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The Deadman Theory Is Alive and Well

2014; Elsevier BV; Volume: 30; Issue: 9 Linguagem: Inglês

10.1016/j.arthro.2014.07.007

1526-3231

Stephen S. Burkhart,

Shoulder and Clavicle Injuries

I think it is essential that I respond to the study by Clevenger et al.,1Clevenger T.A. Beebe M.J. Strauss E.J. Kubiak E.N. The effect of insertion angle on the pullout strength of threaded suture anchors: A validation of the deadman theory.Arthroscopy. 2014; 30: 900-905Abstract Full Text Full Text PDF PubMed Scopus (33) Google Scholar which is the second in a series of articles authored by largely the same investigators2Strauss E. Frank D. Kubiak E. Kummer F. Rokito A. The effect of the angle of suture anchor insertion on fixation failure at the tendon-suture interface after rotator cuff repair: Deadman's angle revisited.Arthroscopy. 2009; 25: 597-602Abstract Full Text Full Text PDF PubMed Scopus (63) Google Scholar that attempt to discredit or disprove the deadman theory of suture anchors, a concept that I introduced in 1995 in an article in Arthroscopy.3Burkhart S.S. The deadman theory of suture anchors: Observations along a South Texas fence line.Arthroscopy. 1995; 11: 119-123Abstract Full Text PDF PubMed Scopus (210) Google Scholar That concept was based on theoretical, yet highly intuitive considerations of trigonometry, classical mechanics, and free body analysis.There is nothing high-tech about the deadman rationale for inserting suture anchors, in which the anchors are angled away from the direction of the anticipated load. We do the same for the “deadman” of a corner fence post; for a tent peg; or for a nail that is used to hang a picture on a wall. Would we consider reversing the direction of insertion of these common, everyday fixation devices? No—because the fence post would lean; the tent would fall down; and the picture would fall from the wall.So, how is it that Clevenger et al.1Clevenger T.A. Beebe M.J. Strauss E.J. Kubiak E.N. The effect of insertion angle on the pullout strength of threaded suture anchors: A validation of the deadman theory.Arthroscopy. 2014; 30: 900-905Abstract Full Text Full Text PDF PubMed Scopus (33) Google Scholar were able to conduct a biomechanical study that “proves” (in their minds) the counterintuitive notion that placing a suture anchor in the reverse direction in bone (with an angle that is obtuse relative to the load) is stronger than placing it in the usual deadman direction (with an angle that is acute relative to the load)?First, one must blow past all the smoke and recognize that biomechanical testing of suture anchors can be misapplied such that non-physiological mechanisms are magnified to cause failure in a way that never would have occurred in an actual surgical patient. Specifically, Clevenger et al.1Clevenger T.A. Beebe M.J. Strauss E.J. Kubiak E.N. The effect of insertion angle on the pullout strength of threaded suture anchors: A validation of the deadman theory.Arthroscopy. 2014; 30: 900-905Abstract Full Text Full Text PDF PubMed Scopus (33) Google Scholar applied their loads to the suture anchors with the eyelets sitting “proud,” above the surface of the bone (as shown in Figs 1 and 2 of their article). Apparently, they did not read my letter to the editor in 2009 in which I suggested that the experimental design of their first experiment was not appropriate for proving or disproving the validity of the deadman theory and that “to do so would require intracortical fixation at all angles of insertion, which would have demanded that they use fully threaded suture anchors.”4Burkhart S.S. Suture anchor insertion angle and the deadman theory.Arthroscopy. 2009; 25 (letter): 1365Abstract Full Text Full Text PDF PubMed Scopus (13) Google Scholar This advice was not heeded by Clevenger et al. in this second study, and it has led to erroneous conclusions.If one watches the video of the biomechanical testing that accompanies the article by Clevenger et al.,1Clevenger T.A. Beebe M.J. Strauss E.J. Kubiak E.N. The effect of insertion angle on the pullout strength of threaded suture anchors: A validation of the deadman theory.Arthroscopy. 2014; 30: 900-905Abstract Full Text Full Text PDF PubMed Scopus (33) Google Scholar it is plain to see that, for the anchor placed at an acute angle with the eyelet above the level of the bone, the eyelet naturally migrates progressively further from the bone surface as toggling occurs and the anchor's position approaches the perpendicular to the surface of the bone. This creates an ever-increasing moment with each load application because the moment arm (the distance of the eyelet from the bone) progressively increases. However, the testing setup does not reproduce what we do clinically. In repairing the rotator cuff, today's surgeons do not leave the eyelet above the level of the bone; they typically use fully threaded anchors in which intracortical fixation is obtained and the eyelet is at or below the level of the bone. So, the Clevenger et al. testing construct is not what surgeons use clinically. To paraphrase a popular television commercial, “That's not the way this works… that's not the way any of this works.”If Clevenger et al.1Clevenger T.A. Beebe M.J. Strauss E.J. Kubiak E.N. The effect of insertion angle on the pullout strength of threaded suture anchors: A validation of the deadman theory.Arthroscopy. 