Add to ORKGRat-tail tendon is primarily composed of type I collagen fibres in which the collagen molecules are axially packed according to the quarter-stagger model (Hodge and Petruska (1963). Thi
AbstractCollagen fibrils play an important role in the human body, providing tensile strength to con...
Several recent results are suggesting that the collagen packing in mineralized tissues is much less ...
The basic mechanism of reinforcement in tendons addresses the transfer of stress, generated by the d...
The modification of collagen molecular packing as a function of the removal of bound and structural ...
The dynamic behaviour of collagen fibrils is revealed by time-resolved X-ray investigations of nativ...
The meridional X-ray diffraction pattern of wet rat tail tendon contains information about the one-d...
Some experimental aspects of the study of large molecules by the technique of light scattering are e...
ABSTRACT The load-strain and stress-relaxation behavior of wet rat tail tendon has been examined wit...
SUMMARY The use of x ray fibre diffraction to study the molecular architecture of healthy and diseas...
International audienceMolecular structure of tail tendon fibers in TIEG1 knockout mice using synchro...
A detailed X-ray study of collagen fibres obtained from different sources (namely, shark ray, rat ta...
Small angle X-ray diffraction (SAXD) was used to locate mucopolysaccharides (MPS) at regular interva...
In this review, recent results from X-ray diffraction studies of tendon are used to develop an under...
One of the important physical properties of collagen is viscoelasticity. The molecular and the matri...
The accumulation of microstructural collagen damage following repetitive loading is linked to painfu...
AbstractCollagen fibrils play an important role in the human body, providing tensile strength to con...
Several recent results are suggesting that the collagen packing in mineralized tissues is much less ...
The basic mechanism of reinforcement in tendons addresses the transfer of stress, generated by the d...
The modification of collagen molecular packing as a function of the removal of bound and structural ...
The dynamic behaviour of collagen fibrils is revealed by time-resolved X-ray investigations of nativ...
The meridional X-ray diffraction pattern of wet rat tail tendon contains information about the one-d...
Some experimental aspects of the study of large molecules by the technique of light scattering are e...
ABSTRACT The load-strain and stress-relaxation behavior of wet rat tail tendon has been examined wit...
SUMMARY The use of x ray fibre diffraction to study the molecular architecture of healthy and diseas...
International audienceMolecular structure of tail tendon fibers in TIEG1 knockout mice using synchro...
A detailed X-ray study of collagen fibres obtained from different sources (namely, shark ray, rat ta...
Small angle X-ray diffraction (SAXD) was used to locate mucopolysaccharides (MPS) at regular interva...
In this review, recent results from X-ray diffraction studies of tendon are used to develop an under...
One of the important physical properties of collagen is viscoelasticity. The molecular and the matri...
The accumulation of microstructural collagen damage following repetitive loading is linked to painfu...
AbstractCollagen fibrils play an important role in the human body, providing tensile strength to con...
Several recent results are suggesting that the collagen packing in mineralized tissues is much less ...
The basic mechanism of reinforcement in tendons addresses the transfer of stress, generated by the d...