Education
School ¡X Major ¡X Degree | Duration |
---|---|
°ª¶¯Âå¾Ç°| ¡X Âå¾Ç¬ã¨s©Ò(²¦) ¡X ³Õ¤h PhD, Graduate Institute of Medicine, College of Medicine, Kaohsiung Medical University |
¡X 1999/06 |
°ª¶¯Âå¾Ç°| ¡X Âå¾Ç¬ã¨s©Ò(²¦) ¡X ºÓ¤h Master, Graduate Institute of Medicine, College of Medicine, Kaohsiung Medical University |
1983/09 ¡X 1986/06 |
°ª¶¯Âå¾Ç°| ¡X ÃľǨt(²¦) ¡X ¾Ç¤h Bachelor, School of Pharmacy, Kaohsiung Medical University |
1973/09 ¡X 1977/06 |
Intramural Experience
Office/Department/Institute | Position | Duration |
---|---|---|
¥Í²z¾Ç¬ì Department of Physiology | Distinguished Professor | 2022/08/01 ¡X 2025/07/31 |
¥Í²z¾Ç¬ì Department of Physiology | Professor | 2008/02/01 ¡X |
¥Í²z¾Ç Physiology | Associate Professor | 1996/08/01 ¡X 2008/01/31 |
¥Í²z¾Ç Physiology | Lecturer | 1986/08/01 ¡X 1996/07/31 |
¥Í²z¾Ç Physiology | Teaching Assistant | 1978/08/01 ¡X 1986/07/31 |
Extramural Experience
DEPNO | Position- Office/Department/Institute | Duration |
---|---|---|
±R¤¯ | ±Ð®v | 0660801 ¡X 0670731 |
Discipline
NO | Discipline | Expertise |
---|---|---|
1 | ¥Íª«Âå¹AÃþ Biology, Medicine and Agriculture | ¥Í²z Physiology |
2 | ¥Íª«Âå¹AÃþ Biology, Medicine and Agriculture | ÃIJz¤Î¬r²z Pharmacology and Toxicology |
3 | ¥Íª«Âå¹AÃþ Biology, Medicine and Agriculture | Âå¾Ç¤§¥Í¤Æ¤Î¤À¤l¥Íª« Medical Biochemistry and Molecular Biology |
4 | ¥Íª«Âå¹AÃþ Biology, Medicine and Agriculture | °©¬ì Division of Orthopedics |
Research & Technology Platform Open to the Outside
Interested Area(s)for Interdisciplinary Research
·F²ÓM,°©¬ì,¥Í²z¾Ç,Âå¥Î§÷®Æ
Stem cells, orthopedics, physiology, medical materials
Area(s) of Expertise & Research
·F²ÓM,°©»P³n°©¦A¥ÍÂå¾Ç,¤À¤l¥Íª«¾Ç,¥Í²z¾Ç,ÃIJz¾Ç·F²ÓM,°©»P³n°©¦A¥ÍÂå¾Ç,¤À¤l¥Íª«¾Ç,¥Í²z¾Ç,ÃIJz¾Ç
Bone cell biology, Physiology, Pharmacology, Stem cell/ Regenerative medicine
Publication
NO | Publication |
---|---|
1 | NA Anterior cruciate ligament remnant preservation attenuates apoptosis and enhances the regeneration of hamstring tendon graft. |
2 | Statin use in patients with type 2 diabetes has lower risk of hip fractures: A Taiwan national population-based study. Statin use in patients with type 2 diabetes has lower risk of hip fractures: A Taiwan national population-based study. |
3 | ³n°©²ÓM¤§¾®¦å酶½Õ¸`¯À¥i¹ï§Ü°©Ãö¸`ª¢ Chondrocyte Thrombomodulin Protects against Osteoarthritis. |
4 | Enhancement of Osteoblast Function through Extracellular Vesicles Derived from Adipose-Derived Stem Cells Enhancement of Osteoblast Function through Extracellular Vesicles Derived from Adipose-Derived Stem Cells |
5 | Anabolic Effects of a Novel Simvastatin Derivative on Treating Rat Bone Defects Anabolic Effects of a Novel Simvastatin Derivative on Treating Rat Bone Defects |
6 | Ablation of Discoidin Domain Receptor 1 Provokes an Osteopenic Phenotype by Regulating Osteoblast/Osteocyte Autophagy and Apoptosis Ablation of Discoidin Domain Receptor 1 Provokes an Osteopenic Phenotype by Regulating Osteoblast/Osteocyte Autophagy and Apoptosis |
7 | An Intermediate Concentration of Calcium with Antioxidant Supplement in Culture Medium Enhances Proliferation and Decreases the Aging of Bone Marrow Mesenchymal Stem Cells An Intermediate Concentration of Calcium with Antioxidant Supplement in Culture Medium Enhances Proliferation and Decreases the Aging of Bone Marrow Mesenchymal Stem Cells |
8 | Effect of Freshly Isolated Bone Marrow Mononuclear Cells and Cultured Bone Marrow Stromal Cells in Graft Cell Repopulation and Tendon-Bone Healing after Allograft Anterior Cruciate Ligament Reconstruction. Effect of Freshly Isolated Bone Marrow Mononuclear Cells and Cultured Bone Marrow Stromal Cells in Graft Cell Repopulation and Tendon-Bone Healing after Allograft Anterior Cruciate Ligament Reconstruction. |
9 | Simvastatin Enhances the Chondrogenesis But Not the Osteogenesis of Adipose-Derived Stem Cells in a Hyaluronan Microenvironment. Simvastatin Enhances the Chondrogenesis But Not the Osteogenesis of Adipose-Derived Stem Cells in a Hyaluronan Microenvironment. |
10 | Cyclooxygenase-2 regulates PTHrP transcription in human articular chondrocytes and is involved in the pathophysiology of osteoarthritis in rats Cyclooxygenase-2 regulates PTHrP transcription in human articular chondrocytes and is involved in the pathophysiology of osteoarthritis in rats |
11 | Intra-articular low-dose parathyroid hormone (1-34) improves mobility and articular cartilage quality in a preclinical age-related knee osteoarthritis model. Intra-articular low-dose parathyroid hormone (1-34) improves mobility and articular cartilage quality in a preclinical age-related knee osteoarthritis model. |
12 | G-Protein-Coupled Estrogen Receptor-1 Positively Regulates the Growth Plate Chondrocyte Proliferation in Female Pubertal Mice G-Protein-Coupled Estrogen Receptor-1 Positively Regulates the Growth Plate Chondrocyte Proliferation in Female Pubertal Mice |
13 | Discoidin domain receptor 1 regulates endochondral ossification through terminal differentiation of chondrocytes Discoidin domain receptor 1 regulates endochondral ossification through terminal differentiation of chondrocytes |