2014; 30: 900-905Abstract Full Text Full Text PDF PubMed Scopus (33) Google Scholar had used fully threaded anchors with intracortical fixation, there would have been no moment arm to create progressive toggling, and I suspect the results would have been entirely different.The authors correctly point out another shortcoming of their conclusions: specifically that, even though they recommend inserting the anchor at an obtuse angle of 135°, it would be very difficult to achieve that angle for a supraspinatus repair because the acromion would be in the way. So, even if one were to buy into their conclusions, they would have no clinical application.So, where does that leave us? First, I have not seen any biomechanical data to cause me to change my angle of insertion from the standard acute deadman angle to a reverse obtuse angle. Suture anchors and suture anchor configurations have become more and more sophisticated over the past 20 years so that we now commonly see fully threaded biocomposite anchors used in linked double-row configurations,5Denard P.J. Burkhart S.S. The evolution of suture anchors in arthroscopic rotator cuff repair.Arthroscopy. 2013; 29: 1589-1595Abstract Full Text Full Text PDF PubMed Scopus (45) Google Scholar as well as self-reinforcing load-sharing rip-stop techniques,6Denard P.J. Burkhart S.S. Techniques for managing poor quality tissue and bone during arthroscopic rotator cuff repair.Arthroscopy. 2011; 27: 1409-1421Abstract Full Text Full Text PDF PubMed Scopus (49) Google Scholar, 7Denard P.J. Burkhart S.S. A load-sharing rip-stop fixation construct for arthroscopic rotator cuff repair.Arthrosc Tech. 2012; 1: e37-e42Abstract Full Text Full Text PDF PubMed Scopus (27) Google Scholar, 8Burkhart S.S. Lo I.K. Brady P.C. Denard P.J. The cowboy's companion: A trail guide for the arthroscopic shoulder surgeon. Lippincott Williams and Wilkins, Philadelphia2012Google Scholar to compensate for poor-quality soft tissues.I am not sure why someone would spend so much time and effort trying to disprove such an intuitively obvious mechanical concept as the deadman theory. But then I also don't understand why Don Quixote spent so much time casting at windmills. I think it is essential that I respond to the study by Clevenger et al.,1Clevenger T.A. Beebe M.J. Strauss E.J. Kubiak E.N. The effect of insertion angle on the pullout strength of threaded suture anchors: A validation of the deadman theory.Arthroscopy. 2014; 30: 900-905Abstract Full Text Full Text PDF PubMed Scopus (33) Google Scholar which is the second in a series of articles authored by largely the same investigators2Strauss E. Frank D. Kubiak E. Kummer F. Rokito A. The effect of the angle of suture anchor insertion on fixation failure at the tendon-suture interface after rotator cuff repair: Deadman's angle revisited.Arthroscopy. 2009; 25: 597-602Abstract Full Text Full Text PDF PubMed Scopus (63) Google Scholar that attempt to discredit or disprove the deadman theory of suture anchors, a concept that I introduced in 1995 in an article in Arthroscopy.3Burkhart S.S. The deadman theory of suture anchors: Observations along a South Texas fence line.Arthroscopy. 1995; 11: 119-123Abstract Full Text PDF PubMed Scopus (210) Google Scholar That concept was based on theoretical, yet highly intuitive considerations of trigonometry, classical mechanics, and free body analysis. There is nothing high-tech about the deadman rationale for inserting suture anchors, in which the anchors are angled away from the direction of the anticipated load. We do the same for the “deadman” of a corner fence post; for a tent peg; or for a nail that is used to hang a picture on a wall. Would we consider reversing the direction of insertion of these common, everyday fixation devices? No—because the fence post would lean; the tent would fall down; and the picture would fall from the wall. So, how is it that Clevenger et al.1Clevenger T.A. Beebe M.J. Strauss E.J. Kubiak E.N. The effect of insertion angle on the pullout strength of threaded suture anchors: A validation of the deadman theory.Arthroscopy. 2014; 30: 900-905Abstract Full Text Full Text PDF PubMed Scopus (33) Google Scholar were able to conduct a biomechanical study that “proves” (in their minds) the counterintuitive notion that placing a suture anchor in the reverse direction in bone (with an angle that is obtuse relative to the load) is stronger than placing it in the usual deadman direction (with an angle that is acute relative to the load)? First, one must blow past all the smoke and recognize that biomechanical testing of suture anchors can be misapplied such that non-physiological mechanisms are magnified to cause failure in a way that never would have occurred in an actual surgical patient. Specifically, Clevenger et al.1Clevenger T.A. Beebe M.J. Strauss E.J. Kubiak E.N. The effect of insertion angle on the pullout strength of threaded suture anchors: A validation of the deadman theory.Arthroscopy. 