|
Volumn 24, Issue 1, 2014, Pages 789-797
|
In vivo biodegradation of porous silk fibroin films implanted beneath the skin and muscle of the rat
|
Author keywords
biodegradation; in vivo; porous biomaterials; silk fibroin
|
Indexed keywords
BIODEGRADATION PROCESS;
BIODEGRADATION RATE;
BIODEGRADATION TEST;
FREEZE DRYING METHOD;
IMAGE ANALYSIS METHOD;
IN-VIVO;
RATE OF BIODEGRADATIONS;
SILK FIBROIN;
BIOLOGICAL MATERIALS;
BIOMATERIALS;
BIOMECHANICS;
BIOMEDICAL ENGINEERING;
BIOTECHNOLOGY;
HISTOLOGY;
MECHANICAL PROPERTIES;
METABOLISM;
MICROBIOLOGY;
MUSCLE;
RATS;
TISSUE REGENERATION;
BIODEGRADATION;
SILK FIBROIN;
ANIMAL EXPERIMENT;
ANIMAL TISSUE;
BIODEGRADATION;
BLOOD VESSEL;
CONFERENCE PAPER;
FLUORESCENCE IMAGING;
FREEZE DRYING;
IMAGE ANALYSIS;
IMPLANTATION;
IN VITRO STUDY;
IN VIVO STUDY;
MALE;
METABOLIC RATE;
MICROSCOPY;
NONHUMAN;
POROUS SILK FIBROIN FILM IMPLANTATION;
PRIORITY JOURNAL;
RAT;
SKELETAL MUSCLE;
SKIN;
SPRAGUE DAWLEY RAT;
SURGICAL TECHNIQUE;
TISSUE REGENERATION;
TISSUE SECTION;
BIODEGRADATION;
IN VIVO;
POROUS BIOMATERIALS;
SILK FIBROIN;
ABSORBABLE IMPLANTS;
ANIMALS;
BIOCOMPATIBLE MATERIALS;
COLLAGENASES;
FIBROINS;
MALE;
MUSCLE, SKELETAL;
POROSITY;
RATS;
RATS, SPRAGUE-DAWLEY;
REGENERATION;
SKIN;
TIME FACTORS;
TISSUE ENGINEERING;
TISSUE SCAFFOLDS;
WOUND HEALING;
|
EID: 84891117818
PISSN: 09592989
EISSN: None
Source Type: Journal
DOI: 10.3233/BME-130870 Document Type: Conference Paper |
Times cited : (13)
|
References (10)
|