14 | Thrombomodulin Functional Domains Support Osteoblast Differentiation and Bone Healing in Diabetes in Mice Thrombomodulin Functional Domains Support Osteoblast Differentiation and Bone Healing in Diabetes in Mice |
15 | ¾_ªi«P¶i«e¤Q¦r¶´±aÂ_ºÝ²ÓM¤§¬¡©Ê¤Î¨ä¹ï°©Åè·F²ÓM¤§½Õ±± Extracorporeal shock wave promotes activation of anterior cruciate ligament remnant cells and their paracrine regulation of bone marrow stromal cells¡¦ proliferation, migration, collagen synthesis, and differentiation |
16 | G Protein-Coupled Estrogen Receptor Mediates Cell Proliferation through the cAMP/PKA/CREB Pathway in Murine Bone Marrow Mesenchymal Stem Cells. G Protein-Coupled Estrogen Receptor Mediates Cell Proliferation through the cAMP/PKA/CREB Pathway in Murine Bone Marrow Mesenchymal Stem Cells. |
17 | Discoidin Domain Receptors 1 Inhibition Alleviates Osteoarthritis via Enhancing Autophagy. Discoidin Domain Receptors 1 Inhibition Alleviates Osteoarthritis via Enhancing Autophagy. |
18 | Alpha-5 Integrin Mediates Simvastatin-Induced Osteogenesis of Bone Marrow Mesenchymal Stem Cells Alpha-5 Integrin Mediates Simvastatin-Induced Osteogenesis of Bone Marrow Mesenchymal Stem Cells |
19 | The effect of low-level laser irradiation on hyperglycemia-induced inflammation in human gingival fibroblasts. The effect of low-level laser irradiation on hyperglycemia-induced inflammation in human gingival fibroblasts. |
20 | Evaluation of the Corrosion Resistance and Cytocompatibility of a Bioactive Micro-Arc Oxidation Coating on AZ31 Mg Alloy Evaluation of the Corrosion Resistance and Cytocompatibility of a Bioactive Micro-Arc Oxidation Coating on AZ31 Mg Alloy |
21 | Controlled release of BMP-2 from titanium with electrodeposition modification enhancing critical size bone formation Controlled release of BMP-2 from titanium with electrodeposition modification enhancing critical size bone formation |
22 | Parathyroid hormone (1-34) ameliorated knee osteoarthritis in rats via autophagy Parathyroid hormone (1-34) ameliorated knee osteoarthritis in rats via autophagy |
23 | Hyaluronan size alters chondrogenesis of adipose-derived stem cells via the CD44/ERK/SOX-9 pathway Hyaluronan size alters chondrogenesis of adipose-derived stem cells via the CD44/ERK/SOX-9 pathway |
24 | Low Power Laser Irradiation and Human Adipose-derived Stem Cell Treatments Promote Bone Regeneration in Critical-Sized Calvarial Defects in Rats Low Power Laser Irradiation and Human Adipose-derived Stem Cell Treatments Promote Bone Regeneration in Critical-Sized Calvarial Defects in Rats |
25 | The stiffness of a crosslinked hyaluronan hydrogel affects its chondro-induction activity on hADSCs The stiffness of a crosslinked hyaluronan hydrogel affects its chondro-induction activity on hADSCs |
26 | Evaluations of Clinical-Grade Bone Substitute-Combined Simvastatin Carriers to Enhance Bone Growth: in vitro and in vivo analyses Evaluations of Clinical-Grade Bone Substitute-Combined Simvastatin Carriers to Enhance Bone Growth: in vitro and in vivo analyses |
27 | Enhancement of chondrogenesis of adipose-derived stem cells in HA-PNIPAAm-CL hydrogel for cartilage regeneration in rabbits. Enhancement of chondrogenesis of adipose-derived stem cells in HA-PNIPAAm-CL hydrogel for cartilage regeneration in rabbits. |
28 | Hyaluronan microenvironment enhances cartilage regeneration of human adipose-derived stem cells in a chondral defect model Hyaluronan microenvironment enhances cartilage regeneration of human adipose-derived stem cells in a chondral defect model |
29 | (-)-Epigallocatechin-3-Gallate (EGCG) Enhances Osteogenic Differentiation of Human Bone Marrow Mesenchymal Stem Cells. (-)-Epigallocatechin-3-Gallate (EGCG) Enhances Osteogenic Differentiation of Human Bone Marrow Mesenchymal Stem Cells. |
30 | Combination of a bioceramic scaffold and simvastatin nanoparticles as a synthetic alternative to autologous bone grafting Combination of a bioceramic scaffold and simvastatin nanoparticles as a synthetic alternative to autologous bone grafting |
31 | Anti-inflammatory effects of low-level laser therapy on human periodontal ligament cells: in vitro study. Anti-inflammatory effects of low-level laser therapy on human periodontal ligament cells: in vitro study. |
32 | Liposomal Encapsulation for Systemic Delivery of Propranolol via Transdermal Iontophoresis Improves Bone Microarchitecture in Ovariectomized Rats Liposomal Encapsulation for Systemic Delivery of Propranolol via Transdermal Iontophoresis Improves Bone Microarchitecture in Ovariectomized Rats |
33 | ¥H¥xÆW°·«O¸ê®Æ®w¤ÀªRÆb³¡°©§é³N«á¤@¦~¤º¦A¤J°|¤Î¦º¤`²v One-Year Readmission Risk and Mortality after Hip Fracture Surgery: A National Population-Based Study in Taiwan |
34 | The Fractionated Toona sinensis Leaf Extract Induces Apoptosis of Human Osteosarcoma Cells and Inhibits Tumor Growth in a Murine Xenograft Model The Fractionated Toona sinensis Leaf Extract Induces Apoptosis of Human Osteosarcoma Cells and Inhibits Tumor Growth in a Murine Xenograft Model |
