Research Progress on the Treatment of Geriatric Intertrochanteric Femur Fractures with Proximal Femur Bionic Nails (PFBNs)

Wenyu Duan, , Hao Liang, , Xiaolong Fan, , Dongming Zhou, , Yulu Wang, , Haidong Zhang,

Orthopaedic Surgery ›› 2024, Vol. 16 ›› Issue (10) : 2303 -2310.

PDF
Orthopaedic Surgery ›› 2024, Vol. 16 ›› Issue (10) : 2303 -2310. DOI: 10.1111/os.14134
REVIEW ARTICLE

Research Progress on the Treatment of Geriatric Intertrochanteric Femur Fractures with Proximal Femur Bionic Nails (PFBNs)

Author information +
History +
PDF

Abstract

Intertrochanteric femur fracture is the most common hip fracture in elderly people, and the academic community has reached a consensus that early surgery is imperative. Proximal femoral nail anti-rotation (PFNA) and InterTan are the preferred internal fixation devices for intertrochanteric femur fractures in elderly individuals due to their advantages, such as a short lever arm, minimal stress shielding, and resistance to rotation. However, PFNA is associated with complications such as nail back-out and helical blade cut-out due to stress concentration. As a new internal fixation device for intertrochanteric femur fractures, the proximal femoral biodegradable nail (PFBN) addresses the issue of nail back-out and offers more stable fracture fixation, a shorter lever arm, and stress distribution compared to PFNA and InterTan. Clinical studies have shown that compared to PFNA, PFBNs lead to faster recovery of hip joint function, shorter non-weight-bearing time, and faster fracture healing. This article provides a literature review of the structural characteristics, biomechanical analysis, and clinical studies of PFBNs, aiming to provide a theoretical basis for the selection of internal fixation devices for the treatment of intertrochanteric femur fractures in elderly patients and to improve the quality of life of patients during the postoperative period.

Keywords

Intertrochanteric femur fractures / Proximal femoral nail anti-rotation / Proximal femur bionic nail

Cite this article

Download citation ▾
Wenyu Duan,, Hao Liang,, Xiaolong Fan,, Dongming Zhou,, Yulu Wang,, Haidong Zhang,. Research Progress on the Treatment of Geriatric Intertrochanteric Femur Fractures with Proximal Femur Bionic Nails (PFBNs). Orthopaedic Surgery, 2024, 16(10): 2303-2310 DOI:10.1111/os.14134

登录浏览全文

4963

注册一个新账户 忘记密码

References

Publishing order | Descend order by publishing year | Descend order by cited within
[1]

Chang SM, Hou ZY, Hu SJ, Du SC. Intertrochanteric femur fracture treatment in Asia: what we know and what the world can learn. Orthop Clin North Am. 2020; 51(2): 189–205.
[2]

Long H, Cao R, Zhang H, Qiu Y, Yin H, Yu H, et al. Incidence of hip fracture among middle-aged and older Chinese from 2013 to 2015: results from a nationally representative study. Arch Osteoporos. 2022; 17(1): 48.
[3]

Li XP, Zhang P, Zhu SW, Yang MH, Wu XB, Jiang XY. All-cause mortality risk in aged femoral intertrochanteric fracture patients. J Orthop Surg Res. 2021; 16(1): 727.
[4]

Chinese Fragility Fracture Alliance, Trauma Orthopedics Academic Committee of Chinese Geriatrics Medical Association Bone and Joint Branch, Norman Bethune Orthopaedic Accelerated Recovery Alliance, et al. Clinical practice guidelines for elderly intertrochanteric fractures. Chin J Traumatol Orthop. 2020; 22(2): 93–99.
[5]

Viganò M, Pennestrì F, Listorti E, Banfi G. Proximal hip fractures in 71, 920 elderly patients: incidence, epidemiology, mortality and costs from a retrospective observational study. BMC Public Health. 2023; 23(1): 1963.
[6]

Chen B, Zhang JH, Duckworth AD, Clement ND. Effect of oral nutritional supplementation on outcomes in older adults with hip fractures and factors influencing compliance. Bone Joint J. 2023; 105-b(11): 1149–1158.
[7]

Fang Q, Han J, Liu W, Wang D, Ge Z, Wang G. Predictors of and predictive nomogram for cut-out of proximal femur nail anti-rotation device in intertrochanteric fractures. Arch Orthop Trauma Surg. 2023; 143(7): 3985–3995.
[8]

Quental C, Vasconcelos S, Folgado J, Guerra-Pinto F. Influence of the PFNA screw position on the risk of cut-out in an unstable intertrochanteric fracture: a computational analysis. Med Eng Phys. 2021; 97: 70–76.
[9]

