Hebrew University School of Medicine, Tzameret, Ein Kerem, Jerusalem, Israel.
Department of Orthopaedics, Assaf HaRofeh Medical Center, Zerifin and Sackler School of Medicine, Tel Aviv University, Tel Aviv, Israel.
Bone. 2017 Oct;103:125-130. doi: 10.1016/j.bone.2017.06.026. Epub 2017 Jul 1.
Stress fractures can be seen as an undesired byproduct of demanding physical training. The threshold value of stress that places an individual bone at high risk for stress fracture has not been identified. In a prospective study of stress fractures in 1983, a 31% incidence was found during demanding Israeli infantry basic training by bone scan criteria. Within a subgroup of these recruits, an elite infantry unit was found to have a 40% incidence. Since then and until 2015, eight additional induction companies of the same elite infantry unit were prospectively monitored for stress fractures during their basic training. In all of the studies, stress fracture surveillance and the examining orthopedist were the same. A retrospective review of all nine studies and of eight training changes was performed to look for a temporal trend in stress fracture incidence and to see if these might be related to training changes. There was a statistically significant trend for lower radiological proven stress fractures (p=0.0001) and radiological proven stress fractures plus clinical stress fractures (p=0.0013), as well as lower stress fracture severity by radiological criteria (p=0.0001) between 1983 and 2015. The only training change that was associated, by multivariate logistic regression, with a decreased incidence of stress fracture was restricting training to the authorized training protocol (odds ratio, 3874; 95% CI, 1.526 to 9.931; p=0.004). Increased recruit weight was found by multivariate analysis to be associated with lower stress fracture incidence (odds ratio 1.034; 95% CI, 1.00 to 1.070; p=0.051). Moving the training to a base with flatter terrain and reducing the formal marching distance by 1/3 was associated with a decrease in high grade stress fractures (odds ratio, 10.03; 95% CI, 3.5 to 28.4; p=0.0001). Neither the combined changes of enforcing a seven hour a night sleep regimen, training in more comfortable boots and adding a physical therapist to the unit nor stopping specific running exercises and adding lower body strengthening exercises were associated with a decrease in stress fracture. 67% of recruits who sustained stress fractures and 69% who did not sustain stress fracture finished their military service as combat soldiers in the unit (p=0.87). There are no magic bullets to prevent stress fractures. Stress cannot be lowered beyond the level which compromises the training goals. It is a problem that can be managed by awareness that identifies and treats stress fractures while they are still in the micro stage and not in the more dangerous macro stage.
应力性骨折可被视为高强度体能训练的一种不良副产品。目前尚未确定导致个体骨骼发生应力性骨折的临界压力值。在 1983 年一项针对应力性骨折的前瞻性研究中,以色列步兵基础训练中,依据骨扫描标准,有 31%的新兵发生应力性骨折。在这些新兵的一个亚组中,一个精锐步兵部队的发病率为 40%。自那时起,直到 2015 年,同一精锐步兵部队的另外 8 个新兵连在基础训练期间,前瞻性地监测了应力性骨折的发生情况。在所有研究中,应力性骨折监测和检查的骨科医生都是相同的。对 9 项研究和 8 项训练改变进行回顾性分析,以寻找应力性骨折发病率的时间趋势,并确定这些趋势是否与训练改变有关。统计结果表明,放射学确诊的应力性骨折(p=0.0001)和放射学确诊的应力性骨折加临床应力性骨折(p=0.0013)的发生率以及放射学标准下的骨折严重程度(p=0.0001)均呈显著下降趋势。通过多变量逻辑回归分析,唯一与应力性骨折发生率降低相关的训练改变是将训练限制在授权的训练方案中(比值比,3874;95%置信区间,1.526 至 9.931;p=0.004)。多变量分析发现,新兵体重增加与应力性骨折发生率降低相关(比值比 1.034;95%置信区间,1.00 至 1.070;p=0.051)。将训练转移到地形更平坦的基地,并将正式行军距离减少 1/3,与高级别应力性骨折的减少有关(比值比,10.03;95%置信区间,3.5 至 28.4;p=0.0001)。强制实行每晚 7 小时睡眠制度、在更舒适的靴子中训练以及在部队中增加物理治疗师、停止特定的跑步练习以及增加下半身强化练习等综合改变均与应力性骨折的减少无关。67%发生应力性骨折的新兵和 69%未发生应力性骨折的新兵都完成了在该部队的兵役,作为战斗士兵(p=0.87)。没有什么灵丹妙药可以预防应力性骨折。压力不能降低到危及训练目标的水平以下。当应力性骨折仍处于微阶段而非更危险的宏阶段时,可以通过识别和治疗来管理这一问题。
