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Active Recovery Induces Greater Endurance Adaptations When Performing Sprint Interval Training
ABSTRACTYamagishi, T and Babraj, J. Active recovery induces greater endurance adaptations when performing sprint interval training. J Strength Cond Res 33(4)922–930, 2019—This study sought to determine effects of recovery intensity on endurance adaptations during sprint interval training (SIT). Four...
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| Published in: | Journal of strength and conditioning research 2019-04, Vol.33 (4), p.922-930 |
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| creator | Yamagishi, Takaki Babraj, John |
| description | ABSTRACTYamagishi, T and Babraj, J. Active recovery induces greater endurance adaptations when performing sprint interval training. J Strength Cond Res 33(4)922–930, 2019—This study sought to determine effects of recovery intensity on endurance adaptations during sprint interval training (SIT). Fourteen healthy young adults (male9 and female5) were allocated to 1 of 2 training groupsactive recovery group (ARG, male4 and female3) or passive recovery group (PRG, male5 and female2). After having completed a 2-week control period, both groups performed 6 sessions of 4- to 6 30-second sprints interspersed with 4-minute recovery over 2 weeks. However, only ARG cycled at 40% V[Combining Dot Above]O2peak during the 4-minute recovery periods, while PRG rested on the bike or cycled unloaded. After the 2-week training intervention, both groups improved 10-km time-trial performance to a similar extent (ARG8.6%, d = 1.60, p = 0.006; PRG6.7%, d = 0.96, p = 0.048) without gains in V[Combining Dot Above]O2peak. However, critical power was increased by ARG only (7.9%, d = 1.75, p = 0.015) with a tendency of increased maximal incremental power output (5.3%, d = 0.88, p = 0.063). During the training, active recovery maintained V[Combining Dot Above]O2 and heart rate at a higher level compared with passive recovery (V[Combining Dot Above]O2p = 0.005, HRp = 0.018), suggesting greater cardiorespiratory demands with the active recovery. This study demonstrated that greater endurance performance adaptations are induced with active recovery when performing SIT over a short time frame. The findings of the current study indicate that, with active recovery, individuals can gain greater training benefits without increasing total training commitment time. Further studies are required to determine whether differences are seen with recovery intensity over a longer period. |
| doi_str_mv | 10.1519/JSC.0000000000002787 |
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Active recovery induces greater endurance adaptations when performing sprint interval training. J Strength Cond Res 33(4)922–930, 2019—This study sought to determine effects of recovery intensity on endurance adaptations during sprint interval training (SIT). Fourteen healthy young adults (male9 and female5) were allocated to 1 of 2 training groupsactive recovery group (ARG, male4 and female3) or passive recovery group (PRG, male5 and female2). After having completed a 2-week control period, both groups performed 6 sessions of 4- to 6 30-second sprints interspersed with 4-minute recovery over 2 weeks. However, only ARG cycled at 40% V[Combining Dot Above]O2peak during the 4-minute recovery periods, while PRG rested on the bike or cycled unloaded. After the 2-week training intervention, both groups improved 10-km time-trial performance to a similar extent (ARG8.6%, d = 1.60, p = 0.006; PRG6.7%, d = 0.96, p = 0.048) without gains in V[Combining Dot Above]O2peak. However, critical power was increased by ARG only (7.9%, d = 1.75, p = 0.015) with a tendency of increased maximal incremental power output (5.3%, d = 0.88, p = 0.063). During the training, active recovery maintained V[Combining Dot Above]O2 and heart rate at a higher level compared with passive recovery (V[Combining Dot Above]O2p = 0.005, HRp = 0.018), suggesting greater cardiorespiratory demands with the active recovery. This study demonstrated that greater endurance performance adaptations are induced with active recovery when performing SIT over a short time frame. The findings of the current study indicate that, with active recovery, individuals can gain greater training benefits without increasing total training commitment time. Further studies are required to determine whether differences are seen with recovery intensity over a longer period.