Biomechanics of spinal hemiepiphysiodesis for fusionless scoliosis treatment using titanium implant

Details

• Personal Author:
  Bylski-Austrow DI ; Coombs MT ; Glos DL ; Kim J ; Wall EJ
• Description:
  STUDY DESIGN: In vitro study of the effect of hemiepiphyseal implant on biomechanical properties of porcine thoracic motion segments. OBJECTIVE: Determine whether implantation of a titanium clip-screw construct alters spine biomechanical properties. SUMMARY OF BACKGROUND DATA: Growth modification is under investigation as a treatment of early adolescent idiopathic scoliosis. Biomechanical property changes due to device implantation are essential to characterize immediate postoperative treatment effects. METHODS: In vitro biomechanical tests were conducted on 18 thoracic functional spinal units. Specimens were tested before and after implantation of a clip-screw construct in lateral bending, flexion-extension, or axial rotation (n = 6 per loading direction). Pure moments were applied, and range of motion, stiffness, and neutral zone were measured. Axial translations were determined bilaterally. RESULTS: Implantation of the clip-screw construct decreased range of motion in lateral bending by 19% (P < 0.0003), flexion-extension by 11% (P < 0.04), and axial rotation by 8%. Mean stiffness in lateral bending toward and away from the treated side increased by 20% (P < 0.007) and 33%, respectively. In flexion and extension, mean stiffness increased by 10% and 16%, respectively. Treatment decreased the neutral zone in lateral bending toward and away from the instrumented side by 30% (P < 0.0003) and 47% (P < 0.02), respectively. In flexion and extension, neutral zone decreased by 20% (P < 0.04) and 26% (P < 0.007), respectively. In axial rotation toward and away from the treated side, mean neutral zone decreased by 22% (P < 0.04) and 7%, respectively. Range of axial translation decreased on the ipsilateral side by 49% (P < 0.001) and increased on the contralateral side by 17%. CONCLUSION: Implantation of a titanium clip-screw construct decreased range of motion by less than one-fifth, increased stiffness by one-third or less, and decreased the neutral zone by less than one-half. Range of axial translation decreased on the instrumented side and increased contralaterally. This study suggests that most of the flexibility of the spine is preserved in the immediate postoperative period after implantation of the spinal hemiepiphyseal construct. [Description provided by NIOSH]
• Subjects:
  Animals Biomechanical Phenomena Laboratories Musculoskeletal Diseases Musculoskeletal System Occupational Health Safety
• Keywords:
  Author Keywords: Spinal Hemiepiphysiodesis Biomechanical Properties Biomechanics Bone-structure Clip-screw Construct Fusionless Growth Modulation Innovative Technique Laboratory-animals Musculoskeletal-system Musculoskeletal-system-disorders Nonfusion Scoliosis Surgery Physiopathology Porcine Model Prosthetic-devices Scoliosis Treatment Thoracic Titanium Vertebral Growth

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• ISSN:
  0362-2436
• Document Type:
  Text
• Funding:
  Grant
• Genre:
  Journal Article
• Place as Subject:
  Ohio ; OSHA Region 5
• CIO:
  National Institute for Occupational Safety and Health (NIOSH)
• Topic:
  Workplace Safety & Health
• Location:
  North America
• Volume:
  38
• Issue:
  23
• NIOSHTIC Number:
  nn:20044570
• Citation:
  Spine 2013 Nov; 38(23):E1454-1460
• Contact Point Address:
  Donita I. Bylski-Austrow, PhD, Department of Orthopaedics, Cincinnati Children's Hospital Medical Center, 3333 Burnet Ave, ML 2017, Cincinnati, OH 45229
• Email:
  donita.bylski-austrow@cchmc.org
• CAS Registry Number:
  Titanium (CAS RN 7440-32-6)
• Federal Fiscal Year:
  2014
• Performing Organization:
  University of Cincinnati
• Peer Reviewed:
  False
• Start Date:
  20050701
• Source Full Name:
  Spine
• End Date:
  20260630
• Collection(s):
  National Institute for Occupational Safety and Health
• Main Document Checksum:
  urn:sha-512:37e342f43e6a8696c7b0939b228448831046093f603db15ed9d90c3b2c36aed57cf69f96032b021a00ecbaf03cf3487dad7c2374af45d1ea608c4d9a219ade07
• Download URL:
  https://stacks.cdc.gov/view/cdc/200244/cdc_200244_DS1.pdf
• File Type:
  [PDF - 918.28 KB ]