Subscribe to RSS
Please copy the URL and add it into your RSS Feed Reader.
https://www.thieme-connect.de/rss/thieme/en/10.1055-s-00000028.xml
Download PDF
Int J Sports Med
DOI: 10.1055/a-2615-3553
DOI: 10.1055/a-2615-3553
Review
Postexercise Physical Recovery Methods for Combat Sports: A Scoping Review
Abstract
This scoping review (1) summarizes postexercise recovery methods for combat sports (CS) athletes and (2) synthesizes their effects on key biochemical, physiological, and physical outcomes. Trained CS athletes were included. Studies examined active (exercise) and passive (e.g., compression) recovery methods, comparing them to controls or alternatives. Outcomes—biochemical, physiological, or physical—were measured pre- and postintervention in experimental and quasi-experimental designs. Study quality and risk of bias were assessed using a modified version of the Downs and Black assessment scale. Searches were performed in PubMed, Scopus, SPORTDiscus, and Web of Science. This review of 27 articles (554 athletes) found mixed effects of recovery methods on biochemistry. Active recovery aids acute lactate reduction, while compression and dry needling enhance pain threshold, perfusion, and muscle tone at 24–48 hours. Most methods have little impact on immediate performance, with few surpassing passive recovery at 24 hours. Different methods are studied in CS, though benefits for biochemical and physical outcomes appear limited. Active recovery aids lactate clearance, while compression and dry needling offer physiological benefits at 24–48 hours. Coaches may use these methods to improve metabolic and muscle recovery posttraining; however, these approaches should be designed to meet the training demands, athlete preferences, and recovery timelines.
Keywords
martial arts - athletic performance - physical therapy modalities - rest - recovery modalitiesPublication History
Received: 28 November 2024
Accepted after revision: 16 May 2025
Accepted Manuscript online:
16 May 2025
Article published online:
01 August 2025
© 2025. Thieme. All rights reserved.
Georg Thieme Verlag KG
Oswald-Hesse-Straße 50, 70469 Stuttgart, Germany
-
References
- 1 Chaabène H, Tabben M, Mkaouer B, Franchini E, Negra Y, Hammami M. et al. Amateur boxing: physical and physiological attributes. Sports Med 2015; 45: 337-352
- 2 James LP, Haff GG, Kelly VG, Beckman EM. Towards a determination of the physiological characteristics distinguishing successful mixed martial arts athletes: a systematic review of combat sport literature. Sports Med 2016; 46: 1525-1551
- 3 Franchini E, Brito CJ, Fukuda DH, Artioli GG. The physiology of judo-specific training modalities. J Strength Cond Res 2014; 28: 1474-1481
- 4 Barley OR, Chapman DW, Guppy SN, Abbiss CR. Considerations when assessing endurance in combat sport athletes. Front Physiol 2019; 10: 10
- 5 Cid-Calfucura I, Herrera-Valenzuela T, Franchini E, Falco C, Alvial-Moscoso J, Pardo-Tamayo C. et al. Effects of strength training on physical fitness of olympic combat sports athletes: a systematic review. Int J Environ Res Public Health 2023; 20: 3516
- 6 Beránek V, Votápek P, Stastny P. Force and velocity of impact during upper limb strikes in combat sports: a systematic review and meta-analysis. Sports Biomech 2023; 22: 921-939
- 7 Kons RL, Orssatto LBR, Detanico D. Acute performance responses during repeated matches in combat sports: A systematic review. J Sci Med Sport 2020; 23: 512-518
- 8 Ghoul N, Tabben M, Miarka B, Tourny C, Chamari K, Coquart J. Mixed Martial Arts Induces Significant Fatigue and Muscle Damage Up to 24 Hours Post-combat. J Strength Cond Res 2019; 33: 1570-1579
- 9 Degoutte F, Jouanel P, Filaire E. Energy demands during a judo match and recovery. Br J Sports Med 2003; 37: 245-249
- 10 Finlay MJ, Page RM, Greig M, Bridge CA. The prevalence of pre-conditioning and recovery strategies in senior elite and non-elite amateur boxing. Phys Sports Med 2022; 50: 323-331
- 11 Tabben M, Ihsan M, Ghoul N, Coquart J, Chaouachi A, Chaabene H. et al. Cold water immersion enhanced athletes’ wellness and 10-m short sprint performance 24-h after a simulated mixed martial arts combat. Front Physiol 2018; 9: 9
