Relation Between Exercise Capacity and Extracardiac Conduit Size in Patients with Fontan Circulation.

Because Fontan circulation does not have a subpulmonary ventricle, the preload is limited. In Fontan circulation with extracardiac conduit, the size of conduit could be an important factor in determining the preload. We compared exercise capacity with each conduit size and tried to search for optimal conduit size in Fontan circulation. We reviewed the medical record of 677 patients with Fontan circulation. Patients who had other type Fontan circulation (Kawashima, atriopulmonary, lateral tunnel), SpO2 < 85%, protein losing enteropathy, results of inappropriate exercise test were excluded. As a result, 150 patients were enrolled and classified according to conduit size. We compared with their exercise capacity and analyzed correlation between exercise capacity and conduit size per body surface area (BSA). 97 Males were included and mean age was 17.5 ± 5.1 years old. In cardiac catheterization, central venous pressure (CVP) was 12.4 ± 2.5 mmHg and pulmonary vascular resistance was 1.2 ± 0.5 wu m2. In cardiopulmonary exercise test, predictive peak VO2 was 59.1 ± 9.7% and VE/VCO2 was 36.2 ± 6.9. In analysis using quadratic model, impacts of gender, age at Fontan operation, ventricular morphology, isomerism, and fenestration on exercise capacity were excluded and conduit size per BSA had a significant curved correlation with predictive peak VO2 and VE/VCO2. Our results showed that patients with about 12.5 mm/m2 conduit per BSA have the best exercise capacity. Patients with larger than smaller-sized conduit were found to be more attenuated in their ability to exercise.

Early diagnosis of radiodermatitis using lactate dehydrogenase isozymes in hairless mice (SKH1-hr).

In this study, we evaluate a method for the early diagnosis of radiodermatitis for use in the prevention and therapy of this condition. Hairless mice (SKH1-hr) were used to study the early diagnosis of radiodermatitis. Lactate dehydrogenase (LDH, EC 1.1.1.27) isozymes were analyzed using native-polyacrylamide gel electrophoresis and western blotting of blood serum and tissues collected from SKH1-hr mice. Radiodermatitis developed 24 days after the first X-irradiation. Reduced spleen weight was observed after the last X-irradiation (P<0.05). Thereafter the weight increased until 24 days after the first irradiation, finally reaching levels comparable to those in the sham-irradiated control group. LDH activity was the highest in skeletal muscle and lowest in blood serum. LDH C(4), A(4), A(3)B, A(2)B(2), AB(3), and B(4) isozymes were detected, in the mentioned order, from the cathode. This result was similar in other mouse strains. In the irradiated group, LDH A(4) isozyme levels were reduced in the serum until inflammation occurred, whereas those of B(4) isozyme were elevated. The subunits A and B followed a similar trend to that of LDH A(4) and B(4) isozyme, respectively. Importantly, antibodies against LDH B(4) isozyme could prove useful in the early diagnosis of radiodermatitis.

Mechanism of prolonged gene expression by Epstein-Barr virus-based plasmid in porcine cells.

BACKGROUND: We previously showed that an Epstein-Barr virus (EBV)-based plasmid, pEBVGFP, exerts prolonged gene expression in porcine neonatal pancreatic cell clusters (NPCCs). In this study, the mechanism underlying this was investigated. METHODS: GFP expression was analyzed in porcine cells transfected with pEBVGFP by FACS analysis and confocal microscopy. The possible integration of pEBVGFP into the chromosomal DNA was analyzed by Southern blot. Self-replication of the EBV-based plasmid in porcine cells was investigated by PCR. The NPCCs were immunostained to characterize cells transfected with pEBVGFP. RESULTS: The EBV based plasmid provided prolonged GFP expression in porcine cells and duct cells were the main cells transfected among NPCCs. Southern blot showed that the transfected pEBVGFP stayed for a long time as an episome rather than integrating into the chromosomal DNA. pEBVGFP isolated from the transfected porcine cells had methylated CpG suggesting that they self-replicated in those cells. CONCLUSIONS: The EBV-based plasmid may be useful for genetically manipulating porcine cells to enhance their value as xenotransplantation sources.

Altered immune cell proportions in the radiodermatitis induced hairless mice-1 (HR-1).

Accidental radiation exposures or radiation therapy can cause internal and external damage including radiodermatitis. Even though radiodermatitis is one of the dose limiting factors in radiotherapy, the immunological nature of it is not yet been clearly understood. In this study, we have examined the alteration in immune cell population during the radiodermatitis process. A radiodermatitis model was established in HR-1 mice by locally exposing a posterior dorsal region to 10 Gy X-ray/day for 4 consecutive days. Collagen accumulation, redness, erythema, and dry desquamation of the skin were detected after X-irradiation. The size and total cell number of the spleen decreased immediately after X-irradiation, compared to those of the sham-irradiated mice, and recovered to the normal levels two weeks later. Reduction and recovery of the bone marrow cell population preceded a similar change of the spleen cell population. The proportion of CD4+ T cell increased, while the proportion of CD8+ T cell decreased ahead of the obvious skin damage, in both lymph node and spleen of the irradiated mice. Interestingly, the proportion of splenic monocytes/macrophages was expanded gradually at a similar kinetics with the aggravation of the radiodermatitis. The infiltration of the CD11b+ monocyte/macrophage to the X-irradiated skin also coincided with the development of radiodermatitis. These altered proportions of immune cells may play important roles in radiodermatitis.