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Abstract

Background:

The medial femoral trochlea flap is used for treating recalcitrant scaphoid proximal pole nonunions. Although this requires resecting a substantial portion of the scapholunate interosseous ligament, the intercarpal angular relationships are preserved. Studies have demonstrated that lunate alignment is preserved despite loss of the scapholunate ligament because the scaphoid is reconstructed with an osteochondral flap that is larger than the resected nonunited proximal scaphoid. The technique of purposeful expansion of the scaphoid height has been termed scaphoid overstuffing. The purpose of this study is to characterize the effect of scaphoid overstuffing on force transmission across the scaphoid and lunate facets of the radius.

Methods:

Eleven fresh frozen cadaveric upper extremities without ligament instability were selected. The radiocarpal joint was exposed via a dorsal approach, and electronic pressure sensors were introduced. Three different states of the wrist were evaluated: native, scapholunate dissociation (SLD), and overstuffed (OS). Pressures were measured in 4 positions: 30° flexion, full wrist extension, 30° extension, and clenched fist. Pressures were measured in kPa and contact areas in mm².

Results:

In all functional positions, the OS state had higher peak pressures across the scaphoid facet. This included 30° wrist flexion (OS 383 ± 221 kPa, P = .033), full wrist extension (OS 1068 ± 767 kPa, P = .022), 30° wrist extension (OS 880 ± 518 kPa, P < .001), and clenched fist (OS 1040 ± 736 kPa, P = .02).

Conclusions:

In functional wrist positions, overstuffing the scaphoid increases scaphoid facet peak contact pressures. Further study is needed to examine the long-term clinical consequences of these changes and the potential for accelerated cartilage degeneration.

Keywords

medial femoral trochlea flap proximal pole scaphoid nonunion scapholunate ligament scaphoid overstuffing

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References

Bürger

Windhofer

Gaggl

, et al. Vascularized medial femoral trochlea osteocartilaginous flap reconstruction of proximal pole scaphoid nonunions. J Hand Surg Am. 2013;38(4):690-700. doi:10.1016/j.jhsa.2013.01.036

Higgins

Burger

HK.

Proximal scaphoid arthroplasty using the medial femoral trochlea flap. J Wrist Surg. 2013;2(3):228-233. doi:10.1055/s-0033-1351789

Pet

Assi

Yousaf

, et al. Outcomes of the medial femoral trochlea osteochondral free flap for proximal scaphoid reconstruction. J Hand Surg Am. 2020;45(4):317-326.e3. doi:10.1016/j.jhsa.2019.08.008

Pet

Higgins

JP.

Long-term outcomes of vascularized trochlear flaps for scaphoid proximal pole reconstruction. Hand Clin. 2019;35(3):345-352. doi:10.1016/j.hcl.2019.03.006

Capito

Higgins

JP.

Scaphoid overstuffing: the effects of the dimensions of scaphoid reconstruction on scapholunate alignment. J Hand Surg Am. 2013;38(12):2419-2425. doi:10.1016/j.jhsa.2013.09.035

Lane Smith

Trindade

Ikenoue

, et al. Effects of shear stress on articular chondrocyte metabolism. Biorheology. 2000;37(1-2):95-107.

Oungoulian

Chang

Bortz

, et al. Articular cartilage wear characterization with a particle sizing and counting analyzer. J Biomech Eng. 2013;135(2):024501. doi:10.1115/1.4023456

Kalicke

Burger

Muller

EJ.

Freies gefassgestieltes Knorpel-Knochen-Transplantat bei avaskularer Nekrose des proximalen Kahnbeinpols. Beschreibung eines neuartigen Operationsverfahrens [A new vascularized cartilague-bone-graft for scaphoid nonunion with avascular necrosis of the proximal pole. Description of a new type of surgical procedure]. Unfallchirurg. 2008;111(3):201-205. doi:10.1007/s00113-007-1308-5

Burger

Windhofer

Gaggl

, et al. Vascularized medial femoral trochlea osteochondral flap reconstruction of advanced Kienbock disease. J Hand Surg Am. 2014;39(7):1313-1322. doi:10.1016/j.jhsa.2014.03.040

10.

Giusti

Bishop

Shin

AY.

Overstuffing of unstable scaphoid nonunions: a radiographic analysis of carpal parameters. J Hand Surg Am. 2019;44(5):423.e1-423.e6. Doi:10.1016/j.jhsa.2018.07.017

11.

Malerich

Clifford

Eaton

, et al. Distal scaphoid resection arthroplasty for the treatment of degenerative arthritis secondary to scaphoid nonunion. J Hand Surg Am. 1999;24(6):1196-1205. doi:10.1053/jhsu.1999.1196

12.

Hara

Horii

, et al. Force distribution across wrist joint: application of pressure-sensitive conductive rubber. J Hand Surg Am. 1992;17(2):339-347. doi:10.1016/0363-5023(92)90417-n

13.

Majima

Horii

Matsuki

, et al. Load transmission through the wrist in the extended position. J Hand Surg Am. 2008;33(2):182-188. doi:10.1016/j.jhsa.2007.10.018

14.

Daly

Werner

Cavallaro

, et al. Effect of push-up position on wrist joint pressures in the intact wrist and following scapholunate interosseous ligament sectioning. J Hand Surg Am. 2018;43(4):339-345. doi:10.1016/j.jhsa.2017.10.019

15.

Short

Werner

Fortino

, et al. Distribution of pressures and forces on the wrist after simulated intercarpal fusion and Kienbock’s disease. J Hand Surg Am. 1992;17(3):443-449. doi:10.1016/0363-5023(92)90345-p

16.

Viegas

Tencer

Cantrell

, et al. Load transfer characteristics of the wrist. Part I. The normal joint. J Hand Surg Am. 1987;12(6):971-978. doi:10.1016/s0363-5023(87)80093-x

17.

Carter

Malinin

Abbey

, et al. The scaphoid allograft: a new operation for treatment of the very proximal scaphoid nonunion or for the necrotic, fragmented scaphoid proximal pole. J Hand Surg Am. 1989;14(1):1-12. doi:10.1016/0363-5023(89)90052-x

The Effect of Scaphoid Overstuffing on Radiocarpal Contact Pressures

Abstract

Background:

Methods:

Results:

Conclusions:

Keywords

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References