Abstract
In this review we analyse the data from the literature on fencing with the aim of creating a psychobiological and multi-factorial model of fencing performance.
Fencing is an open-skilled combat sport that was admitted to the first modern Olympic Games in Athens (1896). It is mainly practised indoors, with three different weapons: the foil, the sabre and the épée, each contested with different rules. A fencing international tournament may last between 9 and 11 hours. Bouts represent only 18% of total competition time, with an effective fight time of between 17 and 48 minutes.
The physical demands of fencing competitions are high, involving the aerobic and anaerobic alactic and lactic metabolisms, and are also affected by age, sex, level of training and technical and tactical models utilized in relation to the adversary.
The anthropometrical characteristics of fencers show a typical asymmetry of the limbs as a result of the practice of an asymmetrical sport activity. Fencing produces typical functional asymmetries that emphasize the very high level of specific function, strength and control required in this sport.
Moreover, the physical demands of fencing are closely linked to the perceptual and psychological ones, and all are subjected to a continuous succession of changes during the bouts based on the behaviour of the opponent. For this reason it is difficult to identify a significant relationship between any one physiological characteristic and performance, and performance is more likely to be influenced by perceptual and neuro-physiological characteristics. Fencers need to anticipate the opponent and to mask their true intentions with a game of feints and counterfeints, which must be supported by an adequate psycho-physical condition to prevent central and peripheral fatigue.
Fencing is not particularly dangerous; however, there is a fine line between a fatal lesion and a simple wound from a broken blade. The suggestions for injury prevention fall into three primary areas: (i) actions that can be taken by participants; (ii) improvements in equipment and facilities; and (iii) administration of fencing competitions. As in every other sport, the prevention of accidents must be accomplished at various levels and above all must involve the institutions that are responsible for safety in sports.
Similar content being viewed by others
References
Porzio L, Mele G. Arte gladiatoria dimicandi. 15th century swordsmanship of master Filippo Vadi. Highland Village, (TX): Chivalry Bookshelf, 2002
Labat. L’art en fait d’armes. Toulouse, 1696
Agrippa C. Trattato di scienza d’arme. Et un dialogo in detta materia. Venice, 1604
Waterloh E, Hollman W, Rittel HL, et al. Die bedeutung der schutzkleidung bei spitzenfechtern für temperaturregulation und kardiopulmonale leistungsfähigkeit. Mediziner Welt 1968; 40: 2174–85
Daya A, Donne B, O’Brien M. Newly designed fencing face mask: effects on cardiorespiratory costs and sub—maximal performance. Br J Sports Med 2006; 40: 6
Iglesias Y, Reig X. Valoració funcional específica en l’esgrima [dissertation]. Barcelona: University of Barcelona, 1998
Roi GS, Pittaluga I. Time—motion analysis in women’s sword fencing. Proceedings of the Fourth IOC Congress on Sport Sciences; 1997 Oct 22-25; Monaco: 66
Lavoie JM, Leger L, Pitre R, et al. Compètitions d’escrime: epée. Analyse des durées et distances de déplacement. Med du Sport 1985; 59: 279–83
Rittel HF, Waterloh E. Telemetrische Untersuchungen beim Fechttraining. Leistungssport 1975; 5: S116–21
Sardella F. Risultanze delle ricerche effettuate su schermidori impegnati in esercitazioni di gara nel corso degli allenamenti premondiali 1982. Scherma 1983; XXV Suppl. 6: 2–5
