Can Achilles and patellar tendon structures predict musculoskeletal injuries in combat soldiers?
Corresponding Author
Nili Steinberg
Wingate College of Physical Education and Sports Sciences, Wingate Institute, Netanya, Israel
Correspondence
Nili Steinberg, The Wingate Academic College at Wingate Institute, Netanya, Israel.
Email: [email protected]
Search for more papers by this authorMichal Pantanowitz
Wingate College of Physical Education and Sports Sciences, Wingate Institute, Netanya, Israel
Search for more papers by this authorShany Funk
Combat Fitness Department, Doctrine and Research Branch, Israel Defense Forces, Netanya, Israel
Search for more papers by this authorShani Svorai Band
Military Medical Corps, Israel Defense Forces, Tel-Hashomer, Israel
Search for more papers by this authorGordon Waddington
Faculty of Health, University of Canberra, Canberra, NSW, Australia
Search for more papers by this authorNirit Yavnai
Research Directorate, Israel Defense Forces Medical Corps, Tel-Hashomer, Israel
Search for more papers by this authorAviva Zeev
Wingate College of Physical Education and Sports Sciences, Wingate Institute, Netanya, Israel
Search for more papers by this authorCorresponding Author
Nili Steinberg
Wingate College of Physical Education and Sports Sciences, Wingate Institute, Netanya, Israel
Correspondence
Nili Steinberg, The Wingate Academic College at Wingate Institute, Netanya, Israel.
Email: [email protected]
Search for more papers by this authorMichal Pantanowitz
Wingate College of Physical Education and Sports Sciences, Wingate Institute, Netanya, Israel
Search for more papers by this authorShany Funk
Combat Fitness Department, Doctrine and Research Branch, Israel Defense Forces, Netanya, Israel
Search for more papers by this authorShani Svorai Band
Military Medical Corps, Israel Defense Forces, Tel-Hashomer, Israel
Search for more papers by this authorGordon Waddington
Faculty of Health, University of Canberra, Canberra, NSW, Australia
Search for more papers by this authorNirit Yavnai
Research Directorate, Israel Defense Forces Medical Corps, Tel-Hashomer, Israel
Search for more papers by this authorAviva Zeev
Wingate College of Physical Education and Sports Sciences, Wingate Institute, Netanya, Israel
Search for more papers by this authorAbstract
Aiming to investigate whether Achilles tendon (AT) structure and patellar tendon (PT) structure are risk factors for musculoskeletal injuries in combat soldiers, 168 participants were recruited from an infantry commander's course. The AT and PT were examined pre-course using UTC to capture the structure of four echo-type fibers (I–IV). All injuries were assessed by military physicians pre-course and throughout the 14-week course. Soldiers who were injured during the course had a significantly higher pre-course prevalence of AT and PT echo-type III and echo-type IV compared to soldiers that were not injured during the course. Variables that were found to be associated with injured/non-injured participants were echo-type III + IV of the PT (OR = 1.44, 95% CI = 1.24-1.68) and echo-type III of the AT (OR = 1.69, 95% CI = 1.35-2.12). ROC analyses showed that the best model, exhibiting both high sensitivity and low specificity, was that participants with PT echo-type III + IV > 10% or AT echo-type III >8.5% had the highest risk of being injured during the course. In conclusions, the tendon structure at the beginning of high-intensity activity or physical training program might be a risk factor for subsequent injury during the course. Soldiers and high-level athletes should be aware of the cutoff points for fiber types in tendon structure that might put them at high risk for future injury. At-risk soldiers/athletes should be provided with an intervention program before they start their training program, with the aim of improving the tendon structure and preventing subsequent injury.
CONFLICT OF INTEREST
No.
REFERENCES
- 1Halvarsson A, Hagman I, Tegern M, et al. Self-reported musculoskeletal complaints and injuries and exposure of physical workload in Swedish soldiers serving in Afghanistan. PLoS One. 2018; 13(4):e0195548.
- 2Pope R, Orr R. Incidence rates for work health and safety incidents and injuries in Australian Army reserve vs full time soldiers, and a comparison of reporting systems. J Mil Veteran Health. 2017; 25(2): 16-25.
