Article Text

The sports concussion note: should SCAT become SCOAT?
  1. Jon Patricios1,
  2. Robert Collins1,
  3. Andrew Branfield2,
  4. Craig Roberts3,
  5. Ryan Kohler4
  1. 1Sports Concussion South Africa and Section Sports Medicine, Department of Health Sciences, University of Pretoria, Pretoria, South Africa
  2. 2Department of Clinical Research, Sports Concussion South Africa, Johannesburg, South Africa
  3. 3South African Rugby Union and Discipline of Sports Science, Faculty of Health Sciences, University of Kwazulu-Natal, Durban, South Africa
  4. 4Sports Medicine Department, Australian Institute of Sport, Australian Sports Commission, Canberra, Australia
  1. Correspondence to Dr Jon Patricios, Sports Concussion South Africa and Section Sports Medicine, Department of Health Sciences, University of Pretoria, Pretoria 1267, South Africa, Sports Concussion South Africa; jpat{at}


Sports concussion research and clinical guidelines have evolved rapidly. The most recent concussion consensus statement and guidelines (Zurich, 2008) provided clinicians with the Sports Concussion Assessment Tool version 2 (SCAT2) as a clinical template for the assessment of acute concussion. For the subsequent serial examinations required for the complete assessment of the concussed athlete, SCAT2 may be inadequate. This paper describes the experience and suggestions of South African sports physicians in evolving a more comprehensive clinical evaluation tool and record of patient care, the Sports Concussion Office Assessment Tool.

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Evaluation of the concussed athlete requires a multifaceted approach.1,,6 The Sports Concussion Assessment Tool version 2 (SCAT2)2 was designed as a practical assessment tool pertaining particularly to the clinical evaluation of the concussed athlete as discussed at the Zurich Consensus Meeting (2008). SCAT2 has become an international template for clinicians, freely accessible and widely distributed, as requested by the authors, in its original format.

Several versions of concussion symptom scales and assessment tools exist, mostly based on an expert opinion rather than on a rigorous scientific appraisal, with a recent critical analysis showing no clear supremacy of one tool over another.7 Important changes in concussion categorisation and recommendations between the Prague4 and Zurich2 consensus meetings are an indication that concussion management guidelines are a work in progress. Moreover, groups other than ours have recently suggested modifications to clinical concussion evaluation protocol.8 9

South African sports physicians have implemented the use of SCAT2 at international, provincial, club, school and recreational levels in team and individual sports between 2009 and 2011, the document being made available on local injury-information websites and This review summarises our groups' combined experience of the SCAT2 particularly regarding how well it fulfils the aims of the Zurich consensus paper and its effectiveness as a clinical evaluation tool. We suggest further refining the document to more effectively monitor the clinical resolution of the concussed athlete in the office environment. An additional clinical tool, the Sports Concussion Office Assessment Tool (SCOAT) has been developed which we feel excludes those aspects of the SCAT2 only relevant to the most acute phase of concussion, duplicates the parts relevant in the ongoing serial assessments, incorporates more features of significance to the concussed athlete and simplifies the scoring system.


The definition of concussion2 is necessarily broad with differences in the mechanism of injury and the area of the brain involved resulting in a wide spectrum of possible clinical symptoms. SCAT2 makes no provision for the mechanism of injury to be recorded, an aspect that may be of relevance particularly in researching concussion. It is noted that the initial clinical presentation of concussion may mirror that of more serious intra-cranial pathology and the danger signs are listed on the back page of the SCAT2 in a less prominent position than they might need to be. The Zurich definition notes that concussion usually follows a sequential resolution, and hence any clinical evaluation tool should be able to monitor progress over time.

