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PTH (1‐34) effects on repairing experimentally drilled holes in rat femur: novel aspects – qualitative vs. quantitative improvement of osteogenesis
Author(s) -
Cavani Francesco,
Ferretti Marzia,
Smargiassi Alberto,
Palumbo Carla
Publication year - 2017
Publication title -
journal of anatomy
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.932
H-Index - 118
eISSN - 1469-7580
pISSN - 0021-8782
DOI - 10.1111/joa.12533
Subject(s) - femur , context (archaeology) , osteoblast , parathyroid hormone , chemistry , anatomy , biology , medicine , calcium , surgery , paleontology , biochemistry , organic chemistry , in vitro
Abstract The timetable of effects on bone repair of the active fraction‐parathyroid hormone, PTH (1‐34), was analytically investigated from the morphometric viewpoint in 3‐month‐old male Sprague‐Dawley rats, whose femurs were drilled at mid‐diaphyseal level (transcortical holes). The animals were divided into groups with/without PTH (1‐34) administration, and sacrificed at different times (10, 28, 45 days after surgery). The observations reported here need to be framed in the context of our previous investigations regarding bone histogenesis (Ferretti et al. Anat Embryol . 2002;  206 : 21–29) in which we demonstrated the occurrence of two successive bone‐forming processes during both skeletal organogenesis and bone repair, i.e. static and dynamic osteogenesis: the former (due to stationary osteoblasts, haphazardly grouped in cords) producing preliminary bad quality trabecular bone, the latter (due to typical polarized osteoblasts organized in ordered movable laminae) producing mechanically valid bone tissue. The primary function of static osteogenesis is to provide a rigid scaffold containing osteocytes (i.e. mechano‐sensors) for osteoblast laminae acting in dynamic osteogenesis. In the present work, histomorphometric analysis revealed that, already 10 days after drilling, despite the holes being temporarily filled by the same amount of newly formed trabecular bone by static osteogenesis independently of the treatment, the extent of the surface of movable osteoblast‐laminae (covering the trabecular surface) was statistically higher in animals submitted to PTH (1‐34) administration than in control ones; this datum strongly suggests the effect of PTH (1‐34) alone in anticipating the occurrence of dynamic osteogenesis involved in the production of good quality bone (with more ordered collagen texture) more suitable for loading. This study could be crucial in further translational clinical research in humans for defining the best therapeutic strategies to be applied in recovering severe skeletal lesions, particularly as regards the time of PTH (1‐34) administration.

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