This study was performed to evaluate the effect of surface treatment of titanium, including: machined (MA), sand-blasted and acid-etched (SA), and hydroxyapatite-coated (HA) surfaces, and application of bone morphogenetic protein-2 (BMP-2) on attachment, proliferation, and differentiation of stem derived from buccal fat pad.
Stem cells were isolated from buccal fat pad. Stem cells were cultured on MA, SA, and HA titanium discs with and without BMP-2. Cellular attachment and alkaline phosphatase (ALP) activity were evaluated at day 3, 7, and 14.
Osteocalcin expression was performed using immunofluorescent assay. The cells grown on MA surface demonstrated good attachment with spindle-like morphology, and cells grown on SA and HA surfaces demonstrated more stellate-like morphology. An increase of ALP activity was seen in the rough surface (SA and HA groups) and a statistically significant increase was seen in the HA group (p < 0.05). The addition of BMP-2 made an expression of osteocalcin, and the highest expression of osteocalcin was noted in the HA group. Within the limits of this study,surface modification of titanium surfaces by sand-blasting/acid-etching or hydroxyapatite-coating was not able to allow the stem cells to differentiate into osteoblasts without exogenous soluble factors. The addition of BMP-2showed osteogenic differentiation of stem cells and HA-coated surfaces demonstrated the highest ALP and osteocalcin expression.

1 권순길, "협부지방유래 줄기세포의 골모세포 분화에 있어 심바스타틴과 BMP-2에 의한 발현유전자의 마이크로어레이를 이용한 분석" 한국조직공학과 재생의학회 6 (6): 942-951, 2009

2 표성운, "협부지방에서 성체 줄기세포의 분리와 골모 세포로의 분화" 대한구강악안면외과학회 32 (32): 524-529, 2006

3 김창현, "인간협지방대유래 줄기세포의 골분화에 대한 심바스타틴의 효과" 한국조직공학과 재생의학회 6 (6): 2-8, 2009

4 BD Boyan, "Titanium surfaceroughness alters responsiveness of MG63 osteoblast-like cellsto 1 alpha,25-(OH)2D3" 39 : 77-, 1998

5 MJ Dalby, "The control of humanmesenchymal cell differentiation using nanoscale symmetry anddisorder" 6 : 997-, 2007

6 A Hossain, "Surface texture andcomposition of titanium brushed with toothpaste slurries ofdifferent pHs" 23 : 186-, 2007

7 SS Hughes, "Shared phenotypicexpression of osteoblasts and chondrocytes in fracture callus" 10 : 533-, 1995

8 J Lincks, "Response of MG63osteoblast-like cells to titanium and titanium alloy is dependenton surface roughness and composition" 19 : 2219-, 1998

9 Q Shen, "Recombinant human bonemorphogenetic protein-4 (BMP-4)-stimulated cell differentiationand bone formation within the expanding calvarial suture in rats" 20 : 1561-, 2009

10 JB Park, "Osteopromotion with syntheticoligopeptide-coated bovine bone mineral in vivo" 78 : 157-, 2007

11 MJ Coelho, "MH Fernandes, Human bone cell cultures inbiocompatibility testing. Part II: effect of ascorbic acid, betaglycerophosphateand dexamethasone on osteoblasticdifferentiation" 21 : 1095-, 2000

12 JB Park, "In vitro analysis of the efficacyof ultrasonic scalers and a toothbrush for removing bacteriafrom rbm titanium discs" 1 : 2012

13 H Qi, "Identification of genes responsible for osteoblast differentiation from humanmesodermal progenitor cells" 100 : 3305-, 2003

14 Y Nakashima, "Hydroxyapatitecoatingon titanium arc sprayed titanium implants" 35 : 287-, 1997

15 L Agata De Sena, "Hydroxyapatite deposition by electrophoresis on titanium sheetswith different surface finishing" 60 : 1-, 2002

16 F Verdugo, "Human bone repairafter mandibular symphysis block harvesting: a clinical andtomographic study" 81 : 702-, 2010

17 R Jimbo, "Genetic responses tonanostructured calcium-phosphate-coated implants" 90 : 1422-, 2011

18 MA Aronow, "Factors thatpromote progressive development of the osteoblast phenotypein cultured fetal rat calvaria cells" 143 : 213-, 1990

19 JB Park, "Effects of ultrasonic scaler tips andtoothbrush on titanium disc surfaces evaluated with confocalmicroscopy" 23 : 1552-, 2012

20 J Steigenga, "Effects of implantthread geometry on percentage of osseointegration and resistanceto reverse torque in the tibia of rabbits" 75 : 1233-, 2004

21 C Masaki, "Effects of implantsurface microtopography on osteoblast gene expression" 16 : 650-, 2005

22 JW Park, "Effects of calcium ion incorporationon osteoblast gene expression in MC3T3-E1 cells cultured onmicrostructured titanium surfaces" 86 : 117-, 2008

23 DD Deligianni, "Effect ofsurface roughness of hydroxyapatite on human bone marrow celladhesion, proliferation, differentiation and detachment strength" 22 : 87-, 2001

24 RA Gittens, "Differentialresponses of osteoblast lineage cells to nanotopographicallymodified,microroughened titanium-aluminum-vanadium alloysurfaces" 33 : 8986-, 2012

25 FM Silva, "Complications ofintraoral donor site for bone grafting prior to implant placement" 15 : 420-, 2006

26 J He, "Collagen-infiltrated poroushydroxyapatite coating and its osteogenic properties: in vitro and invivo study" 100 : 1706-, 2012

27 E Farre-Guasch, "Buccal fat pad, an oral access source of human adipose stemcells with potential for osteochondral tissue engineering: an invitro study" 16 : 1083-, 2010

28 M Piattelli, "Bone response tomachined and resorbable blast material titanium implants: anexperimental study in rabbits" 28 : 2-, 2002

29 D Li, "Biomechanical comparison ofthe sandblasted and acid-etched and the machined and acidetchedtitanium surface for dental implants" 60 : 325-, 2002

30 김창현, "BMP-2에 의한 협부 지방 성체 줄기세포의 골형성" 대한구강악안면외과학회 34 (34): 412-418, 2008

31 LF Cooper, "A role for surface topography in creating andmaintaining bone at titanium endosseous implants" 84 : 522-, 2000

32 P Doglioli, "A novel spectrofluorometrictechnique for specific biocompatibility testing of implantablematerials by cell culture. Report on use for multiparameter analysisof human osteoblasts cultured on commercially pure titanium andhydroxyapatite" 35 : 93-, 2001