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עמוד בית
Fri, 22.11.24

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September 2019
February 2016
Moshe Herskovitz MD and Yitzhak Schiller MD PhD

Background: Resective epilepsy surgery is an accepted treatment option for patients with drug-resistant epilepsy (DRE). Presurgical evaluation consists of a phase 1 non-invasive evaluation and a phase 2 invasive evaluation, when necessary.

Objectives: To assess the results of phase 1 evaluation in patients with focal DRE.

Methods: This observational retrospective study was performed in all consecutive DRE patients admitted to our clinic from January 2001 to July 2010, and who underwent a presurgical evaluation which included at least magnetic resonance imaging (MRI) scan and long-term video EEG monitoring (LTVEM).

Results: A total of 253 consecutive patients with a diagnosis of DRE (according to the ILAE recommendations) who underwent presurgical evaluation were extracted from our clinic and department registry. In 45 of these patients either imaging or ictal video EEG data were missing; the final analysis therefore involved 208 patients. The combined result of the LTVEM and the MRI scan were as follows: 102 patients (49% of the cohort) had a lesion on the MRI scan, in 77 patients (37% of the cohort) the LTVEM results were localizing and congruent with the MRI findings, and in 25 patients (12% of the cohort) the LTVEM results were either non-localizing or incongruent with the MRI findings. In 106 patients (51% of the cohort) the MRI scan was normal or had a non-specific lesion. The LTVEM was localizing in 66 of these patients (31.7% of the cohort) and non-localizing in 40 (19.2% of the cohort).

Conclusions: Although some of the patients with focal DRE can be safely treated with resective surgery based solely on the findings of phase 1 evaluation, a substantial percent of patients do need to undergo a phase 2 evaluation before a final surgical decision is made.

 

December 2014
Alessandra Soriano MD, Ribhi Mansour MD, Yuval Horovitz MD and Howard Amital MD MHA
February 2008
I. Amirav and A. Zacharasiewicz

Management of asthma is currently based on symptoms (in children, usually a second-hand report from parents) and lung function measurements. Inhaled steroids, targeted at controlling airway inflammation, are the mainstay of asthma management. Due to possible side effects they should be used at the lowest possible doses while asthma is adequately controlled. Fractional exhaled nitric oxide is a simple non-invasive method to assess inflammation in asthma and its role in asthma management is increasing in popularity. The present review summarizes recent research on the use of FeNO[1] in monitoring airway inflammation and optimizing asthma management. The addition of FeNO measurements to the conventional assessment of asthma control appears promising. The practicability of including this measuring method into everyday clinical practice is currently being evaluated.






[1] FeNO = fractional exhaled nitric oxide


November 2007
Y. Segev, O. Lavie, Y. Goldberg, Y. Kaufman, G. Peer, S. Gips, D. Eizenberg and R. Auslander
April 2007
M. Gorenberg and A. Marmor

Background: Electrocardiography has a very low sensitivity in detecting dobutamine-induced myocardial ischemia.

Objectives: To assess the added diagnostic value of a new cardiac performance index (dP/dtejc) measurement, based on brachial artery flow changes, as compared to standard 12-lead ECG, for detecting dobutamine-nduced myocardial ischemia, using Tc99m-Sestamibi single-photon emission computed tomography as the gold standard of comparison to assess the presence or absence of ischemia.

Methods: The study group comprised 40 patients undergoing Sestamibi-SPECT[1]/dobutamine stress test. Simultaneous measurements of ECG and brachial artery dP/dtejc were performed at each dobutamine level. In 19 of the 40 patients perfusion defects compatible with ischemia were detected on SPECT. The increase in dP/dtejc during infusion of dobutamine in this group was severely impaired as compared to the non-ischemic group. dP/dtejc outcome was combined with the ECG results, giving an ECG-enhanced value, and compared to ECG alone.