Clinical evaluation

SCAT2 provides a list of 22 common symptoms associated with concussion scored on a graded scale (0–6) and is of the more inclusive of self-reported symptom scales.1,,4 10 11 In our experience, symptoms often present in the clusters mentioned in the Zurich consensus statement, reflecting physical, cognitive, emotional or sleep disturbances and it may therefore be useful to group these symptoms. Moreover, of importance to the clinician is the trend in resolution of these symptoms and it would be useful to have a way of, in the same table, recording symptom scores on successive visits. Interestingly, no specific space is allocated to recording whether amnesia, retrograde or anterograde is present, a symptom often afforded a prognostic significance in the concussed athlete.11,,13 The space afforded to the Glasgow Coma Scale and Maddock's Questions reflect the SCAT2's primary focus on fieldside care but are of little significance in follow-up consultations.

The Zurich consensus paper affords a significant amount of discussion to the relevance of modifying factors–additional factors that may influence presentation, recovery and prognosis. Despite this, no reference is made to such factors in the SCAT2, possibly because their influence is difficult to quantify. Nevertheless, we feel that, particularly where rapid or same-day return to play may be contemplated (itself highly contentious and rejected in the most recent American College of Sports Medicine guidelines),14,,16 the presence of such modifying factors warrants recording.

Postural stability is a useful measure of clinical progression and the Balance Error Scoring System (BESS)17 18 in particular is validated and useful acutely and in follow-up and is easy to implement during office evaluation.17,,22

Overall scoring system

The aim of scoring a patient's assessment is to monitor progress towards clinical resolution. Our first comment is that, despite scoring the severity of symptoms on a range from 0 (absent) to 6 (most severe), the final SCAT2 scoring only considers the total number of symptoms (of 22) and not their weighting in terms of severity. Aggregating and incorporating the symptom severity scores in the total may better reflect severity and clinical trend.

The SCAT2 uses a somewhat ‘mixed’ scoring system in that in some aspects of the evaluation such as symptom analysis points are allocated for ‘negative’ findings (ie, symptoms are present), whereas for other tasks including the aspects of the Standard Assessment of Concussion (SAC) and co-ordination tasks, points are allocated for ‘positive’ responses (ie, correctly completing the tasks). The BESS combines a ‘positive’ and ‘negative’ score by allocating points for errors and then subtracting the error score from a possible maximum of 30.

A simpler scoring method would be to only allocate points for significant findings, that is, symptoms that are present or mistakes made during the tasks. The ideal score would then be 0.

Glasgow coma scale

Similar to other authors,7 we question the relevance of the Glasgow Coma Scale (GCS), a tool developed in the early 1970s by Jennett and Teasdale specifically for severe head trauma within 6 h of injury,23 in a measurement designed to assess a form of a mild traumatic head injury. While acknowledging the GCS as alerting to possible structural injury, an athlete scoring anything less than a GCS of 14 is unlikely to be able to complete the SCAT2. Moreover, the athlete presenting for follow-up assessments in the clinician's office is unlikely to have a GCS below 15; hence the GCS is omitted from our Sports Concussion Office Assessment Tool.


The SCAT2 carefully and meticulously details and integrates instructions to clinicians as to how to use the tool. These instructions should only be necessary in the initial phases of using the instrument, take up considerable space and could perhaps more efficiently be included on a separate page.


The SCOAT is a clinical evaluation tool designed to

  • Be used serially by clinicians in a consulting room environment.

  • Evolve from the SCAT2 by retaining the important features relevant to acute, subacute and subsequent presentations.

  • Exclude those aspects of SCAT2 only relevant to the fieldside assessment of concussion.

  • Follow the Zurich consensus guidelines as closely as possible.

  • Simplify the scoring system to one that tends towards 0 before returning to play.

  • Aid as a tool for further research.

Since the beginning of 2009, as group of South African sports physicians, we have been involved with the assessment of concussed athletes from international to school level. We have used the SCAT2 as our standard assessment template in assessing over 500 athletes mostly rugby union players at international, Super Rugby, provincial, club and school level, but including participants in soccer, field hockey, cricket, horse riding, cycling and moto-x. The SCOAT represents a tool we feel more comprehensively evaluates the concussed athlete in an office environment while remaining true to the Zurich guidelines.


