Minimally Invasive Intramedullary Screw Versus Plate Fixation for Proximal Phalanx Fractures: A Biomechanical Study.

MedStar author(s):
Citation: Journal of Hand Surgery - American Volume. 46(6):518.e1-518.e8, 2021 06.PMID: 33423850Institution: MedStar Union Memorial HospitalDepartment: Curtis National Hand Center | Orthopaedic SurgeryForm of publication: Journal ArticleMedline article type(s): Journal ArticleSubject headings: *Fracture Fixation, Internal | *Fractures, Bone | Biomechanical Phenomena | Bone Plates | Bone Screws | Cadaver | Fractures, Bone/su [Surgery] | HumansYear: 2021Local holdings: Available in print through MWHC library: 1999 - 2002, Available online from MWHC library: 1995 - presentISSN:
  • 0363-5023
Name of journal: The Journal of hand surgeryAbstract: CLINICAL RELEVANCE: Short oblique P1 fracture fixation with an IMHCS may provide adequate stability to withstand immediate postoperative active range of motion therapy. Copyright (c) 2020 American Society for Surgery of the Hand. Published by Elsevier Inc. All rights reserved.CONCLUSIONS: The IMHCS provided biomechanical stability equivalent to plate-and-screws for short oblique P1 fractures at the 2,000-cycle mark in this cadaveric model.METHODS: We created a 30degree oblique cut in 24 P1s of the index, middle, ring, and little fingers for 3 matched pairs of cadaveric hands. Twelve fractures were stabilized with an IMHCS using an antegrade, dorsal articular margin technique at the P1 base. The 12 matched-pair P1 fractures were stabilized with a radially placed 2.0-mm plate with 2 bicortical nonlocking screws on each side of the fracture. Hands were mounted to a frame allowing a computer-controlled, motor-driven, linear actuator powered movement of fingers via the flexor and extensor tendons. All fingers underwent 2,000 full-flexion and extension cycles. Maximum interfragmentary displacement was continuously measured using a differential variable reluctance transducer.PURPOSE: To compare the maximum interfragmentary displacement of short oblique proximal phalanx (P1) fractures fixed with an intramedullary headless compression screw (IMHCS) versus a plate-and-screws construct in a cadaveric model that generates finger motion via the flexor and extensor tendons of the fingers.RESULTS: The observed mean displacement differences between IMHCS and plate-and-screws fixation was not statistically significant throughout all time points during the 2,000 cycles. A 2 one-sided test procedure for paired samples confirmed statistical equivalence in fracture displacement between fixation methods at the final 2,000-cycle time point.All authors: Abbasi P, Giladi AM, Krul KP, Means KR Jr, Miles MR, Thakkar MYOriginally published: Journal of Hand Surgery - American Volume. 2021 Jan 08Fiscal year: FY2021Digital Object Identifier: Date added to catalog: 2021-02-17
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Item type Current library Collection Call number Status Date due Barcode
Journal Article MedStar Authors Catalog Article 33423850 Available 33423850

Available in print through MWHC library: 1999 - 2002, Available online from MWHC library: 1995 - present

CLINICAL RELEVANCE: Short oblique P1 fracture fixation with an IMHCS may provide adequate stability to withstand immediate postoperative active range of motion therapy. Copyright (c) 2020 American Society for Surgery of the Hand. Published by Elsevier Inc. All rights reserved.

CONCLUSIONS: The IMHCS provided biomechanical stability equivalent to plate-and-screws for short oblique P1 fractures at the 2,000-cycle mark in this cadaveric model.

METHODS: We created a 30degree oblique cut in 24 P1s of the index, middle, ring, and little fingers for 3 matched pairs of cadaveric hands. Twelve fractures were stabilized with an IMHCS using an antegrade, dorsal articular margin technique at the P1 base. The 12 matched-pair P1 fractures were stabilized with a radially placed 2.0-mm plate with 2 bicortical nonlocking screws on each side of the fracture. Hands were mounted to a frame allowing a computer-controlled, motor-driven, linear actuator powered movement of fingers via the flexor and extensor tendons. All fingers underwent 2,000 full-flexion and extension cycles. Maximum interfragmentary displacement was continuously measured using a differential variable reluctance transducer.

PURPOSE: To compare the maximum interfragmentary displacement of short oblique proximal phalanx (P1) fractures fixed with an intramedullary headless compression screw (IMHCS) versus a plate-and-screws construct in a cadaveric model that generates finger motion via the flexor and extensor tendons of the fingers.

RESULTS: The observed mean displacement differences between IMHCS and plate-and-screws fixation was not statistically significant throughout all time points during the 2,000 cycles. A 2 one-sided test procedure for paired samples confirmed statistical equivalence in fracture displacement between fixation methods at the final 2,000-cycle time point.

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