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עמוד בית
Sun, 24.11.24

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November 2002
Jorge Rouvier, MD, Claudio Gonzalez, MD, Alejandra Scazziota, PhD and Raul Altman, MD

Background: Elevated fibrinogen, considered an independent risk factor for coronary disease, stratifies an individual as high risk for coronary disease. A risk marker requires little intra-individual variability during a long period.

Objectives: To establish intra-individual variability of fibrinogen levels in patients with coronary disease.

Methods: We investigated fibrinogen levels prospectively in four blood samples drawn from 267 patients with a history of arterial disease (arterial group) and from 264 patients with cardiac valve replacements (valvular group). The samples were taken during the course of 78.7 and 78.8 days from the arterial and valvular groups respectively.

Results: Marked intra-individual dispersion with a reliability coefficient of 0.541 was found in the arterial group and 0.547 in the valvular group. The Bland-Altman test showed low probability to obtain similar results in different samples from the same individual. These results show large intra-individual variability, with similarities in the arterial as well as in the valvular group.

Conclusions: It is not possible to stratify a patient by a specific fibrinogen dosage.

October 2002
Eytan Cohen, MD, Shlomo Almog, PhD, Daniel Staruvin, MD and Moshe Garty, MD, MSc

Background: Acarbose has become an important adjuvant therapy for diabetic patients. Many of these patients are also treated with digoxin for congestive heart failure or chronic atrial fibrillation

Objective: To evaluate a possible drug interaction between acarbose and digoxin.

Methods: An open-label, analyst-blind, randomized, crossover, two-period study was conducted in 11 healthy subjects. In period I, each subject received one single oral dose of 0.75 mg digoxin. In period ll, they were given acarbose tablets., 60 mg-3 times a day for 12 days. On day 8, one hour after acarbose administration, a single oral dose of 0.75 mg digoxin was administered. The study periods were separated by a 3 week washout interval: Serum. digoxin levels., over. time, in the two periods were compared by standard techniques;

Results: There were no differences in the pharmacokinetic parameters of digoxin in the two periods, apart from a significant increase in the mean maximum serum concentration (Cmax) when digoxin was given with acarbose (5.97 compared to 4.67 g/L, P = 0.02). Simulated steady-state peak levels of digoxin (Cmax,ss) achieved with a daily dose of 0.25 mg digoxin, in the presence.and absence of acarbose, were 2.89 and 2.40 g/L respectively (P =0.05); Simulated steady-state trough (Cmin,ss) and average (Cave,ss) concentrations were similar and within the therapeutic window.

Conclusion: There was no significant pharmacokinetic interaction between digoxin and acarbose at current therapeutic doses in the healthy volunteers. This interaction should be further studied with higher doses of acarbose and at steady-state conditions.
 

Craig Bjinderman, MA, Oren Lapid, MD and Gad Shaked, MD
September 2002
Ronen Durst, MD, Deborah Rund, MD, Daniel Schurr, MD, Osnat Eliav, MSc, Dina Ben-Yehuda, MD, Shoshi Shpizen, BSc, Liat Ben-Avi, BSc, Tova Schaap, MSc, Inna Pelz, BSc and Eran Leitersdorf, MD

Background: Low density lipoprotein apheresis is used as a complementary method for treating hypercholesterolemic patients who cannot reach target LDL[1]-cholesterol levels on conventional dietary and drug treatment. The DALI system (direct absorption of lipoproteins) is the only extracorporeal LDL-removing system compatible with whole blood.

Objective: To describe our one year experience using the DALI[2] system.

Methods: LDL apheresis was used in 13 patients due to inability to reach target LDL-C levels on conventional treatment. They included seven patients with familial hypercholesterolemia, three who had adverse reactions to statins, and three patients with ischemic heart disease who did not reach LDL-C target level on medical treatment.

Results: The average triglyceride, total cholesterol, high density lipoprotein-C and LDL-C levels before and after treatment in all patients were: 170 ± 113 vs. 124 ± 91, 269 ± 74 vs. 132 ± 48, 42 ± 8 vs. 37 ± 7.9, and 196 ± 77 vs. 80 ± 52 mg/dl, respectively. Comparing the results of a subgroup of seven patients who had previously been treated with plasma exchange, it is noteworthy that while the reduction in triglyceride, total cholesterol and LDL-C are comparable, the effect on HDL[3]-C concentration was less apparent: from an average of 39.7 ± 8.7 and 23 ± 5.7 mg/dl before and after plasma exchange to an average of 43.9 ± 8.1 and 38.4 ± 7 mg/dl before and after LDL apheresis, respectively. Five patients developed treatment-related adverse events: three experienced allergic reactions manifested as shortness of breath, urticaria and facial flushing; one patient developed rhabdomyolysis, an adverse reaction that was not reported previously as a result of LDL apheresis; and one patient had myopathy with back pain. All untoward effects occurred during the first few treatment sessions.

Conclusions: LDL apheresis using the DALI system is highly efficacious for the treatment of hypercholesterolemia. It is associated with a significant number of side effects occurring during the first treatment sessions. In patients not experiencing adverse effects in the early treatment period, it is well tolerated, and can provide remarkable clinical benefit even after short-term therapy.

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[1] LDL = low density lipoprotein

[2] DALI = direct absorption of lipoproteins

[3] HDL = high density lipoprotein

August 2002
Wendy Chen, MSW, Ruth Balaban, MA, RN, Varda Stanger, PhD, Ra’aya Haruvi, MSW, Shmuel Zur, MD and Arie Augarten, MD
July 2002
Rami Sagi, MD, Eyal Robenshtok, MD, Lior H. Katz, MD, Shmuel Reznikovich, MMHF, Israel Hendler, MD, Lior Poles, MD, Ariel Hourvitz, MD, Boaz Tadmor, MD, Meir Oren, MD, Giora Martonovich, MD and Boaz Lev, MD

The threat of a disease outbreak resulting from biologic warfare has been of concern for the Israeli health system for many years. In order to be prepared for such an event the health system has formulated doctrines for various biologic agents and defined the logistic elements for the procurement of drugs. During the last 4 years, and especially after the West Nile fever epidemic in 2000, efforts to prepare the healthcare system and the relevant organizations were accelerated. The Director-General of the Ministry of Health nominated a Supreme Steering Committee to fill in the gaps and upgrade the preparedness of the health system for an unusual disease outbreak. This committee and its seven subcommittees established appropriate guidelines, communication routes among different organizations, and training programs for medical personnel. The anthrax outbreak in the United States found the healthcare system in the hub of the preparation process, and all modes of action were intensified. Further work by hospitals, primary care clinics and all other institutes should be initiated to maintain a state of proper preparedness.

Gabi Zeilig, MD, Harold Weingarten, MD, Rachel Laufer, BSW, Amichai Brezner, MD and Michal Navon, BSW
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