Stein M

Combined Effect of Foot Arch Structure and an Orthotic Device on Stress Fractures

In a prospective study, quantitative measures of the structure of the longitudinal arch of the foot were established and related to the incidence of stress fractures in the bones of the lower limbs of military recruits. In addition, the role of a semirigid orthotic device (Langer military stress orthotic) in preventing stress fractures was evaluated as a function of the structure of the longitudinal arch. Femoral and tibial stress fractures were found to be more prevalent in the presence of feet with high arches, whereas the incidence of metatarsal fractures was higher in feet with low arches. The use of an orthotic device reduced the incidence of femoral stress fractures only in the presence of feet with high arches and the incidence of metatarsal fractures only among feet with low arches. The findings suggest that the normal foot with a low arch acts as a better shock absorber than the normal foot with a high arch, and that an orthotic device may improve the shock absorbing capacity of the arch.

A Prospective Study of the Effect of a Shock-Absorbing Orthotic Device on the Incidence of Stress Fractures in Military Recruits

In a prospective study of stress fractures the hypothesis that a shock-absorbing orthotic device worn within military boots could lessen the incidence of stress fractures was tested. The incidence of metatarsal, tibial, and femoral stress fractures was lower in the orthotic group, but only the latter difference was statistically significant. The time of onset and the location of stress fractures between orthotic and nonorthotic users did not differ. These findings suggest that the incidence of femoral stress fractures, which are the most dangerous type of stress fracture because of their high risk of developing into displaced fractures, can be reduced by an orthotic device.

Prehospital stabilization of the cervical spine for penetrating injuries of the neck — is it necessary?

The purpose of this study was to assess the specific indications, benefits and risks associated with cervical spine stabilization during pre-hospital care of penetrating neck injuries. We retrospectively reviewed hospital charts and autopsy reports of 44 military casualties in Israel with a penetrating neck injury during a period of 4.5 years. A review of the literature was also carried out. In eight of 36 hospitalized casualties (22%) a life-threatening sign was diagnosed in the exposed neck - large or expanding haematoma, or subcutaneous emphysema. Surgical stabilization of the cervical spine was not performed for any of the casualties. It was concluded that life threatening complications due to penetrating neck injury are common and may be overlooked if the neck is covered by a stabilization device. It is extremely rare for a penetrating injury to result in an unstable cervical spine. New management guidelines concerning pre-hospital stabilization are suggested.

Unusual distribution and onset of stress fractures in soldiers.

Ninety-four stress fractures were detected in 64 soldiers by scintigraphy during the first 11 weeks of basic training. Unlike past military studies that showed large numbers of stress fractures of the feet, only 2% were in the metatarsals and none were in the calcaneus. Most fractures were in the tibia (71%) and femoral shaft (25%). Contrary to previous reports in the literature, the fractures occurred later in training, with 67% occurring during the fifth to eighth weeks of basic training and 12 percent during the ninth to eleventh weeks. This unusual distribution and onset has possible explanations in (1) new training concepts to fit modern warfare, with more emphasis on runs and marches; (2) new apparel and equipment carried by the soldiers; (3) changes in prearmy lifestyle; and (4) the extensive use of bone scan for diagnosis.

Clinical Significance of Nonfocal Scintigraphic Findings in Suspected Tibial Stress Fractures

The clinical significance of nonfocal increased uptake on skeletal scintigraphy in suspected tibial stress fractures is controversial, because it may represent either bone reaction to stress or a stress fracture in evolution. The scintigraphic evolution of areas of abnormal tibial activity, graded according to a 1 to 4 rating system and their corresponding clinical courses, were analyzed in 27 military recruits, as part of a prospective study. Disappearance of pain correlated with scintigraphic healing and increased pain with progression to stress fracture. Decreased or persistent pain had equivocal scintigraphic correlation. Eight of 14 nondiscrete scintigraphic lesions disappeared in spite of continuous training by the recruits; four such lesions, however, progressed to stress fractures. This uncertainty of progression suggests that military recruits and people training for sports who have such scintigraphic activity should have a brief rest period and proper monitoring before resuming training.

