The pH dependence of monofilament sutures on hydrolytic degradation

## Abstract The morphological changes in polydioxanone sutures (PDSII), and the resulting changes in properties are explored as a function of __in vitro__ degradation time with the use of small‐ and wide‐angle x‐ray scattering, optical microscopy, differential scanning calorimetry, dynamic mechanic

## Abstract An investigation of morphological changes in hydrolytically degraded polydioxanone sutures (PDSII) during in situ tensile deformation is reported. These changes were followed with the use of real‐time small‐angle X‐ray scattering with simultaneous tensile deformation experiments. The re

The purpose of this research was to examine the effect of annealing treatments on the mechanical properties of polyglycolic acid sutures, and their subsequent influence on PGA degradation properties. An attempt was made to develop a better understanding of the degradation mechanism of synthetic abso

## Abstract The pH effect on the hydrolytic degradation of Polyglactin 910 copolymer was studied in terms of the tensile properties of the suture specimens. The use of a cord/yarn grip, newly designed specifically for fibrous materials, eliminated the grip‐induced failure. Different degrees of hydr

## Abstract The human fragile histidine triad protein (Fhit) is a member of the HIT family of enzymes, which catalyze hydrolysis or nucleotidyltransfer reactions of dinucleoside polyphoshates. Fhit catalyzes the magnesium ion‐dependent hydrolysis of P^1–^5′‐__O__‐adenosine‐P^3–^5′‐__O__‐adenosine t