Novel Fracture Site Targeting Drug Improves Fracture Healing with Pain Relief: Preclinical Evaluation of MAK123

Abduallah Elsayed,Fletcher A White,Mary Niedrauer,Samuel Zike,Natalie Taylor,Mustafah Shaikh,Nicholas Hux,Mohammed Juboori,Caio De Andrade Staut,Melissa A Kacena,Stewart A Low ,Philip S Low ,Nikhil P Tewari ,Rachel J Blosser ,Ushashi C Dadwal ,Alexander Brinker ,Christopher E Dalloul ,Jeffery J Nielsen ,Sarah L Myers ,Vincent J Alentado ,Hanisha L Battina ,Jiliang Li ,Murad Nazzal

doi:10.18060/25901

Abstract

Non-union bone fracture occurs in 5-10% of fracture injuries. Interventions include surgery with local implantation of autograft, allograft, demineralized bone matrix, and/or bone morphogenetic proteins. These types of fracture injuries are also accompanied by acute and chronic pain states. In most instances, opioids are provided to injured patients during and after surgery. With the opioid crisis, identifying new analgesic therapies that could reduce or eliminate opioid use, while also improving bone healing is important. Here we show the ability of a novel compound, MAK123, to both enhance bone healing and reduce pain behavior in a surgically induced femoral fracture mouse model. Briefly, 20 male C57BL/6 mice underwent a surgically induced femoral fracture and then were treated with 0, 2, 6, or 20 mg/kg, 3X/week for the 3 week study duration. Weekly X-rays were used to examine healing progression. Prior to euthanasia, mice underwent behavioral testing to measure evoked pain behaviors. Upon euthanasia, ex vivo µCT imaging and analysis was completed to assess fracture callus size and composition. While all doses of MAK123 tested resulted in improved healing, the 6mg/kg dose resulted in accelerated bone healing and a significant increase in mineralized callus volume (p<0.05). Similarly, while all doses of MAK123 reduced evoked responses to tactile stimulus as demonstrated by increased paw withdrawal thresholds, 6 mg/kg of MAK123 resulted in a more robust and significant improvement (p<0.05). We postulate that optimization of the dosing schedule/concentration could further improve both bone healing and behavioral measures thought to represent pain in rodents. That said, these promising pre-clinical data warrant further evaluation as MAK123 may prove to be a unique tool for orthopaedic surgery usage whereby it could both improve bone healing and reduce clinical pain, improving overall patient outcomes.

Highlights

Abduallah Elsayed 1, Jeffery Nielsen4,5,6, Natalie Taylor2, Mohammed Juboori2, Caio de Andrade Staut1, Vincent Alentado3, Nicholas Hux1, Christopher Dalloul1, Samuel Zike1, Nikhil Tewari1, Murad Nazzal1, Hanisha Battina1, Alex Brinker1, Mustafah Shaikh1, Sarah Myers1, Rachel Blosser1, Ushashi Dadwal1, Mary Niedrauer4, Stewart Low4, Philip Low4,5,6, Jiliang Li7, Fletcher A
We show the ability of a novel compound, MAK123, to both enhance bone healing and reduce pain behavior in a surgically induced femoral fracture mouse model
While all doses of MAK123 tested resulted in improved healing, the 6mg/kg dose resulted in accelerated bone healing and a significant increase in mineralized callus volume (p

Summary

Introduction

Abduallah Elsayed 1, Jeffery Nielsen4,5,6, Natalie Taylor2, Mohammed Juboori2, Caio de Andrade Staut1, Vincent Alentado3, Nicholas Hux1, Christopher Dalloul1, Samuel Zike1, Nikhil Tewari1, Murad Nazzal1, Hanisha Battina1, Alex Brinker1, Mustafah Shaikh1, Sarah Myers1, Rachel Blosser1, Ushashi Dadwal1, Mary Niedrauer4, Stewart Low4, Philip Low4,5,6, Jiliang Li7, Fletcher A. Departments of 1Orthopaedic Surgery, 2Anesthesia, and 3Neurological Surgery, Indiana University School of Medicine, IN Non-union bone fracture occurs in 5-10% of fracture injuries.

Results

Conclusion