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Abstract

This study aimed to characterize in vivo human digital arteries in three-dimensions using photoacoustic tomography in order to understand the specific mechanism underlying arterial deformation associated with movement of the proximal interphalangeal joint. Three-dimensional morphological data were obtained on the radialis indicis artery (radial artery of the index finger) at different angles of the joint. The association between increased curvature of the deformation and the anatomical region was assessed. Characteristic morphological deformations in areas of major deformation were determined. The deformation of the artery was characterized by three consecutive curves in juxta-articular regions, which were particularly noticeable when the joint was flexed at an angle of ≥ 60°. The change in the curvature of the deformation during 30°–90° of flexion was lower in middle-aged individuals than in young individuals. Better understanding of the mechanism underlying deformation of the digital arteries may contribute to advancements in flap procedures and rehabilitation strategies after digital artery repair.

Keywords

Deformation digital artery human photoacoustic imaging proximal interphalangeal joint

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References

American National Standards Institute. American national standard for safe use of lasers: American National Standards Institute, 2014. https://www.ansi.org/ (accessed 10 June 2015).

Bise

Kang

Eom

Kanade

. Reliably tracking partially overlapping neural stem cells in DIC microscopy image sequences. MICCAI Workshop on OPTIMHisE. 2009, 5: 67–77.

Braga-Silva

Kuyven

Fallopa

Albertoni

. An anatomical study of the dorsal cutaneous branches of the digital arteries. J Hand Surg Br. 2002, 27: 577–9.

Chrysopoulo

McGrouther

Jeschke

Kaufman

. Cleland's ligaments: an anatomic study. Plast Reconstr Surg. 2002, 109: 566–72.

Coleman

Anson

. Arterial patterns in the hand based upon a study of 650 specimens. Surg Gynecol Obstet. 1961, 113: 409–24.

Endo

Kojima

Hirase

. Vascular anatomy of the finger dorsum and a new idea for coverage of the finger pulp defect that restores sensation. J Hand Surg Am. 1992, 17: 927–32.

Geiger

Gupta

Costa

Vlontzos

. Dynamic programming for detecting, tracking, and matching deformable contours. IEEE Trans Pattern Analysis and Machine Intell. 1995, 17: 294–302.

Gökgöl

Diehm

Kara

Büchler

. Quantification of popliteal artery deformation during leg flexion in subjects with peripheral artery disease: a pilot study. J Endovasc Ther. 2013, 20: 828–35.

Grayson

. The cutaneous ligaments of the digits. J Anat. 1941, 75: 164.

10.

Hahn

Krimmer

Hradetzky

Lanz

. Quantitative analysis of the linkage between the interphalangeal joints of the index finger. An in vivo study. J Hand Surg Br. 1995, 20: 696–9.

11.

Kojima

Tsuchida

Hirase

Endo

. Reverse vascular pedicle digital island flap. Br J Plast Surg. 1990, 43: 290–5.

12.

Kostopoulos

Agiannidis

Konofaos

, et al. Predictable pattern digital artery perforator flap: an alternative concept in digital reconstruction. Hand (NY). 2016, 11: 88–96.

13.

Leslie

Ruby

Madell

Wittenstein

. Digital artery diameters: an anatomic and clinical study. J Hand Surg Am. 1987, 12: 740–3.

14.

Matsumoto

Asao

Yoshikawa

, et al. Label-free photoacoustic imaging of human palmar vessels: a structural morphological analysis. Sci Rep. 2018, 8: 786.

15.

Nam

Jun

Kim

Cho

Han

. Anatomical study of the fingertip artery in Tamai zone I: clinical significance in fingertip replantation. J Reconstr Microsurg. 2017, 33: 45–8.

16.

Sekiguchi

. Development of the rapid MIP viewer for PAT data – KURUMI : Kyoto University Rapid and Universal MIP Imager. IEICE Tech Report, Med Imaging. 2017, 116: 163–7.

17.

Silverman

Gordon

. Early motion after replantation. Hand Clin. 1996, 12: 97–107.

18.

Smith

Oura

Kimura

Toshimori

. Artery anatomy and tortuosity in the distal finger. J Hand Surg Am. 1991, 16: 297–302.

19.

Strauch

de Moura

. Arterial system of the fingers. J Hand Surg Am. 1990, 15: 148–54.

20.

Tang

. Indications, methods, postoperative motion and outcome evaluation of primary flexor tendon repairs in Zone 2. J Hand Surg Eur. 2007, 32: 118–29.

21.

Toi

Asao

Matsumoto

, et al. Visualization of tumor-related blood vessels in human breast by photoacoustic imaging system with a hemispherical detector array. Sci Rep. 2017, 7: 41970.

22.

Tsuge

Saito

Sekiguchi

, et al. Photoacoustic tomography shows the branching pattern of anterolateral thigh perforators in vivo. Plast Reconstr Surg. 2018, 141: 1288–92.

23.

Wang

. Photoacoustic tomography: in vivo imaging from organelles to organs. Science. 2012, 335: 1458–62.

24.

Yamakado

Ichihara

Matsumoto

, et al. Derivation of gender and age-specific reference intervals from fully normal Japanese individuals and the implications for health screening. Clin Chim Acta. 2015, 447: 105–14.

25.

Yousif

Cunningham

Sanger

Gingrass

Matloub

. The vascular supply to the proximal interphalangeal joint. J Hand Surg Am. 1985, 10: 852–61.

26.

Zwanenburg

Werker

McGrouther

. The anatomy and function of Cleland's ligaments. J Hand Surg Eur. 2014, 39: 482–90.

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Digital artery deformation on movement of the proximal interphalangeal joint

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