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May 2007
E. Segal, M. J. Menhusen and S. Simmons

Background: Invasive fungal infections by Mucorales or Aspergillus spp. are lethal infections in immune compromised patients. For these infections a multimodal approach is required. One potential tool for treating these infections is hyperbaric oxygen.

Objectives: To evaluate the clinical course and utility of hyperbaric oxygen in patients with invasive fungal infections by Mucorales or Aspergillus spp.

Methods: We conducted a retrospective chart review of 14 patients treated with HBO[1] as part of their multimodal therapy over a 12 year period.

Results: Most patients had significant immune suppression due to either drug treatment or their underlying disorder. Thirteen of the 14 underwent surgery as part of the treatment and all were receiving antifungal therapy while treated with the hyperbaric oxygen. The number of HBO sessions ranged between 1 and 44. Seven of the patients survived the infection. No patient developed complications due to HBO therapy.

Conclusions: HBO is a potentially significant adjunct in the treatment of invasive fungal infections. Evidence on its usefulness as a standard of care in these infections is still lacking. Since it will be difficult to generate conclusive data regarding the importance of HBO in these infections, the value of HBO in these patients should be considered on an individual basis.






[1]HBO = hyperbaric oxygen


M. Witz and Z. Korzets

Renal vein occlusion in adults is usually a result of vein thrombosis, which is frequently associated with the nephrotic syndrome. The anatomy of renal vascularization is of primary importance for understanding its pathophysiological responses and the clinical and diagnostic presentation of patients with this condition. The reaction of the kidney to its vein occlusion is determined by the balance between the acuteness of the disease, extent of the development of collateral circulation, involvement of one or both kidneys and the origin of the underlying disease. Renal vein occlusion is generally a complication of some other condition, but may also occur as a primary event. The main goals of therapy should be to conserve renal parenchyma in order to maintain renal function and prevent thromboembolic phenomena.

March 2007
R. Farah, A. Samokhvalov, F. Zviebel and N. Makhou

Background: Hyperglycemia is common among patients admitted to intensive care units, and carries the risk for complications and prolonged ICU[1] stay. With intensive insulin control of blood glucose, morbidity and mortality can be reduced.

Objectives: To determine whether intensive or conventional insulin control of blood glucose in hyperglycemic ICU patients correlated with the prognosis.

Methods: Following admission to the ICU, hyperglycemic patients were randomly assigned to a group treated intensively with insulin targeting glucose at 110–140 mg/dl, or to a conventional insulin therapy group, where glucose, upon exceeding 200 mg/dl, was controlled at 140–200 mg/dl. Rates of morbidity and mortality, hypoglycemic episodes, and insulin dosage were compared.

Results: In the 41 patients treated intensively with insulin the glucose level was 142 ± 14 mg/dl, as compared to 174 ± 20 mg/dl in the 48 patients on conventional insulin treatment. Both groups were similar in age, acute physiology and chronic health evaluation score. Morbidity was also similar, except for increased vascular damage in the conventional treatment group and slightly shorter ICU stay in the intensive therapy group. Both groups had similar in-ICU, in-hospital, and 28 day mortalities, and similar rates of hypoglycemic episodes. The daily dosage of insulin was significantly higher with the conventional treatment (P = 0.004).

Conclusions: Intensive insulin treatment did not affect the mortality or morbidity rates in ICU patients. The increased insulin dosage of conventional insulin treatment was attributable to the group's higher prevalence of diabetes. Future studies should address this bias and determine the optimal glucose target.  

 






[1] ICU = intensive care unit


A. Melman, N. Bar-Chama, A. McCullough, K. Davis and G. Christ

Background: Ion Channel Innovations has developed a gene transfer product, ftMaxi-K, and has begun clinical trials to investigate the effect of increased expression of Maxi-K channels in the smooth muscle of the penis or bladder in patients with erectile dysfunction and those with overactive bladder. The primary function of K channels is to modulate Ca++ influx through Ca-channels (i.e., L-type, voltage-dependent). The amount of Ca++ that enters the cell through these channels is a major determinant of the free intracellular calcium levels inside the smooth muscle cell, which in turn determines the degree of smooth muscle cell contraction. Increased Maxi-K channel activity is associated with smooth muscle cell relaxation, resulting in, for example, penile erection and detrussor muscle relaxation. A phase I clinical trial that used dMaxi-K has been completed and a similar trial to assess safety of the transfer for overactive bladder is about to begin.

Objectives: To assess the safety and tolerability of escalating dMaxi-K doses by clinical evaluations and laboratory tests, and to measure efficacy objectives by means of the International Index of Erectile Function scale.

Methods: In the erectile dysfunction trial 11 patients with moderate to severe erectile dysfunction were given a single-dose corpus cavernosum injection of dMaxi-K, a "naked" DMA plasmid carrying the human cDNA encoding for the gene for the a, or pore-forming, subunit of the human smooth muscle Maxi-K channel, hSIo. Three patients each were given 500,1000, and 5000 pg and two patients were given 7500 pg doses of ftMaxi-K and followed for 24 weeks. Patient responses were validated by partner responses.