Li JX, So RCH, Yuan YWI, et al. Muscle strain and cardiovascular stress in fencing competition. Proceedings of the 5th IOC World Congress on Sport Sciences; 1999 Oct 31-Nov 5; Sydney: 222
Cerizza C, Roi GS. Aspetti fisiologici dell’attività sportiva di base, le caratteristiche fondamentali del giovane schermidore. In: Lodetti G, Ravasini C, editors. Sport & educazione giovanile. Milan: Ghedini Editore, 1994: 89–96
Hoch F, Werle E, Weicker H. Sympathoadrenergic regulation in elite fencers in training and competition. Int J Sports Med 1988; 9: 141–5
Caldarone G, Pelliccia A, Gambuli N, et al. Valori antropometrici, abitudini alimentari e parametri ematochimico in un gruppo di schermidori di elevato livello agonistico. In: Studi e ricerche di medicina dello sport applicata alla scherma. Pisa: Giardini Editore, 1983: 51–63
Falsenberg D, Gowin W. Bone densitometry: application in sports—medicine. Eur J Radiol 1998; 28: 150–4
Van Dam B, Waterloh E. Die wirkung eines multi—vitamielektrolyt—präparats auf einige biocheische variablen sowie auf leistungsbeeinflussende faktoren im fechten. Leistungssport 1979; 9: 110–5
Van Dam B, Haralambie G. Die änderungen einiger biochemischer parameter durch sportartspezifische belastungen im fecht sport. Leistungssport 1977; 7: 285–92
Van Dam B. Vitamins and sport. Br J Sports Med 1978; 12: 74–7
Reinberg A, Proux S, Bartal JP, et al. Circadian rhythms in competitive saber fencers: internal desynchronization and performance. Chronobiol Int 1985; 2: 195–201
Roi GS, Toran G, Fiore A, et al. Zur entwicklung eines leistung smodells im spitzensport am beispiel fechten. Leistungssport 2002; 4: 57–62
Tsolakis CH, Bogdanis GC, Vagenas G. Anthropometric profile and limb asymmetries in young male and female fencers. J Hum Mov Stud 2006; 50: 201–16
Rivera MA, Rivera-Brown AM, Frontera WR. Health related physical fitness characteristics of elite Puerto Rican athletes. J Strength Cond Res 1998; 12: 199–203
Vander L, Barry F, Wrisley D, et al. Physiological profile of national—class national collegiate athletic association fencers. JAMA 1984; 252: 500–3
Roi GS, Mognoni P. Lo spadista modello. SdS 1987; 9: 51–7
Harmenberg J, Ceci R, Barvestad P, et al. Comparison of different tests of fencing performance. Int J Sports Med 1991; 12: 573–6
Koutedakis Y, Ridgeon A, Sharp NCC, et al. Seasonal variation of selected performance parameters in épée fencers. Br J Sports Med 1993; 27: 171–4
Margonato V, Roi GS, Cerizza C, et al. Maximal isometric force and muscle cross’sectional area of the forearm in fencers. J Sports Sci 1994; 12: 567–72
Nyström J, Lindvall O, Ceci R, et al. Physiological and morphological characteristics of world class fencers. Int J Sports Med 1990; 11: 136–9
Tsolakis CH, Katsikas CH. Long term effects of a combined physical conditioning and fencing training program on neuromuscular performance in elite fencers. Int J Fitness 2006; 2 (1): 35–42
Roi GS. Caratteristiche fisiologiche dello schermidore. In: Roi GS, Toran G, Maserati A, et al., editors. Considerazioni per formulare un modello di prestazione della scherma moderna. Naples: Associazione Italiana Maestri di Scherma, 1999: 17–20
Carter JEL, Heath BH. Somatotyping: development and applications. Cambridge: University Press, 1990
Stewart K, Peredo AR, Williams C. Physiological and morphological factors associated with successful fencing performance. J Hum Ergol 1977; 6: 53–60
Manning JT, Bundred PE, Taylor R. The ratio of 2nd to 4th digit length: a prenatal correlate of ability in sport. In: Relly T, Marfell-Jones M, editors. Kinanthropometry VIII: Proceedings of the 8th International Conference of the International Society for the Advancement of Kinanthropometry (ISAK). London: Routlege, 2003: 165–74
Manning JT, Scutt D, Wilson J, et al. The ratio of 2nd to 4th digit length: a predictor of sperm numbers and concentrations of testosterone, luteinizing hormone and oestrogen. Hum Reprod 1998; 13: 3000–4
