The laser irradiation of cartilage results in a plastic deformation of the tissue allowing for the creation of new stable shapes. During photothermal stimulation, mechanically deformed cartilage undergoes a temperature dependent phase transition, which results in accelerated stress relaxation of the tissue matrix. Cartilage specimens thus reshaped can be used to recreate the underlying framework of structures in the head and neck. Optimization of this process has required an understanding of the biophysical processes accompanying reshaping and also determination of the laser dosimetry parameters, which maintain graft viability. Extensive in vitro, ex-vivo, and in vivo animal investigations, as well as human trials, have been conducted. This...
Grafts obtained from peripheral regions of costal cartilage have an inherent tendency to warp over t...
Laser cartilage reshaping (LCR) with cryogen spray cooling is a promising modality for producing car...
textWith progressive use of lasers in medical applications, a recent focus of cartilage research has...
The laser irradiation of cartilage results in a plastic deformation of the tissue allowing for the c...
Laser radiation can be used to reshape cartilage tissue into new morphologic configurations. When a ...
Laser-assisted cartilage reshaping is mediated by thermally induced stress relaxation, and may be us...
In this study, we attempted to determine the critical temperature [Tc] at which accelerated stress r...
Cartilage is a structural component of the head and neck whose functions include joint movement, and...
In this chapter, we introduce the working theory of cartilage reshaping and highlight landmark paper...
Deformed cartilage remodeling appears to be a challenge, as cartilage tends to keep its initial shap...
Cartilage undergoes characteristic deformation following laser irradiation below the ablation thresh...
Cartilage laser thermoforming, also known as laser reshaping, is a new surgical procedure that allow...
Previous studies have demonstrated the feasibility of laser irradiation (λ = 1.45 μm) in tandem with...
Cartilage undergoes characteristic mechanical stress relaxation following laser irradiation below th...
Laser cartilage reshaping (LCR), first introduced in 1993, is a novel technique designed to permanen...
Grafts obtained from peripheral regions of costal cartilage have an inherent tendency to warp over t...
Laser cartilage reshaping (LCR) with cryogen spray cooling is a promising modality for producing car...
textWith progressive use of lasers in medical applications, a recent focus of cartilage research has...
The laser irradiation of cartilage results in a plastic deformation of the tissue allowing for the c...
Laser radiation can be used to reshape cartilage tissue into new morphologic configurations. When a ...
Laser-assisted cartilage reshaping is mediated by thermally induced stress relaxation, and may be us...
In this study, we attempted to determine the critical temperature [Tc] at which accelerated stress r...
Cartilage is a structural component of the head and neck whose functions include joint movement, and...
In this chapter, we introduce the working theory of cartilage reshaping and highlight landmark paper...
Deformed cartilage remodeling appears to be a challenge, as cartilage tends to keep its initial shap...
Cartilage undergoes characteristic deformation following laser irradiation below the ablation thresh...
Cartilage laser thermoforming, also known as laser reshaping, is a new surgical procedure that allow...
Previous studies have demonstrated the feasibility of laser irradiation (λ = 1.45 μm) in tandem with...
Cartilage undergoes characteristic mechanical stress relaxation following laser irradiation below th...
Laser cartilage reshaping (LCR), first introduced in 1993, is a novel technique designed to permanen...
Grafts obtained from peripheral regions of costal cartilage have an inherent tendency to warp over t...
Laser cartilage reshaping (LCR) with cryogen spray cooling is a promising modality for producing car...
textWith progressive use of lasers in medical applications, a recent focus of cartilage research has...