Wang C, Hou M, Zhang C, Ma T, Li Z, Lin H, et al. Biomechanical evaluation of a modified intramedullary nail for the treatment of unstable femoral trochanteric fractures. Heliyon. 2024; 10(8): e29671.
[10]

Ding K, Zhu Y, Zhang Y, Li Y, Wang H, Li J, et al. Proximal femoral bionic nail-a novel internal fixation system for the treatment of femoral neck fractures: a finite element analysis. Front Bioeng Biotechnol. 2023; 11: 1297507.
[11]

Zhu YB, Chen W, Ye DD, Zhang Q, Lv HZ, Zhang YZ, et al. Design philosophy of the N-triangular theory of the proximal femur and the proximal femoral biomimetic intramedullary nail (PFBN). Chin J Geriatric Orthop Rehabil. 2021; 07(5): 257–259.
[12]

Stang A. Critical evaluation of the Newcastle-Ottawa scale for the assessment of the quality of nonrandomized studies in meta-analyses. Eur J Epidemiol. 2010; 25(9): 603–605.
[13]

Mohsina S, Gurushankari B, Niranjan R, Sureshkumar S, Sreenath GS, Kate V. Assessment of the quality of randomized controlled trials in surgery using Jadad score: where do we stand? J Postgrad Med. 2022; 68(4): 207–212.
[14]

Zhang DY, Wang YH, Zhang XM, Ma F, Zhang YY, Qi P, et al. Inventors: femoral intramedullary nail fixation system. U.S. Patent ZL202211568121.7, 8 July 2021.
[15]

Zhang Q, Li YL, Zheng ZL, Chen W, Chen XD, Zhang YZ. Inventors: A conformal nail used to treat intertrochanteric fractures of the femur. U.S. Patent ZL215914856U. 23 August 2021.
[16]

Zhao H, Deng X, Liu W, Chen W, Wang L, Zhang Y, et al. Proximal femoral bionic nail (PFBN)-an innovative surgical method for unstable femoral intertrochanteric fractures. Int Orthop. 2023; 47(4): 1089–1099.
[17]

Zhang L, Zhu B, Chen L, Wang W, Zhang X, Zhang J. The impact of coronal configuration of the proximal femur on its mechanical properties and the validation of a new theoretical model: finite element analysis and biomechanical examination. Orthop Surg. 2023; 15(1): 62–69.
[18]

Aminian A, Gao F, Fedoriw WW, Zhang LQ, Kalainov DM, Merk BR. Vertically oriented femoral neck fractures: mechanical analysis of four fixation techniques. J Orthop Trauma. 2007; 21(8): 544–548.
[19]

Henke W. Human osteology-WHITE, td. Homo. 1991; 42(2): 185.
[20]

Koch JC. The laws of bone architecture. Am J Anat. 1917; 21(2): 177–298.
[21]

Xu G, Li J, Xu C, Xiong D, Li H, Wang D, et al. Triangular mechanical structure of the proximal femur. Orthop Surg. 2022; 14(11): 3047–3060.
[22]

Liang C, Peng R, Jiang N, Xie G, Wang L, Yu B. Intertrochanteric fracture: association between the coronal position of the lag screw and stress distribution. Asian J Surg. 2018; 41(3): 241–249.
[23]

Fan J, Xu X, Zhou F. The lateral femoral wall thickness on the risk of post-operative lateral wall fracture in intertrochanteric fracture after DHS fixation: a finite element analysis. Injury. 2022; 53(2): 346–352.
[24]

Zhang DY, Yu K, Yang J, Zhao XT, Zhang XM, Wang YH, et al. The “lever pivot balance” theory: a new understanding of the treatment of intertrochanteric fractures of the femur. Chin J Traumatol. 2020; 26(7): 647–651.
[25]

Zhang DY. New understanding of internal fixation for long bone fractures based on lever reset theory. Chin J Orthop Surg. 2022; 42(5): 265–271.
[26]

Zhang XM, Yu K, Wang YH, Yang J, Zhao XT, Ju JB, et al. Characteristics of postoperative internal fixation failure and analysis of its causes in intertrochanteric fractures. Chin J Traumatol. 2021; 37(5): 429–436.
[27]

Wang H, Yang W, Ding K, Zhu Y, Zhang Y, Ren C, et al. Biomechanical study on the stability and strain conduction of intertrochanteric fracture fixed with proximal femoral nail antirotation versus triangular supporting intramedullary nail. Int Orthop. 2022; 46(2): 341–350.
[28]

Wang Y, Chen W, Zhang L, Xiong C, Zhang X, Yu K, et al. Finite element analysis of proximal femur bionic nail (PFBN) compared with proximal femoral nail Antirotation and InterTan in treatment of intertrochanteric fractures. Orthop Surg. 2022; 14(9): 2245–2255.
[29]