- 12 Trybulski R, Kużdżał A, Stanula A, Klich S, Clemente FM, Kawczyński A. et al. Biomechanical profile after dry needling in mixed martial arts. Int J Sports Med 2024; 45: 968-979
- 13 Bishop PA, Jones E, Woods AK. Recovery from training: a brief review. J Strength Cond Res 2008; 22: 1015-1024
- 14 Silveira Coswig V, Hideyoshi Fukuda D, de Paula Ramos S, Boscolo Del Vecchio F. Biochemical Differences between official and simulated mixed martial arts (MMA) matches. Asian J Sports Med 2016; 7: e30950
- 15 Tota ŁM, Wiecha SS. Biochemical profile in mixed martial arts athletes. PeerJ 2022; 10: e12708
- 16 Bridge CA, Ferreira da Silva Santos J, Chaabène H, Pieter W, Franchini E. Physical and physiological profiles of taekwondo athletes. Sports Med 2014; 44: 713-733
- 17 Slimani M, Chaabène H, Davis P, Franchini E, Cheour F, Chamari K. Performance aspects and physiological responses in male amateur boxing competitions: a brief review. J Strength Cond Res 2017; 31: 1132-1141
- 18 Chaabene H, Negra Y, Bouguezzi R, Capranica L, Franchini E, Prieske O. et al. Tests for the assessment of sport-specific performance in olympic combat sports: a systematic review with practical recommendations. Front Physiol 2018; 9: 9
- 19 Kellmann M, Bertollo M, Bosquet L. et al. Recovery and performance in sport: consensus statement. Int J Sports Physiol Perform 2018; 13: 240-245
- 20 Reale R, Slater G, Burke LM. Individualised dietary strategies for Olympic combat sports: Acute weight loss, recovery and competition nutrition. Eur J Sport Sci 2017; 17: 727-740
- 21 Tirla A, Islam F, Islam MdR. et al. New insight and future perspectives on nutraceuticals for improving sports performance of combat players: focus on natural supplements, importance and advantages over synthetic ones. Appl Sci 2022; 12: 8611
- 22 Dunican IC, Galpin A, Turner M, Reale R. Sleep behaviors and nutritional knowledge in amateur and professional combat sport athletes. J Strength Cond Res 2024; 38: 1627-1634
- 23 Ouergui I, Hammouda O, Chtourou H, Gmada N, Franchini E. Effects of recovery type after a kickboxing match on blood lactate and performance in anaerobic tests. Asian J Sports Med 2014; 5: 99-107
- 24 Davis HL, Alabed S, Chico TJA. Effect of sports massage on performance and recovery: a systematic review and meta-analysis. BMJ Open Sport Exercise Med 2020; 6: e000614
- 25 Trybulski R, Kużdżał A, Bichowska-Pawęska M, Vovkanych A, Kawczyński A, Biolik G. et al. Immediate effect of cryo-compression therapy on biomechanical properties and perfusion of forearm muscles in mixed martial arts fighters. J Clin Med 2024; 13: 1177
- 26 Trybulski R, Stanula A, Vovkanych A, Halski T, Paprocka-Borowicz M, Dymarek R. et al. Optimal duration of cold and heat compression for forearm muscle biomechanics in mixed martial arts athletes: a comparative study. Med Sci Monit 2024; 30: 30
- 27 Kużdżał A, Muracki J, Makar P, Roczniok R, Studnicki R, Pożarowszczyk-Kuczko B. et al. Assessment of the impact of heat-compression therapy time on muscle biomechanical properties and forearm tissue perfusion in MMA fighters—A pilot study. Appl Sci 2024; 14: 8659
- 28 Trybulski R, Stanula A, Żebrowska A, Podleśny M, Hall B. Acute effects of the dry needling session on gastrocnemius muscle biomechanical properties, and perfusion with latent trigger points – a single-blind randomized controlled trial in mixed martial arts athletes. J Sports Sci Med 2024; 23: 136-146
- 29 Kużdżał A, Clemente FM, Kawczyński A, Ryszkiel I, Trybulski R. Comparing the effects of compression contrast therapy and dry needling on muscle functionality, pressure pain threshold, and perfusion after isometric fatigue in forearm muscles of combat sports athletes: a single-blind randomized controlled trial. J Sports Sci Med 2024; 23: 548-558
- 30 Babault N, Cometti C, Maffiuletti NA, Deley G. Does electrical stimulation enhance post-exercise performance recovery?. Eur J Appl Physiol 2011; 111: 2501-2507
- 31 Zebrowska A, Trybulski R, Roczniok R, Marcol W. Effect of physical methods of lymphatic drainage on postexercise recovery of mixed martial arts athletes. Clin J Sport Med 2019; 29: 49-56
