2016
DOI: 10.1111/joa.12533
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PTH(1‐34) effects on repairing experimentally drilled holes in rat femur: novel aspects – qualitative vs. quantitative improvement of osteogenesis

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 regard… Show more

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Cited by 6 publications
(6 citation statements)
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“…All these data highlighted the importance of Wisp-2 produced by osteocyte population in pushing osteogenesis process. Our results match also with the observations by Cavani and coworkers (Cavani et al, 2017) on PTH(1-34) effects during repairing experimentally drilled holes in rat femur, where the main effect of PTH(1-34) was demonstrated to be the induction of a faster healing of the bone lesions with respect to the injured rats that not underwent PTH Fig. 12.…”
Section: Discussionsupporting
confidence: 92%
“…All these data highlighted the importance of Wisp-2 produced by osteocyte population in pushing osteogenesis process. Our results match also with the observations by Cavani and coworkers (Cavani et al, 2017) on PTH(1-34) effects during repairing experimentally drilled holes in rat femur, where the main effect of PTH(1-34) was demonstrated to be the induction of a faster healing of the bone lesions with respect to the injured rats that not underwent PTH Fig. 12.…”
Section: Discussionsupporting
confidence: 92%
“…In fact, as Ferretti and coworkers clearly demonstrated, static osteogenesis (SO) is conditioned by vascular-derived inductive stimuli that do not appear to affect our experimental evidences; on the contrary, dynamic osteogenesis (DO) is conditioned by mechanical stimuli (sensed by osteocytes), which is in turn dependent on the increase of the body weight occurring in our experimental condition. These results are also fully in line with the demonstration that the crucial effect of PTH (1-34) is to improve only the “dynamic” bone formation instead of the “static” one during bone repair in transcortical holes experimentally drilled in rat femur [47]. On the contrary, in some pathologies, like facet joint osteoarthritis (FJOA), remodeling of the subchondral trabecular bone compartment is characterized by increased trabecular number, rather than trabecular thickening [48]; this observation can be explained with the impairment of viability of osteocytes (i.e., the bone mechanosensor) inside the trabecular bone due to osteoarthritis, so that static osteogenesis (instead of dynamic one) is activated, through the recruitment of osteoprogenitor cells by endothelial-derived growth factors, giving rise to the formation of new trabeculae.…”
Section: Discussionsupporting
confidence: 83%
“…In fact, as Ferretti and coworkers clearly demonstrated, static osteogenesis (SO) is conditioned by vascular-derived inductive stimuli that do not appear to affect our experimental evidences; on the contrary, dynamic osteogenesis (DO) is conditioned by mechanical stimuli (sensed by osteocytes), in turn dependent on the increase of the body weight occurring in our experimental condition. These results are also fully in line with the demonstration that the crucial effect of PTH(1-34) is to improve only the "dynamic" bone formation instead of the "static" one during bone repair in transcortical holes experimentally drilled in rat femur [47]. On the contrary, in some pathologies, like facet joint osteoarthritis (FJOA), remodeling of the subchondral trabecular bone compartment is characterized by increased trabecular number, rather than trabecular thickening [48]; this observation can be explained with the impairment of viability of osteocytes (i.e.…”
Section: Discussionsupporting
confidence: 87%