Showing results 1 to 19 of 19
|A src-related kinase in the brush border membranes of gastrointestinal cells is regulated by c-met.
|Ability of S100 proteins and matrix metalloproteinase-9 to identify periodontitis in a ligature-induced periodontitis dog model
|Biological efficacy of two mineral trioxide aggregate (MTA)-based materials in a canine model of pulpotomy
|Campylobacter fetus subspecies venerealis meningitis associated with a companion dog in a young adult: a case report
|김은진, 김태준, 이위교, 최영화, 허중연
|Controlled Release of Hepatocyte Growth Factor from MPEG-b-(PCL-ran-PLLA) Diblock Copolymer for Improved Vocal Fold Regeneration
|Creation of four experimental aneurysms with different hemodynamics in one dog.
|Cross-reactivity of Can f 1 with Syrian hamster and Fel d 1 in children
|Dental stem cell therapy with calcium hydroxide in dental pulp capping.
|Effects of a holmium-166 incorporated covered stent placement in normal canine common bile ducts.
|김재형, 왕희정, 원제환, 한재호
|Gene profiling of bone around orthodontic mini-implants by RNA-sequencing analysis.
|Implantation of polymer scaffolds seeded with neural stem cells in a canine spinal cord injury model.
|Intralymphatic immunotherapy with tyrosine-adsorbed allergens: a double-blind, placebo-controlled trial
|Long-term results of remodelling the facial bones with a soft moulding helmet in beagles: the "reciprocally stimulated growth" hypothesis
|Pharmacological characterization of KR-30988, a novel non-peptide AT1 receptor antagonist, in rat, rabbit and dog.
|Presence of autocrine hepatocyte growth factor-Met signaling and its role in proliferation and migration of SNU-484 gastric cancer cell line.
|김욱환, 박민선, 이재호, 조혜성
|Preventing spontaneous thrombosis of experimental sidewall aneurysms: the oblique cut.
|Self-expandable covered metallic esophageal stent impregnated with beta-emitting radionuclide: an experimental study in canine esophagus.
|박찬희, 왕희정, 원제환, 임현이, 조철우
|Tissue engineering of heart valves by recellularization of glutaraldehyde-fixed porcine valves using bone marrow-derived cells.
|Tissue engineering of heart valves in vivo using bone marrow-derived cells.