Results: There were no serious adverse events and no dose-related adverse events attributed to gene transfer for any patient at any dose or study visit. No clinically significant changes from baseline were seen in physical evaluations (general and genitourinary), hematology, chemistry and hormone analyses, or in cardiac events evaluated by repeated electrocardiograms. Importantly, no plasmid was detected in the semen of patients at any time after the injections. Patients given the two highest doses of dMaxi-K had apparent sustained improvements in erectile function as indicated by improved IIEF-EF domain scores over the length of the study. One patient given 5000 (jg and one given 7500 [jg reported EF category improvements that were highly clinically significant and were also maintained through the 24 weeks of study.
Conclusions: Efficacy conclusions cannot be drawn from results of a phase 1 trial with no control group. However, the promising primary safety outcomes of the study and preliminary indications of effectiveness provide evidence that ftMaxi-K gene transfer is a viable approach to the treatment of erectile dysfunction and other smooth muscle diseases with targeted access

January 2007
U. Givon, N. Sherr-Lurie, A. Schindler, A. Blankstein and A. Ganel

Background: Fractures of the femur in neonates are relatively uncommon. The infants feel pain and discomfort, causing parental distress, and the hospital stay is longer. Treatment of this specific fracture is problematic because of the small size of the baby.

Objectives: To review the results of the treatment of neonatal femoral fractures.

Methods: We retrospectively reviewed all neonatal fractures of the femur during a 12 year period. Thirteen fractures of the femur in 11 babies were treated with improvised Bryant skin traction of both legs. All the patients were re-examined after a mean follow-up period of 5.2 years.

Results: All fractures healed satisfactorily clinically and radiographically, with no residual deformity, no leg length discrepancy and no functional impairment.

Conclusions: Bryant’s traction for 2–3 weeks in hospital is a safe method for the treatment of femoral fractures in neonates, and the outcome is good.
 

July 2006
S.W. Moses, M. David, E. Goldhammer, A. Tal and S. Sukenik
April 2006
E. Miller, Y. Barnea, A. Karin, D. Leshem, J. Weiss, L. Leider-Trejo and S. Schneebaum
March 2006
G. Tal, K. Cesar, A. Oron, S. Houri, A. Ballin and A. Mandelberg

Background: We recently published preliminary evidence on the effectiveness of hypertonic saline in infants with viral bronchiolitis.

Objective: To further establish the efficacy of nebulized hypertonic saline in these infants

Methods: In a continuing, second-year randomized, double-blind controlled trial, an additional 41 infants (age 2.6 ± 1 months) hospitalized with viral bronchiolitis were recruited during the winter of 2001–2002. The infants received inhalation of 1.5 mg epinephrine dissolved either in 4 ml normal (0.9%) saline (Group I, n=20) or 4 ml hypertonic (3%) saline (Group II, n=22). The therapy was repeated three times daily until discharge. Pooling our 2 years of experience (2000–2002), a total of 93 hospitalized infants with viral bronchiolitis were recruited; 45 were assigned to Group I and 48 to Group II.

Results: The clinical scores at baseline were 7.6 ± 0.7 for Group I vs. 7.4 ± 1.3 for Group II (P = NS). However, the clinical scores at days 1 and 2 after inhalation differed significantly between the two groups, invariably favoring Group II: 7 ± 1 vs. 6.25 ± 1.1 (P < 0.05), 6.45 ± 1 vs. 5.35 ± 1.35 (P < 0.05), respectively. Adding aerosolized 3% saline to 1.5 mg epinephrine reduced the hospitalization stay from 3.5 ± 1.7 days in Group I to 2.6 ± 1.4 in Group II (P < 0.05). The pooled data of both years revealed that adding 3% saline to the inhalation mixture decreased hospitalization stay from 3.6 ± 1.6 to 2.8 ± 1.3 days (P < 0.05).
Conclusions: This second-year experience and our 2 year pooled data analysis strengthen the evidence that the combination of 3% saline/1.5 mg epinephrine benefits hospitalized infants with viral bronchiolitis

D. Bar-Zohar, B. Sagie, N. Lubezky, M. Blum, J. Klausner and S. Abu-Abeid

Background: Peritoneal dialysis is a widely accepted route for renal replacement. With the advent of endoscopy, many surgical techniques for the prevention of catheter failure have been proposed.

Objectives: To evaluate the outcomes of patients undergoing laparoscopic Tenckhoff catheter implantation, using the pelvic fixation technique.

Methods: Data analysis was retrospective. All procedures were performed under general anesthesia. A double-cuffed catheter was inserted using two 5 mm trocars and one 10 mm trocar, fixing its internal tip to the dome of the bladder and its inner cuff to the fascia. Catheter failure was defined as persistent peritonitis/exit-site/tunnel infection, severe dialysate leak, migration or outflow obstruction.

Results: LTCI[1] was performed in 34 patients. Mean patient age was 65 ± 17 years. In 12 of the 34 patients the indication for LTCI was end-stage renal failure combined with NYHA class IV congestive heart failure. Operative time was 35 ± 15 minutes. A previous laparotomy was performed in 9 patients. Hospital stay was 1.5 ± 0.6 days. The first continuous ambulatory peritoneal dialysis was performed after 20 ± 12 days. Median follow-up time was 13 months. There were several complications, including 5 (14%) exit-site/tunnel infections, 27 episodes (0.05 per patient-month) of bacterial peritonitis, 3 (9%) incisional hernias, 1 case of fatal intraabdominal bleeding, 2 (5.8%) catheter migrations (functionally significant), and 10 (30%) cases of catheter plugging, 8 of which were treated successfully by instillation of urokinase and 2 surgically. A complication-mandated surgery was performed in 8 patients (23.5%). The 1 year failure-free rate of the catheter was 80.8%. One fatal intraabdominal bleeding was recorded.
Conclusions: LTCI is safe, obviating the need for laparotomy in high risk patients. Catheter fixation to the bladder may prevent common mechanical failures







[1] LTCI = laparoscopic Tenckhoff catheter implantation


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