- 3 The IDF Conference for Medical and Combat Fitness Issues the IDF Conference. Wingate, Israel; 2012.
- 4Linenger JM, West LA. Epidemiology of soft-tissue/musculoskeletal injury among U.S. Marine recruits undergoing basic training. Mil Med. 1992; 157(9): 491-493.
- 5Milgrom C, Finestone A, Zin D, et al. Cold weather training: a risk factor for Achilles paratendinitis among recruits. Foot Ankle Int. 2003; 24(5): 398-401.
- 6Owens BD, Wolf JM, Seelig AD, et al. Risk factors for lower extremity tendinopathies in military personnel. Orthop J Sports Med. 2013; 1(1): 2325967113492707.
10.1177/2325967113492707 Google Scholar
- 7Lovalekar M, Perlsweig KA, Keenan KA, et al. Epidemiology of musculoskeletal injuries sustained by Naval Special Forces Operators and students. J Sci Med Sport. 2017; 20(Suppl 4): S51-S56.
- 8Biancalana A, Velloso LA, Taboga SR, et al. Implications of obesity for tendon structure, ultrastructure and biochemistry: a study on Zucker rats. Micron. 2012; 43(2-3): 463-469.
- 9Abate M, Di Gregorio P, Schiavone C, et al. Platelet rich plasma in tendinopathies: how to explain the failure. Int J Immunopathol Pharmacol. 2012; 25(2): 325-334.
- 10Heinemeier KM, Kjaer M. In vivo investigation of tendon responses to mechanical loading. J Musculoskelet Neuronal Interact. 2011; 11(2): 115-123.
- 11Magnusson SP, Langberg H, Kjaer M. The pathogenesis of tendinopathy: balancing the response to loading. Nat Rev Rheumatol. 2010; 6(5): 262-268.
- 12Cook JL, Purdam CR. Is tendon pathology a continuum? A pathology model to explain the clinical presentation of load-induced tendinopathy. Br J Sports Med. 2009; 43(6): 409-416.
- 13Rabin A, Kozol Z, Finestone AS. Limited ankle dorsiflexion increases the risk for mid-portion Achilles tendinopathy in infantry recruits: a prospective cohort study. J Foot Ankle Res. 2014; 7(1): 48.
- 14Taanila H, Suni JH, Kannus P, et al. Risk factors of acute and overuse musculoskeletal injuries among young conscripts: a population-based cohort study. BMC Musculoskelet Disord. 2015; 16: 104.
- 15Teyhen DS, Shaffer SW, Butler RJ, et al. What risk factors are associated with musculoskeletal injury in US Army Rangers? A prospective prognostic study. Clin Orthop Relat Res. 2015; 473(9): 2948-2958.
- 16Visnes H, Bahr R. Training volume and body composition as risk factors for developing jumper's knee among young elite volleyball players. Scand J Med Sci Sports. 2013; 23(5): 607-613.
- 17Docking SI, Rosengarten SD, Cook J. Achilles tendon structure improves on UTC imaging over a 5-month pre-season in elite Australian football players. Scand J Med Sci Sports. 2016; 26(5): 557-563.
- 18Docking SI, Cook J. Pathological tendons maintain sufficient aligned fibrillar structure on ultrasound tissue characterization (UTC). Scand J Med Sci Sports. 2016; 26(6): 675-683.
- 19Esmaeili A, Stewart AM, Hopkins WG, et al. Effects of training load and leg dominance on Achilles and patellar tendon structure. Int J Sports Physiol Perform. 2017; 12(Suppl 2): S2122-S2126.
- 20Rabello LM, van den Akker-Scheek I, Kuipers IF, et al. Bilateral changes in tendon structure of patients diagnosed with unilateral insertional or midportion achilles tendinopathy or patellar tendinopathy. Knee Surg Sports Traumatol Arthrosc. 2020; 28(5): 1631-1638.
- 21Waugh CM, Alktebi T, de Sa A, et al. Impact of rest duration on Achilles tendon structure and function following isometric training. Scand J Med Sci Sports. 2018; 28(2): 436-445.