Results: The sensitivity improved dramatically from 16% to 79%, positive predictive value increased from 60% to 68% and negative predictive value from 54% to 78%, and specificity decreased from 90% to 67%.
Conclusions: If ECG alone is used for specificity, the combination with dP/dtejc improved the sensitivity of the test and could be a cost-savings alternative to cardiac imaging or perfusion studies to detect myocardial ischemia, especially in patients unable to exercise







[1] SPECT = single-photon emission computed tomography


December 2004
T. Raveh Tilleman, M.M. Tilleman and M.H.A. Neumann

Background: The physical properties of cancerous skin tissue have rarely been measured in either fresh or frozen skin specimens. Of interest are the elastic properties associated with the skin's ability to deform, i.e., to stretch and compress. Two constants – Young’s modulus and Poisson’s ratio – represent the basic elastic behavior pattern of any elastic material, including skin. The former relates the applied stress on a specimen to its deformation via Hooke’s law, while the latter is the ratio between the axial and lateral strains.

Objectives: To investigate the elastic properties of cancerous skin tissue. For this purpose 23 consecutive cancerous tissue specimens prepared during Mohs micrographic surgery were analyzed.

Methods: From these specimens we calculated the change in radial length (defined as the radial strain) and the change in tissue thickness (defined as axial strain).

Results: Based on the above two strains we determined a Poisson ratio of 0.43 ± 0.12 and an average Young modulus of 52 KPa.

Conclusions: Defining the elastic properties of cancerous skin may become the first step in turning elasticity into a clinical tool. Correlating these constants with the histopathologic features of a cancerous tissue can contribute an additional non-invasive, in vivo and in vitro diagnostic tool.

September 2004
O. Efrati, D. Modan-Moses, A. Barak, Y. Boujanover, A. Augarten, A. Szeinberg, I. Levy and Y. Yahav

Background: Pulmonary disease is the most frequent cause of morbidity and mortality in cystc fibrosis patients. New techniques such as non-invasive positive pressure ventilation have resulted in prolongation of life expectancy in CF[1] patients with end-stage lung disease.

Objectives: To determine the role of NIPPV[2] in CF patients awaiting lung transplantation.

Methods: Between 1996 and 2001 nine CF patients (5 females) with end-stage lung disease were treated with bi-level positive airway pressure ventilation in the "spontaneous" mode.

Results: The patients' mean age at initiation of BiPAP[3] was 15 years (range 13–40 years) and the mean duration of BiPAP usage was 8 months (range 3–16 months). Four patients underwent successful lung transplantation, three patients died while awaiting transplantation, and the remaining two are still on NIPPV while waiting for transplantation. Patients' body mass index increased significantly (P < 0.05) during BiPAP therapy (from 16.1 to 17.2 kg/m2). Blood pH, paCO2, and bicarbonate improved significantly (from 7.31 to 7.38, 90.8 to 67.2 mmHg, and 48.9 to 40.3 mEq/L, respectively). Pulmonary function tests were not affected by BiPAP usage. The patients experienced a significant alleviation in morning headaches and improvement in quality of sleep (P < 0.003). There were no major complications during BiPAP usage.

Conclusions: We demonstrated that long-term NIPPV can stabilize and improve physiologic parameters such as ventilation, arterial blood gases and body mass index, as well as subjective symptoms such as sleep pattern, daily activity level, and morning headaches in CF patients with end-stage lung disease. Further prospectively controlled studies are needed to evaluate the potential of BiPAP therapy and its influence on morbidity and mortality in the post-lung transplantation period.






[1] CF = cystic fibrosis

[2] NIPPV = non-invasive positive pressure ventilation

[3] BiPAP = bi-level positive airway pressure ventilation


July 2003
E. Fireman

The induced sputum technique allows sampling of the airways in a non-invasive manner and thus offers a unique opportunity to identify biomarkers of potential clinical utility in respiratory medicine. Sputum cells were originally examined in stained smears and the procedure was applied in both research and clinical settings from the 1950s through the 1970s. The cells, recovered from spontaneous coughing, were used to study lung cancer and respiratory infections and, later on, to diagnose Pneumocystis carinii pneumonia in patients infected with human immunodeficiency virus. The method was largely improved by the induction of sputum with aerosol of hypertonic saline and was extended to become part of the assessment of airway inflammation in bronchial asthma and chronic obstructive pulmonary disease. It was recently shown that induced sputum can be used to study interstitial lung diseases and, more specifically, sarcoidosis, non-granulomatous ILD[1], occupational lung diseases and other systemic diseases with lung involvement.

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[1] ILD = interstitial lung diseases

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