</description><identifier>ISSN: 1064-8011</identifier><identifier>EISSN: 1533-4287</identifier><identifier>DOI: 10.1519/JSC.0000000000002787</identifier><identifier>PMID: 30102686</identifier><language>eng</language><publisher>United States: Copyright by the National Strength & Conditioning Association</publisher><subject>Adaptation ; Adaptation, Physiological ; Adult ; Bicycling - physiology ; Endurance ; Exercise Test ; Female ; Heart Rate ; High-Intensity Interval Training ; Humans ; Interval training ; Male ; Original Research ; Oxygen Consumption ; Physical Endurance - physiology ; Recovery (Medical) ; Recovery of Function ; Rest ; Rest - physiology ; Strength training ; Young Adult</subject><ispartof>Journal of strength and conditioning research, 2019-04, Vol.33 (4), p.922-930</ispartof><rights>Copyright © 2019 by the National Strength & Conditioning Association.</rights><rights>Copyright Lippincott Williams & Wilkins Ovid Technologies Apr 2019</rights><rights>Copyright © 2019 The Author(s). 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Active recovery induces greater endurance adaptations when performing sprint interval training. J Strength Cond Res 33(4)922–930, 2019—This study sought to determine effects of recovery intensity on endurance adaptations during sprint interval training (SIT). Fourteen healthy young adults (male9 and female5) were allocated to 1 of 2 training groupsactive recovery group (ARG, male4 and female3) or passive recovery group (PRG, male5 and female2). After having completed a 2-week control period, both groups performed 6 sessions of 4- to 6 30-second sprints interspersed with 4-minute recovery over 2 weeks. However, only ARG cycled at 40% V[Combining Dot Above]O2peak during the 4-minute recovery periods, while PRG rested on the bike or cycled unloaded. After the 2-week training intervention, both groups improved 10-km time-trial performance to a similar extent (ARG8.6%, d = 1.60, p = 0.006; PRG6.7%, d = 0.96, p = 0.048) without gains in V[Combining Dot Above]O2peak. However, critical power was increased by ARG only (7.9%, d = 1.75, p = 0.015) with a tendency of increased maximal incremental power output (5.3%, d = 0.88, p = 0.063). During the training, active recovery maintained V[Combining Dot Above]O2 and heart rate at a higher level compared with passive recovery (V[Combining Dot Above]O2p = 0.005, HRp = 0.018), suggesting greater cardiorespiratory demands with the active recovery. This study demonstrated that greater endurance performance adaptations are induced with active recovery when performing SIT over a short time frame. The findings of the current study indicate that, with active recovery, individuals can gain greater training benefits without increasing total training commitment time. Further studies are required to determine whether differences are seen with recovery intensity over a longer period.</description><subject>Adaptation</subject><subject>Adaptation, Physiological</subject><subject>Adult</subject><subject>Bicycling - physiology</subject><subject>Endurance</subject><subject>Exercise Test</subject><subject>Female</subject><subject>Heart Rate</subject><subject>High-Intensity Interval Training</subject><subject>Humans</subject><subject>Interval training</subject><subject>Male</subject><subject>Original Research</subject><subject>Oxygen Consumption</subject><subject>Physical Endurance - physiology</subject><subject>Recovery (Medical)</subject><subject>Recovery of Function</subject><subject>Rest</subject><subject>Rest - physiology</subject><subject>Strength training</subject><subject>Young Adult</subject><issn>1064-8011</issn><issn>1533-4287</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2019</creationdate><recordtype>article</recordtype><recordid>eNp9kV1LHDEUhoO0qLX-AymB3ngzNh-Tj7kpLItfRaiopXcNmcyJO3Y2WZOZFf99I2vFetHcJIfzvC_n5EXogJIjKmjz5dv1_Ii8OkxptYV2qeC8qplW78qbyLrShNId9CHnu8IIIfg22uGEEia13EW_Zm7s14CvwMU1pEd8HrrJQcanCewICR-XOtngAM86uxrt2MeQ8c8FBHwJyce07MMtvl6lPoxFXCRrO-CbZPtQGh_Re2-HDPvP9x76cXJ8Mz-rLr6fns9nF5WrtVCVb0Qjadc2VLZWKWhpqzoN2lMioCVeN6C8l15wTzqupO9qJ5SgzqvaatnwPfR147ua2iV0DsKY7GDKVEubHk20vfm3E_qFuY1rI-taSKKLweGzQYr3E-TRLPvsYBhsgDhlw4jWrOGyIQX9_Aa9i1MKZT3DGOWUSalYoeoN5VLMOYF_GYYS8xSgKQGatwEW2afXi7yI_iZWAL0BHuJQPjv_HqYHSGYBdhgX__f-A4rWqL4</recordid><startdate>201904</startdate><enddate>201904</enddate><creator>Yamagishi, Takaki</creator><creator>Babraj, John</creator><general>Copyright by the National Strength & Conditioning Association</general><general>Lippincott Williams & Wilkins Ovid Technologies</general><general>Journal of Strength and Conditioning Research</general><scope>CGR</scope><scope>CUY</scope><scope>CVF</scope><scope>ECM</scope><scope>EIF</scope><scope>NPM</scope><scope>AAYXX</scope><scope>CITATION</scope><scope>7TS</scope><scope>K9.