35 | PLGA-linked alendronate enhances bone repair in diaphysis defect model PLGA-linked alendronate enhances bone repair in diaphysis defect model |
36 | Åè¨t¾®¦å酶½Õ¸`¯ÀÃþ¾®¶°¯À¥\¯à°Ï§í¨î¹°©²ÓM¥Í¦¨§@¥Î»Pµoª¢©Ê°©½è¬y¥¢ Myeloid thrombomodulin lectin-like domain inhibits osteoclastogenesis and inflammatory bone loss |
37 | Parathyroid hormone 1-34 reduces dexamethasone-induced terminal differentiation in human articular chondrocytes Parathyroid hormone 1-34 reduces dexamethasone-induced terminal differentiation in human articular chondrocytes |
38 | ¤ÀªRÂb·}µÑ¨úª«»¤µo·s«¬¥Ö½§ÅÖºû¤Æ¼Ò¦¡ªº¯S©Ê Characterization of a Novel Dermal Fibrosis Model Induced by Areca Nut Extract that Mimics Oral Submucous Fibrosis. |
39 | The Fractionated Toona sinensis Leaf Extract Induces Apoptosis of Human Osteosarcoma Cells and Inhibits Tumor Growth in a Murine Xenograft Model The Fractionated Toona sinensis Leaf Extract Induces Apoptosis of Human Osteosarcoma Cells and Inhibits Tumor Growth in a Murine Xenograft Model |
40 | Estrogen receptor mediates simvastatin-stimulated osteogenic effects in bone marrow mesenchymal stem cells Estrogen receptor mediates simvastatin-stimulated osteogenic effects in bone marrow mesenchymal stem cells. |
41 | Simvastatin enhances Rho/actin/cell rigidity pathway contributing to mesenchymal stem cells¡¦ osteogenic differentiation Simvastatin enhances Rho/actin/cell rigidity pathway contributing to mesenchymal stem cells¡¦ osteogenic differentiation |
42 | Suppression of discoidin domain receptor 1 expression enhances the chondrogenesis of adipose-derived stem cells Suppression of discoidin domain receptor 1 expression enhances the chondrogenesis of adipose-derived stem cells |
43 | Combination of calcium sulfate and simvastatin-controlled release microspheres enhances bone repair in critical-sized rat calvarial bone defects Combination of calcium sulfate and simvastatin-controlled release microspheres enhances bone repair in critical-sized rat calvarial bone defects |
44 | §C¯à¶q¹p®gªvÀø©óI®Ú¯«¸g¸`À£¢¤§®Ä¯q Effect of low level laser therapy on chronic compression of the dorsal root ganglion |
45 | A novel single pulsed electromagnetic field stimulates osteogenesis of bone marrow mesenchymal stem cells and bone repair A novel single pulsed electromagnetic field stimulates osteogenesis of bone marrow mesenchymal stem cells and bone repair |
46 | ¦X¦¨¶§Â÷¤l°ª¤À¤l©`¦Ì²É¤l¬°simvastatinÃĪ«¸üÅé¹ï¨ä«P¶i°©Å趡½è·F²ÓM¦¨°©¤Æ¤§¯S©Ê¬ã¨s Synthesis and characterization of cationic polymeric nanoparticles as simvastatin carriers for enhancing the osteogenesis of bone marrow mesenchymal stem cells |
47 | §C¯à¶q¹p®gªvÀø§ïµ½§¤°©¯«¸gÀ£¢·l¶Ë«á¤§¥\¯à¦^´_»P¯«¸g¦A¥Í Low-level laser irradiation improves functional recovery and nerve regeneration in sciatic nerve crush rat injury model |
48 | ¤HÃþ¯×ªÕ·F²ÓM¦b¤ä¬[µLÄa¯B°ö¾i¥Íªø¤À¤Æ¯à¤Oªºªí¼x©Mµû¦ô Characterization and evaluation of the differentiation ability of human adipose-derived stem cells growing in scaffold-free suspension culture. |
49 | A Novel Anabolic Agent: A Simvastatin Analogue without HMG-CoA Reductase Inhibitory Activity A Novel Anabolic Agent: A Simvastatin Analogue without HMG-CoA Reductase Inhibitory Activity |
50 | The Susceptive Alendronate-Treatment Timing and Dosage for Osteogenesis Enhancement in Human Bone Marrow-Derived Stem Cells The Susceptive Alendronate-Treatment Timing and Dosage for Osteogenesis Enhancement in Human Bone Marrow-Derived Stem Cells |
51 | Electromagnetic fields enhance chondrogenesis of human adipose-derived stem cells in a chondrogenic microenvironment in vitro. Electromagnetic fields enhance chondrogenesis of human adipose-derived stem cells in a chondrogenic microenvironment in vitro. |
52 | Epigallocatechin-3-gallate improves bone microarchitecture in ovariectomized rats Epigallocatechin-3-gallate improves bone microarchitecture in ovariectomized rats |
53 | t·Å·P¤ô½¦»s³Æ¦h¤Õ©Ê¥Íª«³³²¡µ²¦X±±¨îÄÀ©ñrhBMP-2¸üÅé:Åé¥~»PÅ餺¬ã¨s Preparation of Porous Bioceramics Using Reverse Thermo-Responsive Hydrogels in Combination with rhBMP-2 Carriers: In Vitro and In Vivo Evaluation |
54 | ¦X¦¨Aminoalkoxy 4,5-Diphenylisoxazole §@¬°§Ü°©½è²¨ÃP¸Õ¾¯ Synthesis of Aminoalkoxy Substituted 4,5-Diphenylisoxazole Derivatives as Potential Anti-osteoporotic Agents |
55 | KMUP-1 Suppresses RANKL-Induced Osteoclastogenesis and Prevents Ovariectomy-Induced Bone Loss: Roles of MAPKs, Akt, NF-£eB and Calcium/Calcineurin/NFATc1 Pathways KMUP-1 Suppresses RANKL-Induced Osteoclastogenesis and Prevents Ovariectomy-Induced Bone Loss: Roles of MAPKs, Akt, NF-£eB and Calcium/Calcineurin/NFATc1 Pathways |
56 | Hyaluronan initiates chondrogenesis mainly via CD44 in human adipose-derived stem cells Hyaluronan initiates chondrogenesis mainly via CD44 in human adipose-derived stem cells |
57 | PPARc silencing enhances osteogenic differentiation of human adipose-derived mesenchymal stem cells PPARc silencing enhances osteogenic differentiation of human adipose-derived mesenchymal stem cells |
58 | Simvastatin enhances human osteoblast proliferation involved in mitochondrial energy generation Simvastatin enhances human osteoblast proliferation involved in mitochondrial energy generation |
