Inter-individual variation in the adaptive response to heat acclimation

Authors: Corbett, J., Rendell, R.A., Massey, H.C., Costello, J.T. and Tipton, M.J.

Journal: Journal of Thermal Biology

Volume: 74

Pages: 29-36

eISSN: 1879-0992

ISSN: 0306-4565

DOI: 10.1016/j.jtherbio.2018.03.002

Abstract:

Aim: To investigate inter-individual variance in adaptive responses to heat acclimation (HA). Methods: 17 males (VO2max=58.8(8.4) mL·kg−1·min−1) undertook 10-days (exercise + heat-stress [40 °C, 50%RH]) HA. Adaptation was assessed by heat stress tests (HST; 60–minutes cycling, 35% peak power output) pre- and post-HA. Results: Inter-individual variability was evident in adaptive responses e.g. mean(range) reduction in end-exercise Tre= −0.70(−0.20 to −1.32)°C, but, in the main, the variance in adaptation was unrelated across indices (thermal, sudomotor, cardiovascular, haematological), indicating independence between adaptation indices. Variance in adaptive responses was not correlated with aerobic capacity, history of previous HA, or the accrued thermal-dose. Some responses to the initial HST were related to the subsequent adaptations e.g. ∆T̅sk during the initial HST and the reduction in the within HST ΔTre after HA (r = −0.676), but responses to the initial HST may also have been influenced by HST design e.g. ΔTre correlated with metabolic heat production (r = 0.609). Metabolic heat production also correlated with the reduction in the within HST ΔTre after HA (r = −0.514). HA indices are mainly independent; ‘low’, or ‘high’, responders on one index do not necessarily demonstrate similar response across other indices. Variance in HA responses was not related to aerobic capacity, previous HA, or thermal-dose. Thermo-physiological responses to a HST might identify individuals who will benefit from HA. However, some initial responses are influenced by HST design, which may also affect the scope for demonstrating adaption. Conclusion: Variance in the HA response remains largely unaccounted for and future studies should identify factors contributing to this variance.

https://eprints.bournemouth.ac.uk/30461/

Source: Scopus

Inter-individual variation in the adaptive response to heat acclimation.

Authors: Corbett, J., Rendell, R.A., Massey, H.C., Costello, J.T. and Tipton, M.J.

Journal: J Therm Biol

Volume: 74

Pages: 29-36

ISSN: 0306-4565

DOI: 10.1016/j.jtherbio.2018.03.002

Abstract:

AIM: To investigate inter-individual variance in adaptive responses to heat acclimation (HA). METHODS: 17 males (VO2max=58.8(8.4) mL·kg-1·min-1) undertook 10-days (exercise + heat-stress [40 °C, 50%RH]) HA. Adaptation was assessed by heat stress tests (HST; 60-minutes cycling, 35% peak power output) pre- and post-HA. RESULTS: Inter-individual variability was evident in adaptive responses e.g. mean(range) reduction in end-exercise Tre= -0.70(-0.20 to -1.32)°C, but, in the main, the variance in adaptation was unrelated across indices (thermal, sudomotor, cardiovascular, haematological), indicating independence between adaptation indices. Variance in adaptive responses was not correlated with aerobic capacity, history of previous HA, or the accrued thermal-dose. Some responses to the initial HST were related to the subsequent adaptations e.g. ∆T̅sk during the initial HST and the reduction in the within HST ΔTre after HA (r = -0.676), but responses to the initial HST may also have been influenced by HST design e.g. ΔTre correlated with metabolic heat production (r = 0.609). Metabolic heat production also correlated with the reduction in the within HST ΔTre after HA (r = -0.514). SUMMARY: HA indices are mainly independent; 'low', or 'high', responders on one index do not necessarily demonstrate similar response across other indices. Variance in HA responses was not related to aerobic capacity, previous HA, or thermal-dose. Thermo-physiological responses to a HST might identify individuals who will benefit from HA. However, some initial responses are influenced by HST design, which may also affect the scope for demonstrating adaption. CONCLUSION: Variance in the HA response remains largely unaccounted for and future studies should identify factors contributing to this variance.

https://eprints.bournemouth.ac.uk/30461/

Source: PubMed

Inter-individual variation in the adaptive response to heat acclimation

Authors: Corbett, J., Rendell, R.A., Massey, H.C., Costello, J.T. and Tipton, M.J.

Journal: Journal of thermal biology

Publisher: Pergamon Press Ltd.

