Zusammenfassung
Das SAC ist ein fünf- bis zehnminütiger Papier- und Bleistifttest. Er ist ein neuropsychologisches Bewertungsinstrument zur akuten, orientierenden Bewertung von Auswirkungen einer Gehirnerschütterung und deren neurokognitiven Folgen.
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Literatur
Barr W, McCrea M (2001) Sensitivity and specificity of standardized neurocognitive testing immediately following sports concussion. J Int Neuropsychol Soc 7:693–702
Brooks M, Snedden T, Mixis B, Hetzel S, McGuine T (2017) Establishing baseline normative values for the child sport concussion assessment tool. JAMA Pediatr 171:670–677
Chin E, Nelson L, Barr W, McCrory P, McCrea M (2016) Reliability and validity of the sport concussion assessment tool-3 (SCAT3) in high school and collegiate athletes. Am J Sports Med 44:2276–2284
Daniel J, Nassiri J, Wilckens J, Land B (2002) The implementation and use of the standardized assessment of concussion at the US Naval Academy. Mil Med 167:873–876
Downey R, Hutchison M, Comper P (2018) Determining sensitivity and specificity of the sport concussion assessment tool 3 (SCAT3) components in university athletes. Brain Inj 32:1345–1352
Echlin P, Tator C, Cusimano M, Cantu R, Taunton J, Upshur R, Hall C, Johnson A, Forwell L, Skopelja E (2010) A prospective study of physician-observed concussions during junior ice hockey: implications for incidence rates. Neurosurg Focus 29:E4
Erdman N, Kleshwa P, Hacherl S, Caswell S (2021) Symptoms are the most effective child SCAT5 component for recognizing concussion on the day of injury. https://doi.org/10.21203/rs.3.rs-957510/v1. Zugegriffen am 02.11.2021
Galetta K, Morganroth J, Moehringer N, Mueller B, Hasanaj L, Webb N, Civitano C, Cardone D, Silverio A, Galetta S, Balcer L (2015) Adding vision to concussion testing. J Neuroophthalmol 35:235–241
Galetta M, Galetta K, McCrossin J, Wilson J, Moster S, Galetta S, Balcer L, Dorshimer G, Master C (2013) Saccades and memory: baseline associations of the King-Devick and SCAT2 SAC tests in professional ice hockey players. J Neurol Sci 328:28–31
Giza C, Kutcher J, Ashwal S, Barth J, Getchius T, Gioia G, Gronseth G, Guskiewicz K, Mandel S, Manley G, McKeag D, Thurman D, Zafonte R (2013) Summary of evidence-based guideline up-date: evaluation and management of concussion in sports: report of the Guideline Development Subcommittee of the American Academy of Neurology. Neurology 80:2250–2257
Glaviano N, Benson S, Goodkin H, Broshek D, Saliba S (2014) Baseline SCAT2 assessment of healthy youth student-athletes: preliminary evidence for the use of the child-SCAT3 in children younger than 13 years. Clin J Sport Med 25:373–379
Grubenhoff J, Kirkwood M, Gao D, Deakyne S, Wathen J (2010) Evaluation of the standardized assessment of concussion in a pediatric emergency department. Pediatrics 126:688–695
Guskiewicz K, Broglio S (2011) Sport-related concussion: on-field and sideline assessment. Phys Med Rehabil Clin N Am 22:603–617
Guskiewicz K, Ross S, Marshall S (2001) Postural stability and neuropsychological deficits after concussion in collegiate athletes. J Athl Train 36:263–273
Gysland S, Mihalik J, Register-Mihalik J, Trulock S, Shields E, Guskiewicz K (2012) The relationship between subconcussive impacts and concussion history on clinical measures of neurologic function in collegiate football players. Ann Biomed Eng 40:14–22
Hänninen T, Tuominen M, Parkkari J, Vartiainen M, Öhman J, Iverson G, Luoto T (2016) Sport concussion assessment tool – 3rd edition – normative reference values for professional ice hockey players. J Sci Med Sport 19:636–641
Harrold K, Hasanaj L, Moehringer N, Zhang I, Nolan R, Serrano L, Raynowska J, Rucker J, Flanagan S, Cardone D, Galetta S, Balcer L (2017) Rapid sideline performance meets outpatient clinic: results from a multidisciplinary concussion center registry. J Neurol Sci 379:312–317
Hunt T, Ferrara M (2009) Age related differences in neuropsychological testing among high school athletes. J Athl Train 44:405–409
Jinguji T, Bompadre V, Harmon K, Satchell E, Gilbert K, Wild J, Eary J (2012) Sport concussion assessment tool-2: baseline values for high school athletes. Br J Sports Med 46:365–370
King D, Brughelli M, Hume P, Gissane C (2013) Concussions in amateur rugby union identified with the use of a rapid visual screening tool. J Neurol Sci 326:59–63
Lau B, Collins M, Lovell M (2011) Sensitivity and specificity of subacute computerized neurocognitive testing and symptom evaluation in predicting outcomes after sports-related concussion. Am J Sports Med 39:1209–1216
McCrea M (2001) Standardized mental status assessment of sports concussion. Clin J Sport Med 11:176–181