59 | Local delivery of controlled-release simvastatin/PLGA/HAp microspheres enhances bone repair Local delivery of controlled-release simvastatin/PLGA/HAp microspheres enhances bone repair |
60 | ¥|¯ÅÓiÆQ©x¯à°ò¤À¤l×¹¢ PLGA-PEG°ª¤À¤l¦¨¶§Â÷¤l©`¦Ì²É¤l¦b°ò¦]Âà´Þ¬ã¨s Cationic nanoparticles with quaternary ammonium functionalized PLGA-PEG-based copolymers for potent gene transfection |
61 | ¦b¤j¹«±Ñ¦å¯gªº¨xŦ¤¤C/EBP£_¹ïIIA²Õ¤Àªc«¬ÁC¯×酶A2°ò¦]ªºÂà¿ý½Õ±±¤Î¨ä»P¨xÁÞ·s¥Í¤§¬ÛÃö©Ê¡C Transcriptional Regulation of the Group IIA Secretory Phospholipase A2 Gene by C/EBP£_in Rat liver and its Relationship to Hepatic Gluconeogenesis during Sepsis |
62 | Local delivery of controlled-release simvastatin/PLGA/HAp microspheres enhances bone repair Local delivery of controlled-release simvastatin/PLGA/HAp microspheres enhances bone repair |
63 | µo²{茚¨Ã[1,2-C]喹啉l¥Íª«¬°¨üÅé¿E¬¡NF-b°tÅé¡]RANKL¡^»¤¾É¯}°©²ÓM§í»s¾¯ Discovery of Indeno[1,2-c]quinoline Derivatives as Inhibitors of Osteoclastogenesis Induced by Receptor Activator of NF-ƒÛB Ligand (RANKL) |
64 | §C¯à¶q¹p®g·Ó®g«P¶i·F²ÓM¸g¥ÑIGF1 and BMP ³y¦¨°©¤Æ Low-Power GaAlAs Laser Irradiation Promotes the Proliferation and Osteogenic Differentiation of Stem Cells via IGF1 and BMP2. |
65 | Proliferation and differentiation potential of human adipose-derived mesenchymal stem cells isolated from elderly patients with osteoporotic fractures Proliferation and differentiation potential of human adipose-derived mesenchymal stem cells isolated from elderly patients with osteoporotic fractures |
66 | Sustained release of PTH(1-34) from PLGA microspheres suppresses osteoarthritis progression in rats Sustained release of PTH(1-34) from PLGA microspheres suppresses osteoarthritis progression in rats |
67 | Characterization and enhancement of chondrogenesis in porous hyaluronic acid-modified scaffolds made of PLGA(75/25) blended with PEI-grafted PLGA(50/50). Characterization and enhancement of chondrogenesis in porous hyaluronic acid-modified scaffolds made of PLGA(75/25) blended with PEI-grafted PLGA(50/50). |
68 | Proliferation and differentiation potential of human adipose-derived mesenchymal stem cells isolated from elderly patients with osteoporotic fractures Proliferation and differentiation potential of human adipose-derived mesenchymal stem cells isolated from elderly patients with osteoporotic fractures |
69 | The effect of the local delivery of alendronate on human adipose-derived stem cell-based bone regeneration The effect of the local delivery of alendronate on human adipose-derived stem cell-based bone regeneration |
70 | Discovery of Indeno[1,2-c]quinoline Derivatives as Inhibitors of Osteoclastogenesis Induced by Receptor Activator of NF-kappa B Ligand (RANKL). Discovery of Indeno[1,2-c]quinoline Derivatives as Inhibitors of Osteoclastogenesis Induced by Receptor Activator of NF-kappa B Ligand (RANKL). |
71 | Constitutively Expressed COX-2 in Human Osteoblasts Positively Regulates Akt Signal Transduction via Suppression of PTEN Activity Constitutively Expressed COX-2 in Human Osteoblasts Positively Regulates Akt Signal Transduction via Suppression of PTEN Activity |
72 | µo²{茚¨Ã[1,2-C]喹啉l¥Íª«¬°¨üÅé¿E¬¡NF-b°tÅé¡]RANKL¡^»¤¾É¯}°©²ÓM§í»s¾¯ Discovery of Indeno[1,2-c]quinoline Derivatives as Inhibitors of Osteoclastogenesis Induced by Receptor Activator of NF-ƒÛB Ligand (RANKL) |
73 | µo²{Indeno[1,2-c]quinolinel¥Íª«¸g¥ÑRANKL§í¨î»k°©²ÓM¼W¥Í Discovery of indeno[1,2-c]quinoline derivatives as inhibitors of osteoclastogenesis induced by receptor activator of NF-£eB ligand (RANKL) |
74 | DDR1 regulates the stabilization of cell surface E-cadherin and E-cadherin-mediated cell aggregation. DDR1 regulates the stabilization of cell surface E-cadherin and E-cadherin-mediated cell aggregation. |
75 | The PI3K/Akt/FOXO3a/p27(Kip1) signaling contributes to anti-inflammatory drug-suppressed proliferation of human osteoblasts The PI3K/Akt/FOXO3a/p27(Kip1) signaling contributes to anti-inflammatory drug-suppressed proliferation of human osteoblasts |
76 | Constitutively expressed COX-2 in osteoblasts positively regulates Akt signal transduction via suppression of PTEN activity Constitutively expressed COX-2 in osteoblasts positively regulates Akt signal transduction via suppression of PTEN activity |
77 | §C®¶´T««ª½®¶°Ê«P¶i¦Ù¥À²ÓM¦Ù§ô§Î¦¨ Low-magnitude vertical vibration enhances myotube formation in C2C12 myoblasts. |
78 | À³¥Î·LÀô¹Ò½Õ±±·F²ÓM¤À¤Æ¤§³n°©¦A¥ÍÂå¾Ç Enhancement of Chondrogenesis of Human Adipose Derived Stem Cells in a Hyaluronan-Enriched Microenvironment |
79 | The effect of the local delivery of alendronate on human adipose-derived stem cell-based bone regeneration The effect of the local delivery of alendronate on human adipose-derived stem cell-based bone regeneration |
80 | DDR1 regulates the stabilization of cell surface E-cadherin and E-cadherin-mediated cell aggregation. DDR1 regulates the stabilization of cell surface E-cadherin and E-cadherin-mediated cell aggregation. |
