about
Glycosaminoglycans of human rotator cuff tendons: changes with age and in chronic rotator cuff tendinitis.The vasculature and its role in the damaged and healing tendonADAMTS proteinases: a multi-domain, multi-functional family with roles in extracellular matrix turnover and arthritis.In vivo biological response to extracorporeal shockwave therapy in human tendinopathyCyclical strain modulates metalloprotease and matrix gene expression in human tenocytes via activation of TGFβFascicles from energy-storing tendons show an age-specific response to cyclic fatigue loadingRotator cuff degeneration and lateral epicondylitis: a comparative histological studyTendon degeneration and chronic shoulder pain: changes in the collagen composition of the human rotator cuff tendons in rotator cuff tendinitisHuman shoulder tendon biopsy samples in organ culture produce procollagenase and tissue inhibitor of metalloproteinases.Specimen dimensions influence the measurement of material properties in tendon fascicles.Changes in matrix protein biochemistry and the expression of mRNA encoding matrix proteins and metalloproteinases in posterior tibialis tendinopathyIncreased expression of IL-6 family members in tendon pathologyChronic tendon pathology: molecular basis and therapeutic implications.The interfascicular matrix enables fascicle sliding and recovery in tendon, and behaves more elastically in energy storing tendons.Cyclic loading of tendon fascicles using a novel fatigue loading system increases interleukin-6 expression by tenocytes.International Olympic Committee consensus statement: molecular basis of connective tissue and muscle injuries in sport.Tendinopathy--from basic science to treatment.The role of proteases in pathologies of the synovial joint.Distribution of proteins within different compartments of tendon varies according to tendon type.Fascicles and the interfascicular matrix show adaptation for fatigue resistance in energy storing tendons.MMP and TIMP temporal gene expression during osteocytogenesis.Helical sub-structures in energy-storing tendons provide a possible mechanism for efficient energy storage and return.Functionally distinct tendon fascicles exhibit different creep and stress relaxation behaviour.Effect of fatigue loading on structure and functional behaviour of fascicles from energy-storing tendons.Early stage fatigue damage occurs in bovine tendon fascicles in the absence of changes in mechanics at either the gross or micro-structural level.Tendon overload results in alterations in cell shape and increased markers of inflammation and matrix degradation.Substrate topography: A valuable in vitro tool, but a clinical red herring for in vivo tenogenesis.Tendon extracellular matrix damage, degradation and inflammation in response to in vitro overload exercise.GAG depletion increases the stress-relaxation response of tendon fascicles, but does not influence recovery.Lysylhydroxylation and non-reducible crosslinking of human supraspinatus tendon collagen: changes with age and in chronic rotator cuff tendinitis.A Clinical, Biological, and Biomaterials Perspective into Tendon Injuries and Regeneration.Contrasting effects of fluoroquinolone antibiotics on the expression of the collagenases, matrix metalloproteinases (MMP)-1 and -13, in human tendon-derived cells.Tenascin-C and human tendon degeneration.The effect of ciprofloxacin on tendon, paratenon, and capsular fibroblast metabolism.96-well plate-based method for total collagen analysis of cell cultures.Heparan sulfate is necessary for adhesive interactions between human early hemopoietic progenitor cells and the extracellular matrix of the marrow microenvironment.Ciprofloxacin enhances the stimulation of matrix metalloproteinase 3 expression by interleukin-1beta in human tendon-derived cells. A potential mechanism of fluoroquinolone-induced tendinopathy.Ciprofloxacin reduces the stimulation of prostaglandin E(2) output by interleukin-1beta in human tendon-derived cells.Versican splice variant messenger RNA expression in normal human Achilles tendon and tendinopathies.Inhibition of interleukin-1beta-stimulated collagenase and stromelysin expression in human tendon fibroblasts by epigallocatechin gallate ester.