Chen P, Fan Z, Xu N, Wang H. A biomechanical investigation of a novel intramedullary nail used to salvage failed internal fixations in intertrochanteric fractures. J Orthop Surg Res. 2023; 18(1): 632.
[30]

Ding K, Zhu Y, Wang H, Li Y, Yang W, Cheng X, et al. A comparative study of novel extramedullary fixation and dynamic hip screw in the fixation of intertrochanteric fracture: a finite-element analysis. Front Surg. 2022; 9: 911141.
[31]

Cheng X, Yang Y, Zhu J, Li G, Chen W, Wang J, et al. Finite element analysis of basicervical femoral neck fracture treated with proximal femoral bionic nail. J Orthop Surg Res. 2023; 18(1): 926.
[32]

Li ZT, Yin J, Xiao W, Shi SY, Che LX, Sun JG. Comparison of short-term efficacy between proximal femoral biomimetic intramedullary nail and proximal femoral nail anti-rotation for the treatment of intertrochanteric fractures of the femur in elderly patients. Chin J Orthop Trauma. 2022; 24(6): 528–532.
[33]

Yang D, Wang Q, Luan Z, Ling J, Chen P, Chen X, et al. Effectiveness of proximal femur bionic nail for intertrochanteric fracture in the elderly. Zhongguo Xiu Fu Chong Jian Wai Ke Za Zhi. 2023; 37(10): 1198–1204.
[34]

Fu HP, Zhou YF, Jia JJ, Jin PC, Xu JC. Comparison of early efficacy of PFBN, InterTan, and PFNA intramedullary nailing for the treatment of intertrochanteric fractures in elderly patients. Chin J Bone Joint Inj. 2023; 38(10): 1058–1061.
[35]

Wan Y, Chen SD, Luo YF, Yang ZH, Zhao HL, Huang WL, et al. Two types of proximal femoral intramedullary nail fixation for unstable intertrochanteric femur fracture [J/OL]. Chin J Orthop Surg. 1–7.
[36]

Ling F, Zhang W, Chang R, Zhang Z, Liu HS. Comparison of short-term efficacy between proximal femoral biomimetic intramedullary nail and proximal femoral nail anti-rotation for the treatment of intertrochanteric fractures of the femur. Chin J Orthop Trauma. 2023; 25(6): 544–548.
[37]

Wang YC, Yu WZ, Wu GM, Zhang WF, Pan JL, Zhu WK, et al. Comparison of two proximal femoral nails for fixation of intertrochanteric fractures of the femur. Chin J Orthop Surg. 2023; 31(4): 300–304.
[38]

Jin LK, Li Y, Zhang J, Dong YX, Qi YF. Clinical observation of different intramedullary fixation methods for treating intertrochanteric hip fractures. Chin J Orthop Traumatol. 2024; 37(3): 293–299.
[39]

Yang DS, Wang Q, Luan ZH, Zhang LJ, Xiong C, Ma D, et al. Study on the efficacy of proximal femoral biomimetic intramedullary nail in the treatment of intertrochanteric fractures of the femur in elderly patients. Chin J Reparative Reconstr Surg. 2023; 37(10): 1198–1204.
[40]

Ling D, Chen CQ, Wang S, Xie CW, Guo ZS, Cui XH, et al. Comparison of early therapeutic effects of proximal femoral biomimetic intramedullary nail and proximal femoral anti rotation intramedullary nail fixation in the treatment of elderly intertrochanteric fractures of the femur. Chin J Traumatol. 2022; 38(11): 1027–1035.
[41]

Li BB, Zhang Y, Li L, Zhang XM. The influence of different fixation methods on early postoperative weight-bearing in elderly patients with intertrochanteric fractures. Chin J Traumatol Orthop. 2023; 25(12): 1100–1104.
[42]

Liu PY, Huang H, Xiao J, Peng FP, Ye JG, Zhang L, et al. Clinical efficacy of proximal femoral biomimetic proximal intramedullary nail in the treatment of senile osteoporotic intertrochanteric fractures of the femur. Chin J Tradit Chin Orthop Traumatol. 2023; 31(10): 40–44.
[43]

Hao Y, Zhang Z, Zhou F, Ji H, Tian Y, Guo Y, et al. Risk factors for implant failure in reverse oblique and transverse intertrochanteric fractures treated with proximal femoral nail antirotation (PFNA). J Orthop Surg Res. 2019; 14(1): 350.

RIGHTS & PERMISSIONS

2024 The Author(s). Orthopaedic Surgery published by Tianjin Hospital and John Wiley & Sons Australia, Ltd.

AI Summary AI Mindmap
PDF

240

Accesses

0

Citation

Detail
Sections
Recommended

AI思维导图

/