Biomedicines (Mar 2024)

Targeted Delivery of Abaloparatide to Spinal Fusion Site Accelerates Fusion Process in Rats

  • Jeffery J. Nielsen,
  • Stewart A. Low,
  • Christopher Chen,
  • Xinlan Li,
  • Ephraim Mbachu,
  • Lina Trigg,
  • Siyuan Sun,
  • Madeline Tremby,
  • Rahul Hadap,
  • Philip S. Low

DOI
https://doi.org/10.3390/biomedicines12030612
Journal volume & issue
Vol. 12, no. 3
p. 612

Abstract

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Spinal fusions are performed to treat congenital skeletal malformations, spondylosis, degenerative disk diseases, and other pathologies of the vertebrae that can be resolved by reducing motion between neighboring vertebrae. Unfortunately, up to 100,000 fusion procedures fail per year in the United States, suggesting that efforts to develop new approaches to improve spinal fusions are justified. We have explored whether the use of an osteotropic oligopeptide to target an attached bone anabolic agent to the fusion site might be exploited to both accelerate the mineralization process and improve the overall success rate of spinal fusions. The data presented below demonstrate that subcutaneous administration of a modified abaloparatide conjugated to 20 mer of D-glutamic acid not only localizes at the spinal fusion site but also outperforms the standard of care (topically applied BMP2) in both speed of mineralization (p p < 0.05) in a posterior lateral spinal fusion model in male and female rats, with no accompanying ectopic mineralization. Because the bone-localizing conjugate can be administered ad libitum post-surgery, and since the procedure appears to improve on standard of care, we conclude that administration of a bone-homing anabolic agent for improvement of spinal fusion surgeries warrants further exploration.

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