Skip to main content
Key Specialties
Cardiology Diabetology Endocrinology Gastroenterology Geriatrics and Gerontology Gynecology and Obstetrics Hematology Infectious Disease Internal Medicine Nephrology Neurology Oncology Pediatrics Respiratory Medicine Rheumatology Surgery
Congress Coverage
2024 ACC Congress 2023 ESMO Congress 2023 EASD Congress 2023 ERS Congress 2023 ESC Congress
Clinical Collections
Advances in Alzheimer’s

Keynote webinar | Spotlight on medication adherence

LIVE: Thursday 27th June 2024, 18:00-19:30 (CEST)
Join our expert panel to discover why you need to understand the drivers of non-adherence in your patients, and how you can optimize medication adherence in your clinics to drastically improve patient outcomes.
ADVANCED SEARCH
Log in
Top
Sports Medicine
Published in: Sports Medicine 4/2018

01-04-2018 | Review Article

The General Adaptation Syndrome: A Foundation for the Concept of Periodization

Authors: Aaron J. Cunanan, Brad H. DeWeese, John P. Wagle, Kevin M. Carroll, Robert Sausaman, W. Guy Hornsby III, G. Gregory Haff, N. Travis Triplett, Kyle C. Pierce, Michael H. Stone

Published in: Sports Medicine | Issue 4/2018

Login to get access

Abstract

Recent reviews have attempted to refute the efficacy of applying Selye’s general adaptation syndrome (GAS) as a conceptual framework for the training process. Furthermore, the criticisms involved are regularly used as the basis for arguments against the periodization of training. However, these perspectives fail to consider the entirety of Selye’s work, the evolution of his model, and the broad applications he proposed. While it is reasonable to critically evaluate any paradigm, critics of the GAS have yet to dismantle the link between stress and adaptation. Disturbance to the state of an organism is the driving force for biological adaptation, which is the central thesis of the GAS model and the primary basis for its application to the athlete’s training process. Despite its imprecisions, the GAS has proven to be an instructive framework for understanding the mechanistic process of providing a training stimulus to induce specific adaptations that result in functional enhancements. Pioneers of modern periodization have used the GAS as a framework for the management of stress and fatigue to direct adaptation during sports training. Updates to the periodization concept have retained its founding constructs while explicitly calling for scientifically based, evidence-driven practice suited to the individual. Thus, the purpose of this review is to provide greater clarity on how the GAS serves as an appropriate mechanistic model to conceptualize the periodization of training.
Literature
1.
Buckner SL, Mouser JG, Dankel SJ, Jessee MB, Mattocks KT, Loenneke JP. The general adaptation syndrome: potential misapplications to resistance exercise. J Sci Med Sport. 2017;20(11):1015–7.PubMedCrossRef
2.
Mattocks KT, Dankel SJ, Buckner SL, Jessee MB, Counts BR, Mouser JG, et al. Periodization: what is it good for? J Trainol. 2016;5(1):6–12.CrossRef
3.
Kiely J. A new understanding of stress and the implications of our cultural training paradigm. New Stud Athl. 2016;30(3):27–35.
4.
5.
Philostratus. Heroicus. Gymnasticus. Discourses 1 and 2. London: Harvard University Press; 2014.
6.
Haff GG. Roundtable discussion: periodization of training—part 1. Strength Cond J. 2004;26(1):50–69.
7.
