P. Scheid scite author profile

Clinical studies of gene therapy for cystic fibrosis (CF) suggest that the key problem is the efficiency of gene transfer to the airway epithelium. The availability of relevant vector receptors, the transient contact time between vector and epithelium, and the barrier function of airway mucus contribute significantly to this problem. We have recently developed recombinant Sendai virus (SeV) as a new gene transfer agent. Here we show that SeV produces efficient transfection throughout the respiratory tract of both mice and ferrets in vivo, as well as in freshly obtained human nasal epithelial cells in vitro. Gene transfer efficiency was several log orders greater than with cationic liposomes or adenovirus. Even very brief contact time was sufficient to produce this effect, and levels of expression were not significantly reduced by airway mucus. Our investigations suggest that SeV may provide a useful new vector for airway gene transfer.

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Tumor infiltrating lymphocytes and macrophages have a potential dual role in lung cancer by supporting both host-defense and tumor progression

Kataki¹,

Scheid²,

Piet³

et al. 2002

Journal of Laboratory and Clinical Medicine

157

126

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Continuous versus Intermittent Infusions of Ceftazidime for Treating Exacerbation of Cystic Fibrosis

Hubert

Roux

Lavrut

et al. 2009

Antimicrob Agents Chemother

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The present multicenter, randomized crossover study compared the safety and efficacy of continuous infusion with those of short infusions of ceftazidime in patients with cystic fibrosis. Patients with chronic Pseudomonas aeruginosa colonization received two successive courses of intravenous tobramycin and ceftazidime (200 mg/kg of body weight/day) for pulmonary exacerbation administered as thrice-daily short infusions or as a continuous infusion. The primary endpoint was the variation in the forced expiratory volume in 1 s (FEV 1 ) during the course of antibiotic treatment. Sixty-nine of the 70 patients enrolled in the study received at least one course of antibiotic treatment. The improvement in FEV 1 at the end of therapy was not statistically different between the two treatment procedures (؉7.6% after continuous infusion and ؉5.5% after short infusions) but was better after continuous ceftazidime treatment in patients harboring resistant isolates (P < 0.05). The interval between the course of antibiotic treatments was longer after the continuous infusion than after the short infusion of ceftazidime (P ‫؍‬ 0.04). The mean serum ceftazidime concentration during the continuous infusion was 56.2 ؎ 23.2 g/ml; the mean peak and trough concentrations during the short infusions were 216.3 ؎ 71.5 and 12.1 ؎ 8.7 g/ml, respectively. The susceptibility profiles of the P. aeruginosa isolates remained unchanged and were similar for both regimens. Quality-of-life scores were similar whatever the treatment procedure, but 82% of the patients preferred the continuous-infusion regimen. Adverse events were not significantly different between the two regimens. In conclusion, the continuous infusion of ceftazidime did not increase its toxicity and appeared to be as efficient as short infusions in patients with cystic fibrosis as a whole, but it gave better results in patients harboring resistant isolates of P. aeruginosa.

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CFTR Gene Mutations in Adults with Disseminated Bronchiectasis

Girodon¹,

Cazeneuve²,

Lebargy³

et al. 1997

Eur J Hum Genet

133

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Anti-inflammatory gene therapy directed at the airway epithelium

Griesenbach¹,

Scheid²,

Hillery³

et al. 2000

Gene Ther

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P. Scheid

Efficient gene transfer to airway epithelium using recombinant Sendai virus

Tumor infiltrating lymphocytes and macrophages have a potential dual role in lung cancer by supporting both host-defense and tumor progression

Continuous versus Intermittent Infusions of Ceftazidime for Treating Exacerbation of Cystic Fibrosis

CFTR Gene Mutations in Adults with Disseminated Bronchiectasis

Anti-inflammatory gene therapy directed at the airway epithelium

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