2014; 30: 900-905Abstract Full Text Full Text PDF PubMed Scopus (33) Google Scholar applied their loads to the suture anchors with the eyelets sitting “proud,” above the surface of the bone (as shown in Figs 1 and 2 of their article). Apparently, they did not read my letter to the editor in 2009 in which I suggested that the experimental design of their first experiment was not appropriate for proving or disproving the validity of the deadman theory and that “to do so would require intracortical fixation at all angles of insertion, which would have demanded that they use fully threaded suture anchors.”4Burkhart S.S. Suture anchor insertion angle and the deadman theory.Arthroscopy. 2009; 25 (letter): 1365Abstract Full Text Full Text PDF PubMed Scopus (13) Google Scholar This advice was not heeded by Clevenger et al. in this second study, and it has led to erroneous conclusions. If one watches the video of the biomechanical testing that accompanies the article by Clevenger et al.,1Clevenger T.A. Beebe M.J. Strauss E.J. Kubiak E.N. The effect of insertion angle on the pullout strength of threaded suture anchors: A validation of the deadman theory.Arthroscopy. 2014; 30: 900-905Abstract Full Text Full Text PDF PubMed Scopus (33) Google Scholar it is plain to see that, for the anchor placed at an acute angle with the eyelet above the level of the bone, the eyelet naturally migrates progressively further from the bone surface as toggling occurs and the anchor's position approaches the perpendicular to the surface of the bone. This creates an ever-increasing moment with each load application because the moment arm (the distance of the eyelet from the bone) progressively increases. However, the testing setup does not reproduce what we do clinically. In repairing the rotator cuff, today's surgeons do not leave the eyelet above the level of the bone; they typically use fully threaded anchors in which intracortical fixation is obtained and the eyelet is at or below the level of the bone. So, the Clevenger et al. testing construct is not what surgeons use clinically. To paraphrase a popular television commercial, “That's not the way this works… that's not the way any of this works.” If Clevenger et al.1Clevenger T.A. Beebe M.J. Strauss E.J. Kubiak E.N. The effect of insertion angle on the pullout strength of threaded suture anchors: A validation of the deadman theory.Arthroscopy. 2014; 30: 900-905Abstract Full Text Full Text PDF PubMed Scopus (33) Google Scholar had used fully threaded anchors with intracortical fixation, there would have been no moment arm to create progressive toggling, and I suspect the results would have been entirely different. The authors correctly point out another shortcoming of their conclusions: specifically that, even though they recommend inserting the anchor at an obtuse angle of 135°, it would be very difficult to achieve that angle for a supraspinatus repair because the acromion would be in the way. So, even if one were to buy into their conclusions, they would have no clinical application. So, where does that leave us? First, I have not seen any biomechanical data to cause me to change my angle of insertion from the standard acute deadman angle to a reverse obtuse angle. Suture anchors and suture anchor configurations have become more and more sophisticated over the past 20 years so that we now commonly see fully threaded biocomposite anchors used in linked double-row configurations,5Denard P.J. Burkhart S.S. The evolution of suture anchors in arthroscopic rotator cuff repair.Arthroscopy. 2013; 29: 1589-1595Abstract Full Text Full Text PDF PubMed Scopus (45) Google Scholar as well as self-reinforcing load-sharing rip-stop techniques,6Denard P.J. Burkhart S.S. Techniques for managing poor quality tissue and bone during arthroscopic rotator cuff repair.Arthroscopy. 2011; 27: 1409-1421Abstract Full Text Full Text PDF PubMed Scopus (49) Google Scholar, 7Denard P.J. Burkhart S.S. A load-sharing rip-stop fixation construct for arthroscopic rotator cuff repair.Arthrosc Tech. 2012; 1: e37-e42Abstract Full Text Full Text PDF PubMed Scopus (27) Google Scholar, 8Burkhart S.S. Lo I.K. Brady P.C. Denard P.J. The cowboy's companion: A trail guide for the arthroscopic shoulder surgeon. Lippincott Williams and Wilkins, Philadelphia2012Google Scholar to compensate for poor-quality soft tissues. I am not sure why someone would spend so much time and effort trying to disprove such an intuitively obvious mechanical concept as the deadman theory. But then I also don't understand why Don Quixote spent so much time casting at windmills. The Effect of Insertion Angle on the Pullout Strength of Threaded Suture Anchors: A Validation of the Deadman TheoryArthroscopyVol. 30Issue 8PreviewTo determine the effect of insertion angle, from 45° to 135° in 15° increments, on the number of cycles withstood, the ultimate pullout strength, and the stiffness of threaded suture anchors subjected to load. Full-Text PDF