Platelet-rich Plasma Combined With Conventional Surgery in the Treatment of Atrophic Nonunion of Femoral Shaft Fractures

Overview

To objectively analyze the effectiveness of platelet-rich plasma (PRP) combined with conventional surgery in the treatment of atrophic nonunion of femoral shaft fractures.

Full Title of Study: “Platelet-rich Plasma Combined With Conventional Surgery in the Treatment of Atrophic Nonunion of Femoral Shaft Fractures: a Prospective, Randomized, Controlled Clinical Trial”

Study Type

  • Study Type: Interventional
  • Study Design
    • Allocation: Randomized
    • Intervention Model: Parallel Assignment
    • Primary Purpose: Treatment
    • Masking: None (Open Label)
  • Study Primary Completion Date: June 2018

Detailed Description

History and current related studies: Fracture healing is a continuous process, and if any phase is disturbed by unfavorable factors, the healing process will be blocked. Clinical studies have found that non-healing rate of long bone fracture was approximately 5%. A certain site and type of fracture, if not healed within a mean time (usually 3-6 months), is called delayed union by US Food and Drug Administration. Simultaneously, the fracture that has not healed after 9 months and has no tendency for further healing in the next 3 months is called nonunion. According to fracture end activity, nonunion is classified into hypertrophic nonunion and atrophic nonunion.7, 8 Hypertrophic nonunion is mostly caused by unstable fixation of fracture ends, and can be cured by strengthening the stability of fracture site using conventional surgery. Atrophic nonunion is difficult to be cured, because of the lack of adequate blood supply and bone formation at the fracture ends, so it is unable to form the periosteal callus. At present, atrophic nonunion is commonly treated by internal and external fixation combined with autologous bone graft, but this method has a long treatment cycle, and there is a situation that cannot be cured. Platelet-rich plasma (PRP) is blood plasma that has been enriched with platelets by centrifuging autologous blood. Platelet after activation can secrete platelet derived growth factor, transforming growth factor beta, vascular endothelial growth factor and epidermal growth factor. These growth factors can promote cell proliferation and differentiation, matrix synthesis and vascular regeneration, and accelerate tissue healing and bone repair. PRP contains a large number of leukocytes, which can locally phagocytize bacteria, scavenge necrotic tissue, inhibit inflammatory reaction, and resist infection. PRP fibrin can locally build the three-dimensional structure required for tissue repair. Since Assoian et al. first isolated PRP and used PRP in the clinic in 1984, PRP has received increasing attention in areas such as oral and maxillofacial surgery, orthopedics, plastic surgery, and neurosurgery. Data management: Clinical researchers filled in the clinical trial observation form to ensure the data were accurate, complete and timely collected. After the trial, all data were input into the computer. After data collection, the main clinical investigators and inspectors monitored and checked the integrity and accuracy of the data. The data were locked by the main investigators. Data processing statisticians further verified and checked the completeness and accuracy of the data after data entry. Anonymized trial data will be published at www.figshare.com. Statistical analysis: 1. Measurement data were expressed as the mean ± SD and analyzed using SPSS 17.0 software (SPSS, Chicago, IL, USA). Count data were expressed as a percentage. 2. A normality test and variance homogeneity test were conducted. Normally distributed data with homogeneity were compared using one-way analysis of variance. Non-normally distributed data were compared using Wilcoxon's two-sample rank sum test. 3. The incidence of adverse reactions between groups was compared using chi-square test. A P value of < 0.05 was considered statistically significant. Results followed the intention-to-treat principle. Confidentiality: Clinical trial observation forms and informed consents were password-protected. No person, other than an authorized researcher, might be in contact with it.

Interventions

  • Procedure: conventional surgery
    • Patients with atrophic nonunion of femoral shaft fractures are equally and randomly assigned to control group, which received conventional surgery.
  • Procedure: autologous platelet-rich plasma
    • Patients with atrophic nonunion of femoral shaft fractures are equally and randomly assigned to experimental group, which are injected with autologous platelet-rich plasma on the basis of conventional surgery.

Arms, Groups and Cohorts

  • Experimental: control group
    • Patients with atrophic nonunion of femoral shaft fractures are equally and randomly assigned to control group, which received conventional surgery.
  • Experimental: experimental group
    • Patients with atrophic nonunion of femoral shaft fractures are equally and randomly assigned to experimental group, which are injected with autologous platelet-rich plasma on the basis of conventional surgery.

Clinical Trial Outcome Measures

Primary Measures

  • Fracture healing rate
    • Time Frame: month 9 after surgery
    • To assess the condition of fracture healing. The disunion was identified if the fracture was not healed at postoperative 9 months. Fracture healing includes clinical healing and bone healing.

Secondary Measures

  • Visual analogue scale scores
    • Time Frame: changes of baseline and month 3, month 6, month 9, month 12 after surgery
    • Visual analogue scale is a method to assess pain intensity. Using a ruler with 10 scales, the ends are 0 and 10, respectively. 0 represents no pain; 10 represents the most unbearable severe pain.

Participating in This Clinical Trial

Inclusion Criteria

  • Femoral shaft fractures – Fracture time is more than 9 months – X-ray reveals gap and sclerosis at the fracture ends, medullary closure, osteoporosis, with the absence of trabecular bone formation among callus, and for more than 3 months – Magnetic resonance imaging reveals widened gap and atrophic fracture ends, a small amount or even no callus formation – Histological examination reveals that the gap at the fracture ends is filled with fibrous tissue without osteogenic activity – Age of 18-70 years Exclusion Criteria:

  • The underlying disease that affects wound healing, such as diabetes, hematological system diseases, immune diseases, connective tissue diseases – Pregnancy or lactation – Heart, lung, liver, and kidney dysfunction – Participate in other clinical trials

Gender Eligibility: All

Minimum Age: 18 Years

Maximum Age: 70 Years

Are Healthy Volunteers Accepted: No

Investigator Details

  • Lead Sponsor
    • Qinghai University
  • Provider of Information About this Clinical Study
    • Principal Investigator: Zichun Zhao, Principal Investigator – Qinghai University
  • Overall Official(s)
    • Zichun Zhao, bachelor, Principal Investigator, Affiliated Hospital of Qinghai University

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