The development of fatigue quality in high- and low-stressed tendons of sheep (Ovis aries).

The time taken to rupture in cyclic fatigue tests, to a stress of 45 MPa, was used to compare the fatigue quality of tendons from sheep of varying ages. Muscle and tendon cross-sectional areas were used to calculate the stress-in-life of each tendon. For any given age, high-stressed plantaris tendons were of a higher fatigue quality than low-stressed extensor tendons. Both fatigue quality and stress-in-life increased with age for each tendon type. High-stressed tendons are subjected to large increases in stress-in-life during growth, and fatigue quality increased significantly with this stress. This relationship was not seen, however, in low-stressed tendons, which are not subjected to a comparable range of stresses over time. It is possible that cells modify tendon fatigue quality in response to tendon loading history. Whilst Young's modulus was seen to increase with age, no difference was detected between high- and low-stressed tendons.

Fatigue quality of mammalian tendons.

When excised tendons are subjected to a prolonged load, whether constant or oscillatory, fatigue damage accumulates, leading eventually to rupture. 'Fatigue quality', assessed by the time-to-rupture under a given stress, was found to vary hugely among the tendons of a wallaby hind limb. This material property correlates with the varied stresses to which tendons from different anatomical sites are exposed in life. The correlation was demonstrated by subjecting each excised tendon to a load equal to the maximum isometric force that its muscle could have developed. The time-to-rupture was then approximately the same for each tendon, on average 4.2 h. A model is introduced in which damage is proposed as the trigger for adaptation of fatigue quality. The model aims, in particular, to explain why low-stressed tendons are not made of a 'better' material, although this clearly exists since it is used in high-stressed tendons. The principle of design to a minimum quality is viable in biology because of the availability of self-repair to balance routine damage. Clinical symptoms, to be included under the general heading of 'overuse injuries', will only arise when this balance fails.

Paw preferences in cats (Felis silvestris catus) living in a household environment.

Unrestrained, naïve cats (Felis silvestris catus) (n=48: 28 males and 20 females), living in a natural domestic environment, were studied for paw preferences using a food reaching test. A total of 46% were right-preferent, 44% were left-preferent and 10% were ambilateral. 60% of the cats in our sample used one paw 100% of the time. This preference was stable over time (10 weeks), and was not influenced by the presence of food residue on the cats' non-preferred paw. There was no difference between male and female cats in the proportions of left and right paw-preferent individuals. We have reviewed the literature reporting paw preferences in cats and conclude that in static food-reaching tests, domestic cats show a marked paw preference with an equal distribution of left- and right-preferent individuals. They do not, however, show a group or population bias toward the use of any one paw. There are no significant sex differences. In contrast, there is previously published evidence which appears to suggest that moving-target reaching tests uncover a left-sided behavioural asymmetry.