Biodegradable implants for potential use in bone infection. An in vitro study of antibiotic-loaded calcium sulphate.
about
Biofilms in periprosthetic orthopedic infectionsHighly efficient release of simvastatin from simvastatin-loaded calcium sulphate scaffolds enhances segmental bone regeneration in rabbits.Antibiotic stability over six weeks in aqueous solution at body temperature with and without heat treatment that mimics the curing of bone cementClinical use and safety of a novel gentamicin-releasing resorbable bone graft substitute in the treatment of osteomyelitis/osteitisThe treatment of chronic osteomyelitis with a biodegradable antibiotic-impregnated implant.Infection, inflammation, and bone regeneration: a paradoxical relationshipAntimicrobial Formulations of Absorbable Bone Substitute Materials as Drug Carriers Based on Calcium Sulfate.Chitosan films: a potential local drug delivery system for antibiotics.In Vitro Activity of Gentamicin-Loaded Bioabsorbable Beads against Different Microorganisms.Best one hundred papers of International Orthopaedics: a bibliometric analysis.Elution of Clindamycin and Enrofloxacin From Calcium Sulfate Hemihydrate Beads In Vitro.Polymer-controlled release of tobramycin from bone graft void filler.Local release of antibiotics for surgical site infection management using high-purity calcium sulfate: an in vitro elution studyIn vitro elution characteristics of vancomycin in a composite calcium phosphate/calcium sulfate bone substituteCalcium sulfate spinal cord scaffold: a study on degradation and fibroblast growth factor 1 loading and release.Molded polymer-coated composite bone void filler improves tobramycin controlled release kinetics.PLGA and PHBV microsphere formulations and solid-state characterization: possible implications for local delivery of fusidic acid for the treatment and prevention of orthopaedic infections.Sodium fusidate-poly(D,L-lactide-co-glycolide) microspheres: preparation, characterisation and in vivo evaluation of their effectiveness in the treatment of chronic osteomyelitis.Bone substitutes: a review of their characteristics, clinical use, and perspectives for large bone defects management.study of new combinations for local antibiotic therapy with calcium sulphate - Near constant release of ceftriaxone offers new treatment options
P2860
Q28392406-DA172D04-4A3D-4639-9AB4-E7CC3B3AAE54Q33747719-FBD8A72D-66D8-42B4-B003-4C34055C409CQ33759744-9D4DE0BE-FEB4-41E9-B3A7-078FDA052A4AQ33958250-B5937CC5-C55C-497C-AB0D-A2E60843CBA4Q34981148-A315DD54-78B6-4E4D-8463-DAEBE220EA77Q35205143-F1292D85-4DAB-49A7-85A2-7031EEC22C7DQ37023160-C6EC5BE2-8D46-48FC-99B4-D82DA66A1895Q38448955-9B8E5AF7-5119-498C-AD7C-3D3AA0187291Q38623078-09BAED1C-1D52-4F2D-AF45-41F78922F04EQ39039160-327F3A7C-73E5-44EB-A55D-99E07E30983AQ40935020-194AD966-EF8B-4E98-A88C-F67AA16B736BQ41197707-4AF0F261-D1A8-4BC1-BA19-5635BD111C44Q41762519-D7F0C8E4-F801-472E-A853-887A9C63C98EQ42055931-B444D3E3-EDF4-4D90-85CD-7735DFC3EAE7Q42824665-49855883-7DEF-4EB1-B464-E5D7244DE801Q44258869-B58A20D3-6CFB-42F1-AEDC-DF6A006B5C16Q46041557-2079F180-5857-4F3F-84D6-9A0CAE38ADA6Q50951044-68EEAA36-50E3-4E8F-B74D-030C71144206Q55024163-30D26A96-81E1-4F12-BB99-6B58994CA0EDQ58695395-925F8A85-3C85-4F6C-AC11-FACA46E73675
P2860
Biodegradable implants for potential use in bone infection. An in vitro study of antibiotic-loaded calcium sulphate.
description
1995 nî lūn-bûn
@nan
1995年の論文
@ja
1995年論文
@yue
1995年論文
@zh-hant
1995年論文
@zh-hk
1995年論文
@zh-mo
1995年論文
@zh-tw
1995年论文
@wuu
1995年论文
@zh
1995年论文
@zh-cn
name
Biodegradable implants for pot ...... iotic-loaded calcium sulphate.
@en
type
label
Biodegradable implants for pot ...... iotic-loaded calcium sulphate.
@en
prefLabel
Biodegradable implants for pot ...... iotic-loaded calcium sulphate.
@en
P2093
P356
P1476
Biodegradable implants for pot ...... iotic-loaded calcium sulphate.
@en
P2093
P2888
P304
P356
10.1007/BF00181861
P577
1995-01-01T00:00:00Z
P6179
1039626103