Drees L. Olympia: gods, artists, and athletes. New York: Praeger; 1968.
8.
Gardiner EN. Athletics in the ancient world. London: Oxford University Press; 1930.
9.
Kotov B. Olympic sport. Guidelines for track and field. Sankt Petersburg: Majtov Publisher; 1916.
10.
Grantyn K. Methodology of physical education. Moscow: FiS Publisher; 1939 (in Russian).
11.
Pihkala L. Specialization in track sports, what it is, and what it is not. Am Phys Educ Rev. 1913;18(3):154–9.
12.
Matveyev L. Fundamentals of sports training. Moscow: Progress Publishers; 1981.
13.
Maresh CM, Armstrong LE, Bergeron MF, Gabaree CL, Hoffman JR, Hannon DR, et al. Plasma cortisol and testosterone responses during a collegiate swim season. J Strength Cond Res. 1994;8(1):1–4.
14.
McGuigan M. Monitoring training and performance in athletes. Champaign: Human Kinetics Publishers; 2017.
15.
McGuigan MR, Egan AD, Foster C. Salivary cortisol responses and perceived exertion during high intensity and low intensity bouts of resistance exercise. J Sports Sci Med. 2004;3(1):8–15.PubMedPubMedCentral
16.
McGuigan MR, Foster C. A new approach to monitoring resistance training. Strength Cond J. 2004;26(6):42–7.CrossRef
17.
Bowen L, Gross AS, Gimpel M, Li F-X. Accumulated workloads and the acute: chronic workload ratio relate to injury risk in elite youth football players. Br J Sports Med. 2017;51(5):452–9.PubMedCrossRef
18.
Foster C. Monitoring training in athletes with reference to overtraining syndrome. Med Sci Sports Exerc. 1998;30:1164–8.PubMedCrossRef
19.
Fry AC, Kraemer WJ. Resistance exercise overtraining and overreaching. Sports Med. 1997;23(2):106–29.PubMedCrossRef
20.
Nieman D. Exercise immunology: future directions for research relatedto athletes, nutrition, and the elderly. Int J Sports Med. 2000;21(Suppl 1):61–8.CrossRef
21.
Schwellnus M, Soligard T, Alonso J-M, Bahr R, Clarsen B, Dijkstra HP, et al. How much is too much? (Part 2) International Olympic Committee consensus statement on load in sport and risk of illness. Br J Sports Med. 2016;50(17):1043–52.PubMedPubMedCentralCrossRef
22.
Smith LL. Overtraining, excessive exercise, and altered immunity. Sports Med. 2003;33(5):347–64.CrossRef
23.
Soligard T, Schwellnus M, Alonso J-M, Bahr R, Clarsen B, Dijkstra HP, et al. How much is too much? (Part 1) International Olympic Committee consensus statement on load in sport and risk of injury. Br J Sports Med. 2016;50(17):1030–41.PubMedCrossRef
24.
Stone M, Keith R, Kearney J, Fleck S, Wilson G, Triplett N. Overtraining: a review of the signs, symptoms and possible causes. J Strength Cond Res. 1991;5(1):35–50.
25.
26.
Selye H. Stress: eustress, distress, and human perspectives. In: Day SB, editor. Life Stress. New York: Van Nostrand Reinhold; 1982. pp. 3–13.
27.
Selye H. A syndrome produced by diverse nocuous agents. Nature. 1936;138(3479):32.CrossRef
28.
29.
Selye H. The general adaptation syndrome and the diseases of adaptation. J Clin Endocrinol Metab. 1946;6(2):117–230.PubMedCrossRef
30.
31.
Selye H. Forty years of stress research: principal remaining problems and misconceptions. Can Med Assoc J. 1976;115(1):53–6.PubMedPubMedCentral
32.
Selye H. The alarm reaction. Can Med Assoc J. 1936;34(6):706.
33.
34.
35.
36.
Seyle H. Further evidence in support of the alarm reaction theory of adrenal insufficiency. Am J Physiol. 1937;119:400–1.
37.
Yakovlev NN. Sports biochemistry. Leipzig: Deutsche Hochschule für Korperkultur; 1967.