P50
Q24514801-4DB4E2AA-5516-445B-8415-057B38B1582CQ24806244-F786A442-5512-4EDC-A5BD-D4A5AEF9113CQ24810478-B610413E-4E24-4BDF-BC8D-B792FC4C3E1EQ28261996-23DB02FA-5DE1-44A2-8C98-E32E8B6B8F53Q28394607-6974B3BB-C280-42AF-A9B3-EE459883ECB5Q28394696-654357DF-D4E5-40DD-A800-3F4671E4CA7CQ33566034-F16B0356-C2A0-45DA-8349-68B5F299CDFDQ33566386-B1FC18DD-9D00-485E-8B56-6AB507DDFFC9Q33578151-CFE1FDF9-C1A8-4A56-8FF6-69CBF9A571D9Q33581644-8CC03415-93D4-46EF-805B-677C687F9343Q35896677-4529877B-38BC-41E3-A0DE-B617F0563856Q36049631-E12F92D4-6173-4D0A-A8D1-AE0E6FBED5E3Q36083099-CC9D4611-F9B1-4525-89AD-0D78A9F156ADQ36305186-90ED0875-8FB9-4542-9D06-1D6CBCEC88EBQ36573119-8560FAC9-224D-4587-9503-A3CB4E3E3E41Q37060882-BC191FE3-8DD8-42D3-8D92-2DB32EE3A9E4Q37072372-19DC8FA8-A134-4C78-A544-C0A53BB7B7EDQ37109772-FB96670C-A00F-4366-AE38-CADE393BEC63Q37153789-6B49E663-7034-4141-8987-14B4C3700A1CQ37241230-EA9AE293-DE78-414F-B9DA-0BF2CD5234A5Q38873760-C61DC2F6-5843-4968-8950-8618EA52C051Q40110812-8BA1A1A6-27BD-45E9-BE42-C9DF18E7E831Q40153888-89573485-293B-4730-9CCF-D58215BB07E5Q40185667-F7762503-DCB2-4293-B58C-23DF2094F7AEQ40205967-51C39970-356B-453E-8672-AEFA0AA4F5F9Q40253892-BAC70530-5094-4B89-A306-DBF70D133F09Q40595549-5E371474-8F42-4BF7-93D2-A52462EE6DEBQ40959061-F0CAF153-3985-445B-B6B9-23A3384FE5C5Q41126687-58A6C7F6-881A-4F6E-BB8E-37A09D587CA2Q42095127-15A47D92-A79E-42B6-A3D1-42C20AFD99F2Q42321092-91ACE587-8ABF-4443-A6EE-2991FC755A0DQ42483683-05B52D23-498F-4B40-A80D-F5C9BE71B88BQ42804201-4E46C271-253B-4ACB-9893-6921F73EE81AQ43567806-9C4EEAE1-EEBE-43DB-9F85-E8F032812779Q43609441-3FA00816-F371-4DAA-BC54-0C6F464DC122Q43761039-C6E7CFED-CA66-4372-9B93-7DD5EC67D7F9Q44213857-8BE299B1-393D-4708-B0D9-DFF1F103D43AQ44480927-1A612845-AE88-4001-BDE2-3F2F9C55C1AAQ44892497-B5ACE163-4EF2-4443-A78F-66C6B3169675Q45008823-81E78DB5-4BC7-4F12-9DDA-6940D518878E
P50
description
hulumtues
@sq
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Graham Riley
@ast
Graham Riley
@en
Graham Riley
@es
Graham Riley
@nl
Graham Riley
@sl
Грэм Райли
@ru
type
label
Graham Riley
@ast
Graham Riley
@en
Graham Riley
@es
Graham Riley
@nl
Graham Riley
@sl
Грэм Райли
@ru
prefLabel
Graham Riley
@ast
Graham Riley
@en
Graham Riley
@es
Graham Riley
@nl
Graham Riley
@sl
Грэм Райли
@ru
P1053
D-3809-2009
P106
P1153
55855752500
P21
P31
P3829
P496
0000-0001-5528-5611