Study Results
Results pending
The study team has not published outcome measurements, participant flow, or safety data for this trial yet. Check back later for updates.
Basic Information
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Recruitment Status
RECRUITING
Clinical Phase
NA
Total Enrollment
372 participants
Study Classification
INTERVENTIONAL
Study Start Date
2025-07-01
Study Completion Date
2030-12-31
Brief Summary
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Our null hypothesis is that micromotion tibial intramedullary fixation (IMFN) does not impact union or complication rates when compared to standard of care treatment with non-micromotion tibial nail fixation. There are no current or past randomized controlled trials comparing these fixation techniques to one another. There is good data supporting both the use of intramedullary fixation for tibial fractures alone, and in high-risk patient populations (open fractures, GSW tibial fractures). However, the effectiveness of these methods with respect to each other has never been investigated. The knowledge gained will allow us to potentially influence and adapt protocols to treat this patient population. Additionally, resources available at our institution provide a supportive framework with which to maintain contact with patients after hospital discharge. These key factors will allow us to perform a robust analysis of this population, to include outcomes measures of function and complications.
With much of the limited existing literature on tibial nails being in very defined populations, without a strong comparison group there is no clear guidance on when the use of a micromotion device is indicated. Our approach to randomize our patients will reduce the bias that exists in the current literature and provide a robust spectrum of injuries to sub analyze and compare.
Objectives Primary Objective Compare post-operative union rates in tibial shaft patients treated with 2 types of intramedullary rod fixation devices.
Secondary Objective(s) Compare complication rates, patient reported outcomes, range of motion, pain and radiographic/sonographic outcomes in patients treated with tibial nails.
With much of the limited existing literature on tibial nails being in very defined populations, without a strong comparison group there is no clear guidance on when the use of a micromotion device is indicated. Our approach to randomize our patients will reduce the bias that exists in the current literature and provide a robust spectrum of injuries to sub analyze and compare.
Objectives Primary Objective Compare post-operative union rates in tibial shaft patients treated with 2 types of intramedullary rod fixation devices.
Secondary Objective(s) Compare complication rates, patient reported outcomes, range of motion, pain and radiographic/sonographic outcomes in patients treated with tibial nails.
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Detailed Description
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The advent of the intramedullary nail (IMN) has revolutionized the treatment of tibial shaft fractures due to its percutaneous route of insertion, frequent facilitation of immediate weightbearing, and high rate of union. Recent research has revealed that selection of an appropriate IMN diameter is vital for maintaining fracture reduction and preventing complications. Using a larger diameter nail increases construct stability, permits load-sharing, and may lead to higher rates of union. On the other hand, aggressive reaming to permit a larger nail diameter can result in iatrogenic fracture upon insertion or removal.
Modern tibial nail designs have remained largely unchanged in the last 20 years with small ergonomic and efficiency changes without large scale improvements in their biomechanical induction of bone healing at the fracture site. Traditionally they include distal locking screws as well as proximal locking screws that are either fixed or dynamic allowing for small but largely irrelevant amounts of motion. Our understanding of bone healing and indirect bone generation includes the concept of micromotion which induces the creation of fibrous followed by bony callus. This concept requires strain levels and adequate micromotion at fracture sites to be biomechanically advantageous. One new tibial nail device recently available in the US and FDA approved for tibial nail fixation hopes to improve the biomechanical and biology environment for tibial healing, the OrthoXel tibial nail system. Unfortunately, there is a paucity of strong clinical data to support it. Additionally, there have been no prospective, randomized studies investigating the used of this nail compared to standard tibial nail designs and no studies have evaluated it in high risk tibial non-union patients..
The primary purpose of this study is to perform a high-quality randomized control trial comparing intramedullary tibial nail fixation with standard design nails compared to a micromotion tibial nail device to evaluate the rates of union and post-operative outcomes. In an evaluation of patient factors, fracture patterns and patient reported outcomes, the investigators will bring clarity to the question of indications for the micromotion tibial nail in standard and high risk patients. To characterize our patient population, the investigators will evaluate type of injury (closed, open, gunshot wound), fracture morphology (OTA classification), patient risk factors (age, isolated vs. poly-trauma, Comorbidities, smoking, and Vit D levels) and surgical outcomes (blood loss, surgical time, construct stability). In addition to objective radiographic, ultrasonographic and physical exam outcomes, the investigators will collect patient reported outcomes in the form of PROMIS CAT and VAS scores.
Given the existing limitations in the literature, there is no guidance on indications for use of micromotion tibial nail fixation (MMIMNF) compared to standard intramedullary nail fixation (IMNF). By taking an approach that will be prospective and randomized, while assessing all known risk factors, the investigators expect our results will guide surgical treatment decisions around the use of these devices and in which populations they may be most useful. .