38.
Chiu LZF, Barnes JL. The fitness-fatigue model revisited: implications for planning short- and long-term training. Strength Cond J. 2003;25(6):42–51.
39.
Morton R, Fitz-Clarke J, Banister E. Modeling human performance in running. J Appl Physiol. 1990;69(3):1171–7.PubMedCrossRef
40.
Garhammer J. Periodization of strength training for athletes. Track Tech. 1979;73:2398–9.
41.
Bishop D. Warm up II: performance changes following active warm up and how to structure the warm up. Sports Med. 2003;33(7):483–98.PubMedCrossRef
42.
Bishop D. Warm up I: potential mechanisms and the effects of passive warm up on exercise performance. Sports Med. 2003;33(6):439–54.PubMedCrossRef
43.
Chiu LZ, Fry AC, Weiss LW, Schilling BK, Brown LE, Smith SL. Postactivation potentiation response in athletic and recreationally trained individuals. J Strength Cond Res. 2003;17(4):671–7.PubMed
44.
DeRenne C. Effects of postactivation potentiation warm-up in male and female sport performances: a brief review. Strength Cond J. 2010;32(6):58–64.CrossRef
45.
Fradkin AJ, Zazryn TR, Smoliga JM. Effects of warming-up on physical performance: a systematic review with meta-analysis. J Strength Cond Res. 2010;24(1):140–8.PubMedCrossRef
46.
47.
Yamaguchi T, Ishii K. An optimal protocol for dynamic stretching to improve explosive performance. J Phys Fit Sports Med. 2014;3(1):121–9.CrossRef
48.
Suchomel TJ, Sato K, DeWeese BH, Ebben WP, Stone MH. Potentiation following ballistic and nonballistic complexes: the effect of strength level. J Strength Cond Res. 2016;30(7):1825–33.PubMedCrossRef
49.
Suchomel TJ, Sato K, DeWeese BH, Ebben WP, Stone MH. Potentiation effects of half-squats performed in a ballistic or nonballistic manner. J Strength Cond Res. 2016;30(6):1652–60.PubMedCrossRef
50.
Dolan M, Sevene TG, Berninig J, Harris C, Climstein M, Adams KJ, et al. Post-activation potentiation and the shot put throw. Int J Sports Sci. 2017;7(4):170–6.
51.
Sale DG. Postactivation potentiation: role in human performance. Exerc Sport Sci Rev. 2002;30(3):138–43.PubMedCrossRef
52.
Suchomel TJ, Lamont HS, Moir GL. Understanding vertical jump potentiation: a deterministic model. Sports Med. 2016;46(6):809–28.PubMedCrossRef
53.
Suchomel TJ, Sato K, DeWeese BH, Ebben WP, Stone MH. Relationships between potentiation effects after ballistic half-squats and bilateral symmetry. Int J Sports Physiol Perform. 2016;11(4):448–54.PubMedCrossRef
54.
Robbins DW. Postactivation potentiation and its practical applicability: a brief review. J Strength Cond Res. 2005;19(2):453–8.PubMed
55.
Minetti AE. On the mechanical power of joint extensions as affected by the change in muscle force (or cross-sectional area), ceteris paribus. Eur J Appl Physiol. 2002;86(4):363–9.PubMedCrossRef
56.
Zamparo P, Minetti A, Di Prampero P. Interplay among the changes of muscle strength, cross-sectional area and maximal explosive power: theory and facts. Eur J Appl Physiol. 2002;88(3):193–202.PubMedCrossRef
57.
Bazyler CD, Mizuguchi S, Harrison AP, Sato K, Kavanaugh AA, DeWeese BH, et al. Changes in muscle architecture, explosive ability, and track and field throwing performance throughout a competitive season and after a taper. J Strength Cond Res. 2017;31(10):2785–93.PubMedCrossRef
58.
59.
Painter KB, Haff GG, Ramsey MW, McBride J, Triplett T, Sands WA, et al. Strength gains: block versus daily undulating periodization weight training among track and field athletes. Int J Sports Physiol Perform. 2012;7(2):161–9.PubMedCrossRef
