Proximate Mechanismen bei der Bildung von Morphotypen sekundärer Osteone

Proximate mechanisms involved in forming extracellular matrix (ECM) variations within and between bones are not yet clear. Deficiencies in the collective understanding of details required to illuminate the process that forms a highly ordered ECM are exposed when considering that there is still significant debate as to the importance of cellular control in the assembly of the ECM vs. the observation of collagen fibrillar “self-assembly” (i. e., occurring devoid of cells). We examined data and opinions with respect to possible mechanisms involved in the formation of distinctly different ECM patterns of secondary osteon morphotypes (SOMs). Important considerations include: stretch within the osteoid during fibrillogenesis, various mechanotransduction mechanisms, and whether or not the formation of regional variations in osteonal ECMs requires osteoblast alignment and/or rotation and migration. We propose that primary cilia of osteoblasts and osteocytes have an important role in their perception of variant-related (vectorial) stimuli, which is deemed essential in the genesis of distinctive and mechanically relevant ECM patterns of SOMs.