McCrea M (2001) Standardized mental status testing on the sideline after sport related concussion. J Athl Train 36:274–279
McCrea M, Barr W, Guskiewicz K, Randolph C, Marshall S, Cantu R, Onate J, Kelly J (2005) Standard regression-based methods for measuring recovery after sport-related concussion. J Int Neuropsych Sci 11:58–69
McCrea M, Guskiewicz K, Marshall S (2003) Acute effects and recovery time following concussion in collegiate football players: the NCAA Concussion Study. JAMA 290:2556–2563
McCrea M, Guskiewicz K, Randolph C, Barr W, Hammeke T, Marshall S, Powell M, Woo Ahn K, Wang Y, Kelly J (2013) Incidence, clinical course, and predictors of prolonged recovery time following sport-related concussion in high school and college athletes. J Int Neuropsych Sci 19:22–33
McCrea M, Kelly J, Kluge J, Ackley B, Randolph C (1997) Standardized assessment of concussion in football players. Neurology 48:586–588
McCrea M, Kelly J, Randolph C, Cisler R, Berger L (2002) Immediate neurocognitive effects of concussion. Neurosurgery 50:1032–1040
McCrea M, Kelly J, Randolph C, Kluge J, Bartolic E, Finn G, Baxter B (1998) Standardized assessment of concussion (SAC): on-site mental status evaluation of the athlete. J Head Trauma Rehabil 13:27–35
McCrea M, Prichep L, Powell M, Chabot R, Barr W (2010) Acute effects and recovery after sport-related concussion: a neurocognitive and quantitative brain electrical activity study. J Head Trauma Rehabil 25:283–292
Miller J, Adamson G, Pink M, Sweet J (2007) Comparison of preseason, midseason, and postseason neurocognitive scores in uninjured collegiate football players. Am J Sports Med 35:1284–1288
Nelson L, Loman M, LaRoche A, Furger R, McCrea M (2017) Baseline performance and psychometric properties of the child sport concussion assessment tool 3 (Child-SCAT3) in 5- to 13-year-old athletes. Clin J Sport Med 27:381–387
Ortiz M, Murguía-Cánovas G (2016) Baseline values of the SCAT in Mexican football association players. Int J Sports Exerc Med 2:037
Putukian M, Echemendia R, Dettwiler-Danspeckgruber A, Duliba T, Bruce J, Furtado J, Murugavel M (2014) Prospective clinical assessment using sideline concussion assessment tool-2 testing in the evaluation of sport-related concussion in college athletes. Clin J Sport Med 25:36–42
Ragan B, Herrmann S, Kang M, Mack M (2009) Psychometric evaluation of the standardized assessment of concussion: evaluation of baseline score validity using item analysis. Athletic Train Sports Health Care 1:180–187
Snedden T, Brooks M, Hetzel S, McGuine T (2017) Normative values of the sport concussion assessment tool 3 (SCAT3) in high school athletes. Clin J Sport Med 27:462–467
Snyder A, Bauer R, Network HIfF. (2014) A normative study of the sport concussion assessment tool (SCAT2) in children and adolescents. Clin Neuropsychol 28:1091–1103
Valovich McLeod T, Barr W, McCrea M, Guskiewicz K (2006) Psychometric and measurement properties of concussion assessment tools in youth sports. J Athl Train 41:399–401
Valovich McLeod T, Bay R, Lam K, Chhabra A (2012) Representative baseline values on the sport concussion assessment tool 2 (SCAT2) in adolescent athletes vary by gender, grade, and concussion history. Am J Sports Med 40:927–933
Valovich McLeod T, Perrin D, Guskiewicz K, Shultz S, Diamond R, Gansneder B (2004) Serial administration of clinical concussion assessments and learning effects in healthy young athletes. Clin J Sport Med 14:287–295
Valovich T, Perrin D, Gansneder B (2003) Repeat administration elicits a practice effect with the balance error scoring system but not with the standardized assessment of concussion in high school athletes. J Athl Train 38:51–56
Weber A, Mihalik J, Register-Mihalik J, Mays S, Prentice W, Guskiewicz K (2013) Dehydration and performance on clinical concussion measures in collegiate wrestlers. J Athl Train 48:153–160
Zimmer A, Marcinak J, Hibyan S, Webbe F (2015) Normative values of major SCAT2 and SCAT3 components for a college athlete population. Appl Neuropsychol Adult 22:132–140
Zimmer A, Piecora K, Schuster D, Webbe F (2013) Sport and team differences on baseline measures of sport-related concussion. J Athl Train 48:659–667
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© 2023 Der/die Autor(en), exklusiv lizenziert an Springer-Verlag GmbH, DE, ein Teil von Springer Nature
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Gänsslen, A., Ruhe, A., Schmehl, I. (2023). Standard Assessment of Concussion (SAC). In: Gänsslen, A., Schmehl, I., Lüngen, H. (eds) Die Gehirnerschütterung. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-662-65600-6_16
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