about
Adipogenesis using human adipose tissue-derived stromal cells combined with a collagen/gelatin sponge sustaining release of basic fibroblast growth factor.Complete cell killing by applying high hydrostatic pressure for acellular vascular graft preparation.Adipose-derived regenerative cell (ADRC)-enriched fat grafting: optimal cell concentration and effects on grafted fat characteristics.Adipose tissue-specific regulation of angiotensinogen in obese humans and mice: impact of nutritional status and adipocyte hypertrophy.Conchal Cartilage Graft for Correction of Bilateral Cleft Lip Nasal Deformities during Childhood.Immediate evaluation of neovascularization in a grafted bilayered artificial dermis using laser Doppler imaging.Comparison of neovascularization in dermal substitutes seeded with autologous fibroblasts or impregnated with bFGF applied to diabetic foot ulcers using laser Doppler imaging.Exploratory clinical trial of combination wound therapy with a gelatin sheet and platelet-rich plasma in patients with chronic skin ulcers: study protocol.Preparation of Inactivated Human Skin Using High Hydrostatic Pressurization for Full-Thickness Skin Reconstruction.An exploratory clinical trial for combination wound therapy with a novel medical matrix and fibroblast growth factor in patients with chronic skin ulcers: a study protocolHypoxia Enhances Proliferation of Human Adipose-Derived Stem Cells via HIF-1ɑ Activation.Angiogenic effect of platelet-rich plasma combined with gelatin hydrogel granules injected into murine subcutis.An evaluation of the engraftment and the blood flow of porcine skin autografts inactivated by high hydrostatic pressure.An Exploratory Clinical Trial of a Novel Treatment for Giant Congenital Melanocytic Nevi Combining Inactivated Autologous Nevus Tissue by High Hydrostatic Pressure and a Cultured Epidermal Autograft: Study ProtocolThe Alteration of the Epidermal Basement Membrane Complex of Human Nevus Tissue and Keratinocyte Attachment after High Hydrostatic Pressurization.Novel collagen/gelatin scaffold with sustained release of basic fibroblast growth factor: clinical trial for chronic skin ulcers.The rapid inactivation of porcine skin by applying high hydrostatic pressure without damaging the extracellular matrixGreen tea polyphenols affect skin preservation in rats and improve the rate of skin grafts.Combined use of fenestrated-type artificial dermis and topical negative pressure wound therapy for the venous leg ulcer of a rheumatoid arthritis patient.Utilization of Platelet-Rich Plasma for a Fistula With Subcutaneous Cavity Following Septic Bursitis: A Case ReportMelanin pigments in the melanocytic nevus regress spontaneously after inactivation by high hydrostatic pressure.Autologous skin reconstruction by combining epidermis and acellular dermal matrix tissue derived from the skin of giant congenital melanocytic nevi.Simple and longstanding adipose tissue engineering in rabbits.Gelatin hydrogel impregnated with platelet-rich plasma releasate promotes angiogenesis and wound healing in murine model.Efficacy of the controlled release of concentrated platelet lysate from a collagen/gelatin scaffold for dermis-like tissue regeneration.Efficacy of the dual controlled release of HGF and bFGF impregnated with a collagen/gelatin scaffold.Preparation of collagen/gelatin sponge scaffold for sustained release of bFGF.A case report of the first application of culture epithelial autograft (JACE(®)) for giant congenital melanocytic nevus after its approval in Japan.Development of a novel bioabsorbable implant that is substituted by adipose tissue in vivo.Verification of the Inactivation of Melanocytic Nevus in vitro Using a Newly Developed Portable High Hydrostatic Pressure Device.Platelet and growth factor concentrations in activated platelet-rich plasma: a comparison of seven commercial separation systems.Incorporation of basic fibroblast growth factor into preconfluent cultured skin substitute to accelerate neovascularisation and skin reconstruction after transplantation.In vivo culturing of a bilayered dermal substitute with adipo-stromal cells.Open rhinoplasty using conchal cartilage during childhood to correct unilateral cleft-lip nasal deformities.Platelet-rich plasma releasate promotes angiogenesis in vitro and in vivo.Complete tissue coverage achieved by scaffold-based tissue engineering in the fetal sheep model of Myelomeningocele.Exploration of the wound healing effect of topical administration of nicotine in combination with collagen scaffold in a rabbit model.The utilization of animal product-free media and autologous serum in an autologous dermal substitute culture.Combined use of fenestrated-type artificial dermis and topical negative-pressure wound therapy to treat the complex wound in the lower leg.Inactivation of Human Nevus Tissue Using High Hydrostatic Pressure for Autologous Skin Reconstruction: A Novel Treatment for Giant Congenital Melanocytic Nevi.