It is assumed that clinicians using the SCOAT will be familiar with the SCAT2 and the instructions provided therein. Where instructions are necessary for the patient, these are retained. In any case, the use of the SCOAT is for the most part self-explanatory; hence many of the instructions in SCAT2 are omitted creating more space for the recording of the clinical evaluation.

Epidemiological data

These are expanded upon from the SCAT2 with the addition of ‘position played’ and the ‘mechanism of injury’ both of which may be relevant in epidemiological data capture. Loss of consciousness (LOC) and, in particular, amnesia are specifically recorded. Rather than an emphasis on the presence and duration of LOC which heavily influenced the previous grading scales and return to play (RTP), amnesia is now acknowledged as the more significant acute marker of injury severity and duration.12 13 24 Moreover, in our experience, how soon the player is removed from the field after the injury may influence the potential for aggravating trauma and hence recovery, and is therefore also noted. Finally in this section, a record of whether protective equipment was used may be useful for the retrospective statistical analysis of the influence of such equipment on concussion and associated injuries (recorded in another section of the SCOAT).

‘Red flags’

As a reminder to clinicians that more serious intra-cranial pathology may mimic concussion particularly in the early stages of presentation,22 those symptoms that may indicate a need for neuroimaging and neurosurgical referral are afforded more prominence than in the SCAT2.

Compliance record

We have found that patient recovery is often influenced by compliance to the counsel given. For example,

  • Was a concussed child kept from school?

  • Did he/she avoid unnecessary forms of cognitive stress (computer games; texting, etc)?

  • Were all forms of physical exertion avoided?

Failure to adequately comply may explain slower progress and is therefore recorded; similarly, claims of good compliance in the face of a failure to clinically improve may be a poor prognostic sign.

Modifying factors

The Zurich consensus paper2 places significant emphasis on the potential influence of modifying factors on the nature of presentation and recovery from concussion. These associations are noted to possibly influence predisposition to injury, prognosis and recovery. In our experience, it is most beneficial to document such features as a qualitative record that may significantly influence player management, in particular the timing of RTP.

Symptom analysis

One of the most influential determinants of clinical progress is the progression of symptom resolution. Previous authors have pointed out that symptom scales used for concussion have not been systematically validated for reliability, sensitivity and specificity7 10 and a good case is made for reducing the number of symptoms assessed to 12 as in the Concussion Symptom Inventory.25 For the purpose of comparison with fieldside SCAT analysis performed more acutely, the SCOAT retains the same 22 symptoms as SCAT2 and the 7-point Likert scale form common to most concussion symptom scales10 but divides them into clusters, a method used in at least one other previously described assessment form.26 The advantage of this is that the clinician is able to more efficiently monitor trends in presentation (are the manifestations of injury more physical, cognitive, emotional or sleep-related?) and resolution. The assessor is encouraged to monitor the trend by marking scores from successive consultations on the same table using different coloured markers. Hence, the symptom score on the day of injury (transferred from the SCAT2 or recalled retrospectively) is initially marked in one colour and scores from all subsequent consultations in others, ideally serially trending towards a score of 0/6 for each.

The changing of symptoms with exercise or cognitive stress is recorded unchanged while a third party record of whether behaviour has changed is still included but elaborated on by providing the option ‘somewhat different’ and a space for a short qualitative description of the changes.

Verbal cognitive assessment

The clinical cognitive assessment (cognitive assessment, immediate memory, concentration and delayed recall) as described and validated in the SAC27,,29 is left almost unchanged from SCAT2. Of note, however, is that SCOAT uses a modified scoring system where incorrect answers are awarded 1 point. The purpose of this is to again create a ‘norm’ of zero mistakes, the aggregate score in the recovering patient trending towards 0.

Balance assessment

The validated BESS17 is left unchanged as is the awarding of a point for each error scored, again aiming for a ‘normal’ score of 0.