An analysis of the biomechanical mechanism of tibial stress fractures among Israeli infantry recruits: a prospective study

The biomechanical mechanism of tibial diaphyseal stress fractures was studied prospectively in a group of 286 Israeli recruits. Before training each recruit had roentgenograms taken of his tibiae. Measurements of total tibial and cortical widths in the anteroposterior (AP) and mediolateral planes were made on these roentgenograms at two levels: at the point of the narrowest tibial width on AP roentgenograms (Level 1) and at the point of the narrowest width on lateral roentgenograms (Level 2). The tibial cross section was idealized as an eccentric ellipse within an ellipse, and on the basis of measurements taken from the roentgenograms, the cross-sectional area (compression strength), area moments of inertia about AP and mediolateral axes of bending (bending strength), and the area polar moment of inertia (torsional strength) were calculated for each cross section. During the course of 14 weeks of training, 20% of the recruits sustained tibial diaphyseal stress fractures, all of which were along the medial cortex. Using stepwise logistic regression analysis the tibias bending strength along an AP axis of bedding at Level 2 was found to be the most significant factor determining whether or not a recruit would develop a tibial stress fracture.

External rotation of the hip. A predictor of risk for stress fractures.

External rotation of the hip was found to have a statistically significant correlation with the incidence of stress fractures, in a prospective study among Israeli infantry recruits of possible anthropomorphic predictors of risk for stress fractures. Soldiers in whom hip external rotation was greater than 65 degrees were at a higher risk for tibial and total stress fractures than those with external rotations of less than 65 degrees. The mean hip external rotation in this study of 57 degrees +/- 9.3 degrees was higher than in statistics reported in the American literature. The existence of a larger subpopulation with hip external rotation greater than 65 degrees may partially explain why the reported incidence of stress fractures in the Israeli army is higher than that of the American army.

THE ABBREVIATED INJURY SCALE : A VALUABLE TOOL FOR FORENSIC DOCUMENTATION OF TRAUMA

Anatomic trauma scoring systems are fundamental to trauma research. The Abbreviated Injury Scale (AIS) and its derivative, the Injury Severity Score (ISS), are the most frequently used scales. We assessed the applicability of the AIS and the ISS systems for postmortem forensic documentation of trauma. In a prospective study, all trauma autopsies performed between January 1 and June 30, 1993, were coded according to the AIS and ISS method. All cases were reviewed by a consultant in forensic medicine and a traumatologist. Cases were grouped in three categories according to ISS values: 0-14, 16-66, and 75. These categories represent minor, major, and incompatible-with-life injuries, respectively. All autopsy findings in which ISS was < or = 14 were peer-reviewed to establish mechanism and cause of death. In the 6-month period, 279 trauma-related autopsies were studied. Age at death averaged 37.1 +/- 18.7 (mean +/- SD). Eighty-six percent of the victims were male. Penetrating trauma was the mechanism of injury in 67%. ISS was 0-14 in 19 cases, 16-66 in 150 cases, and 75 in 110 cases. In conclusion, AIS and ISS scoring systems are applicable to trauma forensic documentation. Using these methods for coding postmortem findings may help in establishing a database for trauma research, and this information could constitute a major part of continuous quality improvement of trauma management. Low ISS values may serve as a warning, sometimes indicating preventable death.

Medial tibial pain. A prospective study of its cause among military recruits.

In a prospective study of 295 infantry recruits during 14 weeks of basic training, 41% had medial tibial pain. Routine scintigraphic evaluation in cases of medial tibial bone pain showed that 63% had abnormalities. A stress fracture was found in 46%. Only two patients had periostitis. None had ischemic medial compartment syndrome. Physical examination could not differentiate between cases with medial tibial bone pain secondary to stress fractures and those with scintigraphically normal tibias. When both pain and swelling were localized in the middle one-third of the tibia, the lesion most likely proved to be a stress fracture.

Cognitive knowledge decline after Advanced Trauma Life Support Courses

OBJECTIVE To assess the cognitive knowledge decline among graduates of the Advanced Trauma Life Support (ATLS) program in Israel, to compare the rate of decline between surgeons and nonsurgeons, and to recommend appropriate timing for refresher courses. METHODS A prospective study based on multiple-choice question test results of 220 ATLS course graduates was conducted 3 to 60 months after course completion. These results were then compared with the examination results immediately after the course. A statistical model based on survival analysis was used to evaluate the decline pattern and extent and to compare the study groups. RESULTS A significant decline of cognitive knowledge over time among ATLS graduates was demonstrated. This decline was significantly greater in the nonsurgical group. A critical point of 20% cognitive knowledge loss among 50% of the examined physicians was observed around the 180th week after completion of the course. CONCLUSION Physicians taking the ATLS course lose a significant part of their acquired cognitive knowledge after 3.5 years. Surgeons retain their cognitive knowledge for longer periods of time. Based on the study results, the optimal timing for a refresher course is between 3 and 4 years after the initial ATLS course.