81 | Different differentiation of stroma cells from patients with osteonecrosis: a pilot study Different differentiation of stroma cells from patients with osteonecrosis: a pilot study |
82 | Pioglitazone and dexamethasone induce adipogenesis in D1 bone marrow stromal cell line, but not through the peroxisome proliferator-activated receptor-£^ pathway Pioglitazone and dexamethasone induce adipogenesis in D1 bone marrow stromal cell line, but not through the peroxisome proliferator-activated receptor-£^ pathway |
83 | ÁC»ÄÆQ¦X¦¨»P¨Å¤Æªk»s³Æ¦h¤Õ©Ê²B®ñ°òÁC¦Ç¥ÛÁû²É¬ã¨s Synthesis of calcium phosphates and porous hydroxyapatite beads prepared by emulsion method |
84 | ·L¹q¬ï¤Õ§Þ³N¯à¦³®Ä±N°ò¦]Âà´Þ¨Ãªí²{©ó¤HÃþªº¯×ªÕ·F²ÓM Microporation Is a Valuable Transfection Method for Gene Expression in Human Adipose Tissue¡Vderived Stem Cells |
85 | Ethanol May Suppress Wnt/b-catenin Signaling on Human Bone Ethanol May Suppress Wnt/b-catenin Signaling on Human Bone |
86 | ±NBMP-2 plasmid¥]ÂЦb PLGA/HAp ½Æ¦X¤ä¬[¤º¦bnude miceªº°©¯Ê³´°Êª«¬ã¨s BMP-2 plasmid loaded PLGA/HAp composite scaffolds for treatment of bone defects in nude mice |
87 | µo®i±±¨îÄÀ©ñrhBMP-2¸üÅé¹ï°©Ãa¦º¤§¦A¥Í¬ã¨s Controlled-release of rhBMP-2 carriers in the regeneration of osteonecrotic bone |
88 | Anti-inflammatory drugs suppress proliferation and induce apoptosis through altering expressions of cell cycle regulators and pro-apoptotic factors in cultured human osteoblasts Anti-inflammatory drugs suppress proliferation and induce apoptosis through altering expressions of cell cycle regulators and pro-apoptotic factors in cultured human osteoblasts |
89 | Synthesis and anti-osteoporotic evaluation of certain 3-amino-2-hydroxypropoxyisoflavone derivatives Synthesis and anti-osteoporotic evaluation of certain 3-amino-2-hydroxypropoxyisoflavone derivatives |
90 | Parathyroid hormone 1-34 inhibits terminal differentiation of human articular chondrocytes and osteoarthritis progression in rats Parathyroid hormone 1-34 inhibits terminal differentiation of human articular chondrocytes and osteoarthritis progression in rats |
91 | Simvastatin increases osteoblasts and osteogenic proteins in ovariectomized rats Simvastatin increases osteoblasts and osteogenic proteins in ovariectomized rats |
92 | (¡V)¡VEpigallocatechin Gallate Inhibition of Osteoclastic Differentiation via NF-£Mb (¡V)¡VEpigallocatechin Gallate Inhibition of Osteoclastic Differentiation via NF-£Mb |
93 | Controlled-release of rhBMP-2 carriers in the regeneration of osteonecrotic bone Controlled-release of rhBMP-2 carriers in the regeneration of osteonecrotic bone |
94 | 3-amino-2-hydroxypropoxyisoflavonel¥Íª«ªº¦X¦¨»P§Ü°©½è²¨ÃP¬¡©Êµû¦ô Synthesis and anti-osteoporotic evaluation of certain 3-amino-2-hydroxypropoxyisoflavone derivatives |
95 | Ethanol May Suppress Wnt/b-catenin Signaling on Human Bone Ethanol May Suppress Wnt/b-catenin Signaling on Human Bone |
96 | ²B®ñ°òÁC¦Ç¥Û¯»¥½²K¥[alginate»PPE»s³Æ¦h¤Õ¥Íª«³³²¡·L²y Porous bioceramic bead prepared by calcium phosphate with sodium alginate gel and PE powder |
97 | ¤G¦¸¨Å¤Æªk¶i¦æPLGA ¥]ÂÐHAP-BSA¤§±±¨îÄÀ©ñ·L²É¬ã¨s Controlled release carrier of BSA made by W/O/W emulsion method containing PLGA and hydroxyapatite |
98 | ¸ü¤JBMP-2©ó3D PLGA/HApÅÖºû¤ä¬[¶i¦æ«ùÄòÄÀ©ñ»P¾A¦Xªº°©¦A¥Í¤§¬ã¨s Optimized bone regeneration based on sustained release from three-dimensional fibrous PLGA/HAp composite scaffolds loaded with BMP-2 |
99 | Pioglitazone ¤Î dexamethasone »¤µo¦Ñ¹«·F²ÓMªº¯×ªÕ·s¥Í¤£¬O³z¹LPPAR°T®§¶Ç»¼¶i¦æªº Pioglitazone and dexamethasone induce adipogenesis in D1 bone marrow stromal cell line, but not through the peroxisome proliferator-activated receptor-gamma pathway. |
100 | Effects of anti-inflammatory drugs on proliferation, cytotoxicity and osteogenesis in bone marrow mesenchymal stem cells Effects of anti-inflammatory drugs on proliferation, cytotoxicity and osteogenesis in bone marrow mesenchymal stem cells |
101 | Volar Plate Interposition Arthroplasty for Posttraumatic Arthritis of the Finger Joints Volar Plate Interposition Arthroplasty for Posttraumatic Arthritis of the Finger Joints |
102 | Effects of anti-inflammatory drugs on proliferation, cytotoxicity and osteogenesis in bone marrow mesenchymal stem cells Effects of anti-inflammatory drugs on proliferation, cytotoxicity and osteogenesis in bone marrow mesenchymal stem cells |
103 | Ethanol May Suppress Wnt/£]-catenin Signaling on Human Bone Marrow Stroma Cells: A Preliminary Study Ethanol May Suppress Wnt/£]-catenin Signaling on Human Bone Marrow Stroma Cells: A Preliminary Study |
104 | A novel terminal differentiation model of human articular chondrocytes in three-dimensional cultures mimicking chondrocytic changes in osteoarthritis A novel terminal differentiation model of human articular chondrocytes in three-dimensional cultures mimicking chondrocytic changes in osteoarthritis |
105 | Osteogenic Gene Expression Decreases in Stromal Cells of Patients with Osteonecrosis Osteogenic Gene Expression Decreases in Stromal Cells of Patients with Osteonecrosis |