P50
Q31097426-82802568-DD59-443C-9F61-F46CEAFB25E8Q33615894-409BC631-2EC3-4929-A28C-D8A6863B9CF3Q33616307-126CC1EC-ED2D-41C1-84B2-89C5CA93161BQ33742195-266B4C15-A595-45F4-8E74-885132FE0E9CQ34238087-89A05E29-E220-4897-9FCA-F8F265ED5EF2Q34513443-D64E36C3-CCF9-4E98-9B05-306E6A3F7180Q35207428-A40169A7-3B22-4579-9780-99AB679D82CAQ35604896-130F85EA-4C68-4736-A8EC-BAEB9B637264Q35726843-99C7579A-8507-4B00-A3AC-85ED1B27507AQ35747475-7D41E031-D25B-43F4-82EE-231340E5E05CQ35806537-65174AEB-F589-46CC-90EE-8414E7CC3D9DQ35816492-C60AA877-371B-4115-9B74-8B7EC384F398Q35965659-97BA21FE-FC6A-4C91-98C2-E7B4E4AF94C6Q37208330-D313D5FD-A4BD-4D3F-9E97-3EC257BC6DCAQ37323526-0D1B931B-8480-4682-9C96-B2FF075E5B4BQ38094343-C391AD21-BBCF-4655-8BEE-2FD2C89F2A18Q39327381-C3DA1AD5-92E5-4026-84A8-314AF5147F49Q40093616-B0DEE037-8783-409F-99DF-747EAD55C163Q41504561-F0BDA20B-8289-4AF4-9770-8C9183418925Q42393309-22BD0FFB-F201-430F-B62E-796A2CE79172Q43206241-061722CD-B369-4E71-9602-8C912E36CBF5Q44724084-1C29F015-498E-472C-9F13-2AF453A5620EQ45032531-E2877663-591B-45ED-A8C7-97764163CF1AQ45152091-4A7D4F73-7A12-4E47-A553-01389E80BF56Q46541562-FE621A27-FB19-44B6-B22C-5E0DE136AEB0Q47260779-897939E0-379D-4421-8BE7-36352363FDB0Q47614251-95501AA1-D0A7-4227-87AD-D342FA14DACCQ48285146-BF916764-168F-4FC7-BFF5-AB2C7B8E301AQ48369626-4B93DF69-2394-47B9-8D67-D3977E5B7318Q50427977-4C3D8402-14DF-47D8-91AC-3C7756ECD720Q50473424-E8F4B16D-6A33-446F-B785-2140DF5C9923Q50906758-CA5E20D5-A1E6-4520-8CDE-B060D1BED546Q50916860-61B4423E-2C42-4ACB-B564-04A4F011CF93Q50972195-1BCA7554-81BF-4591-8358-9D1A1D5DF8B4Q51055110-FDF8A2DD-681A-4C61-BD26-931A315D210EQ51664850-7410790D-62D1-49E8-8D1B-932D07F22AD7Q51674019-31FC112F-D1BD-4907-AA59-1979FED9845FQ53339300-CE5D9F76-D132-45B6-8416-ACEC51C9DB95Q53376017-5D6B80F7-56FF-405D-B6BC-6D9A923C117AQ53449768-6371F2C6-33A6-40CF-BFC5-5AFD98FEFE95
P50
description
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Naoki Morimoto
@ast
Naoki Morimoto
@en
Naoki Morimoto
@es
Naoki Morimoto
@nl
Naoki Morimoto
@sl
type
label
Naoki Morimoto
@ast
Naoki Morimoto
@en
Naoki Morimoto
@es
Naoki Morimoto
@nl
Naoki Morimoto
@sl
prefLabel
Naoki Morimoto
@ast
Naoki Morimoto
@en
Naoki Morimoto
@es
Naoki Morimoto
@nl
Naoki Morimoto
@sl
P106
P1153
56526357100
P31
P496
0000-0002-0712-3172