</scope><scope>NAPCQ</scope><scope>7X8</scope><scope>5PM</scope></search><sort><creationdate>201904</creationdate><title>Active Recovery Induces Greater Endurance Adaptations When Performing Sprint Interval Training</title><author>Yamagishi, Takaki ; Babraj, John</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-c4857-f95961db916ba77eb1b7d8e8f105eb0f89e7ff6f53f0d376fd4c5751cf74a8693</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>2019</creationdate><topic>Adaptation</topic><topic>Adaptation, Physiological</topic><topic>Adult</topic><topic>Bicycling - physiology</topic><topic>Endurance</topic><topic>Exercise Test</topic><topic>Female</topic><topic>Heart Rate</topic><topic>High-Intensity Interval Training</topic><topic>Humans</topic><topic>Interval training</topic><topic>Male</topic><topic>Original Research</topic><topic>Oxygen Consumption</topic><topic>Physical Endurance - physiology</topic><topic>Recovery (Medical)</topic><topic>Recovery of Function</topic><topic>Rest</topic><topic>Rest - physiology</topic><topic>Strength training</topic><topic>Young Adult</topic><toplevel>peer_reviewed</toplevel><toplevel>online_resources</toplevel><creatorcontrib>Yamagishi, Takaki</creatorcontrib><creatorcontrib>Babraj, John</creatorcontrib><collection>Medline</collection><collection>MEDLINE</collection><collection>MEDLINE (Ovid)</collection><collection>MEDLINE</collection><collection>MEDLINE</collection><collection>PubMed</collection><collection>CrossRef</collection><collection>Physical Education Index</collection><collection>ProQuest Health & Medical Complete (Alumni)</collection><collection>Nursing & Allied Health Premium</collection><collection>MEDLINE - Academic</collection><collection>PubMed Central (Full Participant titles)</collection><jtitle>Journal of strength and conditioning research</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Yamagishi, Takaki</au><au>Babraj, John</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Active Recovery Induces Greater Endurance Adaptations When Performing Sprint Interval Training</atitle><jtitle>Journal of strength and conditioning research</jtitle><addtitle>J Strength Cond Res</addtitle><date>2019-04</date><risdate>2019</risdate><volume>33</volume><issue>4</issue><spage>922</spage><epage>930</epage><pages>922-930</pages><issn>1064-8011</issn><eissn>1533-4287</eissn><abstract>ABSTRACTYamagishi, T and Babraj, J. Active recovery induces greater endurance adaptations when performing sprint interval training. J Strength Cond Res 33(4)922–930, 2019—This study sought to determine effects of recovery intensity on endurance adaptations during sprint interval training (SIT). Fourteen healthy young adults (male9 and female5) were allocated to 1 of 2 training groupsactive recovery group (ARG, male4 and female3) or passive recovery group (PRG, male5 and female2). After having completed a 2-week control period, both groups performed 6 sessions of 4- to 6 30-second sprints interspersed with 4-minute recovery over 2 weeks. However, only ARG cycled at 40% V[Combining Dot Above]O2peak during the 4-minute recovery periods, while PRG rested on the bike or cycled unloaded. After the 2-week training intervention, both groups improved 10-km time-trial performance to a similar extent (ARG8.6%, d = 1.60, p = 0.006; PRG6.7%, d = 0.96, p = 0.048) without gains in V[Combining Dot Above]O2peak. However, critical power was increased by ARG only (7.9%, d = 1.75, p = 0.015) with a tendency of increased maximal incremental power output (5.3%, d = 0.88, p = 0.063). During the training, active recovery maintained V[Combining Dot Above]O2 and heart rate at a higher level compared with passive recovery (V[Combining Dot Above]O2p = 0.005, HRp = 0.018), suggesting greater cardiorespiratory demands with the active recovery. This study demonstrated that greater endurance performance adaptations are induced with active recovery when performing SIT over a short time frame. The findings of the current study indicate that, with active recovery, individuals can gain greater training benefits without increasing total training commitment time. Further studies are required to determine whether differences are seen with recovery intensity over a longer period.</abstract><cop>United States</cop><pub>Copyright by the National Strength & Conditioning Association</pub><pmid>30102686</pmid><doi>10.1519/JSC.0000000000002787</doi><tpages>9</tpages><oa>free_for_read</oa></addata></record> |
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| subjects | Adaptation Adaptation, Physiological Adult Bicycling - physiology Endurance Exercise Test Female Heart Rate High-Intensity Interval Training Humans Interval training Male Original Research Oxygen Consumption Physical Endurance - physiology Recovery (Medical) Recovery of Function Rest Rest - physiology Strength training Young Adult |
| title | Active Recovery Induces Greater Endurance Adaptations When Performing Sprint Interval Training |
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