BMC Musculoskeletal Disorders | |
Predictors of nonunion and reoperation in patients with fractures of the tibia: an observational study | |
Mohit Bhandari1  Sheila Sprague1  Bill Ristevski2  Dale Williams2  Brad Petrisor2  Clary J Foote2  Victoria Truong2  Katie Fong2  | |
[1] Department of Clinical Epidemiology and Biostatistics, McMaster University, Hamilton, Canada;Division of Orthopaedic Surgery, McMaster University, Hamilton, Canada | |
关键词: Cortical continuity; Nonunion; Fracture characteristics; Fracture prognostic index; Secondary intervention; Reoperation; Tibial shaft fractures; | |
Others : 1133254 DOI : 10.1186/1471-2474-14-103 |
|
received in 2012-07-13, accepted in 2013-03-15, 发布年份 2013 | |
【 摘 要 】
Background
Tibial shaft fractures are the most common long bone fracture and are prone to complications such as nonunion requiring reoperations to promote fracture healing. We aimed to determine the fracture characteristics associated with tibial fracture nonunion, and their predictive value on the need for reoperation. We further aimed to evaluate the predictive value of a previously-developed prognostic index of three fracture characteristics on nonunion and reoperation rate.
Methods
We conducted an observational study and developed a risk factor list from previous literature and key informants in the field of orthopaedic surgery, as well as via a sample-to-redundancy strategy. We evaluated 22 potential risk factors for the development of tibial fracture nonunion in 200 tibial fractures. We also evaluated the predictive value of a previously-identified prognostic risk index on secondary intervention and/or reoperation rate. Two individuals independently extracted the data from 200 patient electronic medical records. An independent reviewer assessed the initial x-ray, the post-operative x-ray, and all available sequential x-rays. Regression and chi-square analysis was used to evaluate potential associations.
Results
In our cohort of patients, 37 (18.5%) had a nonunion and 27 (13.5%) underwent a reoperation. Patients with a nonunion were 97 times (95% CI 25.8-366.5) more likely to have a reoperation. Multivariable logistic regression revealed that fractures with less than 25% cortical continuity were predictive of nonunion (odds ratio = 4.72; p = 0.02). Such fractures also accounted for all of the reoperations identified in our sample. Furthermore, our data provided preliminary validation of a previous risk index predictive of reoperation that includes the presence of a fracture gap post-fixation, open fracture, and transverse fracture type as variables, with an aggregate of fracture gap and an open fracture yielding patients with the highest risk of developing a nonunion.
Conclusions
We identified a significant association between degree of cortical continuity and the development of a nonunion and risk for reoperation in tibial shaft fractures. In addition, our study supports the predictive value of a previous prognostic index, which inform discussion of prognosis following operative management of tibial fractures.
【 授权许可】
2013 Fong et al.; licensee BioMed Central Ltd.
【 预 览 】
Files | Size | Format | View |
---|---|---|---|
20150304134059329.pdf | 186KB | download |
【 参考文献 】
- [1]Canadian Institute for Health information (CIHI): National Trauma Registry: Hospital Injury Admissions . Ottawa: Canadian Institute for Health Information; 2003.
- [2]Dormans JP, Fisher R, Pill S: Orthopaedics in the developing world: present and future concerns. J Am Acad Orthop Surg 2001, 9:189-196.
- [3]Bhandari M, Guyatt GH, Swiontkowski MF, Schemitsch E: Treatment of open tibial shaft fractures: a systematic overview and metanalysis. J Bone Joint Surg Br 2001, 83B:62-68.
- [4]Bhandari M, Guyatt GH, Tong D, Adili A, Shaughnessy SG: Reamed versus nonreamed intramedullary nailing of lower extremity long bone fractures: a systematic overview and meta-analysis. J Orthop Trauma 2000, 14:2-9.
- [5]Sarmiento A, Sharpe FE, Ebramzadeh E, Normand P, Shankwiler J: Factors influencing the outcome of closed tibial fractures treated with functional bracing. Clin Orthop 1995, 315:8-24.
- [6]Kyro A, Usenius JP, Aarnio M, Kunnamo I, Avikainen V: Are smokers a risk group for delayed healing of tibial shaft fractures? Ann Chir Gynaecol 1993, 82:254-262.
- [7]Giannoudis PV, MacDonald DA, Matthews SJ, Smith RM, Furlong AJ, De Boer P: Nonunion of the femoral diaphysis: the influence of reaming and non-steroidal anti-inflammatory drugs. J Bone Joint Surg Br 2000, 82:655-658.
- [8]Schmitz MA, Finnegan M, Natarajan R, Chainpine J: Effect of smoking on tibial shaft fracture healing. Clin Orthop 1999, 365:184-200.
- [9]Nyguist F, Berglund M, Nilsson BE, Obrant KJ: Nature and healing of tibial shaft fractures in alcohol abusers. Alcohol 1997, 32:91-95.
- [10]Pluhar GE, Heiner JP, Manley PA, Bogdanske JJ, Vanderby R Jr, Markel MD: Biomechanical evaluation of early fracture healing in normal and diabetic rats. J Orthop Res 2000, 18:126-132.
- [11]Oni OO, Dunning J, Mobbs RJ, Gregg PJ: Clinical factors and size of the external callus in tibial shaft fractures. Clin Orthop 1991, 273:278-283.
