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      Maximal strength training-induced improvements in forearm work efficiency are associated with reduced blood flow

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          Abstract

          Maximal strength training (MST) improves work efficiency. However, since blood flow is greatly dictated by muscle contractions in arms during exercise and vascular conductance is lower, it has been indicated that arms rely more upon adapting oxygen extraction than legs in response to the enhanced work efficiency. Thus, to investigate if metabolic and vascular responses are arm specific, we used Doppler-ultrasound and a catheter placed in the subclavian vein to measure blood flow and the arteriovenous oxygen difference during steady-state work in seven young men [24 ± 3 (SD) yr] following 6 wk of handgrip MST. As expected, MST improved maximal strength (49 ± 9 to 62 ± 10 kg) and the rate of force development (923 ± 224 to 1,086 ± 238 N/s), resulting in a reduced submaximal oxygen uptake (30 ± 9 to 24 ± 10 ml/min) and concomitantly increased work efficiency (9.3 ± 2.5 to 12.4 ± 3.9%) (all P < 0.05). In turn, the work efficiency improvement was associated with reduced blood flow (486 ± 102 to 395 ± 114 ml/min), mediated by a lower blood velocity (43 ± 8 to 32 ± 6 cm/s) (all P < 0.05). Conduit artery diameter and the arteriovenous oxygen difference remained unaltered. The maximal work test revealed an increased time to exhaustion (949 ± 239 to 1,102 ± 292 s) and maximal work rate (both P < 0.05) but no change in peak oxygen uptake. In conclusion, despite prior indications of metabolic and vascular limb-specific differences, these results reveal that improved work efficiency after small muscle mass strength training in the upper extremities is accompanied by a blood flow reduction and coheres with what has been documented for lower extremities.

          NEW & NOTEWORTHY Maximal strength training increases skeletal muscle work efficiency. Oxygen extraction has been indicated to be the adapting component with this increased work efficiency in arms. However, we document that decreased blood flow, achieved by blood velocity reduction, is the adapting mechanism responding to the improved aerobic metabolism in the forearm musculature.

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          Author and article information

          Journal
          Am J Physiol Heart Circ Physiol
          Am. J. Physiol. Heart Circ. Physiol
          ajpheart
          Am J Physiol Heart Circ Physiol
          AJPHEART
          American Journal of Physiology - Heart and Circulatory Physiology
          American Physiological Society (Bethesda, MD )
          0363-6135
          1522-1539
          1 April 2018
          29 December 2017
          1 April 2019
          : 314
          : 4
          : H853-H862
          Affiliations
          [1] 1Faculty of Health and Social Sciences, Molde University College, Molde, Norway
          [2] 2Department of Circulation and Medical Imaging, Faculty of Medicine, Norwegian University of Science and Technology , Trondheim, Norway
          [3] 3Department of Internal Medicine, University of Utah , Salt Lake City, Utah
          Author notes
          Address for reprint requests and other correspondence: O. K. Berg, Faculty of Health and Social Sciences, Molde University College, Britvegen 2, Molde 6410, Norway (e-mail: olbe@ 123456himolde.no ).
          Author information
          https://orcid.org/0000-0003-1538-6156
          Article
          PMC5966771 PMC5966771 5966771 H-00435-2017 H-00435-2017
          10.1152/ajpheart.00435.2017
          5966771
          29351462
          39c95359-2afd-4094-b984-3959d6f4e849
          Copyright © 2018 the American Physiological Society
          History
          : 13 July 2017
          : 4 December 2017
          : 28 December 2017
          Funding
          Funded by: Norwegian University of Science and Technology
          Categories
          Research Article
          Integrative Cardiovascular Physiology and Pathophysiology

          small muscle mass,handgrip,oxygen extraction,mechanical efficiency,work economy

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