106 | Effects of Non-steroidal Anti-inflammatory Drugs on Cell Proliferation and Death in Cultured Epiphyseal-articular Chondrocytes of Fetal Rats Effects of Non-steroidal Anti-inflammatory Drugs on Cell Proliferation and Death in Cultured Epiphyseal-articular Chondrocytes of Fetal Rats |
107 | USF2 ¬O¤@ÃöÁä¦]¤l©óRunx2¤§ªí²{ Identification of USF2 as a key regulator of Runx2 expression in mouse pluripotent mesenchymal D1 cells |
108 | °©Ãa¦º¯f¤Hªº°©Åè·F²ÓM¤§°©¥Í¦¨°ò¦]ªí²{¶q°§C¤§±´°Q Osteogenic Gene Expression Decreases in Stromal Cells of Patients with Osteonecrosis |
109 | Dexamethasone and lovastatin affect the bone morphogeneitc protein-2 (BMP2) expression in osteonecrosis patients Dexamethasone and lovastatin affect the bone morphogeneitc protein-2 (BMP2) expression in osteonecrosis patients |
110 | A novel terminal differentiation model of human articular chondrocytes in three-dimensional cultures mimicking chondrocytic changes in osteoarthritis A novel terminal differentiation model of human articular chondrocytes in three-dimensional cultures mimicking chondrocytic changes in osteoarthritis |
111 | Osteogenic gene expression decreases in stromal cells of patients with osteonecrosis. Osteogenic gene expression decreases in stromal cells of patients with osteonecrosis. |
112 | Green tea catechin enhances osteogenesis in a bone marrow mesenchymal stem cell line Green tea catechin enhances osteogenesis in a bone marrow mesenchymal stem cell line |
113 | Nonsteroidal Anti-Inflammatory Drug Effects on Osteoblastic Cell Cycle, Cytotoxicity, and Cell Death Nonsteroidal Anti-Inflammatory Drug Effects on Osteoblastic Cell Cycle, Cytotoxicity, and Cell Death |
114 | °©½è¶pÃP°Êª«¼Ò¦¡N-¥Ò°ò¤Ñªù¥V¦w»ÄÆQ¨ü¾¹ªº³Q§í¨î Down regulation of N-methyl-D-aspartate receptor in rat modeled osteopenia. |
115 | µL (-)-Epigallocatechin-3-gallate (EGCG) enhances osteogenic differentiation in a murine bone marrow mesenchymal stem cell line |
116 | Green tea catechin enhances osteogenesis in a bone marrow mesenchymal stem cell line. Green tea catechin enhances osteogenesis in a bone marrow mesenchymal stem cell line. |
117 | ¿é°e¨ã¦³¦åºÞ¤º¥Ö¥Íªø¦]¤l¤§¸üÅé¤J¦h¼ç¯à·F²ÓM¥H«KÀ³¥Î©ó°ò¦]ªvÀø DELIVERY OF A VECTOR WITH VASCULAR ENDOTHELIAL GROWTH FACTOR GENE TO THE PLURIPOTENT STEM CELL FOR GENE THERAPY |
118 | ¿é°e¨ã¦³¦åºÞ¤º¥Ö¥Íªø¦]¤l¤§¸üÅé¤J¦h¼ç¯à·F²ÓM¥H«KÀ³¥Î©ó°ò¦]ªvÀø DELIVERY OF A VECTOR WITH VASCULAR ENDOTHELIAL GROWTH FACTOR GENE TO THE PLURIPOTENT STEM CELL FOR GENE THERAPY |
119 | ®øª¢ÃĪ«»P°©«¶ì. ®øª¢ÃĪ«»P°©«¶ì. |
120 | DEXAMETHASONE©M LOVASTATIN¹ï°©½èÃa¦º¯g¯f¤H°©Å趡½è²ÓMBMP-2ªí²{¤§¼vÅT EFFECTS OF DEXAMETHASONE AND LOVASTATIN ON THE EXPRESSION OF BMP-2 IN BONE MARROW STROMA CELLS CULTURED FROM PATIENTS WITH OSTEONECROSIS |
121 | ºñ¯ù¨à¯ù¯À¼W¥[¦h¥\¯à·F²ÓMosteoprotegerin(OPG)¤§ªí²{ Green tea catechins enhance the expression of osteoprotegerin (OPG) in pluripotent stem cells |
122 | DEXAMETHASONE©M LOVASTATIN¹ï°©½èÃa¦º¯g¯f¤H°©Å趡½è²ÓMBMP-2ªí²{¤§¼vÅT EFFECTS OF DEXAMETHASONE AND LOVASTATIN ON THE EXPRESSION OF BMP-2 IN BONE MARROW STROMA CELLS CULTURED FROM PATIENTS WITH OSTEONECROSIS |
123 | ¤j¹«FLÃö¸`¤Î°©°©¦Z ³n°©¨ú¥X¤§³n°©²ÓMªì¥N°ö¾iªº¯S©Ê¤§¬ã¨s PRE-CULTIVATION IN SUSPENSION OBTAINED CHONDROCYTE-ENRICHED CULTURES FROM ARTICULAR-EPIPHYSEAL CARTILAGE IN FETAL RATS |
124 | ¤j¹«FLÃö¸`¤Î°©(°©¦Z)³n¸g¹w¥ýÄa¯B°ö¾i¥iÀò±o´I§t³n°©²ÓM¤§ªì¥N°ö¾i Pre-cultivation in suspension obtained chondrocyte-enriched cultures from articular-epiphyseal cartilage in fetal rats |
125 | «DÃþ©T¾J®øª¢ÃĪ«¨Ï¦¨°©²ÓM°±º¢²ÓM¶g´Á¤Î¤Þ¾É²ÓM¦º¤` Nonsteroidal anti-inflammatory drugs arrest cell cycle in G0/G1 phase and induce cell death in osteoblast-enriched cultures |
126 | ¾¢¤ë¦w»ÄÆQ¹ï©óªì¥Í¹«µø«e°Ï¬Pª¬²ÓM¼È°±²ÓM¶g´Áªº©Ê§O®t²§©Ê®ÄÀ³ Sexually dimorphic effect of glutamate treatment on cell cycle arrestment of astrocytes from the preoptoc area of neonatal rats. |
127 | «DÃþ©T¾J®øª¢ÃĪ«¨Ï¦¨°©²ÓM°±º¢²ÓM¶g´Á¤Î¤Þ¾É²ÓM¦º¤` Nonsteroidal anti-inflammatory drugs arrest cell cycle in G0/G1 phase and induce cell death in osteoblast-enriched cultures |
128 | «DÃþ©T¾J®øª¢ÃĪ«¥H¤Î«e¦C¸¢¯À¹ï¦¨°©²ÓM§í¨î§@¥Î Effects of nonsteroidal anti-inflammatory drugs and prostaglandins on osteoblastic functions |
129 | ¤j¹«FLÀYÆ`°©¨ú¥X¤§¦¨°©²ÓMªì¥N°ö¾iªº¯S©Ê¤§¬ã¨s Characteristics of primary osteoblast culture derived from rat fetal calvaria |
Project
NO |
YEAR ¡X Source ¡X No ¡X Type
Project Name
|
Duration |
---|---|---|
1 |
113 ¡X TC ¬ã¨s¤¤¤ßpµe ¡X KMU-TC113A02 ¡X 6 ¬ã¨s¤¤¤ß
KMU-113¦~«×®Õ¯Å¬ã¨s¤¤¤ßpµe-¾Ç³N-¦A¥ÍÂå¾Ç»P²ÓMªvÀø¬ã¨s¤¤¤ß( )
|
2024/01/01 ~ 2024/12/31 |
2 |
112 ¡X N °ê¬ì·|(ì¬ì§Þ³¡) ¡X NSTC112-2314-B-037-001 ¡X 1 Ó¤H«¬
¬ã¨s¯×ªÕ·F²ÓMÄÀ©ñªº²ÓM¥~Ånªw¹ïÃö¸`³n°©²ÓM¦Ñ¤Æµoª¢ªº¼vÅT¤Î°h¤Æ©ÊÃö¸`ª¢ªºªvÀø®ÄªG(3/3)( )
|
2023/08/01 ~ 2024/07/31 |
3 |
112 ¡X N °ê¬ì·|(ì¬ì§Þ³¡) ¡X NSTC112-2314-B-037-014 ¡X 2 ¾ã¦X«¬
·F²ÓM¤§²ÓM¥~ÅnªwÀ³¥Î©ó×´_°©Àf¡B³n°©¡B¦Ù¦×¡B¥Ö½§¤§¦A¥ÍÂå¾Ç¬ã¨s-¬ã¨s·F²ÓM¤§²ÓM¥~Ånªw§ïµ½³n°©²ÓM¥\¯à´î½w²ÓM¦Ñ¤Æ¥HÀ³¥Î©óÃö¸`³n°©¯Ê·l¤§¦A¥Í(2/3)( )
|
2023/08/01 ~ 2024/07/31 |
4 |
112 ¡X N °ê¬ì·|(ì¬ì§Þ³¡) ¡X NSTC112-2327-B-037-001 ¡X 1 Ó¤H«¬
Ãþ¾¹©x©ÎÃþFL¬ã¨s¤ÎÀ³¥Î¤§¸ó»â°ì¬ã¨spµe¤§¥ý´Á³W¹ºpµe( )
|
2023/11/01 ~ 2024/10/31 |
5 |
112 ¡X TC ¬ã¨s¤¤¤ßpµe ¡X KMU-TC112A02 ¡X 6 ¬ã¨s¤¤¤ß
