Kyle N Kunze1, Robert A Burnett1, Joshua Wright-Chisem2, Rachel M Frank3, Jorge Chahla4. 1. Department of Orthopaedic Surgery, Division of Sports Medicine, Rush University Medical Center, Chicago, IL, USA. 2. Department of Orthopaedic Surgery, Hospital for Special Surgery, New York, NY, USA. 3. Department of Orthopaedic Surgery, Division of Sports Medicine, University of Colorado School of Medicine, Boulder, CO, USA. 4. Department of Orthopaedic Surgery, Division of Sports Medicine, Rush University Medical Center, Chicago, IL, USA. jorge.chahla@rushortho.com.
Abstract
PURPOSE OF REVIEW: The use of human adipose-derived mesenchymal stem cells (ADSCs) has gained attention due to its potential to expedite healing and the ease of harvesting; however, clinical evidence is limited, and questions concerning optimal method of delivery and long-term outcomes remain unanswered. RECENT FINDINGS: Administration of ADSCs in animal models has been reported to aid in improved healing benefits with enhanced repair biomechanics, superior gross histological appearance of injury sites, and higher concentrations of growth factors associated with healing compared to controls. Recently, an increasing body of research has sought to examine the effects of ADSCs in humans. Several available processing techniques and formulations for ADSCs exist with evidence to suggest benefits with the use of ADSCs, but the superiority of any one method is not clear. Evidence from the most recent clinical studies available demonstrates promising outcomes following treatment of select musculoskeletal pathologies with ADSCs despite reporting variability among ADSCs harvesting and processing; these include (1) healing benefits and pain improvement for rotator cuff and Achilles tendinopathies, (2) improvements in pain and function in those with knee and hip osteoarthritis, and (3) improved cartilage regeneration for osteochondral focal defects of the knee and talus. The limitation to most of this literature is the use of other therapeutic biologics in combination with ADSCs. Additionally, many studies lack control groups, making establishment of causation inappropriate. It is imperative to perform higher-quality studies using consistent, predictable control populations and to standardize formulations of ADSCs in these trials.
PURPOSE OF REVIEW: The use of human adipose-derived mesenchymal stem cells (ADSCs) has gained attention due to its potential to expedite healing and the ease of harvesting; however, clinical evidence is limited, and questions concerning optimal method of delivery and long-term outcomes remain unanswered. RECENT FINDINGS: Administration of ADSCs in animal models has been reported to aid in improved healing benefits with enhanced repair biomechanics, superior gross histological appearance of injury sites, and higher concentrations of growth factors associated with healing compared to controls. Recently, an increasing body of research has sought to examine the effects of ADSCs in humans. Several available processing techniques and formulations for ADSCs exist with evidence to suggest benefits with the use of ADSCs, but the superiority of any one method is not clear. Evidence from the most recent clinical studies available demonstrates promising outcomes following treatment of select musculoskeletal pathologies with ADSCs despite reporting variability among ADSCs harvesting and processing; these include (1) healing benefits and pain improvement for rotator cuff and Achilles tendinopathies, (2) improvements in pain and function in those with knee and hip osteoarthritis, and (3) improved cartilage regeneration for osteochondral focal defects of the knee and talus. The limitation to most of this literature is the use of other therapeutic biologics in combination with ADSCs. Additionally, many studies lack control groups, making establishment of causation inappropriate. It is imperative to perform higher-quality studies using consistent, predictable control populations and to standardize formulations of ADSCs in these trials.
Authors: Marco Saler; Laura Caliogna; Laura Botta; Francesco Benazzo; Federica Riva; Giulia Gastaldi Journal: Int J Mol Sci Date: 2017-12-13 Impact factor: 5.923
Authors: Florian Geburek; Florian Roggel; Hans T M van Schie; Andreas Beineke; Roberto Estrada; Kathrin Weber; Maren Hellige; Karl Rohn; Michael Jagodzinski; Bastian Welke; Christof Hurschler; Sabine Conrad; Thomas Skutella; Chris van de Lest; René van Weeren; Peter M Stadler Journal: Stem Cell Res Ther Date: 2017-06-05 Impact factor: 6.832