4.6 Article

Impaired soft and hard callus formation during fracture healing in diet-induced obese mice as revealed by 3D contrast-enhanced computed tomography imaging

Journal

BONE
Volume 150, Issue -, Pages -

Publisher

ELSEVIER SCIENCE INC
DOI: 10.1016/j.bone.2021.116008

Keywords

Fracture healing; Diet-induced obesity; Bone repair; Contrast-enhanced computed tomography; Hyperglycemia; Periosteum-derived cells

Funding

  1. European Research Council under the European Union's Seventh Framework Programme (FP/2007-2013)/ERC Grant [249191]
  2. special research fund of the KU Leuven [GOA/13/016]
  3. Belgian Research Foundation Flanders (FWO) [G088218N]
  4. Hercules Foundation [AKUL 13/47]

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The study assessed alterations in bone fracture healing in DIO mice and found that osteogenesis and chondrogenesis were altered in these mice compared to lean controls. In vitro experiments showed that high glucose conditions affected osteogenic and chondrogenic differentiation, potentially impacting callus formation and maturation during fracture healing.
The impact of diabetes mellitus on bone fracture healing is clinically relevant as the patients experience delayed fracture healing. Even though efforts have been made to understand the detrimental effects of type 2 diabetes mellitus (T2DM) on the fracture healing process, the exact mechanisms causing the pathophysiological outcomes remain unclear. The aim of this study was to assess alterations in bone fracture healing (tibial fracture surgery, intramedullary pinning) of diet-induced obese (DIO) mice, and to investigate the in vitro properties of osteochondroprogenitors derived from the diabetic micro-environment. High-resolution contrast-enhanced microfocus X-ray computed tomography (CE-CT) enabled a simultaneous 3D assessment of the amount and spatial distribution of the regenerated soft and hard tissues during fracture healing and revealed that osteogenesis as well as chondrogenesis are altered in DIO mice. Compared to age-matched lean controls, DIO mice presented a decreased bone volume fraction and increased callus volume and adiposity at day 14 post-fracture. Of note, bone turnover was found altered in DIO mice relative to controls, evidenced by decreased blood serum osteocalcin and increased serum CTX levels. The in vitro data revealed that not only the osteogenic and adipogenic differentiation of periosteum-derived cells (PDCs) were altered by hyperglycemic (HG) conditions, but also the chondrogenic differentiation. Elevated PPAR gamma expression in HG conditions confirmed the observed increase in differentiated adipocytes in vitro. Finally, chondrogenesis-related genes COL2 and COL10 were downregulated for PDCs treated with HG medium, confirming that chondrogenic differentiation is compromised in vitro and suggesting that this may affect callus formation and maturation during the fracture healing process in vivo. Altogether, these results provide novel insights into the alterations of long bone fracture repair and suggest a link between HG-induced dysfunctionality of osteochondroprogenitor differentiation and fracture healing impairment under T2DM conditions.

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