- 32 Versey NG, Halson SL, Dawson BT. Water immersion recovery for athletes: effect on exercise performance and practical recommendations. Sports Med 2013; 43: 1101-1130
- 33 Trybulski R, Żebrowska A, Bichowska-Pawęska M, Kużdżał A, Ryszkiel I, Silva RM. et al. The effects of combined contrast heat cold pressure therapy on post-exercise muscle recovery in MMA fighters: A randomized controlled trial. J Hum Kinet 2024; 94: 127-146
- 34 Trybulski R, Kużdżał A, Stanula A, Muracki J, Kawczyński A, Kuczmik W. et al. Acute effects of cold, heat and contrast pressure therapy on forearm muscles regeneration in combat sports athletes: a randomized clinical trial. Sci Rep 2024; 14: 22410
- 35 López-Laval I, Mielgo-Ayuso J, Terrados N, Calleja-GonzÁlez J. Evidence-based post exercise recovery in combat sports: a narrative review. J Sports Med Phys Fitness 2021; 61: 61-400
- 36 Peters MDJ, Godfrey CM, Khalil H. et al. Guidance for conducting systematic scoping reviews. Int J Evid Healthcare 2015; 13: 141-146
- 37 Munn Z, Peters MDJ, Stern C, Tufanaru C, McArthur A, Aromataris E. Systematic review or scoping review? Guidance for authors when choosing between a systematic or scoping review approach. BMC Med Res Methodol 2018; 18: 143
- 38 Page MJ, McKenzie JE, Bossuyt PM, Boutron I, Hoffmann TC, Mulrow CD. et al. The PRISMA 2020 statement: An updated guideline for reporting systematic reviews. Int J Surg 2021; 88: 105906
- 39 Tricco AC, Lillie E, Zarin W, O'Brien KK, Colquhoun H, Levac D. et al. PRISMA Extension for Scoping Reviews (PRISMA-ScR): checklist and explanation. Ann Intern Med 2018; 169: 467-473
- 40 Rechenchosky L, Menegassi VM, Jaime MO, Borges PH, Sarmento H, Mancha-Triguero D. et al. Scoping review of tests to assess tactical knowledge and tactical performance of young soccer players. J Sports Sci 2021; 39: 2051-2067
- 41 Expertscape. Experts in Martial Arts. 2024
- 42 McKay AKA, Stellingwerff T, Smith ES. et al. Defining training and performance caliber: a participant classification framework. Int J Sports Physiol Perform 2022; 17: 317-331
- 43 Downs SH, Black N. The feasibility of creating a checklist for the assessment of the methodological quality both of randomised and non-randomised studies of health care interventions. J Epidemiol Community Health (1978) 1998; 52: 377-384
- 44 Sarmento H, Clemente FM, Araújo D, Davids K, McRobert A, Figueiredo A. What performance analysts need to know about research trends in association football (2012–2016): A systematic review. Sports Med 2017; 48: 799-836
- 45 Rico-González M, Pino-Ortega J, Clemente FM, Rojas-Valverde D, Arcos AL. A systematic review of collective tactical behavior in futsal using positional data. Biol Sport 2021; 38: 23-36
- 46 de Araújo LF, da Silva DF, Peserico CS, Machado FA. Effects of LED therapy and cryotherapy recovery methods on maximal isometric handgrip strength and blood lactate removal in Brazilian Jiu-Jitsu (BJJ) practitioners. Sci Sports 2017; 32: 376-380
- 47 Arovah NI, Putri DAT. The acute effect of proprioceptive neuromuscular facilitation recovery technique on fatigue in karate athletes. Sci Sports 2024; 39: 206-213
- 48 Branco BH, Fukuda DH, Andreato LV, Santos JF, Esteves JV, Franchini E. The effects of hyperbaric oxygen therapy on post-training recovery in jiu-jitsu athletes. PLoS One 2016; 11: e0150517
- 49 Brown FCW, Hill JA, van Someren K, Howatson G, Pedlar CR. The effect of custom‐fitted compression garments worn overnight for recovery from judo training in elite athletes. Eur J Sport Sci 2022; 22: 521-529
- 50 César EP, Júnior CSR, Francisco RN. Effects of 2 intersection strategies for physical recovery in jiu-jitsu athletes. Int J Sports Physiol Perform 2021; 16: 585-590
- 51 Ceylan B, Taşkın HB, Šimenko J. Effect of ischemic preconditioning on acute recovery in elite judo athletes: a randomized, single-blind, crossover trial. Int J Sports Physiol Perform 2023; 18: 180-186
