1. Dobutamine in 5% (w/v) D-glucose was infused at sequential doses of 2, 5 and 10 micrograms min-1 kg-1, 45 min at each dose, into eight healthy male subjects, and the effects were compared with those produced by infusion of the corresponding volumes of 5% (w/v) D-glucose alone. 2. The energy expenditure increased and was 33% higher than control (P less than 0.001) at 10 micrograms of dobutamine min-1 kg-1. The respiratory exchange ratio decreased from 0.85 (SEM 0.02) before infusion to 0.80 (SEM 0.01) at 10 micrograms of dobutamine min-1 kg-1, but did not alter during the placebo infusion (P less than 0.001). 3. Plasma noradrenaline concentrations were lower during the dobutamine infusion compared with during the infusion of D-glucose alone (P less than 0.025). Plasma dopamine concentrations remained below 0.1 nmol/l throughout both infusions. 4. Compared with during the placebo infusion, the blood glucose concentration decreased (P less than 0.001), the plasma glycerol and free fatty acid concentrations increased by 150 and 225%, respectively (both P less than 0.001), and the plasma potassium concentration decreased from 3.8 (SEM 0.07) to 3.6 (SEM 0.04) mmol/l (P less than 0.01) during dobutamine infusion. The plasma insulin concentration increased at 2 and 5 micrograms of dobutamine min-1 kg-1 (P less than 0.001) with no further rise at 10 micrograms of dobutamine min-1 kg-1. 5. Compared with during the placebo infusion, the systolic and diastolic blood pressures and the heart rate increased during dobutamine infusion (P less than 0.01).(ABSTRACT TRUNCATED AT 250 WORDS)
Simulation in healthcare has come a long way since it's beginnings in the 1960s. Not only has the sophistication of simulator design increased, but the educational concepts of simulation have become much clearer. One particularly important area is that of non-technical skills (NTS) which has been developed from similar concepts in the aviation and nuclear industries. NTS models have been developed for anaesthetists and more recently for surgeons too. This has clear value for surgical team working and the recently developed Military Operational Surgical Training (MOST) course uses simulation and NTS to improve such team working.The scope for simulation in Defence medicine and anaesthesia does not stop here. Uses of simulation include pre-deployment training of hospital teams as well as Medical Emergency Response Team (MERT) and Critical Care Air Support Team (CCAST) staff. Future projects include developing Role 1 pre-deployment training. There is enormous scope for development in this important growth area of education and training. http://jramc.bmj.com/ Downloaded from Simulation and Defence Anaesthesia SJ Mercer, C Whittle , B Siggers et al J R Army Med Corps 156 (4 Suppl 1): S365-369 367
A continuous TAP block technique can be utilized to provide excellent analgesia following major abdominal surgery when neuraxial anesthesia is contraindicated. The TAP block's ease of placement under ultrasound guidance makes this technique particularly useful in the austere battlefield hospital environment.
The Triservice Anaesthetic Apparatus was designed around 30 years ago as a robust and highly portable anaesthesia delivery system for medical support to airborne operations and it has been the core anaesthesia system for the Defence Medical Services since then. Over this period there have been a number of equipment changes but issues remain which are in part mitigated by recent training developments. This article reviews these changes and developments and considers the future of this equipment.• Minimal reliance on compressed gases and electrical supplies • Robust • Compact and portable • Simple to operate • Able to withstand climatic extremes • Easily maintained and serviced • Economical in use • Versatile in the use of volatile agents • Versatile with regard to patient age/size group.bmj.com on July 6, 2015 -Published by
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