60.
Arroyo-Toledo J, Clemente V, González-Rave J. The effects of ten weeks block and reverse periodization training on swimming performance and body composition of moderately trained female swimmers. J Swim Res. 2013;21:1.
61.
Prestes J, De Lima C, Frollini AB, Donatto FF, Conte M. Comparison of linear and reverse linear periodization effects on maximal strength and body composition. J Strength Cond Res. 2009;23(1):266–74.PubMedCrossRef
62.
Rhea MR, Phillips WT, Burkett LN, Stone WJ, Ball SD, Alvar BA, et al. A comparison of linear and daily undulating periodized programs with equated volume and intensity for local muscular endurance. J Strength Cond Res. 2003;17(1):82–7.PubMed
63.
Selye H. Experimental evidence supporting the conception of “adaptation energy”. Am J Physiol. 1938;123:758–65.
64.
Meerson F. Intensity of function of structures of the differentiated cell as a determinant of activity of its genetic apparatus. Nature. 1965;206(4983):483–4.PubMedCrossRef
65.
Egan B, Zierath JR. Exercise metabolism and the molecular regulation of skeletal muscle adaptation. Cell Metab. 2013;17(2):162–84.PubMedCrossRef
66.
Selye H, Maclean A. Prevention of gastric ulcer formation during the alarm reaction. Am J Dig Dis. 1944;11(10):319–22.CrossRef
67.
68.
Selye H, Stone H. Influence of the diet upon the nephrosclerosis, periarteritis nodosa and cardiac lesions produced by the “endocrine kidney”. Endocrinology. 1948;43(1):21–9.PubMedCrossRef
69.
70.
Ogasawara R, Kobayashi K, Tsutaki A, Lee K, Abe T, Fujita S, et al. Mtor signaling response to resistance exercise is altered by chronic resistance training and detraining in skeletal muscle. J Appl Physiol. 2013;114(7):934–40.PubMedCrossRef
71.
Stupka N, Tarnopolsky MA, Yardley N, Phillips SM. Cellular adaptation to repeated eccentric exercise-induced muscle damage. J Appl Physiol. 2001;91(4):1669–78.PubMedCrossRef
72.
Beaton LJ, Tarnopolsky MA, Phillips SM. Contraction-induced muscle damage in humans following calcium channel blocker administration. J Physiol. 2002;544(3):849–59.PubMedPubMedCentralCrossRef
73.
MacIntyre D, Reid WD, Lyster D, Szasz I, McKenzie D. Presence of wbc, decreased strength, and delayed soreness in muscle after eccentric exercise. J Appl Physiol. 1996;80(3):1006–13.PubMedCrossRef
74.
MacIntyre DL, Reid WD, Lyster DM, McKenzie DC. Different effects of strenuous eccentric exercise on the accumulation of neutrophils in muscle in women and men. Eur J Appl Physiol. 2000;81(1):47–53.PubMedCrossRef
75.
Prestes J, Shiguemoto G, Botero JP, Frollini A, Dias R, Leite R, et al. Effects of resistance training on resistin, leptin, cytokines, and muscle force in elderly post-menopausal women. J Sports Sci. 2009;27(14):1607–15.PubMedCrossRef
76.
Izquierdo M, Ibañez J, Calbet JA, Navarro-Amezqueta I, González-Izal M, Idoate F, et al. Cytokine and hormone responses to resistance training. Eur J Appl Physiol. 2009;107(4):397.PubMedCrossRef
77.
Carroll TJ, Riek S, Carson RG. Neural adaptations to resistance training. Sports Med. 2001;31(12):829–40.PubMedCrossRef
78.
Falvo MJ, Sirevaag EJ, Rohrbaugh JW, Earhart GM. Resistance training induces supraspinal adaptations: evidence from movement-related cortical potentials. Eur J Appl Physiol. 2010;109(5):923–33.PubMedPubMedCentralCrossRef