Voracek M, Reimer B, Ertl C, et al. Digit ratio (2D:4D), lateral preferences, and performance in fencing. Percept Motor Skills 2006; 103: 427–46
Sapega A, Minkoff J, Valsamis M, et al. Musculoskeletal performance testing and profiling of elite competitive fencers. Clin Sports Med 1984; 3: 231–44
Gioux M, Arne P, Dogui M, et al. Biomechanical and electromyographycal characteristics of the human quadriceps in relation with sport performance. Proceedings of the World Congress of Sports Medicine. Vienna: Urban and Schwarzenberg, 1984: 699–705
Tsolakis CK, Bogdanis GC, Vagenas GK, et al. Influence of twelve—month conditioning program on physical growth, serum hormones, and neuromuscular performance of peripubertal male fencers. J Strength Cond Res 2006; 20: 908–14
Bressan A, Ranzani P. La valutazione funzionale degli arti inferiori nella scherma. SdS 1998; 41/42: 104–19
Bressan A. Fiorettisti a confronto. SdS 1990; 19: 10–21
Astrand PO, Rodhal K. Textbook of work physiology. New York: McGraw Hill, 1997
Di Prampero PE, Piñera-Limas F, Sassi G. Maximal muscular power aerobic and anaerobic, in 116 athletes performing at the XIXth Olympic Games in Mexico. Ergonomics 1970; 13: 665–74
Macarez JA. Effets de l’entrainment et d’un exercise bref et sousmaximal sur differentes variables physiologiques chez de jeunes escrimeurs. Med du Sport 1978; 52: 13–9
Naghavi H. Echocardiographic aspects of young elite fencers [abstract]. Br J Sports Med 2002; 36: 6
Whyte G, Sharma S, George K, et al. Alterations in cardiac morphology and function in elite multi—disciplinary athletes. Int J Sports Med 1999; 20: 222–6
Williams JM, Hoepner BJ, Moody DL, et al. Personality traits of champion level female fencers. Res Q 1970; 41: 446–53
Caldarone G, Berlutti G. Aspetti medici della scherma. In: Studi e ricerche di medicina dello sport applicata alla scherma. Pisa: Giardini Editore, 1983: 15–28
Colombo A, De Ambroggi A. Studio sull’età dei partecipanti alle prove individuali dei Campionati del Mondo di scherma. Roma: Federazione Italiana Scherma, 1982
Azemar G, Ripoll H, Simonet P, et al. L’evaluation de la lateralité en escrime: son interet et ses modealites pratiques. In: VII Congrès Medical de la Federation Internationale d’Escrime. Pisa: Giardini Editore, 1986: 93–116
Rossi B, Salmaso D. La preference manuelle dans l’escrime. In: L’escrime à travers les ages de la vie. VIII Congrès Medical de la Fédération Internationale d’Escrime; 1987 Jul 15; Lausanne: 77–111
Bisiacchi PS, Azemar G, Ripoll H, et al. Left’handedness in fencers: an attentional advantage. Precept Mot Skills 1985; 61: 507–13
Klinger A, Adrian M. Foil target impact forces during the fencing lunge. Biomechanics. VIII—B, International Series of Biomechanics, Vol. 4b. Champaign (IL): Human Kinetics, 1983
Adrian M, Klinger A. A biomechanical analysis of the fencing lunge. Med Sci Sports 1976; 8: 56
Cronin J, Mc Nair PJ, Marshall RN. Lunge performance and his determinants. J Sport Sci 2003; 21: 49–57
Lin FT. Optimal handle angle of the fencing foil for improved performance. Percept Mot Skills 2004; 98: 920–6
Legnani G, Zappa B, Roi GS, et al. Dynamic simulation of fencing hits. ISB Symposium on Computer Simulation in Biomechanics; 1999 Aug 6-7; Calgary (AB): 156–60
Natta F, Nouillot P. Searching for characteristic variables of first step in ‘target’ sabre fencer. XXIV Congrès de la Société de Biomécanique; 2004 Sep 8-10; Creteil: 70
Bard C, Guezennec I, Papin J. Escrime: analise de l’exploration visuelle. Med Sport 1981; 55: 246–53
Pierson ER. Comparison of fencers and non—fencers by psychomotor, space perception and anthropometric measures. Res Q 1956; 27: 90–6
