Intermittent postural recovery during 14 days of hindlimb unloading (HU) is not sufficient to restore cardiac autonomic imbalance in rats

Abstract

Previous data indicate that 14 days of continuous HU in rats produces cardiac autonomic imbalance. We hypothesized that a daily period of normal posture may resolve these effects. Male, Sprague‐Dawley rats were randomly assigned to control (CC; n=3), continuous HU (HUC; n=4) or intermittent HU (HUI; n= 5) groups. Control rats were maintained in the normal posture. HUC rats underwent continuous elevation of the hindlimbs for 14‐days while HUI rats were returned to the normal posture for 30 minutes each day during the HU procedure. On the 14th day, mean arterial pressure (MAP) and heart rate (HR) were measured followed by selective cardiac autonomic blockade administered via i.v. injection of methylatropine and propranolol. Both HU groups exhibited significant resting tachycardia compared to CC rats, but HR was lower in HUI vs. the HUC group (CC: 366±3.9; HUC 474±7.5; HUI: 434±1.6 bpm). However, both HU groups had significantly less parasympathetic (CC: 60±7.7; HUC: 25±10.9; HUI: 15±5.2 Δbpm) and greater sympathetic cardiac tone (CC: 16±7.9; HUC: 91±10.9; HUI: 77±9.2 Δbpm) than CC rats, with no difference between HU groups with respect to either autonomic parameter. Baseline MAP was not different among any of the groups. Data indicate that while daily recovery from HU may partially restore resting HR, it is not a sufficient stimulus to reverse the autonomic imbalance produced by HU‐induced deconditioning. (Supp. by: NIH HL14388 & DK 066086).