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עמוד בית
Mon, 25.11.24

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January 2010
D. Alperovitch-Najenson, Y. Santo, Y. Masharawi, M. Katz-Leurer, D. Ushvaev and L. Kalichman

Background: Professional drivers have been found to be at high risk for developing low back pain. However, the exact reasons are poorly understood.

Objectives: To assess the prevalence of LBP[1] among Israeli professional urban bus drivers, and evaluate the association between LBP in drivers and work-related psychosocial and ergonomic risk factors.

Methods: A total of 384 male full-time urban bus drivers were consecutively enrolled to this cross-sectional study. Information on regular physical activity and work-related ergonomic and psychosocial stressing factors was collected during face-to-face interviews. The prevalence of LBP was assessed using the Standardized Nordic Questionnaire.

Results: From the total cohort, 164 bus drivers (45.4%) reported experiencing LBP in the previous 12 months. Ergonomic factors associated with LBP were uncomfortable seat (odds ratio 2.6, 95% confidence interval 1.4–5.0) and an uncomfortable back support (OR[2] 2.5, 95% CI[3] 1.4–4.5). In the group of drivers with LBP, 48.5% reported participation in regular physical activities vs. 67.3% in the group without LBP (P < 0.01). The following psychosocial stressing factors showed significant association with LBP: “limited rest period during a working day” (1.6, 1.0–2.6), “traffic congestion on the bus route” (1.8, 1.2–2.7), “lack of accessibility to the bus stop for the descending and ascending of passengers” (1.5, 1.0–1.5), and “passengers' hostility” (1.8, 1.1–2.9).

Conclusions: Work-related ergonomic and psychosocial factors showed a significant association with LBP in Israeli professional urban bus drivers. Prevention of work-related stress, organizational changes targeted to reduce stressful situations, improvement in seat comfort, and encouraging regular sports activity need to be evaluated as prevention strategies for LBP in professional bus drivers.






[1] LBP = low back pain

[2] OR = odds ratio

[3] CI = confidence interval


June 2008
D. Sharif, G. Rofe, A. Sharif-Rasslan, E. Goldhammer, N. Makhoul, A. Shefer, A. Hassan, S. Rauchfleisch and U. Rosenschein

Background The temporal behavior of the coronary microcirculation in acute myocardial infarction may affect outcome. Diastolic deceleration time and early systolic flow reversal derived from coronary artery blood flow velocity patterns reflect microcirculatory function.

Objectives To assess left anterior descending coronary artery flow velocity patterns using Doppler transthoracic echocardiography after primary percutaneous coronary intervention, in patients with anterior AMI[1].

Methods Patterns of flow velocity patterns of the LAD[2] were obtained using transthoracic echocardiography-Doppler in 31 consecutive patients who presented with anterior AMI. Measurements were done at 6 hours, 36–48 hours, and 5 days after successful PPCI[3]. Measurements of DDT[4] and pressure half times (Pt½), as well as observation for ESFR[5] were performed.

Results In the first 2 days following PPCI, the average DDT, 600 ± 340 msec, were shorter than on day 5, 807 ± 332 msec (P < 0.012). FVP[6] in the first 2 days were dynamic and bidirectional: from short DDT (< 600 msec) to long DDT (> 600 msec) and vice versa. On day 5 most DDTs became longer. Pt½ at 6 hours was not different than at day 2 (174 ± 96 vs. 193 ± 99 msec, P = NS) and became longer on day 5 (235 ± 98 msec, p = 0.012). Bidirectional patterns were also observed in the ESFR in 6 patients (19%) at baseline, in 4 (13%) at 36 hours, and in 2 (6.5%) on day 5 after PPCI.






