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On 26 December 2003, an earthquake measuring 6.5 on the Richter scale occurred in the city of Bam in southeastern Iran. Bam was destroyed completely, >43,000 people were killed, and 30,000 were injured. The national and international responses were quick and considerable. Many field hospitals werecreated and large numbers of patients were evacuated from their homes and transported to hospitals throughoutIran. Nearly 700 patients were transferred to Chamran hospital in Shiraz within the first 48 hours after the earthquake.
Methods:
This is a retrospective study based on the medical records of earthquake casualties dispatched to Chamran Hospital. A screening tunnel composed of multiple stations was prepared before patients entered to facilitate the large influx of patients. Each of the victims was passed through this screening tunnel and assigned into one of three groups: (1) those needing emergency surgical intervention; (2) those needing less urgent surgery; and (3) those needing elective operations, supportive care, observation, and/or rehabilitation.
Results:
Among the 708 patients, 392 were male (male/female ratio: 1.24) with a mean value of their ages of 30.5 years. (range: 1.5 months–70 years). Extremity fractures (136, 19%) were more common than were axial skeleton fractures (28, 4%). Out of the total 708 patients, 152 (21.5%) patients needed emergency operations, 26 (4%) needed less urgent surgery, and 530 (74.5%) required wound care or antibiotic therapy and other forms of supportive care. Some complications occurred, such as two patients with compartment syndromes of theleg, three required below-the-knee amputation, eight suffered acute renal failure, two developed fat emboli syndrome, and one had a brain injury that resulted in death.
Conclusion:
A comprehensive disaster plan is required to ensure a prompt disaster response and coordinated management of a multi-casualty incident. This can influence the outcomes of patients directly. A patient screening tunnel has advantages in rapid and effective evaluation and management of victims in any multi-casualty incident.
Although there is a general agreement that rapid sequence intubation (RSI) is thepreferred technique for intubation in aeromedical care, several pharamacological regimens have been employed without clear evidence of which is superior.
Hypothesis:
This study was designed to compare the use of etomidate (ETOM) with that of thiopental (THIO)as an adjunctive agent used with succinylcholine (SCh) for rapid sequence intubation in an urban, aeromedicalsystem.
Methods:
This was a retrospective, before-and-after study utilizing computer-assisted chart review. Adultpatients who received thiopental for rapid sequence intubation over a two-year period were compared to adult patients who received etomidate for rapid sequence intubation over a similar period, after a change in protocol, which mandated etomidate rather than thiopental for all intubations.
Results:
No difference was found in any of the primary endpoints. Stabilization time (13.1 vs. 12.9 minutes), number of intubation attempts (1.1 vs. 1.2), successful first intubation attempts (90% vs. 82%), overallsuccessful intubations (100% vs. 96%), and intubation time (18.4 vs. 21.7 seconds) were similar for all comparisons of thiopental vs. etomidate (all p >0.05).
Conclusion:
This study found no clinically relevant differences between the use of etomidate or thiopental as adjuncts with succinylcholine for rapid sequence intubation in the aeromedical setting.
Epidemiological research about disasters is difficult to perform. Most often, it must be completed retrospectively, since data collection may not be feasible or possible during the disaster.Now, there is a recognized need for a standard method to assess the severity of a disaster.
Objectives:
The aim of this paper is to assess the severity of the disasters that occurred in Italy during the 20th century, using a Disaster Severity Scale (DSS). Another goal is to find a standard method for the classification of previous disasters, test the feasibility and reliability of the use of the Disaster Severity Scale, and improvedisaster management and planning.
Methods:
Data were obtained from formal reports of the Civil Defence Unit (Italy) and were used to calculate the Disaster Severity Scale score. Disasters were classified into major and minor disasters, according tothe numbers of deaths and severity of the damage. The number of deaths was compared with the obtained Disaster Severity Scale score. A seasonal trend for different types of events was obtained to assess if there is a relationship between the type of event and the time of the year in which it occurred, as related to the weather conditions existing at that time.
Results:
There were enough data to calculate a Disaster Severity Scale score for 26 major events that caused death and economic damage, and occurred in Italy between 18 March 1944 and 11 November 1999, and for 82 minor events, that occurred between October 1982 and December 1999. There were some significant peaks varying from different types of events during particular seasons, but the cause for those with the highest incidence is not clear. Events related to natural hazards were the only type of event that reached the highest Disaster Severity Scale when considering the number of deaths, while no events associated with man-made hazards had a Disaster Severity Scale score >8.
Conclusion:
The Disaster Severity Scale score could be a reliable index for the assessment of events related to either natural or man-made disasters. Use of the Disaster Severity Scale allows researchers to classify previous hazards by scoring each disaster's severity. Further studies in other countries could be useful to further validate the Disaster Severity Scale.