OBJECTIVES: The aim of this study was to select and provide enough stem cells for quick transplantation in bone engineering procedures, avoiding any in vitro expansion step. MATERIALS AND METHODS: Dental germ pulp, collected from 25 healthy subjects aged 13-20 years, were subjected to magnetic-activated cell sorting to select a CD34(+) stem cell population capable of differentiating into pre-osteoblasts. These cells were allowed to adhere to an absorbable polylactic-coglycolic acid scaffold for 30 min, without any prior expansion, and the CD34(+) cell-colonized scaffolds were then transplanted into immunocompromised rats, subcutaneously. RESULTS: After 60 days, analysis of recovered transplants revealed that they were formed of nodules of bone, of the same dimensions as the original scaffold. Bone-specific proteins were detected by immunofluorescence, within the nodules, and X-ray diffraction patterns revealed characteristic features of bone. In addition, presence of platelet endothelial cell adhesion molecule and von Willebrand factor immunoreactivity were suggestive of neo-angiogenesis and neovasculogenesis taking place within nodules. Importantly, these vessels were HLA-1(+) and, thus, clearly human in origin. CONCLUSIONS: This study indicates that CD34(+) cells obtained from dental pulp can be used for engineering bone, without the need for prior culture expanding procedures. Using autologous stem cells, this schedule could be used to provide the basis for bone regenerative surgery, with limited sacrifice of tissue, low morbidity at the collection site, and significant reduction in time needed for clinical recovery.
OBJECTIVES: The aim of this study was to select and provide enough stem cells for quick transplantation in bone engineering procedures, avoiding any in vitro expansion step. MATERIALS AND METHODS: Dental germ pulp, collected from 25 healthy subjects aged 13-20 years, were subjected to magnetic-activated cell sorting to select a CD34(+) stem cell population capable of differentiating into pre-osteoblasts. These cells were allowed to adhere to an absorbable polylactic-coglycolic acid scaffold for 30 min, without any prior expansion, and the CD34(+) cell-colonized scaffolds were then transplanted into immunocompromised rats, subcutaneously. RESULTS: After 60 days, analysis of recovered transplants revealed that they were formed of nodules of bone, of the same dimensions as the original scaffold. Bone-specific proteins were detected by immunofluorescence, within the nodules, and X-ray diffraction patterns revealed characteristic features of bone. In addition, presence of platelet endothelial cell adhesion molecule and von Willebrand factor immunoreactivity were suggestive of neo-angiogenesis and neovasculogenesis taking place within nodules. Importantly, these vessels were HLA-1(+) and, thus, clearly human in origin. CONCLUSIONS: This study indicates that CD34(+) cells obtained from dental pulp can be used for engineering bone, without the need for prior culture expanding procedures. Using autologous stem cells, this schedule could be used to provide the basis for bone regenerative surgery, with limited sacrifice of tissue, low morbidity at the collection site, and significant reduction in time needed for clinical recovery.
Authors: Yuehua Jiang; Balkrishna N Jahagirdar; R Lee Reinhardt; Robert E Schwartz; C Dirk Keene; Xilma R Ortiz-Gonzalez; Morayma Reyes; Todd Lenvik; Troy Lund; Mark Blackstad; Jingbo Du; Sara Aldrich; Aaron Lisberg; Walter C Low; David A Largaespada; Catherine M Verfaillie Journal: Nature Date: 2002-06-20 Impact factor: 49.962
Authors: R d'Aquino; A Graziano; M Sampaolesi; G Laino; G Pirozzi; A De Rosa; G Papaccio Journal: Cell Death Differ Date: 2007-03-09 Impact factor: 15.828
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Authors: Reem El-Gendy; Xuebin B Yang; Phillipa J Newby; Aldo R Boccaccini; Jennifer Kirkham Journal: Tissue Eng Part A Date: 2012-11-19 Impact factor: 3.845
Authors: Daniel L Alge; Dan Zhou; Lyndsey L Adams; Brandon K Wyss; Matthew D Shadday; Erik J Woods; T M Gabriel Chu; W Scott Goebel Journal: J Tissue Eng Regen Med Date: 2010-01 Impact factor: 3.963
Authors: P Chatakun; R Núñez-Toldrà; E J Díaz López; C Gil-Recio; E Martínez-Sarrà; F Hernández-Alfaro; E Ferrés-Padró; L Giner-Tarrida; M Atari Journal: Cell Mol Life Sci Date: 2013-04-09 Impact factor: 9.261