[1] AMI = acute myocardial infarction

[2] LAD = left anterior descending

[3] PPCI = primary percutaneous coronary intervention

[4] DDT = diastolic deceleration time

[5] ESFR = early systolic flow reversal  

[6] FVP = flow velocity pattern


November 2004
A.B. Jotkowitz, A. Porath and S. Glick
November 2003
E. Soudry, C.L. Sprung, P.D. Levin, G.B. Grunfeld and S. Einav

Background:  Physicians’ decisions regarding provision of life-sustaining treatment may be influenced considerably by non-medical variables.

Objectives: To examine physicians’ attitudes towards end-of-life decisions in Israel, comparing them to those found in the United States.

Methods: A survey was conducted among members of the Israel Society of Critical Care Medicine using a questionnaire analogous to that used in a similar study in the USA.       

Results: Forty-three physicians (45%) responded, the majority of whom hold responsibility for withholding or withdrawing life-sustaining treatments. Preservation of life was considered the most important factor by 31 respondents (72%). The quality of life as viewed by the patient was generally considered less important than the quality of life as viewed by the physician. Twenty-one respondents (49%) considered withholding treatment more acceptable than withdrawing it. The main factors for decisions to withhold or withdraw therapy were a very low probability of survival of hospitalization, an irreversible acute disorder, and prior existence of chronic disorders. An almost similar percent of physicians (93% for Israel and 94% for the U.S.) apply Do Not Resuscitate orders in their intensive care units, but much less (28% vs. 95%) actually discuss these orders with the families of their patients.

Conclusions:  Critical care physicians in Israel place similar emphasis on the value of life as do their U.S. counterparts and assign DNR[1] orders with an incidence equaling that of the U.S. They differ from their U.S. counterparts in that they confer less significance to the will of the patient, and do not consult as much with families of patients regarding DNR orders.






[1] DNR = Do Not Resuscitate


November 2000
by Fabrizio Conti, MD, Francesca Romana Spinelli, MD, Alejandra Ossandon, MD and Guido Valesini, MD
April 2000
chondrocyte transplantation, joint cartilage, articular surface, bioengineering, cartilage repair, dror robinson, hana ash, david aviezer, gabriel agar, nahum halperin, zvi nevo, robinson, ash, aviezer, agar, halperin, nevo

Background: Articular cartilage is incapable of undergoing self-repair since chondrocytes lose their mitotic ability as early as the first year of life. Defects in articular cartilage, especially in weight-bearing joints, will predictably deteriorate toward osteoarthritis.  No method has been found to prevent this deterioration. Drilling of the subchondral bone can lead to fibrocartilage formation and temporary repair that slowly degrades. Animal experiments indicate that introducing proliferating chondrocytes such as cultured articular chondrocytes can reliably reconstruct joint defects.

Objectives: To describe our clinical experience in culturing and transplanting autologous chondrocytes. 

Methods: Biopsies were obtained from 10 patients, aged 18–45, undergoing a routine arthroscopy in which a cartilage defect was identified with indications for cartilage transplantation. The biopsies were further processed to establish chondrocyte cultures. ACT was performed in 8 of the 10 patients because of persistent symptoms for at least 2 months post-arthroscopy. All patients (6 men and 2 women) had a grade IV cartilage defect in the medial or lateral femoral condyle, and three had a defect in the trochlear region as well. Biopsies were removed from the lateral rim of the superior aspect of the femur, and cells were cultured in a clean room. Following a 2 order of magnitude expansion, cells were implanted under a periosteal flap.

Results: The eight patients implanted with autologous cells were followed for 6 months to 5 years (average 1 year). Complaints of giving-way, effusion and joint locking resolved in all patients, and pain as assessed by the visual analogue score was reduced by an average of 50%. Follow-up magnetic resonance imaging studies in all patients revealed that the defects were filled with tissue having similar signal characteristics to cartilage.

Conclusions: Chondrocyte implantation is a procedure capable of restoring normal articular cartilage in cases with isolated joint defects. Pain can be predictably reduced, while joint locking and effusion are eliminated. The effect on osteoarthritis progression in humans has not yet been elucidated.

__________________________________

ACT = autologous chondrocyte transplantation

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