Exercise capacity and ventilatory efficiency with afferent blockade in heart failure (884.3)

Increased locomotor muscle afferent feedback may be linked to the reduced exercise capacity (peak VO 2 ) and poor ventilatory efficiency (high V E /VCO 2 slope) observed in heart failure (HF). We examined the relationship between peak VO 2 and change in V E /VCO 2 with afferent inhibition during exercise in HF. 9 HF (60±6 yr) and 9 controls (CTL) (63±7 yr) completed 3 visits. Visit 1: cycle exercise to volitional exhaustion. Visits 2‐ 3: 5 min constant‐load cycling (65% of peak work) randomized to lumbar intrathecal fentanyl injection (afferent block) or placebo. VO 2 , ventilation (V E ), carbon dioxide production (VCO 2 ), and end‐tidal CO 2 (P ET CO 2 ) were measured. In HF, peak work (120±34 vs 176±54 W, p <0.05) and VO 2 (18.4±2.7 vs 27.2±4.7 ml/kg/min, p <0.05) were reduced, whereas V E /VCO 2 slope was elevated (39.7±1.8 vs 35.3±0.8, p<0.05) compared with CTL. With afferent inhibition, HF patients had a greater reduction in V E /VCO 2 (‐18.8±8.1 vs ‐5.4±13.3%, p <0.05) and increase in P ET CO 2 (20.3±10.5 vs 6.1±9.5%, p <0.01) during constant‐load cycling. Lower VO 2peak was related to a greater decline in V E /VCO 2 and rise in P ET CO 2 after afferent inhibition in HF (r=0.82, p <0.01 and r=‐0.69, p <0.05, respectively) but not CTL ( p >0.05). Our data demonstrate that patients with the lowest VO 2peak have the greatest improvement in V E /VCO 2 , suggesting a close link between afferent feedback, ventilatory efficiency and exercise capacity in HF. Grant Funding Source : Supported by AHA 12GRNT11630027 and National Center for Advancing Translational Science KL2TR000136.