฐ with rotation of the vertebral bodies of unknown origin. == Epidemiology == Idiopathic scoliosis is the mo...") Tag: Visual edit
- 18:22, 22 July 2021 Jeremy talk contribs created page Category:Knee and Leg Anatomy (Created page with "Category:Knee and Leg")
- 18:21, 22 July 2021 Jeremy talk contribs created page Knee Joint (Created page with "{{stub}} Category:Knee and Leg") Tag: Visual edit: Switched
- 18:39, 21 July 2021 Jeremy talk contribs created page File:Nociplastic Pain - Fitzcharles 2021.pdf (File uploaded with MsUpload)
- 18:39, 21 July 2021 Jeremy talk contribs uploaded File:Nociplastic Pain - Fitzcharles 2021.pdf (File uploaded with MsUpload)
- 18:29, 21 July 2021 Jeremy talk contribs created page Quiz:Orthopaedic Basic Sciences/Chapter 13 (Created page with "{{Template accesscontrol | Registrar, Fellow}} {{Orthopaedic Basic Science Chapters}}")