Energy cost of sport rock climbing in elite performers

Objectives - To assess oxygen uptake (V(over dot)o(2)), blood lactate conce ntration ([La-b]), and heart rate (HR) response during indoor and outdoor s port climbing. Methods - Seven climbers aged 25 (SE 1) years, with a personal best ascent without preview or fall (on sight) ranging from 6b to 7a were assessed usin g an indoor vertical treadmill with artificial rock hand/foot holds and a d iscontinuous protocol with climbing velocity incremented until voluntary fa tigue. On a separate occasion the subjects performed a 23.4 m outdoor rock climb graded 5c and taking 7 min 36 s (SE 33 s) to complete. Cardiorespirat ory parameters were measured using a telemetry system and [La-b] collected at rest and after climbing. Results - Indoor climbing elicited a peak oxygen uptake (V(over dot)o(2clim b-peak)) and peak HR (HRpeak) of 43.8 (SE 2.2) ml/kg/min and 190 (SE 4) bpm , respectively and increased blood lactate concentration [La-b] from 1.4 (0 .1) to 10.2 (0.6) mmol/l (p < 0.05). During outdoor climbing V(over dot)o(2 ) and HR increased to about 75% and 83% of V(over dot)o(2climb-peak) and HR peak, respectively. [La-b] increased from 1.3 (0.1) at rest to 4.5 mmol/l ( p < 0.05) at 2 min 32 s (8 s) after completion of the climb. Conclusions - The results suggest that for elite climbers outdoor sport roc k climbs of five to 10 minutes' duration and moderate difficulty require a significant portion of the V(over dot)o(2climb-peak). The higher HR and V(o ver dot)o(2) for outdoor climbing and the increased [La-b] could be the res ult of repeated isometric contractions, particularly from the arm and forea rm muscles.