79.
Griffin L, Cafarelli E. Resistance training: cortical, spinal, and motor unit adaptations. Can J Appl Physiol. 2005;30(3):328–40.PubMedCrossRef
80.
Aagaard P, Simonsen E, Andersen J, Magnusson S, Halkjaer-Kristensen J, Dyhre-Poulsen P. Neural inhibition during maximal eccentric and concentric quadriceps contraction: effects of resistance training. J Appl Physiol. 2000;89(6):2249–57.PubMedCrossRef
81.
Chen TC. Effects of a second bout of maximal eccentric exercise on muscle damage and electromyographic activity. Eur J Appl Physiol. 2003;89(2):115–21.PubMedCrossRef
82.
83.
Aagaard P, Simonsen EB, Andersen JL, Magnusson P, Dyhre-Poulsen P. Increased rate of force development and neural drive of human skeletal muscle following resistance training. J Appl Physiol. 2002;93(4):1318–26.PubMedCrossRef
84.
Moritani T. Neuromuscular adaptations during the acquisition of muscle strength, power and motor tasks. J Biomech. 1993;26:95–107.PubMedCrossRef
85.
Sale DG. Neural adaptation to resistance training. Med Sci Sports Exerc. 1988;20(5 Suppl):S135–45.PubMedCrossRef
86.
Plisk SS, Stone MH. Periodization strategies. Strength Cond J. 2003;25(6):19–37.CrossRef
87.
DeWeese BH, Hornsby G, Stone M, Stone MH. The training process: planning for strength–power training in track and field. Part 1: theoretical aspects. J Sport Health Sci. 2015;4(4):308–17.CrossRef
88.
DeWeese BH, Hornsby G, Stone M, Stone MH. The training process: planning for strength–power training in track and field. Part 2: practical and applied aspects. J Sport Health Sci. 2015;4(4):318–24.CrossRef
89.
Bergeron MF, Mountjoy M, Armstrong N, Chia M, Côté J, Emery CA, et al. International Olympic Committee consensus statement on youth athletic development. Br J Sports Med. 2015;49(13):843–51.PubMedCrossRef
90.
Hulin BT, Gabbett TJ, Caputi P, Lawson DW, Sampson JA. Low chronic workload and the acute: chronic workload ratio are more predictive of injury than between-match recovery time: a two-season prospective cohort study in elite rugby league players. Br J Sports Med. 2016. https://​doi.​org/​10.​1136/​bjsports-2015-095364.
91.
Stone MH, O’Bryant HS, Schilling BK, Johnson RI, Pierce KC, Haff GG, et al. Periodization: effects of manipulating volume and intensity. Part 1. Strength Cond J. 1999;21(2):56–62.
92.
Verkhoshansky YV. Programming and organization of training. Livonia: Sportivny Press; 1988.
93.
Stone MH, Stone M, Sands WA. Principles and practice of resistance training. Champaign: Human Kinetics Publishers; 2007.
94.
Brown LE, Greenwood M. Periodization essentials and innovations in resistance training protocols. Strength Cond J. 2005;27(4):80–5.CrossRef
95.
Abe T, Brechue WF, Fujita S, Brown JB. Gender differences in ffm accumulation and architectural characteristics of muscle. Med Sci Sports Exerc. 1998;30:1066–70.PubMedCrossRef
96.
Hawley JA, Burke LM. Carbohydrate availability and training adaptation: effects on cell metabolism. Exerc Sport Sci Rev. 2010;38(4):152–60.PubMedCrossRef
97.
Jäger R, Kerksick CM, Campbell BI, Cribb PJ, Wells SD, Skwiat TM, et al. International society of sports nutrition position stand: protein and exercise. J Int Soc Sports Nutr. 2017;14(1):20.PubMedPubMedCentralCrossRef
98.
Kerksick CM, Arent S, Schoenfeld BJ, Stout JR, Campbell B, Wilborn CD, et al. International society of sports nutrition position stand: nutrient timing. J Int Soc Sports Nutr. 2017;14(1):33.PubMedPubMedCentralCrossRef
