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עמוד בית
Sun, 24.11.24

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November 1999
Mordechai R Kramer MD, Victor Krivoruk MD PhD, Joseph Lebzelter PhD, Mili Liani BSc and Gershon Fink MD
Background: Hypoxemia is a common complication of chronic obstructive pulmonary disease and a major factor in patients’ prognosis and quality of life. The response to exercise has been evaluated by various means but no standardization has been accepted.

Objectives: To suggest a simple outpatient technique for evaluating the response of arterial oxygen saturation to exercise for use as a marker of disease severity.

Patients and methods: Ninety-six patients with various degrees of COPD1 were divided into three groups: mild (forced expiratory volume in 1 sec >65%), moderate (FEV12 between 50 and 65%), and severe (FEV1 <50%). Using continuous oximeter recording we measured oxygen saturation during 15 steps of climbing, and quantified  oxygen desaturation by measuring the “desaturation area”, defined as the area under the curve of oxygen saturation from the beginning of exercise through the lowest desaturarion point and until after recovery to the baseline level of oxygen percent saturation. Desaturation was correlated to spirometry, lung gas volumes, blood gas analysis, and 6 min walking distance.

Results A good correlation was found between severity of COPD and baseline SaO23, lowest SaO2, recovery time, and desaturation area.  A negative correlation was found between desaturation area and FEV1 (r=-0.65), FEV1/forced vital capacity (r=-0.58), residual volume to total lung capacity (r=0.52), and diffusing lung capacity for carbon monoxide (r=-0.52). In stepwise multiple regression analysis only FEV1 correlated significantly to desaturation area.  A good correlation was noted between 6 min walking distance and desaturation area with the 15 steps technique (r=0.56).

Conclusions: In patients with severe COPD, arterial hypoxemia during exercise can be assessed by simple 15 steps oximetry. This method can serve both as a marker for disease severity and to determine the need for oxygen supplementation.

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COPD = chronic obstructive pulmonary disease

FEV1 = forced expiratory volume in 1 sec

SaO2 = arterial oxygen saturation

Ron Ben-Abraham MD, Michael Stein MD, Gideon Paret MD, Robert Cohen MD, Joshua Shemer MD, Avraham Rivkind MD and Yoram Kluger MD
Background: Since its introduction in Israel, more than 4,000 physicians from various specialties and diverse medical backgrounds have participated in the Advanced Trauma Life Support course.

Objectives: To analyze the factors that influence the success of physicians in the ATLS®1 written tests.

Methods: A retrospective study was conducted of 4,475 physicians participating in the Israeli ATLS® training program between 1990 and 1996. Several variables in the records of these physicians were related to their success or failure in the final written examination of the course.

Results: Age, the region of medical schooling, and the medical specialty were found to significantly influence the successful completion of the ATLS® course.

Conclusions: Physicians younger than 45 years of age or with a surgical specialty are more likely to graduate the ATLS® course. The success rate could be improved if the program’s text and questionnaires were translated into Hebrew. 

1ATLS® = Advanced Trauma Life Support

September 1999
Ron Ben-Abraham, MD, Michael Stein, MD, Gideon Paret, MD, Avishy Goldberg, MD, Joshua Shemer, MD and Yoram Kluger, MD.
 Background: In the military environment it is the medics who usually provide the initial care of mass casualties in the field.

Objectives: To determine the number of incidents of trauma encountered by medics in the Israel Defense Forces during peacetime, and to ascertain the role of these medics in providing primary trauma care to the victims.

Methods: A retrospective questionnaire, reviewing the activities of medics in treating injured trauma victims, was distributed to medics who were in service for at least 2 years after their professional training.

Results: Of the 128 responding medics, 87 (68%) had actively participated in the treatment of trauma victims under various circumstances. The average number of trauma events was 1.2 events over a period of 2 years per combat medic, and 0.7 for medics stationed in rear units. Their activities included insertion of numerous intravenous fluid lines (57% of medics), assistance in intubations (37%), tube thoracostomies (23%), insertions of central catheters (14%) or orogastric tubes (28%), and manual ventilations (41%).

Conclusion: Since it is difficult to increase the level of practical experience in dealing with trauma within the military framework, new techniques should be applied to improve the trauma training.

Dan Regev, MD, Yoram Wolf, MD, and Daniel Hauben, MD.
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