ISSN: 0306-4565

Abstract:

Aim: To investigate inter-individual variance in adaptive responses to heat acclimation (HA).Methods: 17 males (VO2max=58.8(8.4) ml·kg-1·min-1) undertook 10-days (exercise + heat stress [40°C, 50%RH]) HA. Adaptation was assessed by heat stress tests (HST; 60–minutes cycling, 35% peak power output) pre- and post-HA. Results: Inter-individual variability was evident in adaptive responses e.g. mean(range) reduction in end-exercise Tre=-0.70(-0.20 to - 1.32)°C, but, in the main, the variance in adaptation was unrelated across indices (thermal sudomotor, cardiovascular, haematological), indicating independence between adaptation indices. Variance in adaptive responses was not correlated with aerobic capacity, history of previous HA, or the accrued thermal-dose. Some responses to the initial HST were related to the subsequent adaptations e.g. ∆T̅sk during the initial HST and the reduction in the within HST ΔTre after HA (r=-0.676), but responses to the initial HST may also have been influenced by HST design e.g. ΔTre correlated with metabolic heat production (r=0.609). Metabolic heat production also correlated with the reduction in the within HST ΔTre after HA (r=-0.514). Summary: HA indices are mainly independent; ‘low’, or ‘high’, responders on one index do not necessarily demonstrate similar response across other indices. Variance in HA responses was not related to aerobic capacity, previous HA, or thermal-dose. Thermo-physiological responses to a HST might identify individuals who will benefit from HA. However, some initial responses are influenced by HST design, which may also affect the scope for demonstrating adaption. Conclusion: Variance in the HA response remains largely unaccounted for and future studies should identify factors contributing to this variance

https://eprints.bournemouth.ac.uk/30461/

Source: Manual

Inter-individual variation in the adaptive response to heat acclimation.

Authors: Corbett, J., Rendell, R.A., Massey, H.C., Costello, J.T. and Tipton, M.J.

Journal: Journal of thermal biology

Volume: 74

Pages: 29-36

ISSN: 0306-4565

DOI: 10.1016/j.jtherbio.2018.03.002

Abstract:

Aim

To investigate inter-individual variance in adaptive responses to heat acclimation (HA).

Methods

17 males (VO2max=58.8(8.4) mL·kg-1·min-1) undertook 10-days (exercise + heat-stress [40 °C, 50%RH]) HA. Adaptation was assessed by heat stress tests (HST; 60-minutes cycling, 35% peak power output) pre- and post-HA.

Results

Inter-individual variability was evident in adaptive responses e.g. mean(range) reduction in end-exercise Tre= -0.70(-0.20 to -1.32)°C, but, in the main, the variance in adaptation was unrelated across indices (thermal, sudomotor, cardiovascular, haematological), indicating independence between adaptation indices. Variance in adaptive responses was not correlated with aerobic capacity, history of previous HA, or the accrued thermal-dose. Some responses to the initial HST were related to the subsequent adaptations e.g. ∆T̅sk during the initial HST and the reduction in the within HST ΔTre after HA (r = -0.676), but responses to the initial HST may also have been influenced by HST design e.g. ΔTre correlated with metabolic heat production (r = 0.609). Metabolic heat production also correlated with the reduction in the within HST ΔTre after HA (r = -0.514).

Summary

HA indices are mainly independent; 'low', or 'high', responders on one index do not necessarily demonstrate similar response across other indices. Variance in HA responses was not related to aerobic capacity, previous HA, or thermal-dose. Thermo-physiological responses to a HST might identify individuals who will benefit from HA. However, some initial responses are influenced by HST design, which may also affect the scope for demonstrating adaption.

Conclusion

Variance in the HA response remains largely unaccounted for and future studies should identify factors contributing to this variance.

https://eprints.bournemouth.ac.uk/30461/

Source: Europe PubMed Central

Inter-individual variation in the adaptive response to heat acclimation

Authors: Corbett, J., Rendell, R.A., Massey, H.C., Costello, J.T. and Tipton, M.J.

Journal: Journal of Thermal Biology

Volume: 74

Issue: May

Pages: 29-36

ISSN: 0306-4565

Abstract:

Aim: To investigate inter-individual variance in adaptive responses to heat acclimation (HA).Methods: 17 males (VO2max=58.8(8.4) ml·kg-1·min-1) undertook 10-days (exercise + heat stress [40°C, 50%RH]) HA. Adaptation was assessed by heat stress tests (HST; 60–minutes cycling, 35% peak power output) pre- and post-HA. Results: Inter-individual variability was evident in adaptive responses e.g. mean(range) reduction in end-exercise Tre=-0.70(-0.20 to - 1.32)°C, but, in the main, the variance in adaptation was unrelated across indices (thermal sudomotor, cardiovascular, haematological), indicating independence between adaptation indices. Variance in adaptive responses was not correlated with aerobic capacity, history of previous HA, or the accrued thermal-dose. Some responses to the initial HST were related to the subsequent adaptations e.g. ∆T̅sk during the initial HST and the reduction in the within HST ΔTre after HA (r=-0.676), but responses to the initial HST may also have been influenced by HST design e.g. ΔTre correlated with metabolic heat production (r=0.609). Metabolic heat production also correlated with the reduction in the within HST ΔTre after HA (r=-0.514). Summary: HA indices are mainly independent; ‘low’, or ‘high’, responders on one index do not necessarily demonstrate similar response across other indices. Variance in HA responses was not related to aerobic capacity, previous HA, or thermal-dose. Thermo-physiological responses to a HST might identify individuals who will benefit from HA. However, some initial responses are influenced by HST design, which may also affect the scope for demonstrating adaption. Conclusion: Variance in the HA response remains largely unaccounted for and future studies should identify factors contributing to this variance.

https://eprints.bournemouth.ac.uk/30461/

https://www.journals.elsevier.com/journal-of-thermal-biology

Source: BURO EPrints