- 22Maciel Rabello L, Zwerver J, Stewart RE, et al. Patellar tendon structure responds to load over a 7-week preseason in elite male volleyball players. Scand J Med Sci Sports. 2019; 29(7): 992-999.
- 23Mersmann F, Bohm S, Schroll A, et al. Muscle and tendon adaptation in adolescent athletes: a longitudinal study. Scand J Med Sci Sports. 2017; 27(1): 75-82.
- 24Rosengarten SD, Cook JL, Bryant AL, et al. Australian football players' Achilles tendons respond to game loads within 2 days: an ultrasound tissue characterisation (UTC) study. Br J Sports Med. 2015; 49(3): 183-187.
- 25van Schie HT, de Vos RJ, de Jonge S, et al. Ultrasonographic tissue characterisation of human Achilles tendons: quantification of tendon structure through a novel non-invasive approach. Br J Sports Med. 2010; 44(16): 1153-1159.
- 26Docking SI, Ooi CC, Connell D. Tendinopathy: is imaging telling us the entire story? J Orthop Sports Phys Ther. 2015; 45(11): 842-852.
- 27Gaida JE, Ashe MC, Bass SL, et al. Is adiposity an under-recognized risk factor for tendinopathy? A systematic review. Arthritis Rheum. 2009; 61(6): 840-849.
- 28Masci L, Spang C, van Schie HT, et al. Achilles tendinopathy-do plantaris tendon removal and Achilles tendon scraping improve tendon structure? A prospective study using ultrasound tissue characterisation. BMJ Open Sport Exerc Med. 2015; 1(1):e000005.
- 29Docking SI, Rosengarten SD, Daffy J, et al. Structural integrity is decreased in both Achilles tendons in people with unilateral Achilles tendinopathy. J Sci Med Sport. 2015; 18(4): 383-387.
- 30Stanley LE, Lucero A, Mauntel TC, et al. Achilles tendon adaptation in cross-country runners across a competitive season. Scand J Med Sci Sports. 2018; 28(1): 303-310.
- 31van Ark M, Docking SI, van den Akker-Scheek I, et al. Does the adolescent patellar tendon respond to 5 days of cumulative load during a volleyball tournament? Scand J Med Sci Sports. 2016; 26(2): 189-196.
- 32Steinberg N, Eliakim A, Elbaz L, et al. Achilles tendon tissue structure in children with overweight and children with obesity. Phys Occup Ther Pediatr. 2020; 40(3): 330-344.
- 33Nye NS, Pawlak MT, Webber BJ, et al. Description and rate of musculoskeletal injuries in Air Force Basic Military Trainees, 2012–2014. J Athl Train. 2016; 51(11): 858-865.
- 34Bansbach HM, Lovalekar MT, Abt JP, et al. Military personnel with self-reported ankle injuries do not demonstrate deficits in dynamic postural stability or landing kinematics. Clin Biomech (Bristol, Avon). 2017; 47: 27-32.
- 35Schwartz O, Kanevsky B, Kutikov M, et al. Medical attrition from commanders training in the Israeli Defense Forces (IDF): a cross-sectional study on 23,841 soldiers. Mil Med. 2018; 183(9-10): e363-e369.
- 36van Schie HT, Bakker EM, Jonker AM, et al. Computerized ultrasonographic tissue characterization of equine superficial digital flexor tendons by means of stability quantification of echo patterns in contiguous transverse ultrasonographic images. Am J Vet Res. 2003; 64(3): 366-375.
- 37McAuliffe S, McCreesh K, Culloty F, et al. Can ultrasound imaging predict the development of Achilles and patellar tendinopathy? A systematic review and meta-analysis. Br J Sports Med. 2016; 50(24): 1516-1523.
- 38Visnes H, Tegnander A, Bahr R. Ultrasound characteristics of the patellar and quadriceps tendons among young elite athletes. Scand J Med Sci Sports. 2015; 25(2): 205-215.