99.
100.
Kumar V, Selby A, Rankin D, Patel R, Atherton P, Hildebrandt W, et al. Age-related differences in the dose–response relationship of muscle protein synthesis to resistance exercise in young and old men. J Physiol. 2009;587(1):211–7.PubMedCrossRef
101.
102.
Miller AEJ, MacDougall J, Tarnopolsky M, Sale D. Gender differences in strength and muscle fiber characteristics. Eur J Appl Physiol Occup Physiol. 1993;66(3):254–62.PubMedCrossRef
103.
104.
Polderman TJ, Benyamin B, De Leeuw CA, Sullivan PF, Van Bochoven A, Visscher PM, et al. Meta-analysis of the heritability of human traits based on fifty years of twin studies. Nat Genet. 2015;47(7):702–9.PubMedCrossRef
105.
Schutte NM, Nederend I, Hudziak JJ, Bartels M, de Geus EJ. Twin-sibling study and meta-analysis on the heritability of maximal oxygen consumption. Physiol Genom. 2016;48(3):210–9.CrossRef
106.
Smiles WJ, Hawley JA, Camera DM. Effects of skeletal muscle energy availability on protein turnover responses to exercise. J Exp Biol. 2016;219(2):214–25.PubMedCrossRef
107.
108.
Coffey VG, Hawley JA. Concurrent exercise training: do opposites distract? J Physiol. 2017;595(9):2883–96.PubMedCrossRef
109.
Anderson T, Kearney JT. Effects of three resistance training programs on muscular strength and absolute and relative endurance. Res Q Exerc Sport. 1982;53(1):1–7.PubMedCrossRef
110.
Cormie P, McCaulley GO, McBride JM. Power versus strength-power jump squat training: influence on the load-power relationship. Med Sci Sports Exerc. 2007;39(6):996–1003.PubMedCrossRef
111.
Cushion EJ, Goodwin JE, Cleather DJ. Relative intensity influences the degree of correspondence of jump squats and push jerks to countermovement jumps. J Strength Cond Res. 2016;30(5):1255–64.PubMedCrossRef
112.
de Villarreal ES, Requena B, Izquierdo M, Gonzalez-Badillo JJ. Enhancing sprint and strength performance: combined versus maximal power, traditional heavy-resistance and plyometric training. J Sci Med Sport. 2013;16(2):146–50.CrossRef
113.
Faigenbaum AD, Westcott WL, Loud RL, Long C. The effects of different resistance training protocols on muscular strength and endurance development in children. Pediatrics. 1999;104(1):e5-e.CrossRef
114.
Farris D, Lichtwark G, Brown N, Cresswell A. Deconstructing the power resistance relationship for squats: a joint-level analysis. Scand J Med Sci Sports. 2016;26(7):774–81.PubMedCrossRef
115.
Harris GR, Stone MH, O’bryant HS, Proulx CM, Johnson RL. Short-term performance effects of high power, high force, or combined weight-training methods. J Strength Cond Res. 2000;14(1):14–20.
116.
Kipp K, Harris C, Sabick MB. Correlations between internal and external power outputs during weightlifting exercise. J Strength Cond Res. 2013;27(4):1025–30.PubMedCrossRef
117.
Kipp K, Redden J, Sabick M, Harris C. Kinematic and kinetic synergies of the lower extremities during the pull in Olympic weightlifting. J Appl Biomech. 2012;28(3):271–8.PubMedCrossRef
118.
Lesinski M, Muehlbauer T, Büsch D, Granacher U. Effects of complex training on strength and speed performance in athletes: a systematic review. Effects of complex training on athletic performance. Sportverletz Sportschaden. 2014;28(2):85–107.PubMedCrossRef
119.
McGee D, Jessee TC, Stone MH, Blessing D. Leg and hip endurance adaptations to three weight-training programs. J Strength Cond Res. 1992;6(2):92–5.
120.