KMU-112¦~«×®Õ¯Å¬ã¨s¤¤¤ßpµe-¾Ç³N-¦A¥ÍÂå¾Ç»P²ÓMªvÀø¬ã¨s¤¤¤ß( )
|
2023/01/01 ~ 2023/12/31 |
6 |
112 ¡X Z ¤j±M¾Ç¥Í¬ã¨spµe¤Î³Õ¤h«á ¡X NSTC112-2811-B-037-012 ¡X 9 ³Õ¤h«á¬ã¨sû
³Õ¤h¯Å¬ã¨s¤Hû--±i¬ÂµØ( )
|
2023/08/01 ~ 2024/07/31 |
7 |
111 ¡X N °ê¬ì·|(ì¬ì§Þ³¡) ¡X MOST111-2314-B-037-117 ¡X 1 Ó¤H«¬
¬ã¨s¯×ªÕ·F²ÓMÄÀ©ñªº²ÓM¥~Ånªw¹ïÃö¸`³n°©²ÓM¦Ñ¤Æµoª¢ªº¼vÅT¤Î°h¤Æ©ÊÃö¸`ª¢ªºªvÀø®ÄªG(2/3)( )
|
2022/08/01 ~ 2023/07/31 |
8 |
111 ¡X N °ê¬ì·|(ì¬ì§Þ³¡) ¡X MOST111-2314-B-037-107 ¡X 2 ¾ã¦X«¬
·F²ÓM¤§²ÓM¥~ÅnªwÀ³¥Î©ó×´_°©Àf¡B³n°©¡B¦Ù¦×¡B¥Ö½§¤§¦A¥ÍÂå¾Ç¬ã¨s-¬ã¨s·F²ÓM¤§²ÓM¥~Ånªw§ïµ½³n°©²ÓM¥\¯à´î½w²ÓM¦Ñ¤Æ¥HÀ³¥Î©óÃö¸`³n°©¯Ê·l¤§¦A¥Í(1/3)( )
|
2022/08/01 ~ 2023/09/30 |
9 |
111 ¡X Z ¤j±M¾Ç¥Í¬ã¨spµe¤Î³Õ¤h«á ¡X MOST111-2811-B-037-014 ¡X 9 ³Õ¤h«á¬ã¨sû
³Õ¤h¯Å¬ã¨s¤Hû-±i¬ÂµØ( )
|
2022/08/01 ~ 2023/07/31 |
10 |
110 ¡X N °ê¬ì·|(ì¬ì§Þ³¡) ¡X MOST110-2314-B-037-031 ¡X 1 Ó¤H«¬
¬ã¨s¯×ªÕ·F²ÓMÄÀ©ñªº²ÓM¥~Ånªw¹ïÃö¸`³n°©²ÓM¦Ñ¤Æµoª¢ªº¼vÅT¤Î°h¤Æ©ÊÃö¸`ª¢ªºªvÀø®ÄªG(1/3)( )
|
2021/08/01 ~ 2022/07/31 |
11 |
110 ¡X TC ¬ã¨s¤¤¤ßpµe ¡X KMU-TC111A02-0 ¡X
KMU-111¦~«×®Õ¯Å¬ã¨s¤¤¤ßpµe-¾Ç³N-¦A¥ÍÂå¾Ç»P²ÓMªvÀø¬ã¨s¤¤¤ß( )
|
2022/01/01 ~ 2022/12/31 |
12 |
110 ¡X TC ¬ã¨s¤¤¤ßpµe ¡X KMUTC111IFSP03 ¡X 2 ¾ã¦X«¬
111¦~«×®Õ¯Å¾Ç³N¬ã¨s¤¤¤ß¸ó°ìºXÄ¥«¬pµe-°©Àf¦Ù¦×Ãö¸`¦A¥ÍÂå¾Ç¬ã¨s¤¤¤ß(Musculoskeletal Regeneration Research Center)
|
2022/01/01 ~ 2022/12/31 |
13 |
110 ¡X Z ¤j±M¾Ç¥Í¬ã¨spµe¤Î³Õ¤h«á ¡X MOST110-2811-B-037-505 ¡X 9 ³Õ¤h«á¬ã¨sû
³Õ¤h«á¬ã¨sû--±i¬ÂµØ( )
|
2021/08/01 ~ 2022/07/31 |
14 |
110 ¡X Z ¤j±M¾Ç¥Í¬ã¨spµe¤Î³Õ¤h«á ¡X MOST110-2811-B-037-528 ¡X 9 ³Õ¤h«á¬ã¨sû
³Õ¤h«á¬ã¨sû--¥îõ½n( )
|
2021/08/02 ~ 2022/06/30 |
15 |
110 ¡X Z ¤j±M¾Ç¥Í¬ã¨spµe¤Î³Õ¤h«á ¡X MOST111-2811-B-037-001 ¡X 9 ³Õ¤h«á¬ã¨sû
³Õ¤h«á¬ã¨sû--±i¬ÂµØ( )
|
2022/01/01 ~ 2022/07/31 |
16 |
110 ¡X Z ¤j±M¾Ç¥Í¬ã¨spµe¤Î³Õ¤h«á ¡X MOST111-2813-C-037-079-B ¡X 8 ¤j±M¾Ç¥Í¬ã¨spµe
111¦~«×¤j±M¾Ç¥Í¬ã¨spµe-¬I¨Ø§u(ÂåÀË3)( )
|
2022/07/01 ~ 2023/02/28 |
17 |
109 ¡X DK «e¤«ÂI(ì®Õ°|) ¡X KMU-DK(B)110002-2 ¡X
¬ã¨s·F²ÓM¤§²ÓM¥~ÅnªwÀ³¥Î©óÃö¸`³n°©¤§¦A¥Í( )
|
2021/01/01 ~ 2021/12/31 |
18 |
109 ¡X N °ê¬ì·|(ì¬ì§Þ³¡) ¡X MOST109-2314-B-037-028 ¡X 1 Ó¤H«¬
¬ã¨s¯×ªÕ·F²ÓM¬°°ò¦ªº°h¤Æ©ÊÃö¸`ª¢ªvÀø¤¤·F²ÓM¡B¤ÀªcÅé¤Î²ÓM¥~Ånªw§êºtªº¨¤¦â( )
|
2020/08/01 ~ 2021/07/31 |
19 |
109 ¡X TC ¬ã¨s¤¤¤ßpµe ¡X KMU-TC109A02-0 ¡X
KMU-202001®Õ¯Å¬ã¨s¤¤¤ßpµe-¾Ç³N-¦A¥ÍÂå¾Ç»P²ÓMªv療¬ã¨s¤¤¤ß( )
|
2021/01/01 ~ 2021/12/31 |
20 |
109 ¡X Z ¤j±M¾Ç¥Í¬ã¨spµe¤Î³Õ¤h«á ¡X MOST110-2813-C-037-160-B ¡X 8 ¤j±M¾Ç¥Í¬ã¨spµe
110¦~«×¤j±M¾Ç¥Í¬ã¨spµe-¤ýY¦t(Âå¾Ç4)( )
|
2021/07/01 ~ 2022/02/28 |
21 |
108 ¡X N °ê¬ì·|(ì¬ì§Þ³¡) ¡X MOST108-2314-B-037-009 ¡X 1 Ó¤H«¬
¬ã¨s¯×ªÕ·F²ÓM¸g»¤¾É²£¥Í¤§²ÓM¥~Ånªw¹ï©óÃö¸`³n°©¤§¦A¥Í§@¥Î(2/2)( )
|
2019/08/01 ~ 2020/07/31 |
22 |
108 ¡X TC ¬ã¨s¤¤¤ßpµe ¡X KMU-TC108A02-0 ¡X 6 ¬ã¨s¤¤¤ß
KMU-108®Õ¯Å¬ã¨s¤¤¤ßpµe-¾Ç³N-¦A¥ÍÂå¾Ç»P²ÓMªvÀø¬ã¨s¤¤¤ß( )
|
2019/08/01 ~ 2020/07/31 |
23 |
108 ¡X Z ¤j±M¾Ç¥Í¬ã¨spµe¤Î³Õ¤h«á ¡X MOST108-2811-B-037-520 ¡X 9 ³Õ¤h«á¬ã¨sû
³Õ¤h«á¬ã¨sû-§d¶¶¦¨( )
|
2019/08/01 ~ 2020/07/31 |
24 |
108 ¡X Z ¤j±M¾Ç¥Í¬ã¨spµe¤Î³Õ¤h«á ¡X MOST109-2811-B-037-501 ¡X 9 ³Õ¤h«á¬ã¨sû
³Õ¤h«á¬ã¨sû--±i¬ÂµØ( )
|
2020/01/01 ~ 2020/07/31 |
25 |
107 ¡X N °ê¬ì·|(ì¬ì§Þ³¡) ¡X MOST107-2314-B-037-032 ¡X 1 Ó¤H«¬
¬ã¨s¯×ªÕ·F²ÓM¸g»¤¾É²£¥Í¤§²ÓM¥~Ånªw¹ï©óÃö¸`³n°©¤§¦A¥Í§@¥Î(1/2)( )
|
2018/08/01 ~ 2019/07/31 |
26 |
107 ¡X Z ¤j±M¾Ç¥Í¬ã¨spµe¤Î³Õ¤h«á ¡X MOST107-2811-B-037-004 ¡X 9 ³Õ¤h«á¬ã¨sû
³Õ¤h«á¬ã¨sû--§d¶¶¦¨( )
|
2018/08/01 ~ 2019/07/31 |
27 |
106 ¡X N °ê¬ì·|(ì¬ì§Þ³¡) ¡X MOST106-2314-B-037-011 ¡X 1 Ó¤H«¬
¬ãµo·s«¬ÂÅ¥úì¦ì¥æÁp¬Á§¿»Ä¤ô½¦À³¥Î©óÃö¸`³n°©²Õ´¤uµ{( )
|
2017/08/01 ~ 2018/07/31 |
28 |
105 ¡X N °ê¬ì·|(ì¬ì§Þ³¡) ¡X MOST103-2314-B-037-017-MY3 ¡X 1 Ó¤H«¬
¬ãµo·s«¬¬Á§¿»Ä¥æÁp¤ô½¦À³¥Î©ó¯×ªÕ·F²ÓM¬°°ò¦¤§Ãö¸`³n°©²Õ´¤uµ{-¥i´£¨Ñ¤Æ¾Ç°T®§¤Î¶Ç»¼ª«²zÀ³¤O¤§§÷®Æ¬ãµo(3/3)( )
|
2016/08/01 ~ 2017/07/31 |
29 |
105 ¡X TP ³»¦ypµe(°ªÂå) ¡X KMU-TP105B00 ¡X
Á`pµe¡B°©Àf¦Ù¦×¨t²Î¤§¦A¥ÍÂå¾Ç¬ã¨s( )
|
2016/11/01 ~ 2017/10/31 |
30 |
105 ¡X TP ³»¦ypµe(°ªÂå) ¡X KMU-TP105B01 ¡X
¤lpµe¤@¡B¥þ¦Û°Ê§Ö³t¯×ªÕ·F²ÓM¤ÀÂ÷¾÷-°h¤Æ©ÊÃö¸`ª¢°Êª«Á{§É´ú¸Õ( )
|
2016/11/01 ~ 2017/10/31 |
31 |
105 ¡X Z ¤j±M¾Ç¥Í¬ã¨spµe¤Î³Õ¤h«á ¡X MOST105-2811-B-037-005 ¡X 9 ³Õ¤h«á¬ã¨sû
³Õ¤h«á¬ã¨sû-±i®Ýºa( )
|
2016/08/01 ~ 2017/07/31 |
32 |
104 ¡X N °ê¬ì·|(ì¬ì§Þ³¡) ¡X MOST103-2314-B-037-017-MY3 ¡X 1 Ó¤H«¬
¬ãµo·s«¬¬Á§¿»Ä¥æÁp¤ô½¦À³¥Î©ó¯×ªÕ·F²ÓM¬°°ò¦¤§Ãö¸`³n°©²Õ´¤uµ{-¥i´£¨Ñ¤Æ¾Ç°T®§¤Î¶Ç»¼ª«²zÀ³¤O¤§§÷®Æ¬ãµo(2/3)( )
|
2015/08/01 ~ 2017/07/31 |
33 |
104 ¡X TP ³»¦ypµe(°ªÂå) ¡X KMU-TP104B00 ¡X
Á`pµe¡B°©Àf¦Ù¦×¥Ö½§¨t²Î¤§¦A¥ÍÂå¾Ç¬ã¨s(¦ó¬üª~)// ¥¥x¤@¡B²Õ´¤uµ{¥Íª«§÷®Æ¬ãµo¥¥x(¤ý§Ó¥ú)// ¥¥x¤G¡B¤p°Êª«°©Àf²Õ´·Lµ²ºc¼v¹³¤ÀªR¥¥x(¦ó¬üª~)( )
|
2015/10/01 ~ 2016/09/30 |
34 |
104 ¡X TP ³»¦ypµe(°ªÂå) ¡X KMU-TP104B01 ¡X
¤lpµe¤@¡B¬ãµo·s«¬»ö¾¹À³¥Î©ó²Õ´¦A¥Í¤â³N¤¤§Y®É¤ÀÂ÷¯×ªÕ·F²ÓM-¦Û°Ê¤Æ¬yµ{¤Î쫬¾÷¬ãµo( )
|
2015/10/01 ~ 2016/09/30 |
35 |
104 ¡X Z ¤j±M¾Ç¥Í¬ã¨spµe¤Î³Õ¤h«á ¡X MOST104-2811-B-037-004 ¡X 9 ³Õ¤h«á¬ã¨sû
³Õ¤h«á¬ã¨sû-±i®Ýºa( )
|
2015/08/01 ~ 2016/07/31 |
36 |
103 ¡X N °ê¬ì·|(ì¬ì§Þ³¡) ¡X MOST103-2314-B-037-017-MY3 ¡X 1 Ó¤H«¬
¬ãµo·s«¬¬Á§¿»Ä¥æÁp¤ô½¦À³¥Î©ó¯×ªÕ·F²ÓM¬°°ò¦¤§Ãö¸`³n°©²Õ´¤uµ{-¥i´£¨Ñ¤Æ¾Ç°T®§¤Î¶Ç»¼ª«²zÀ³¤O¤§§÷®Æ¬ãµo(1/3)( )
|
2014/08/01 ~ 2017/07/31 |
37 |
103 ¡X TP ³»¦ypµe(°ªÂå) ¡X KMU-TP103B00 ¡X
°©Àf¦Ù¦×¨t²Î¤§¦A¥ÍÂå¾Ç¬ã¨s(Researches for Regeneration Medicine on Muscular Skeletal System)
|
