Neuropsychological tests in sport-related concussion – are they worthwhile?

May 27, 2012 by 1 Comment

The article by Shrier in the current edition of CJSM revisits the issue of neuropsychological testing in the setting of sport-related concussion, and poses some searching questions in relation to the use of these tools in the diagnosis and management of sport-related concussion. In particular, he asks ‘…do the results of neuropsychological testing change patient management or provide other clinical benefit to the patient?’ and ‘Is there sufficient evidence to mandate it (neuropsychological testing) as standard of medical care?’ (Shrier, 2012).

Whilst it is clear that sport-related concussion is a hot topic in Sports Medicine, with an ever-increasing literature on the subject, and following three expert consensus panellist group meetings since 2001, controversy surrounding the diagnosis, management, and return to play protocols continues to rage amongst academics and clinicians alike.

In his article, Shrier concentrates on the application of neuropsychological tests to the sport-related concussion setting. Whilst it is accepted that neuropsychological tests alone are not adequate to confirm the diagnosis and dictate the ongoing management of concussion, they are currently widely used in the rehabilitation and return-to-play setting as a part of an overall neuropsychological assessment for players in elite sport suffering from a concussion – especially in hockey, and college football.

Shrier points out that neuropsychological tests are designed to give an objective assessment of brain function, but that ‘the objective in concussion management is to measure brain injury’ and points out that ‘brain injury is only one cause of decreased brain function,’ mentioning that there are several other factors that may affect brain function such as the presence or absence of other injuries or mood disorders (Shrier, 2012). The author does not point out exactly when he means by ‘brain function,’ however, nor discusses in detail any of the other multidimensional tools that may be used to assess this such as EEG and fMRI.

There are clearly limitations in using neuropsychological tests in the setting of sports-related concussion related to the issues Shrier points out in his article. However, it is important to remember that it is the application of these tests in the overall clinical context that perhaps assists the practitioner in making an informed and reasoned judgement as to whether impairment in brain function is likely to be secondary to concussion.

Further on in the article, Shrier goes on to argue that neuropsychological tests have ‘minimal value for an individual athlete and does not support mandating (their) use,’ (Shrier, 2012) and then examines the arguments for using the tests related to asymptomatic athletes at rest, athletes who are asymptomatic at rest but symptomatic on exertion, and athletes who are asymptomatic on exertion.

Whilst there is still academic debate surrounding the clinical usefulness of neuropsychological tests in the setting of sport-related concussions, doubt must also be levelled at their applicability and cost-effectiveness, a point also argued by Shrier in his conclusion. He also mentions that there are not enough neuropsychologists with appropriate expertise available to be able to warrant mandatory neuropsychological testing on a population level for them to be considered as standard of care, which is certainly true.

In his conclusion, Shrier argues that ‘NP testing provides only a small increase in prognostic information and does not change the management of athletes who are symptomatic at rest or with exercise,’ and points out that ‘There is no evidence that abnormal NP testing is associated with increased risk of further injury or delayed recovery in athletes who are asymptomatic at rest and exertion.’ (Shrier, 2012). 

The Concussion in Sport group, however,  in their last consensus statement mentioned that ‘the application of neuropsychological testing in concussion has been shown to be of clinical value and continues to contribute significant information in concussion evaluation.’ (McCrory et al, 2009).

No doubt Shrier’s article will fuel much continuing academic debate on the use of neuropsychological tests in the setting of sport-related concussion.

Are you using these tests as part of your overall concussion management programme?

CJSM would like to hear your thoughts on the debate.

References

1) Shrier i. 2012. Neuropsychological testing and Concussions: A Reasoned Approach. CJSM 22(3): 211-213

2) McCrory  P et al. 2009. Consensus Statement on Concussion in Sport 3rd International Conference on Concussion in Sport Held in Zurich, November 2008. CJSM 19(3): 185-200

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The Larks and the Owls – chronotypes and desynchronosis. Time for an individual approach with MEQ-SA analysis?

May 20, 2012 by

The practical management article in this month’s edition of the Clinical Journal of Sport Medicine by Charles H Samuels highlights a difficult problem facing athletes and their support staff that is commonly encountered during air travel, that of the issue of jet lag. Samuels makes the point about the difference between travel fatigue and jet lag (desynchronosis), defining the former as a  constellation of physical, psychological and environmental factors that impact over time on an athlete’s capacity to recover and perform, and the latter being defined as a number of symptoms occurring following travel between time zones.

The key to the understanding of these concepts lies within the study of Chronobiology – the field of biological science that examines cyclical phenomena in living organisms and their adaptation to solar and lunar rhythms. Human beings are normally diurnal creatures, usually being active in the day and sleeping at night. However, as many night and shift-pattern workers will attest, many of us are required to adapt to different patterns of activity and sleep as part of our everyday lives. Some of us are able to cope with these pattern shifts better than others, whereas extremes of sleep-activity outside the normal range may cause a person difficulty in participating in normal work, school and social activities.

Flight travel over different time zones presents a challenge for the individual as the body seeks adjusts its circadian rhythms to these different  zones. A number of different modalities may be used in order to prevent athletes developing jet-lag, including the use of melatonin, preflight adjustment to travel, timed light exposure and avoidance, and changes in training schedules. However, it is interesting to observe that some individuals seem to suffer from jet lag more than others, and that there is variability in the efficacy of preventative and treatment strategies for desynchronosis amongst athletes.

Why is it that some of us seem to cope better with time zone changes and shift pattern working? Perhaps the answer lies in an individual’s chronotype.

Sleep researchers refer to ‘Larks’ as individuals who naturally wake up in the morning, contrasting with the ‘Owls’ who wake up and go to sleep late. These groups are also described as being comprised by individuals with ‘morning-ness’ and ‘evening-ness’ tendencies. Most people lie somewhere in between. However, there are some interesting differences between the groups with some researchers going as far as to suggest that disease processes may be directly influenced by morning-ness and evening-ness. This news feature in Nature, published in 2009, discusses some of these concepts in greater detail for those readers who may be interested to know more.

Horne & Ostberg in 1976 presented a self-assessment morningness-eveningness questionnaire and this has been modified by others to produce an MEQ-SA. Those of you who may wish to objectively assess your lark-ish and owl-ish tendencies can find the modified MEQ-SA questionnaire and scoring table here. 

It is unclear which factors contribute to an individual’s chronotype, as there seems to be no clear correlation to gender, ethnicity, or socio-environmental factors. However, perhaps chronotype variation may go some way to explaining why there is such variability in the effect of different preventative strategies for jet-lag between individuals. If so, then the assessment of an individual’s chronotype may form an important part of an overall primary preventative strategy for travelling athletes and support staff, which may be best conducted as part of an individual approach rather than a team approach.

Unfortunately, there is currently a paucity of literature on chronotype analysis in elite athletes in relation to jet-lag prevention representing an opportunity for further research in this area.

Are any readers using chronotype analysis as part of a jet-lag prevention strategy? CJSM would like to know.

References –

Samuels, Charles H. 2012. Jet Lag and Travel Fatigue: A Comprehensive Management Plan for Sport Medicine Physicians and High-Performance Support Teams. Clin.J.Sport Med. 22(3): 268-273

Phillips, Melissa Lee. 2009. Of owls, larks and alarm clocks. Nature 458 

Horne JA & Ostberg O.1976. A self-assessment questionnaire to determine morningness-eveningness in human circadian rhythms. Int. J. Chronobiol. 4(2):97-110 

 

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