J. Li (Chengdu, China, China)
West China Hospital,Sichuan University Orthopaedic & Sports MedicineAuthor Of 4 Presentations
Podium Presentation
Meniscus
13.1.1 - Does Torn Discoid Meniscus Have More Effects on Medial Meniscal Extrusion and Arthritic Changes in Older Patients? (ID 10072)
Presentation Number
13.1.1
Topic
Meniscus
Lecture Time
13:30 - 13:39
Corresponding Author
Podium Presentation
Cartilage and Meniscus
19.4.1 - Extracellular Matrix Formation and Meniscal Phenotype in Co-Cultures of Meniscal Cells and Peripheral Blood Stem Cells (ID 10105)
Presentation Number
19.4.1
Topic
Cartilage and Meniscus
Lecture Time
11:15 - 11:24
Session Name
Corresponding Author
Podium Presentation
Osteoarthritis
21.3.7 - shRNAs targeting a functional isoform of Ob-Rb inhibit cartilage degeneration in a rat model of osteoarthritis (ID 10148)
Presentation Number
21.3.7
Topic
Osteoarthritis
Lecture Time
15:09 - 15:18
Session Name
Corresponding Author
Poster
Stem Cells
P283 - Demineralized Cortical Bone Matrix and Peripheral Blood-Derived MSC for Meniscal tissue engineering in Rabbit Model (ID 10075)
Presentation Number
P283
Topic
Stem Cells
Lecture Time
10:45 - 10:45
Session Name
11.0 - Poster Viewing / Exhibition (ID 780)
Corresponding Author
Presenter Of 2 Presentations
Podium Presentation
Meniscus
13.1.1 - Does Torn Discoid Meniscus Have More Effects on Medial Meniscal Extrusion and Arthritic Changes in Older Patients? (ID 10072)
Presentation Number
13.1.1
Topic
Meniscus
Lecture Time
13:30 - 13:39
Corresponding Author
Poster
Stem Cells
P283 - Demineralized Cortical Bone Matrix and Peripheral Blood-Derived MSC for Meniscal tissue engineering in Rabbit Model (ID 10075)
Presentation Number
P283
Topic
Stem Cells
Lecture Time
10:45 - 10:45
Session Name
11.0 - Poster Viewing / Exhibition (ID 780)
Corresponding Author
Poster Author Of 1 e-Poster
P283 - Demineralized Cortical Bone Matrix and Peripheral Blood-Derived MSC for Meniscal tissue engineering in Rabbit Model (ID 10075)
Corresponding Author
Topic
Stem Cells
Rating
5