2014/08/01 ~ 2015/07/31 |
38 |
103 ¡X TP ³»¦ypµe(°ªÂå) ¡X KMU-TP103B01 ¡X
¬ãµo·s«¬»ö¾¹À³¥Î©ó²Õ´¦A¥Í¤â³N¤¤§Y®É¤ÀÂ÷¯×ªÕ·F²ÓM-¦Û°Ê¤Æ¬yµ{¤Î쫬¾÷¬ãµo(Development of a novel device to isolate adipose stem cells during surgery for tissue regeneration- create automatic process and prototype device)
|
2014/08/01 ~ 2015/07/31 |
39 |
103 ¡X Z ¤j±M¾Ç¥Í¬ã¨spµe¤Î³Õ¤h«á ¡X MOST103-2811-B-037-014 ¡X 9 ³Õ¤h«á¬ã¨sû
³Õ¤h«á¬ã¨sû--±i®Ýºa( )
|
2014/08/01 ~ 2015/07/31 |
40 |
101 ¡X N °ê¬ì·|(ì¬ì§Þ³¡) ¡X NSC99-2314-B-037-061-MY3 ¡X 1 Ó¤H«¬
Àô®ñ¦X酶II (Cycloxygenase-2)¦b°©·½²ÓM¼W´Þ¡B¤À¤Æ¤Î°©µo¨|¹Lµ{¤¤¨¤¦â¤§±´°Q(3/3)( )
|
2012/08/01 ~ 2013/07/31 |
41 |
101 ¡X N °ê¬ì·|(ì¬ì§Þ³¡) ¡X NSC102-2325-B-037-003 ¡X A °ê®a«¬
Ãö¸`³n°©¦A¥Í¤§³Ð·s¬ã¨s-µ²¦X¬Á§¿»Ä¤Î«D³J¥Õ½èÃĪ«§@¬°¥Íª«¦]¤l«P¶i·F²ÓM³n°©¤À¤Æ¤§²Õ´¤uµ{¬ã¨s(3/3)( )
|
2013/05/01 ~ 2014/04/30 |
42 |
100 ¡X N °ê¬ì·|(ì¬ì§Þ³¡) ¡X NSC99-2314-B-037-061-MY3 ¡X 1 Ó¤H«¬
Àô®ñ¦X酶II (Cycloxygenase-2)¦b°©·½²ÓM¼W´Þ¡B¤À¤Æ¤Î°©µo¨|¹Lµ{¤¤¨¤¦â¤§±´°Q(2/3)( )
|
2011/08/01 ~ 2013/07/31 |
43 |
100 ¡X N °ê¬ì·|(ì¬ì§Þ³¡) ¡X NSC100-2623-E-037-001-IT ¡X 1 Ó¤H«¬
¬ãµoÀ³¥Î©ó°©»P³n°©¦A¥ÍÂå¾Ç¤§³Ð·sÃĪ«¡B¥ÍÂå§÷®Æ¤ÎÂåÀø¾¹§÷( )
|
2011/11/01 ~ 2012/10/31 |
44 |
100 ¡X N °ê¬ì·|(ì¬ì§Þ³¡) ¡X NSC101-2325-B-037-004 ¡X A °ê®a«¬
Ãö¸`³n°©¦A¥Í¤§³Ð·s¬ã¨s-µ²¦X¬Á§¿»Ä¤Î«D³J¥Õ½èÃĪ«§@¬°¥Íª«¦]¤l«P¶i·F²ÓM³n°©¤À¤Æ¤§²Õ´¤uµ{¬ã¨s(2/3)( )
|
2012/05/01 ~ 2013/04/30 |
45 |
100 ¡X Z ¤j±M¾Ç¥Í¬ã¨spµe¤Î³Õ¤h«á ¡X NSC100-2811-B-037-012 ¡X 9 ³Õ¤h«á¬ã¨sû
³Õ¤h«á¬ã¨s--²ø²Q§g( )
|
2011/08/01 ~ 2012/07/31 |
46 |
099 ¡X N °ê¬ì·|(ì¬ì§Þ³¡) ¡X NSC99-2314-B-037-061-MY3 ¡X 1 Ó¤H«¬
Àô®ñ¦X酶II (Cycloxygenase-2)¦b°©·½²ÓM¼W´Þ¡B¤À¤Æ¤Î°©µo¨|¹Lµ{¤¤¨¤¦â¤§±´°Q(1/3)( )
|
2010/08/01 ~ 2013/07/31 |
47 |
099 ¡X N °ê¬ì·|(ì¬ì§Þ³¡) ¡X NSC100-2325-B-037-004 ¡X 1 Ó¤H«¬
Ãö¸`³n°©¦A¥Í¤§³Ð·s¬ã¨s--µ²¦X¬Á§¿»Ä¤Î«D³J¥Õ½èÃĪ«§@¬°¥Íª«¦]¤l«P¶i·F²ÓM³n°©¤À¤Æ¤§²Õ´¤uµ{¬ã¨s(1/3)( )
|
2011/05/01 ~ 2012/04/30 |
48 |
099 ¡X Z ¤j±M¾Ç¥Í¬ã¨spµe¤Î³Õ¤h«á ¡X NSC99-2811-B-037-018 ¡X 9 ³Õ¤h«á¬ã¨sû
³Õ¤h«á¬ã¨s--²ø²Q§g( )
|
2010/08/01 ~ 2011/07/31 |
49 |
098 ¡X N °ê¬ì·|(ì¬ì§Þ³¡) ¡X NSC97-2321-B-037-001-MY2 ¡X 1 Ó¤H«¬
×´_Ãö¸`³n°©¤§²Õ´¤uµ{¬ã¨s-¹B¥Î¯×ªÕ·F²ÓM¤Î¦UºØ¤À¤l¶q¤§¬Á§¿»Ä(2/2)( )
|
2009/08/01 ~ 2010/07/31 |
50 |
098 ¡X N °ê¬ì·|(ì¬ì§Þ³¡) ¡X NSC98-2623-E-037-001-IT ¡X 1 Ó¤H«¬
°©»P³n°©¦A¥Í¤§³Ð·sÂåÃħ޳N¬ãµopµe(II)( )
|
2009/11/01 ~ 2010/10/31 |
51 |
098 ¡X Z ¤j±M¾Ç¥Í¬ã¨spµe¤Î³Õ¤h«á ¡X NSC98-2811-B-037-027 ¡X 9 ³Õ¤h«á¬ã¨sû
³Õ¤h«á¬ã¨s--²ø²Q§g( )
|
2009/12/01 ~ 2010/07/31 |
52 |
098 ¡X Z ¤j±M¾Ç¥Í¬ã¨spµe¤Î³Õ¤h«á ¡X HS990628004-1 ¡X 8 ¤j±M¾Ç¥Í¬ã¨spµe
99¦~«×°]¹Îªk¤H°·±d¬ì¾Ç¤å±Ð°òª÷·|Âå¾Ç¨t¾Ç¥Í´»´Á¬ã¨spµe--³¯ÅV¤å(Âå¾Ç2)( )
|
2010/07/01 ~ 2010/09/30 |
53 |
097 ¡X N °ê¬ì·|(ì¬ì§Þ³¡) ¡X NSC97-2321-B-037-001-MY2 ¡X 1 Ó¤H«¬
×´_Ãö¸`³n°©¤§²Õ´¤uµ{¬ã¨s-¹B¥Î¯×ªÕ·F²ÓM¤Î¦UºØ¤À¤l¶q¤§¬Á§¿»Ä(1/2)( )
|
2008/08/01 ~ 2010/07/31 |
54 |
097 ¡X N °ê¬ì·|(ì¬ì§Þ³¡) ¡X NSC97-2623-E-037-001-IT ¡X 1 Ó¤H«¬
°©»P³n°©¦A¥Í¤§³Ð·sÂåÃħ޳N¬ãµo²Ä¤G´Ápµe(I)( )
|
2008/08/01 ~ 2009/07/31 |
55 |
097 ¡X Z ¤j±M¾Ç¥Í¬ã¨spµe¤Î³Õ¤h«á ¡X NSC97-2811-B-037-010 ¡X 9 ³Õ¤h«á¬ã¨sû
³Õ¤h«á¬ã¨s--²ø²Q§g( )
|
2008/12/15 ~ 2009/11/30 |
56 |
096 ¡X N °ê¬ì·|(ì¬ì§Þ³¡) ¡X NSC96-2321-B-037-003 ¡X 1 Ó¤H«¬
²Õ´¤uµ{¬ã¨s¥Î¥H×´_Ãö¸`³n°©¤Î¨¾¤î°h¤Æ©ÊÃö¸`¤õ-¹B¥Î¯×ªÕ·F²ÓM,¥Íªø¦]¤l,¥ÍÂå§÷®Æ( )
|
2007/08/01 ~ 2008/07/31 |
57 |
095 ¡X N °ê¬ì·|(ì¬ì§Þ³¡) ¡X NSC95-2745-B-037-016- ¡X 1 Ó¤H«¬
§Q¥Î¦ÛÅé¯×ªÕ·F²ÓM»P¥ÍÂå§÷®Æ««ØÃö¸`³n°©¯Ê·l¤§²Õ´¤uµ{¬ã¨s( )
|
2006/08/01 ~ 2007/07/31 |
58 |
094 ¡X N °ê¬ì·|(ì¬ì§Þ³¡) ¡X NSC94-2320-B-037-015- ¡X 1 Ó¤H«¬
§Q¥Î¦ÛÅé¯×ªÕ·F²ÓM»P¥ÍÂå§÷®Æ««ØÃö¸`³n°©¯Ê·l¤§²Õ´¤uµ{¬ã¨s( )
|
2005/08/01 ~ 2006/07/31 |
59 |
093 ¡X N °ê¬ì·|(ì¬ì§Þ³¡) ¡X NSC93-2314-B-037-029- ¡X 1 Ó¤H«¬
²ÓM»P¤À¤l¥Íª«¾Ç¼h±±´°Q°h¤Æ©ÊÃö¸`ª¢¶i¦æ¹Lµ{¤¤®øª¢ÃĪ«¹ïÃö¸`³n°©¤§¼vÅT(III)( )
|
2004/08/01 ~ 2005/07/31 |
60 |
092 ¡X N °ê¬ì·|(ì¬ì§Þ³¡) ¡X NSC92-2314-B-037-055- ¡X 1 Ó¤H«¬
²ÓM»P¤À¤l¥Íª«¾Ç¼h±±´°Q°h¤Æ©ÊÃö¸`ª¢¶i¦æ¹Lµ{¤¤®øª¢ÃĪ«¹ïÃö¸`³n°©¤§¼vÅT(II)( )
|
2003/08/01 ~ 2004/07/31 |
61 |
091 ¡X N °ê¬ì·|(ì¬ì§Þ³¡) ¡X NSC91-2314-B-037-291 ¡X 1 Ó¤H«¬
²ÓM»P¤À¤l¥Íª«¾Ç¼h±±´°Q°h¤Æ©ÊÃö¸`ª¢¶i¦æ¹Lµ{¤¤®øª¢ÃĪ«¹ïÃö¸`³n°©¤§¼vÅT( )
|
2002/08/01 ~ 2003/07/31 |
62 |
090 ¡X N °ê¬ì·|(ì¬ì§Þ³¡) ¡X NSC90-2314-B-037-053 ¡X 1 Ó¤H«¬
«DÃþ©T¾J®øª¢ÃĪ«¹ï¤j¹«³n°©²ÓM¤§¦º¤`»P¤À¤Æ§@¥Î¤§¼vÅTªº§Ç¦C±´°Q(Serial study on the effects of nonsteroidal anti-inflammatory drugs on cell death and differentiation in rat chondrocyte cultures)
|
2001/08/01 ~ 2002/07/31 |
63 |
089 ¡X N °ê¬ì·|(ì¬ì§Þ³¡) ¡X NSC 89-2314-B-037-143- ¡X 1 Ó¤H«¬
«DÃþ©T¾J®øª¢ÃĪ«¹ï¤j¹«³n°©²ÓM¤§¼W´Þ,¦º¤`»P¤À¤Æ§@¥Î¤§¼vÅTªº §Ç¦C±´°Q(Serial study on the effects of nonsteroidal antiinflammatory drugs on proliferation,cell death and differentiation in rat chondrocyte cultures)
|
2000/08/01 ~ 2001/07/31 |
64 |
088 ¡X D ¤¤¬ü©M ¡X ¡X
«DÃþ©T¾J®øª¢ÃĪ«¹ï³n°©²ÓM¥\¯à¼vÅT¤§±´°Q( )
|
1999/11/01 ~ 2000/11/30 |
65 |
088 ¡X M °ªÂå(ºØ¤lpµe) ¡X KMC89-C-01 ¡X
«DÃþ©T¾J®øª¢ÃĪ«¤Î«e¦C¸¢¯À¹ï¦¨°©²ÓM¥\¯à¤§¼vÅTªº±´°Q( )
|
1999/08/01 ~ 2000/07/31 |
66 |
086 ¡X D ¤¤¬ü©M ¡X ¡X
«e¦C¸¢¯ÀE2©M®øª¢ÃĪ«¹ï¡§¦¨°©²ÓM¡¨¤§¡§Â૬¥Íªø¦]¤l£]¡¨¤§ªí²{ªº¼vÅT( )
|
1997/12/01 ~ 1998/11/30 |
67 |
084 ¡X D ¤¤¬ü©M ¡X ¡X
«e¦C¸¢¯ÀE2©MKetorolac¹ï¤j¥Õ¹«ªº¦¨°©²ÓM¤§§@¥Î(Effect of ketorolac and prostaglandin E2 on primary osteoblast-like cells)
|
1995/10/01 ~ 1996/09/30 |