To control the mechanical properties and biodegradability of self-organized hydroxyapatite/collagen (HAp/Col) nanocomposites, cross-linkage was introduced into the composites with glutaraldehyde (GA). The HAp/Col composite suspensions, prepared by a simultaneous titration method and aged for 3h, were cross-linked with the reagents for 10min under vigorous stirring. The precipitates obtained were filtrated and compacted by dehydration under a uniaxial pressure. The particle size distribution, 3-point bending strength, contained water amount and swelling ratio of the composites were examined as a function of cross-linkage amount; the biodegradability was estimated by animal tests using rabbits. As regards the cross-linked composites, no long-rage alignment of HAp crystals along collagen molecules was found with a transmission electron microscope, suggesting that the cross-linking reagents suppressed their long-range self-organization mechanism. The 3-point bending strength increased with the GA content and took a maximal value at 1.35mmol/g(col). The animal tests indicated no toxicity and osteoclastic resorption with good osteoconductivity. The resorption rate was decreased with increasing GA concentration. These results suggest that GA cross-linkage controls mechanical properties and resorption rate without reducing high biocompatibility of the composite.