Jeongryul Lee scite author profile

Jeongryul Lee

5Publications

50Citation Statements Received

20Citation Statements Given

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Affiliations

Seoul National University Children's Hospital, UCLA Medical Center

Publications

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Cardiac gene transfer by intracoronary infusion of adenovirus vector—mediated reporter gene in the transplanted mouse heart

Lee¹,

Laks²,

Drinkwater³

et al. 1996

The Journal of Thoracic and Cardiovascular Surgery

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This study introduces a model for intracoronary gene transfer in murine cardiac isografts using adenovirus vectors. This approach may offer an opportunity to modulate alloreactivity after cardiac transplantation. Donor hearts were infected via the coronary arteries with a volume of 10(9) plaque-forming units per milliliter of a recombinant adenovirus containing the beta-galactosidase-encoding gene (Ad.CMVLacZ). In a control group, 200 microliters of normal saline solution was infused. The grafts were stored in 4 degrees C cold saline solution for 15 minutes, then transplanted heterotopically into syngeneic hosts (B10.BR). The grafts were harvested at 3, 7, 15, or 30 days (n = 5 for each group) after transplantation, and beta-galactosidase activity was assessed by histochemical staining (X-gal). All grafts were functioning when harvested. X-gal staining pattern was nonuniform with positive staining appearing in epicardial, myocardial, and endocardial cells, as well as in the vessel walls. The cells permissive to infection consisted predominantly of myocardial cells. The mean total numbers of beta-gal-positive staining cells per slice were 68.7 +/- 27.3 in the 3-day group, 330.4 +/- 53.8 in the 7-day group, 151.3 +/- 48.0 in the 15-day group, and 39.9 +/- 10.8 in the 30-day group, thus peaking in the 7-day group (p < 0.05). Control isografts (n = 5), retrieved at day 30, revealed no staining activity. In conclusion, our model demonstrates that intracoronary gene transfer to the transplanted murine cardiac grafts is feasible at the time of harvest. Adenovirus-mediated gene transfer produces widespread gene expression which, though perhaps transient, does not adversely affect myocardial structure or function. This technology may allow modification of graft immunogenicity in the future through the production of therapeutic proteins sufficient to modulate local immune responses.

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Preservation of endothelium-dependent vasodilation with low-potassium university of wisconsin solution

Lee

Drinkwater²,

Laks³

et al. 1996

The Journal of Thoracic and Cardiovascular Surgery

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University of Wisconsin solution has provided excellent myocardial preservation. However, the high potassium content of the currently available University of Wisconsin solution has been implicated in coronary artery endothelial damage. We placed 16 neonatal (age 1 to 3 days) Duroc piglet hearts on an isolated nonworking perfusion circuit. Endothelium-dependent and endothelium-independent vasodilation were tested by measuring coronary blood flow after intracoronary infusion of bradykinin (10(-6) mol/L) and nitroprusside (10(-6) mol/L), respectively. In addition, nitric oxide levels were measured after bradykinin infusion. The hearts were then arrested blindly with either a modified University of Wisconsin solution (group 1; n = 8, K+ = 25 mEq/L) or standard University of Wisconsin solution (group 2; n = 8, K+ = 129 mEq/L) by infusion of cardioplegic solution every 20 minutes for a total of 2 hours. After bradykinin infusion, the mean coronary blood flow increased by 237.1% +/- 14.0% of baseline valves before arrest and by 232.8% +/- 16.0% after arrest in group 1 (p = not significant). As in the first group, the mean coronary blood flow in group 2 increased by 231.1% +/- 13.7% before arrest; however, the increase in mean coronary blood flow after arrest was significantly attenuated (163.3% +/- 12.8%, p < 0.01). The loss of endothelium-dependent coronary blood flow response in group 2 correlated with a decreased capacity to release nitric oxide after arrest (prearrest 8.25 +/- 2.30 nmol/min per gram versus postarrest -2.46 +/- 2.29 nmol/min per gram, p < 0.01). Endothelium-independent vasodilatory response revealed no significant difference between groups before and after arrest. These results suggest that the low-potassium University of Wisconsin solution provides superior protection of the endothelium by preserving the endothelium-dependent vasodilatory response to nitric oxide release.

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De novo creation of fenestration and stent implantation for failed extracardiac conduit Fontan operation

Bae

Choi

Noh

et al. 2003

International Journal of Cardiology

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Anatomically corrected malposition or the great arteries

Lee¹,

Yun²,

Rho³

et al. 1991

The Annals of Thoracic Surgery

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Follow-up Study after Atrial Switch Operation for Complete Transposition of the Great Arteries

Kim¹,

Noh²,

Huh³

et al. 1998

Korean Circ J

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Jeongryul Lee

Cardiac gene transfer by intracoronary infusion of adenovirus vector—mediated reporter gene in the transplanted mouse heart

Preservation of endothelium-dependent vasodilation with low-potassium university of wisconsin solution

De novo creation of fenestration and stent implantation for failed extracardiac conduit Fontan operation

Anatomically corrected malposition or the great arteries

Follow-up Study after Atrial Switch Operation for Complete Transposition of the Great Arteries

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