Moir GL, Gollie JM, Davis SE, Guers JJ, Witmer CA. The effects of load on system and lower-body joint kinetics during jump squats. Sports Biomech. 2012;11(4):492–506.PubMedCrossRef
121.
Scott DJ, Ditroilo M, Marshall PA. Complex training: the effect of exercise selection and training status on postactivation potentiation in rugby league players. J Strength Cond Res. 2017;31(10):2694–703.PubMedCrossRef
122.
Stone WJ, Coulter SP. Strength/endurance effects from three resistance training protocols with women. J Strength Cond Res. 1994;8(4):231–4.
123.
Suchomel TJ, Stone MH. The relationships between hip and knee extensor cross-sectional area, strength, power, and potentiation characteristics. Sports. 2017;5(3):66.CrossRef
124.
Toji H, Suei K, Kaneko M. Effects of combined training loads on relations among force, velocity, and power development. Can J Appl Physiol. 1997;22(4):328–36.PubMedCrossRef
125.
Matveyev L. Problem of periodization the sport training. Moscow: Fizkultura i Sport Publisher; 1964.
126.
Viru A. Early contributions of russian stress and exercise physiologists. J Appl Physiol. 2002;92(4):1378–82.PubMedCrossRef
127.
Carlile F. The athlete and adaptation to stress. Track Tech. 1961;5:156–8.
128.
Wilt F. Stress and training. Track Tech. 1960;1(6):1–16.
129.
Arroyo-Toledo J, Cantos-Polo I, Liedtke J, Palomo-Vélez J. Concentrated load on a reverse periodization, propel higher positives effects on track test performance, than traditional sequence. Imp J Interdiscip Res. 2017;3(2).
130.
Arroyo-Toledo J, Clemente VJ, Gonzalez-Rave JM, Ramos Campo DJ, Sortwell A. Comparison between traditional and reverse periodization: swimming performance and specific strength values. Int J Swim Kinet. 2013;2(1):87–96.
131.
Clemente-Suárez VJ, Dalamitros A, Ribeiro J, Sousa A, Fernandes RJ, Vilas-Boas JP. The effects of two different swimming training periodization on physiological parameters at various exercise intensities. Eur J Sport Sci. 2017;17(4):425–32.PubMedCrossRef
132.
Clemente-Suárez VJ, Fernandes RJ, Arroyo-Toledo J, Figueiredo P, González-Ravé JM, Vilas-Boas J. Autonomic adaptation after traditional and reverse swimming training periodizations. Acta Physiol Hung. 2015;102(1):105–13.PubMedCrossRef
133.
Rhea MR, Alderman BL. A meta-analysis of periodized versus nonperiodized strength and power training programs. Res Q Exerc Sport. 2004;75(4):413–22.PubMedCrossRef
134.
Williams TD, Tolusso DV, Fedewa MV, Esco MR. Comparison of periodized and non-periodized resistance training on maximal strength: a meta-analysis. Sports Med. 2017;47(10):2083–100.PubMedCrossRef
135.
Selye H. The stress concept: past, present, and future. In: Cooper CL, editor. Stress research: issues for the eighties. New York: Wiley; 1983. pp. 1–20.
136.
Selye H. Confusion and controversy in the stress field. J Hum Stress. 1975;1(2):37–44.CrossRef
137.
138.
139.
Kiely J. Periodization paradigms in the 21st century: EVIDENCE-led or tradition-driven? Int J Sports Physiol Perform. 2012;7(3):242–50.PubMedCrossRef
140.
Morris CW. The effect of fluid periodization on athletic performance outcomes in American football players. Lexington: University of Kentucky; 2015.
141.
Helms ER, Cronin J, Storey A, Zourdos MC. Application of the repetitions in reserve-based rating of perceived exertion scale for resistance training. Strength Cond J. 2016;38(4):42.PubMedPubMedCentralCrossRef
142.
143.
