Vernon W Lin1, Ian Hsiao, Xiaoming Deng, Yu-Sheng Lee, Scott Sasse. 1. Functional Magnetic Stimulation Laboratory, Spinal Cord Injury-Disorder Health Care Group, Long Beach VA Healthcare System, CA 90822, USA. vernon.lin@med.va.gov
Abstract
OBJECTIVE: To investigate the efficacy of the magnetic stimulation of inspiratory muscles as an alternative to mechanical ventilation and functional electric stimulation. DESIGN: A prospective before-after trial. SETTING: Functional magnetic stimulation laboratory in a Veterans Administration health care system. ANIMALS: Six male mongrel dogs, each weighing between 25 and 35 kg. INTERVENTIONS: Commercially available magnetic stimulators with a round magnetic coil were used. The center of the magnetic coil was placed posteriorly over the C5-7 vertebrae of the spinal cord transected dogs. Magnetic stimulation parameters were set at 80% intensity, 20 Hz, and a 1.2-second on and 3.8-second off pulse train. MAIN OUTCOME MEASURES: The major outcomes were changes in tidal volume (VT), tracheal pressure (Ptr), and arterial partial pressure of carbon dioxide (PaCO2) and oxygen sustained by magnetic stimulation over time. RESULTS: The average Vt and Ptr produced during functional magnetic ventilation (FMV) were.47+/-.07 L and -4.7+/-.51 cmH2O, respectively. Blood gas data showed that PaCO2 increased from a baseline of 33 to 75 mmHg, whereas pH decreased from 7.33 to 6.99 at the end of the 1-hour FMV period. CONCLUSIONS: FMV was achieved for 2 hours in dogs with C2 spinal cord transection. Additional refinements in magnetic stimulation are needed to improve ventilation in animals.
OBJECTIVE: To investigate the efficacy of the magnetic stimulation of inspiratory muscles as an alternative to mechanical ventilation and functional electric stimulation. DESIGN: A prospective before-after trial. SETTING: Functional magnetic stimulation laboratory in a Veterans Administration health care system. ANIMALS: Six male mongrel dogs, each weighing between 25 and 35 kg. INTERVENTIONS: Commercially available magnetic stimulators with a round magnetic coil were used. The center of the magnetic coil was placed posteriorly over the C5-7 vertebrae of the spinal cord transected dogs. Magnetic stimulation parameters were set at 80% intensity, 20 Hz, and a 1.2-second on and 3.8-second off pulse train. MAIN OUTCOME MEASURES: The major outcomes were changes in tidal volume (VT), tracheal pressure (Ptr), and arterial partial pressure of carbon dioxide (PaCO2) and oxygen sustained by magnetic stimulation over time. RESULTS: The average Vt and Ptr produced during functional magnetic ventilation (FMV) were.47+/-.07 L and -4.7+/-.51 cmH2O, respectively. Blood gas data showed that PaCO2 increased from a baseline of 33 to 75 mmHg, whereas pH decreased from 7.33 to 6.99 at the end of the 1-hour FMV period. CONCLUSIONS: FMV was achieved for 2 hours in dogs with C2 spinal cord transection. Additional refinements in magnetic stimulation are needed to improve ventilation in animals.
Authors: Daniela G L Terson de Paleville; William B McKay; Rodney J Folz; Alexander V Ovechkin Journal: Transl Stroke Res Date: 2011-12-01 Impact factor: 6.829