ABSTRACT
The lumbar sympathetic ganglion block (LSGB) is widely used for diagnosing and treating sympathetically maintained pain disorders. The LSGB has been conventionally carried out under fluoroscopy or computed tomography guidance. However, as ultrasound technology improved, ultrasound-guided interventions have been expanding their territory to deeper structures. Ultrasound guidance provides many benefits including protecting vascular injection, shortening procedure time in some cases, and reducing the emission of radiation. In this report, we describe a successful case of a US-guided LSGB without major complications. We expect that US-guided LSGBs can be implemented and furnished in the daily outpatient clinical setting by highly trained pain physicians.
Subject(s)
Humans , Fluoroscopy , Ganglia, Sympathetic , Neuralgia , Outpatients , Psoas Muscles , UltrasonographyABSTRACT
Infection by organisms in the anesthetic apparatus and in the operating theater is one of the important problems. Authors have studied the distribution of organisms that have been isolated from the anesthetic apparatuses and the operating theaters of some hospitals in Chung-Nam province. We have tested antibacterial activity and sensitivity by disinfectants and antibiotics. The results are follows: 1. Eleven strains of organisms were isolated from the anesthetic apparatus and the operating theatres: fstaphylococcus, B. subtilis, pseudomonas, E. coli, yeast-forms, both Gram positive or negative cocci and bacilli and fungi. 2. Antibacterial activity was stronger at a higher temperature (50degrees C) than at a lower temperature (20degrees C) and in comparison of effects between difference concentrations, there was not any noted difference in the phenol group and benzalkonium group but in the Hygien group, antibacterial activity was increased by increasing the concentratoin. 3. Staphylococci, Gram negative bacilli, Gram negative cocci, and Gram positive yeast-forms were sensitive to the majority of antibiotics but other organisms were resistantall to almost all antibiotics.