As the SCOAT is designed as a clinical evaluation form, space is afforded to clinical examination findings in general and neurological. Associated injuries in particular neck and maxillofacial injuries are recorded as part of the clinical assessment and because of their possible association with concussion as part of the same mechanism of injury. Again, a score of 1 point for any adverse finding is awarded as an acknowledgement that players should have a normal neurological examination before returning to sport.

Computerised cognitive screening

The trend in concussion evaluation is towards thorough and serial clinical assessments.2 However, the emergence of computerised cognitive test batteries has provided an additional validated tool enabling the clinician to evaluate changes in brain function particularly where a preinjury baseline score is available.30,,35 Studies suggest a greater sensitivity of computerised cognitive testing batteries to concussion resolution when compared with symptom evaluation.36 The SCOAT provides a space for such serial results to be documented and integrated into the final return-to-play decision.


Because the manifestations of concussion are largely functional rather than structural, brain scans (CT or MRI) have specific indications.37 In those cases where imaging is warranted, the indication, type of scan and result are recorded on the SCOAT. Newer, emerging forms of imaging technology such as proton magnetic resonance spectroscopy (H-MRS)38 and diffusion tensor imaging DTI39 are not readily available, affordable or accessible yet in South Africa but may warrant inclusion later should they show important clinical information.

Scoring system

One of the significant changes between the SCOAT and SCAT2 templates is the scoring system. As described earlier, whereas the SCAT2 awards points for adverse findings (eg, symptoms and balance errors) as well as correctly completing tasks (eg, the components of the SAC), the SCOAT simplifies the scoring by only awarding points for adverse or incorrectly completed tasks. The importance of the symptom analysis is also emphasised in the SCOAT by weighting it according to the sum of the points awarded for each symptom and not just the number of positive symptoms.

The Maddock's and GCS scores, being significant only in the most acute stages, are left out. Instead, additional scores are symptoms (weighted for severity out of a possible total of 132) and physical findings (haemodynamic, associated injuries and neurological).

The maximum aggregate score is 200 and before returning to play the patient should ideally score 0 meaning there are no symptoms, the examination is normal and the verbal cognitive, co-ordination and balance tasks were flawlessly completed. In a fully recovered patient, this may still not be possible where the baseline measures of these parameters are not perfect, but we feel that 0 provides a benchmark towards which all recovering concussed athletes should trend.

Recommended management

No space is afforded on the SCAT2 for recording how the concussed player is managed. The SCOAT provides a record of medications prescribed, referrals to colleagues and paperwork dispensed.


The final block is a checklist of those factors most highlighted in the consensus statements1,,5 and essential for ensuring that the athlete is recovered before returning to sport namely that they are asymptomatic, have a normal examination, the computerised cognitive screen has normalised and the return-to-play exercise protocol has been followed while acknowledging the influence of modifying factors.

Table 1 summarises the key aspects of the SCOAT especially where these differ from the SCAT2, while the PDF version of the document is available at

Table 1

Key aspects of SCOAT


As with all such concussion assessment tools, the SCOAT has evolved from clinical experience and expert opinion, preceding rather than following a process of scientific validation. Nevertheless, our aim in developing this clinical aide is to include all aspects that science and our experience suggest are relevant to the evaluation and monitoring of the concussed athlete. Moreover, baseline assessment of athlete symptom scales, balance evaluations and cognitive ability has been shown to further improve the accuracy of postconcussion clinical evaluations and should be performed with the SCOAT.7 40,,42


The SCAT2 represents the best attempt yet at converting the principles of the international concussion consensus meetings into a practical clinical tool and is acknowledged by its authors as a work in progress that will be re-evaluated before December 2012. Having worked with SCAT2 for 2 years, the SCOAT embodies the ideas of South African sports physicians in an attempt to evolve a tool that encompasses the essential tenets of concussion consensus, embodies every relevant aspect of clinical care and is more pragmatic in the office environment, while acknowledging the benefits of baseline testing and the need for scientifically validating such an instrument. It is intended that this instrument will further contribute to the evolution of international sports concussion clinical protocol.


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  • Competing interests None.

  • Provenance and peer review Not commissioned; externally peer reviewed.