Osgood-Schlater disease is a disease that affects mostly young athletes who apply a lot of weight on their body tissues while training. The article informs the reader of the load on the tibial tubercle that may lead to the development of Osgood-Schlater disease (Itoh et al., 2018). This goes beyond what most articles on the topic have done; which is merely list the motions that cause the disease. It also tries to compare the loads between a variety of motions that cause the disease. This is aimed at helping coaches adapt training practices on young athletes that are targeted at controlling the load on the tibial tubercle. The article also suggests that those who suffer from the disease can get treated through icing, massage, performing controlled exercises, taking painkillers, stretching their quadriceps and hamstrings as well as fixation of the knee joints (Itoh et al., 2018). It also advises that athletes who are faced with the problem have to stop engaging in training practices for not less than three months to enable them to heal effectively.
The article can, therefore, be said to adhere to the clinical practice guidelines as it has followed most of the simple rules that define this. For instance, it has shown to be reliable from the number of tests conducted ("Clinical Practice Guidelines," n.d.). The solution given has also proven to be cost-effective as it does not require a lot of effort and money to go through with. Moreover, the whole practice is seen to be clear, and hence anyone can follow if they are suffering from Osgood-Schlatter disease and would wish to relieve themselves of the same. As a result, the writers can be said to have established evidence-based practices that are in tandem with accepted clinical practice guidelines.
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References
Clinical Practice Guidelines. (n.d.). SpringerReference. doi:10.1007/springerreference_184671
Risk assessment of the onset of Osgood-Schlater disease using kinetic analysis of various motions in sports. (2018). PLOS ONE , 13(1), e0190503. doi:10.1371/journal.pone.0190503