The proposed trial will be a parallel-group, superiority trial with equal randomization enrolling 242 tibial nail patients. Patients will be categorized into 2 cohorts: IMNF fixation(cohort 1), and MicroMotion Intramedullary tibial Nail fixation (cohort 2). The primary outcome will be nonunion. Secondary outcomes will include: overall complications (as a composite result (Infection ((deep and superficial)), revision surgery rate, removal of metalwork, non-union, malunion, amputation and death). Patient-Reported Outcomes Measurement Information System Physical Function Computerized Adaptive Testing (PROMIS PT CAT) scores, range of motion (ROM), pain, radiographic outcomes, time to bridging callus based on mRUST (\>11) on Xray, time to single leg stance, and degree of callus seen on ultrasound at 6 \& 12 weeks.
Modern tibial nail designs have remained largely unchanged in the last 20 years with small ergonomic and efficiency changes without large scale improvements in their biomechanical induction of bone healing at the fracture site. Traditionally they include distal locking screws as well as proximal locking screws that are either fixed or dynamic allowing for small but largely irrelevant amounts of motion. Our understanding of bone healing and indirect bone generation includes the concept of micromotion which induces the creation of fibrous followed by bony callus. This concept requires strain levels and adequate micromotion at fracture sites to be biomechanically advantageous. One new tibial nail device recently available in the US and FDA approved for tibial nail fixation hopes to improve the biomechanical and biology environment for tibial healing, the OrthoXel tibial nail system. Unfortunately, there is a paucity of strong clinical data to support it. Additionally, there have been no prospective, randomized studies investigating the used of this nail compared to standard tibial nail designs and no studies have evaluated it in high risk tibial non-union patients..
The primary purpose of this study is to perform a high-quality randomized control trial comparing intramedullary tibial nail fixation with standard design nails compared to a micromotion tibial nail device to evaluate the rates of union and post-operative outcomes. In an evaluation of patient factors, fracture patterns and patient reported outcomes, the investigators will bring clarity to the question of indications for the micromotion tibial nail in standard and high risk patients. To characterize our patient population, the investigators will evaluate type of injury (closed, open, gunshot wound), fracture morphology (OTA classification), patient risk factors (age, isolated vs. poly-trauma, Comorbidities, smoking, and Vit D levels) and surgical outcomes (blood loss, surgical time, construct stability). In addition to objective radiographic, ultrasonographic and physical exam outcomes, the investigators will collect patient reported outcomes in the form of PROMIS CAT and VAS scores.
Given the existing limitations in the literature, there is no guidance on indications for use of micromotion tibial nail fixation (MMIMNF) compared to standard intramedullary nail fixation (IMNF). By taking an approach that will be prospective and randomized, while assessing all known risk factors, the investigators expect our results will guide surgical treatment decisions around the use of these devices and in which populations they may be most useful. .
The proposed trial will be a parallel-group, superiority trial with equal randomization enrolling 242 tibial nail patients. Patients will be categorized into 2 cohorts: IMNF fixation(cohort 1), and MicroMotion Intramedullary tibial Nail fixation (cohort 2). The primary outcome will be nonunion. Secondary outcomes will include: overall complications (as a composite result (Infection ((deep and superficial)), revision surgery rate, removal of metalwork, non-union, malunion, amputation and death). Patient-Reported Outcomes Measurement Information System Physical Function Computerized Adaptive Testing (PROMIS PT CAT) scores, range of motion (ROM), pain, radiographic outcomes, time to bridging callus based on mRUST (\>11) on Xray, time to single leg stance, and degree of callus seen on ultrasound at 6 \& 12 weeks.
Conditions
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Tibial Fracture
Study Design
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Allocation Method
RANDOMIZED
Intervention Model
PARALLEL
The only intervention involved in this study is randomization between the two surgical devices. Subgroups will be determined using equal block randomization. Block randomization will be used for this study. Blocks will be set to groups of 4 with each block of 4 comprising 2 MMIMNF and 2 IMNF opaque envelopes in random order. The envelope will be opened in the OR prior to beginning the procedure. This ensures subjects are blinded to their initial treatment modality. Standard of care will be followed for all clinical decisions beyond the type of surgical procedure to be used.
Primary Study Purpose
TREATMENT
Blinding Strategy
NONE
Study Groups
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micromotion tibial intramedullary fixation
Subject will receive micromotion tibial intramedullary fixation
Group Type
EXPERIMENTAL
Intramedullary tibial Nail
Intervention Type
DEVICE
Subjects will receive the micromotion MicroMotion Intramedullary tibial Nail
non-micromotion tibial nail fixation
Subject will receive non-micromotion tibial nail fixation
Group Type
ACTIVE_COMPARATOR
Intermedullary nail
Intervention Type
DEVICE
The non-micromotion intermedullary nail
Interventions
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Intramedullary tibial Nail
Subjects will receive the micromotion MicroMotion Intramedullary tibial Nail
Intervention Type
DEVICE
Intermedullary nail
The non-micromotion intermedullary nail
Intervention Type
DEVICE
Other Intervention Names
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MicroMotion Intramedullary tibial Nail