- 52 Fonseca LB, Brito CJ, Silva RJ, Silva-Grigoletto ME, da Silva WM J, Franchini E. Use of cold-water immersion to reduce muscle damage and delayed-onset muscle soreness and preserve muscle power in jiu-jitsu athletes. J Athl Train 2016; 51: 540-549
- 53 Franchini E, Takito MY, Nakamura FY. et al. Effects of recovery type after a judo combat on blood lactate removal and on performance in an intermittent anaerobic task. J Sports Med Phys Fit 2003; 43: 424-431
- 54 Franchini E, de Moraes Bertuzzi RC, Takito MY, Kiss MA. Effects of recovery type after a judo match on blood lactate and performance in specific and non-specific judo tasks. Eur J Appl Physiol 2009; 107: 377-383
- 55 Ghorbani S, Mohebbi H, Safarimosavi S, Ghasemikaram M. The effect of different recovery methods on blood lactate removal in wrestlers. J Sports Med Phys Fit 2015; 55: 273-279
- 56 Lindsay A, Carr S, Othman MI, Marks E, Davies S, Petersen C. et al. The physiological and mononuclear cell activation response to cryotherapy following a mixed martial arts contest: a pilot study. Pteridines 2015; 26: 143-151
- 57 Lindsay A, Carr S, Cross S, Petersen C, Lewis JG, Gieseg SP. The physiological response to cold-water immersion following a mixed martial arts training session. Appl Physiol Nutr Metab 2017; 42: 529-536
- 58 Medeiros JA, Almeida-Neto PF, Bulhões-Correia A, Medeiros RCSC, Alves JDF, Aidar FJ. et al. Effect of cryotherapy on post-exercise cardiac autonomic recovery in mixed martial arts (MMA) fighters: A randomized clinical trial. Res Soc Dev 2022; 11: e23311527984
- 59 Pinho Júnior EA, Brito CJ, Costa Santos WO. et al. Influence of cryotherapy on muscle damage markers in jiu-jitsu fighters after competition: a cross-over study. Rev Andal Med Deport 2014; 7: 7-12
- 60 Šančić J, Scruton A, Prosoli R. et al. Active recovery vs sodium bicarbonate: impact on lactic acid removal following a specific judo effort. Arch Budo 2017; 13: 315-322
- 61 Santos WOC, Brito CJ, Júnior EAP, Valido CN, Mendes EL, Nunes MAP. et al. Cryotherapy post-training reduces muscle damage markers in jiu-jitsu fighters. J Hum Sport Exercise 2012; 7: 629-638
- 62 Touguinha HM, Silva FF, Carvalho W. et al. Effects of Active vs. Passive Recovery on Blood Lactate after Specific Judo-Task. J Exerc Physiol 2011; 14: 54-61
- 63 Yarar H, Gök Ü, Dağtekin A, Saçan Y, Eroğlu H. The effects of different recovery methods on anaerobic performance in combat sports athletes. Acta Gymn 2021; 51: 51
- 64 Wilcock IM, Cronin JB, Hing WA. Physiological response to water immersion. Sports Med 2006; 36: 747-765
- 65 White GE, Wells GD. Cold-water immersion and other forms of cryotherapy: physiological changes potentially affecting recovery from high-intensity exercise. Extrem Physiol Med 2013; 2: 26
- 66 Peake JM, Neubauer O, Della Gatta PA, Nosaka K. Muscle damage and inflammation during recovery from exercise. J Appl Physiol 2017; 122: 559-570
- 67 Ihsan M, Watson G, Abbiss CR. What are the physiological mechanisms for post-exercise cold water immersion in the recovery from prolonged endurance and intermittent exercise?. Sports Med 2016; 46: 1095-1109
- 68 Xiong Y, Tao X. Compression garments for medical therapy and sports. Polymer (Basel) 2018; 10: 663
- 69 Menzies P, Menzies C, McIntyre L, Paterson P, Wilson J, Kemi OJ. Blood lactate clearance during active recovery after an intense running bout depends on the intensity of the active recovery. J Sports Sci 2010; 28: 975-982
- 70 Ferraresi C, Huang Y, Hamblin MR. Photobiomodulation in human muscle tissue: an advantage in sports performance?. J Biophotonics 2016; 9: 1273-1299
- 71 Tang C-T, Song B. Acupuncture and dry needling for sports performance and recovery. Curr Sports Med Rep 2022; 21: 213-218
- 72 Hill J, Howatson G, van Someren K, Leeder J, Pedlar C. Compression garments and recovery from exercise-induced muscle damage: a meta-analysis. Br J Sports Med 2014; 48: 1340-1346
- 73 Cochrane DJ. Alternating hot and cold water immersion for athlete recovery: a review. Phys Ther Sport 2004; 5: 26-32
- 74 Bakar Y, Coknaz H, Karlı Ü, Semsek Ö, Serın E, Pala ÖO. Effect of manual lymph drainage on removal of blood lactate after submaximal exercise. J Phys Ther Sci 2015; 27: 3387-3391