Michael R Karns1, Matthijs Jacxsens2, William J Uffmann2, Dane C Todd2, Heath B Henninger2, Robert T Burks2. 1. Department of Orthopaedic Surgery, University of Utah Orthopedic Center, University of Utah, Salt Lake City, UT, USA. Electronic address: karnsmir@gmail.com. 2. Department of Orthopaedic Surgery, University of Utah Orthopedic Center, University of Utah, Salt Lake City, UT, USA.
Abstract
BACKGROUND: Acromioplasty has been proposed as a means of altering elevated critical shoulder angles (CSAs). We aimed to localize the critical acromion point (CAP) responsible for the acromial contribution of the CSA and determine whether resection of the CAP can alter the CSA to a normal range. METHODS: The CAP and 3-dimensional (3D) CSAs were determined on 3D computed tomography reconstructions of 88 cadaveric shoulders and compared with corresponding CSAs on digitally reconstructed radiographs. The position of the CAP was fluoroscopically isolated in 20 of these specimens and the resulting fluoroscopic CSA compared with the corresponding 3D CAP and 3D CSA. We investigated the CSA before and after a virtual acromioplasty of 2.5 and 5 mm at the CAP in specimens with a CSA greater than 35°. RESULTS: The mean CAP was 21% ± 10% of the acromial anterior-posterior length from the anterolateral corner. There was no difference between the mean 3D CSA and the CSA on digitally reconstructed radiographs (32° vs 32°, P = .096). No difference between the mean fluoroscopic CSA and 3D CSA was found (31° vs 31°, P = .296). A 2.5-mm acromial resection failed to reduce the CSA to 35° or less in 7 of 13 shoulders, whereas a 5-mm resection reduced the CSA to 35° or less in 12 of 13. CONCLUSION: The CAP was localized to the anterolateral acromial edge and was easily identified fluoroscopically. A 5-mm acromial resection was effective in reducing the CSA to 35° or less. These data can guide surgeons in where and how to alter the CSA if future studies demonstrate a clinical benefit to surgically modifying this radiographic parameter.
BACKGROUND: Acromioplasty has been proposed as a means of altering elevated critical shoulder angles (CSAs). We aimed to localize the critical acromion point (CAP) responsible for the acromial contribution of the CSA and determine whether resection of the CAP can alter the CSA to a normal range. METHODS: The CAP and 3-dimensional (3D) CSAs were determined on 3D computed tomography reconstructions of 88 cadaveric shoulders and compared with corresponding CSAs on digitally reconstructed radiographs. The position of the CAP was fluoroscopically isolated in 20 of these specimens and the resulting fluoroscopic CSA compared with the corresponding 3D CAP and 3D CSA. We investigated the CSA before and after a virtual acromioplasty of 2.5 and 5 mm at the CAP in specimens with a CSA greater than 35°. RESULTS: The mean CAP was 21% ± 10% of the acromial anterior-posterior length from the anterolateral corner. There was no difference between the mean 3D CSA and the CSA on digitally reconstructed radiographs (32° vs 32°, P = .096). No difference between the mean fluoroscopic CSA and 3D CSA was found (31° vs 31°, P = .296). A 2.5-mm acromial resection failed to reduce the CSA to 35° or less in 7 of 13 shoulders, whereas a 5-mm resection reduced the CSA to 35° or less in 12 of 13. CONCLUSION: The CAP was localized to the anterolateral acromial edge and was easily identified fluoroscopically. A 5-mm acromial resection was effective in reducing the CSA to 35° or less. These data can guide surgeons in where and how to alter the CSA if future studies demonstrate a clinical benefit to surgically modifying this radiographic parameter.
Authors: Hema J Sulkar; Tyler W Knighton; Linda Amoafo; Klevis Aliaj; Christopher W Kolz; Yue Zhang; Tucker Hermans; Heath B Henninger Journal: J Biomech Eng Date: 2022-05-01 Impact factor: 2.097
Authors: Matthijs Jacxsens; Shireen Y Elhabian; Sarah E Brady; Peter N Chalmers; Andreas M Mueller; Robert Z Tashjian; Heath B Henninger Journal: J Orthop Res Date: 2020-01-24 Impact factor: 3.494
Authors: Ian S MacLean; Anirudh K Gowd; Brian R Waterman; Ian J Dempsey; Bernard R Bach; Brian J Cole; Anthony A Romeo; Nikhil N Verma Journal: Arthrosc Sports Med Rehabil Date: 2020-09-30