Rami Dieb scite author profile

Rami Dieb

4Publications

94Citation Statements Received

68Citation Statements Given

How they've been cited

135

How they cite others

Affiliations

Johns Hopkins Medicine, Johns Hopkins University, Johns Hopkins Bayview Medical Center

Publications

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Electroporative transfection with KGF-1 DNA improves wound healing in a diabetic mouse model

et al. 2004

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We recently demonstrated that electroporation enhances transfection in a mouse wound-healing model. Keratinocyte growth factor (KGF) is an inducer of epithelial cell proliferation and differentiation and has been shown to be under expressed in the wounds of diabetic individuals. We hypothesized that KGF delivered into an excisional wound via naked DNA injection with subsequent electroporation would be a novel and potentially effective method to enhance wound closure in a diabetic mouse model. ELISA assays confirmed production of KGF protein in cultured mouse cells and RT-PCR assays confirmed KGF mRNA in skin samples taken from mice. In all, 32 genetically diabetic mice were given two identical excisional wounds of their dorsum and split into two groups with one group receiving KGF DNA injection and electroporation with the other group receiving no treatment. Over 90% of wounds healed in the presence of KGF and electroporation versus 40% in the untreated group by day 12. Histological analysis of the wounds demonstrated that untreated wounds contained microulcers with thin or incomplete epithelium with unresolved inflammation as compared to treated wounds where intact and mature epithelium was observed. Taken together these findings suggest that a single injection of KGF DNA encoded on a plasmid coupled with electroporation improves and accelerates wound closure in a delayed wound-healing model.

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Delivery of plasmid DNA expression vector for keratinocyte growth factor‐1 using electroporation to improve cutaneous wound healing in a septic rat model

Lin

Marti

Dieb

et al. 2006

Wound Repair Regeneration

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We have previously shown that wound healing was improved in a diabetic mouse model of impaired wound healing following transfection with keratinocyte growth factor-1 (KGF-1) cDNA. We now extend these findings to the characterization of the effects of DNA plasmid vectors delivered to rats using electroporation (EP) in vivo in a sepsis-based model of impaired wound healing. To assess plasmid transfection and wound healing, gWIZ luciferase and PCDNA3.1/KGF-1 expression vectors were used, respectively. Cutaneous wounds were produced using an 8 mm-punch biopsy in Sprague-Dawley rats in which healing was impaired by cecal ligation-induced sepsis. We used National Institutes of Health image analysis software and histologic assessment to analyze wound closure and found that EP increased expression of gWIZ luciferase vector up to 53-fold compared with transfection without EP (p < 0.001). EP-assisted plasmid transfection was found to be localized to skin. Septic rats had a 4.7 times larger average wound area on day 9 compared with control (p < 0.001). Rats that underwent PCDNA3.1/KGF-1 transfection with EP had 60% smaller wounds on day 12 compared with vector without EP (p < 0.009). Quality of healing with KGF-1 vector plus EP scored 3.0 +/- 0.3 and was significantly better than that of 1.8 +/- 0.3 for treatment with vector alone (p < 0.05). We conclude that both the rate and quality of healing were improved with DNA plasmid expression vector for growth factor delivered with EP to septic rats.

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Electroporation improves transfection efficiency in rat wound healing model

Lin

Marti

Dieb

et al. 2004

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Transfection with keratinocyte growth factor 1 cDNA with electroporation improves wound healing in an aged mouse model

Marti

Makary

Ferguson

et al. 2004

Journal of Surgical Research

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Rami Dieb

Electroporative transfection with KGF-1 DNA improves wound healing in a diabetic mouse model

Delivery of plasmid DNA expression vector for keratinocyte growth factor‐1 using electroporation to improve cutaneous wound healing in a septic rat model

Electroporation improves transfection efficiency in rat wound healing model

Transfection with keratinocyte growth factor 1 cDNA with electroporation improves wound healing in an aged mouse model

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