Singer RN. Speed and accuracy of movement as related to fencing success. Res Q 1968; 39: 1080–3
Sanderson FH. The effect of directional uncertainty on reaction time and movement time in a fencing task. J Sport Sci 1983; 1: 105–10
Williams LR, Walmsley A. Response timing and muscular coordination in fencing: a comparison of elite and novice fencers. J Sci Med Sport 2000; 3: 460–75
Williams LR, Walmsley A. Response amendment in fencing: differences between elite and novice subjects. Percept Mot Skills 2000; 91: 131–42
Do MC, You E. Do centrally programmed anticipatory postural adjustments in fast stepping affect performance of an associated ‘touche’ movement? Exp Brain Res 1999; 129: 462–6
You E, Do MC. In fencing, does intensive practice equally improve the speed performance of touché when it is performed alone and in combination with the lunge? Int J Sports Med 2000; 21: 122–6
Toran G. Introduzione alla tattica schermistica. Rome: Società Stampa Sportiva, 1996
Di Russo F, Taddei F, Aprile T, et al. Neural correlates of fast stimulus discrimination and response selection in top—level fencers. Neurosci Lett 2006; 408: 113–8
Zemper ED, Harmer PH. Fencing. In: Caine D, Caine C, Linder K, editors. Epidemiology of sports injuries. Champaign (IL): Human Kinetics, 1996: 186–95
Roi GS, Fascì A. Requests for medical assistance during fencing matches. Ital J Sports Traumatol 1988; 1: 55–62
Naghavi H. A study of traumatic events in junior fencing competitions [abstract]. Br J Sports Med 2002; 36: 6
Naghavi H. Study of traumatic injuries in women fencing competitions [abstract]. Br J Sports Med 2002; 36: 6
Lanese RR, Strauss RH, Leizman DJ, et al. Injury and disability in matched men’s and women’s intercollegiate sports. Am J Publ Health 1990; 80: 1459–62
Zemper E. Epidemiology of athletic injuries. In: Mckeag D, Hough D, Zemper E, editors. Primary care sports medicine. Dubuque (IA): Brown & Banchmark, 1993: 63–73
Kelm J, Anagnostakos K, Deubel G, et al. The rupture of the tibialis tendon in a world class veteran fencer. Sportsverletz Sportschaden 2004; 18: 148–52
Muller-Strum AE, Biener K. Fechtsportunfalle Epidemiologie und prevention. Deut Zeit Sportmed 1991; 42: 48–52
Moyer J, Konin J. An overview of fencing injuries [abstract]. Am Fencing 1992; 42: 25
Carter C, Hell J, Zemper E. What hurts and why: data from the 1992 USFA fencing injury survey. Am Fencing 1993; 43: 16–7
Roi GS, Fascì A. Indagine sugli eventi traumatici nelle gare giovanili di scherma. Med Sport 1986; 39: 45–8
Calvo-Rubal A, Martínez F, Tarigo A. Cranial wounds of the skull by fencing foil [in Spanish]. Neurocirugia 2006; 17: 550–4
Guidelines for safety in fencing for fencers, coaches, referees, clubs, and competitions organisers [online]. Available from URL: (http://www.britishfencing.com/British_Fencing.asp?.PageID=100) [Accessed 2007 May 8]
White M. Off—season strength training for competitive fencer. Strength Condit J 1995; 17 (6): 62–4
Rippetoe M. Strength and conditioning for fencing. Strength Condit J 2000; 22 (2): 42–7
Kucera K, Henn S. Pravention und physiotherapie von verletzungen und uberlastungsschaden im fechten. Sport Orthop Sport Traumatol 2003; 19: 273–80
Timpka T, Ekstrand J, Svanstrom L. From sports injury prevention to safety promotion in sports. Sports Med 2006; 36: 733–45
Acknowledgments
No sources of funding were used to assist in the preparation of this review. The authors have no conflicts of interest that are directly relevant to the content of this review.
Author information
Authors and Affiliations
Corresponding author
Rights and permissions
About this article
Cite this article
Roi, G.S., Bianchedi, D. The Science of Fencing. Sports Med 38, 465–481 (2008). https://doi.org/10.2165/00007256-200838060-00003
Published:
Issue Date:
DOI: https://doi.org/10.2165/00007256-200838060-00003