144.
Achten J, Jeukendrup AE. Heart rate monitoring: applications and limitations. Sports Med. 2003;33(7):517–38.PubMedCrossRef
145.
Jovanović M, Flanagan EP. Researched applications of velocity based strength training. J Aust Strength Cond. 2014;22(2):58–69.
146.
Plews DJ, Laursen PB, Stanley J, Kilding AE, Buchheit M. Training adaptation and heart rate variability in elite endurance athletes: opening the door to effective monitoring. Sports Med. 2013;43(9):773–81.PubMedCrossRef
147.
Storey AG, Birch NP, Fan V, Smith HK. Stress responses to short-term intensified and reduced training in competitive weightlifters. Scand J Med Sci Sports. 2016;26(1):29–40.PubMedCrossRef
148.
Jeffreys F. A system for monitoring training stress and recovery in high school athletes. Strength Cond J. 2004;26(3):28–33.CrossRef
149.
Pistilli EE, Kaminsky DE, Totten LM, Miller DR. Incorporating one week of planned overreaching into the training program of weightlifters. Strength Cond J. 2008;30(6):39–44.CrossRef
150.
Haff GG. The essentials of periodization. In: Jeffreys I, Moody J, editors. Strength and conditioning for sports performance. New York: Routledge; 2016. pp. 404–44.
151.
Bompa TO, Haff GG. Periodization: theory and methodology of training. Champaign: Human Kinetics Publishers; 2009.
152.
Sands WA, Kavanaugh AA, Murray SR, McNeal JR, Jemni M. Modern techniques and technologies applied to training and performance monitoring. Int J Sports Physiol Perform. 2017;12(Suppl 2):S263–72.PubMedCrossRef
153.
Viru AA, Viru M. Biochemical monitoring of sport training. Champaign: Human Kinetics Publishers; 2001.
154.
DeWeese B, Gray H, Sams M, Scruggs S, Serrano A. Revising the definition of periodization: merging historical principles with modern concern. Olymp Coach. 2013;24(1):5–19.
155.
Haff GG. Roundtable discussion: periodization of training—part 2. Strength Cond J. 2004;26(2):56–70.
156.
Stone MH, O’Bryant H, Garhammer J, McMillan J, Rozenek R. A theoretical model of strength training. Strength Cond J. 1982;4(4):36–9.
157.
DeWeese B. Development of phase potentiation for strength and power athletes. In: Presentation at the national strength and conditioning association; 9–12 July 2014: Las Vegas (NV).
Metadata
Title
The General Adaptation Syndrome: A Foundation for the Concept of Periodization
Authors
Aaron J. Cunanan
Brad H. DeWeese
John P. Wagle
Kevin M. Carroll
Robert Sausaman
W. Guy Hornsby III
G. Gregory Haff
N. Travis Triplett
Kyle C. Pierce
Michael H. Stone
Publication date
01-04-2018
Publisher
Springer International Publishing
Published in
Sports Medicine / Issue 4/2018
Print ISSN: 0112-1642
Electronic ISSN: 1179-2035
DOI
https://doi.org/10.1007/s40279-017-0855-3

Other articles of this Issue 4/2018

Sports Medicine 4/2018 Go to the issue

Systematic Review

Cocoa Flavanol Supplementation and Exercise: A Systematic Review

Systematic Review

What Performance Analysts Need to Know About Research Trends in Association Football (2012–2016): A Systematic Review

Current Opinion

Periodization Theory: Confronting an Inconvenient Truth

Letter to the Editor

Comment on: “Genetic Variants and Anterior Cruciate Ligament Rupture: A Systematic Review”

Review Article

The Importance of Muscular Strength: Training Considerations

Systematic Review

Is Platelet-Rich Plasma (PRP) Effective in the Treatment of Acute Muscle Injuries? A Systematic Review and Meta-Analysis