- 39Cook JL, Rio E, Purdam CR, et al. Revisiting the continuum model of tendon pathology: what is its merit in clinical practice and research? Br J Sports Med. 2016; 50(19): 1187-1191.
- 40Seynnes OR, Erskine RM, Maganaris CN, et al. Training-induced changes in structural and mechanical properties of the patellar tendon are related to muscle hypertrophy but not to strength gains. J Appl Physiol (1985). 2009; 107(2): 523-530.
- 41Abate M, Verna S, Di Gregorio P, et al. Sonographic findings during and after platelet rich plasma injections in tendons. Muscles Ligaments Tendons J. 2014; 4(1): 29-34.
- 42Biancalana A, Veloso LA, Gomes L. Obesity affects collagen fibril diameter and mechanical properties of tendons in Zucker rats. Connect Tissue Res. 2010; 51(3): 171-178.
- 43Azevedo LB. Biomechanical variables associated with Achilles tendinopathy in runners. Br J Sports Med. 2009; 43(4): 288-292.
- 44O'Neill S, Barry S, Watson P. Plantarflexor strength and endurance deficits associated with mid-portion Achilles tendinopathy: the role of soleus. Phys Ther Sport. 2019; 37: 69-76.
- 45Theisen A, Day J. Chronic ankle instability leads to lower extremity kinematic changes during landing tasks: a systematic review. Int J Exerc Sci. 2019; 12(1): 24-33.
- 46Mahieu NN, Witvrouw E, Stevens V, et al. Intrinsic risk factors for the development of Achilles tendon overuse injury: a prospective study. Am J Sports Med. 2006; 34(2): 226-235.
- 47Arnason A, Sigurdsson SB, Gudmundsson A, et al. Risk factors for injuries in football. Am J Sports Med. 2004; 32(1 Suppl): 5S-16S.
- 48Murphy DF, Connolly DA, Beynnon BD. Risk factors for lower extremity injury: a review of the literature. Br J Sports Med. 2003; 37(1): 13-29.
- 49Dvorak J, Junge A. Football injuries and physical symptoms. A review of the literature. Am J Sports Med. 2000; 28(5 Suppl): S3-9.
- 50Faude O, Junge A, Kindermann W, et al. Risk factors for injuries in elite female soccer players. Br J Sports Med. 2006; 40(9): 785-790.
- 51Nilstad A, Andersen TE, Bahr R, et al. Risk factors for lower extremity injuries in elite female soccer players. Am J Sports Med. 2014; 42(4): 940-948.
- 52Brinkman RE, Evans TA. History of ankle sprain as a risk factor of future lateral ankle sprain in athletes. J Sport Rehabil. 2011; 20(3): 384-388.
- 53Green B, Bourne MN, van Dyk N, et al. Recalibrating the risk of hamstring strain injury (HSI) - A 2020 systematic review and meta-analysis of risk factors for index and recurrent HSI in sport. Br J Sports Med. 2020. https://doi.org/10.1136/bjsports-2019-100983
- 54Wiggins AJ, Grandhi RK, Schneider DK, et al. Risk of secondary injury in younger athletes after anterior cruciate ligament reconstruction: a systematic review and meta-analysis. Am J Sports Med. 2016; 44(7): 1861-1876.
- 55Comin J, Cook JL, Malliaras P, et al. The prevalence and clinical significance of sonographic tendon abnormalities in asymptomatic ballet dancers: a 24-month longitudinal study. Br J Sports Med. 2013; 47(2): 89-92.
- 56Wezenbeek E, Mahieu N, Willems TM, et al. What does normal tendon structure look like? New insights into tissue characterization in the Achilles tendon. Scand J Med Sci Sports. 2017; 27(7): 746-753.
- 57Rudavsky A, Cook JL, Docking S. Proximal patellar tendon pathology can develop during adolescence in young ballet dancers-A 2-year longitudinal study. Scand J Med Sci Sports. 2018; 28(9): 2035-2041.
- 58Hulin BT, Gabbett TJ, Lawson DW, et al. The acute:chronic workload ratio predicts injury: high chronic workload may decrease injury risk in elite rugby league players. Br J Sports Med. 2016; 50(4): 231-236.