- [12]Sarmiento A: On the behavior of closed tibial fractures: clinical/radiological correlations. J Orthop Trauma 2000, 14:199-205.
- [13]Tytherleigh-Strong GM, Keating JF, Court-Brown CM: Extraarticular fractures of the proximal tibial diaphysis: their epidemiology, management and outcome. J R Coll Surg Edinb 1997, 42:334-338.
- [14]Gaston P, Will E, Elton RA, McQueen MM, Court-Brown CM: Fractures of the tibia: can their outcome be predicted? J Bone Joint Surg Br 1999, 81:71-76.
- [15]Templeman DC, Gulli B, Tsukayama DT, Gustilo RB: Update on the management of open fractures of the tibial shaft. Clin Orthop 1998, 350:18-25.
- [16]Hogevold HE, Grogaard B, Reikeras O: Effect of short-term treatment with corticosteroids and indomethacin on bone healing: a mechanical study of osteotomies in rats. Acta Orthop Scand 1992, 63:607-611.
- [17]Engestaeter LB, Sudmann B, Sudmann E: Fracture healing in rats inhibited by locally administered indomethacin. Acta Orthop Scand 1992, 63:607-611.
- [18]Frymoyer JW: Fracture healing in rats treated with diphenylhydantoin (Dilantin). J Trauma 1976, 16:368-370.
- [19]Huddleston PM, Steckelberg JM, Hanssen AD, Rouse MS, Bolander ME, Patel R: Ciprofloxacin inhibition of experimental fracture healing. J Bone Joint Surg Am 2000, 82:161-173.
- [20]Stinchfield F, Sankaran B, Samilson R: The effect of anticoagulant therapy on bone repair. J Bone Joint Surg Am 1956, 38:270-282.
- [21]Altman RD, Latta LL, Keer R, Renfree K, Hornicek FJ, Banovac K: Effect of non-steroidal anti-inflammatory drugs on fracture healing: a laboratory study in rats. J Orthop Trauma 1995, 9:392-400.
- [22]Cozen L: Does diabetes delayed fracture healing? Clin Orthop 1972, 82:134-140.
- [23]Dickson KF, Katzman S, Paiemont G: The importance of blood supply in the healing of tibial fractures. Contemp Orthop 1995, 30:489-493.
- [24]Dodds RA, Catterall A, Bitensky L, Chayen J: Effects on fracture healing of an antagonist of the vitamin K cycle. Calcif Tissue Int 1984, 36:233-238.
- [25]Bhandari M, Tornetta P III, Sprague S, Najibi S, Petrisor B, Griffith L, Guyatt GH: Predictors of reoperation following operative management of fractures of the tibial shaft. J Orthop Trauma 2003, 17:353-361.
- [26]S.P.R.I.N.T: Investigators: Randomized Trial of Reamed versus Non-Reamed Intramedullary Nailing of Tibial Shaft Fractures. J Bone Joint Surg Am 2008, 90(12):2567-2578.
- [27]Peduzzi P, Concato J, Kemper E, Holford TR, Feinstein AR: A simulation study of the number of events per varable in logistic regression analysis. J Clin Epidemiol 1996, 49:1373-1379.
- [28]Vittinghoff E, McCulloch CE: Relaxing the rule of ten events per variable in logistic and Cox regression. J Clin Epidemiol 2006, 165:710-718.
- [29]Panjabi M, Walter S, Karuda M: Correlations of radiographic analysis of healing fractures with strength: a statistical analysis of experimental osteotomies. J Orthop Trauma 2000, 14:199-205.
- [30]Stegman P, Lorio M, Soriano R, Bone L: Management protocol for unreamed interlocking tibial nails for open tibial fractures. J Orthop Trauma 1995, 9:117-120.
- [31]Investigators FLOW: Fluid Lavage of Open Wounds (FLOW): Design and rationale for a large, multicentre collaborative 2X3 factorial trial of irrigating pressures and solutions in patient with open fractures. BMC Musculoskelet Disord 2010, 11:85. BioMed Central Full Text
- [32]S.P.R.I.N.T Investigators: Study to prospectively evaluate reamed intramedullary nails in patients with tibial fractures (S.P.R.I.N.T.): Study rationale and design. BMC Musculoskelet Disord 2008, 9:91. BioMed Central Full Text
- [33]Jingushi S, Mizuno K, Matsushita T, Itoman M: Low-intensity pulsed ultrasound treatment for postoperative delayed union or nonunion of long bone fractures. J Orthop Sci 2007, 12:35-41.
- [34]Nicoll EA: Fractures of the tibial shaft: a survey of 705 cases. J Bone Joint Surg Br 1964, 46(3):373-387.
- [35]Gaebler C, Berger U, Schandelmaier P, Greitbauer M, Schauwecker HH, Applegate B, Zych G, Vecsei V: Rates and odds ratios for complications in closed and open tibial fractures treated with unreamed, small diameter tibial nails: a multicenter analysis of 467 cases. J Orthop Trauma 2001, 15:415-423.
- [36]S.P.R.I.N.T Investigators: Prognostic Factors for Predicting Outcomes After Intramedullary Nailing of the Tibia. J Bone Joint Surg 2012, 94:1786-1793.