Eligibility Criteria
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Inclusion Criteria
1. Age 18 or older
2. Unstable tibial fracture recommended for surgical intervention
2. Previously non-ambulatory patients
3. Delayed presentation of fracture (\>4 weeks)
4. Fractures that the treating surgeon indicates requires additional fixation strategies to achieve stability
5. Patients with an active infection or wound at the surgical site
6. Utilizing worker's compensation at the time of screening
7. Any previous ligament or fracture surgery on the index site
8. Inflammatory rheumatic disease or other rheumatic disease
9. Immune compromised patients (hepatitis, HIV, etc.)
10. Non-English-speaking patients
11. Unwilling or unable to participate or follow study protocol
2. Unstable tibial fracture recommended for surgical intervention
2. Previously non-ambulatory patients
3. Delayed presentation of fracture (\>4 weeks)
4. Fractures that the treating surgeon indicates requires additional fixation strategies to achieve stability
5. Patients with an active infection or wound at the surgical site
6. Utilizing worker's compensation at the time of screening
7. Any previous ligament or fracture surgery on the index site
8. Inflammatory rheumatic disease or other rheumatic disease
9. Immune compromised patients (hepatitis, HIV, etc.)
10. Non-English-speaking patients
11. Unwilling or unable to participate or follow study protocol
Minimum Eligible Age
18 Years
Eligible Sex
ALL
Accepts Healthy Volunteers
No
Sponsors
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University of Chicago
OTHER
Sponsor Role
lead
Responsible Party
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Responsibility Role
SPONSOR
Locations
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University of Chicago
Chicago, Illinois, United States
Site Status
RECRUITING
Countries
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United States
Central Contacts
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Facility Contacts
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References
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Whittle AP, Wester W, Russell TA. Fatigue failure in small diameter tibial nails. Clin Orthop Relat Res. 1995 Jun;(315):119-28.
Reference Type
BACKGROUND
Hutson JJ, Zych GA, Cole JD, Johnson KD, Ostermann P, Milne EL, Latta L. Mechanical failures of intramedullary tibial nails applied without reaming. Clin Orthop Relat Res. 1995 Jun;(315):129-37.
Reference Type
BACKGROUND
Bonafede M, Espindle D, Bower AG. The direct and indirect costs of long bone fractures in a working age US population. J Med Econ. 2013;16(1):169-78. doi: 10.3111/13696998.2012.737391. Epub 2012 Oct 22.
Reference Type
BACKGROUND
Weber CD, Hildebrand F, Kobbe P, Lefering R, Sellei RM, Pape HC; TraumaRegister DGU. Epidemiology of open tibia fractures in a population-based database: update on current risk factors and clinical implications. Eur J Trauma Emerg Surg. 2019 Jun;45(3):445-453. doi: 10.1007/s00068-018-0916-9. Epub 2018 Feb 2.
Reference Type
BACKGROUND
Park S, Ahn J, Gee AO, Kuntz AF, Esterhai JL. Compartment syndrome in tibial fractures. J Orthop Trauma. 2009 Aug;23(7):514-8. doi: 10.1097/BOT.0b013e3181a2815a.
Reference Type
BACKGROUND
Zura R, Xiong Z, Einhorn T, Watson JT, Ostrum RF, Prayson MJ, Della Rocca GJ, Mehta S, McKinley T, Wang Z, Steen RG. Epidemiology of Fracture Nonunion in 18 Human Bones. JAMA Surg. 2016 Nov 16;151(11):e162775. doi: 10.1001/jamasurg.2016.2775. Epub 2016 Nov 16.
Reference Type
BACKGROUND
Sprague S, Bhandari M. An economic evaluation of early versus delayed operative treatment in patients with closed tibial shaft fractures. Arch Orthop Trauma Surg. 2002 Jul;122(6):315-23. doi: 10.1007/s00402-001-0358-3. Epub 2001 Dec 12.
Reference Type
BACKGROUND
Anandasivam NS, Russo GS, Swallow MS, Basques BA, Samuel AM, Ondeck NT, Chung SH, Fischer JM, Bohl DD, Grauer JN. Tibial shaft fracture: A large-scale study defining the injured population and associated injuries. J Clin Orthop Trauma. 2017 Jul-Sep;8(3):225-231. doi: 10.1016/j.jcot.2017.07.012. Epub 2017 Jul 24.
Reference Type
BACKGROUND
Rosa N, Marta M, Vaz M, Tavares SMO, Simoes R, Magalhaes FD, Marques AT. Intramedullary nailing biomechanics: Evolution and challenges. Proc Inst Mech Eng H. 2019 Mar;233(3):295-308. doi: 10.1177/0954411919827044.
Reference Type
BACKGROUND
Eveleigh RJ. A review of biomechanical studies of intramedullary nails. Med Eng Phys. 1995 Jul;17(5):323-31. doi: 10.1016/1350-4533(95)97311-c.
Reference Type
BACKGROUND
Donegan DJ, Akinleye S, Taylor RM, Baldwin K, Mehta S. Intramedullary Nailing of Tibial Shaft Fractures: Size Matters. J Orthop Trauma. 2016 Jul;30(7):377-80. doi: 10.1097/BOT.0000000000000555.
Reference Type
BACKGROUND
Other Identifiers
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IRB24-0601
Identifier Type: -
Identifier Source: org_study_id
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