Effect of N-acetylcysteine on acute allograft rejection after rat lung transplantation.

BACKGROUND: N-Acetylcysteine (NAC) attenuates ischemia-reperfusion injury after lung transplantation in animal models. The purpose of this study is to evaluate a protective effect of NAC against acute lung rejection. METHODS: Rat single-lung transplantation was performed in four groups (n = 7 per group). In NAC groups, donors and recipients received NAC 150 mg/kg per day intraperitoneally before transplantation and recipients thereafter until euthanasia. Control groups (CON) received 0.5 mL of 0.9% saline solution intraperitoneally instead of NAC. Animals were euthanized on day 1 (CON1, NAC1) or day 5 (CON5, NAC5) after transplantation. Lung tissue was assessed by histology, immunohistochemistry for CD68+/CD163+ macrophages and CD3+ T cells, immunofluorescence for interleukin 4 and interleukin 12, concentration of reduced glutathione, and activated nuclear factor-kappa B. RESULTS: CD68+ macrophages in CON5 accumulated significantly compared with NAC5 grafts (p < 0.001). No significant difference was observed for CD163+ macrophages on day 5. T cells were significantly more frequent in NAC1 (p < 0.001), but significantly less in NAC5 (p < 0.001) compared with control groups, respectively. Interleukin 4 and interleukin 12 expression did not differ between groups. Treatment with NAC significantly influenced glutathione levels (p = 0.019) and reduced nuclear factor-kappa B activation (p = 0.034) in transplanted lungs. CONCLUSIONS: N-Acetylcysteine has the potential to attenuate acute pulmonary rejection by reduction of macrophage and T-cell infiltration, which is intimately linked to a reduced action of the nuclear factor-kappa B proinflammatory signaling pathway. In view of these observations, NAC should be considered a promising substance that could play a role in strategies for the prevention of acute rejection.

Optimized intrapleural cisplatin chemotherapy with a fibrin carrier after extrapleural pneumonectomy: a preclinical study.

OBJECTIVE: Our objective was to evaluate whether platinum concentrations in chest wall tissue and in serum are optimized by intracavitary application of cisplatin loaded to a fibrin carrier compared with cisplatin solution in a randomized setting of a pig model. METHODS: After left-sided pneumonectomy including parietal pleurectomy, pigs were randomly assigned to receive either 90 mg/m(2) cisplatin intracavitary solution (n = 6) or to receive 5 mg cisplatin-fibrin (n = 5) applied on a predefined area of the chest wall. Platinum concentration in serum as well as in chest wall tissue was determined at several early time points until day 5 after treatment. Platinum levels were measured by inductively coupled plasma sector field mass spectrometric detection with a matrix-matched calibration procedure. RESULTS: The dose- and surface-corrected (geometric) mean concentration of cisplatin in chest wall tissue 2 hours but also at day 5 after the application was doubled in animals treated with cisplatin-fibrin compared with the animals treated with cisplatin-solution. In serum, the dose- and surface-corrected exposure toward cisplatin (area under the curve(0-5d)) was significantly lower with cisplatin-fibrin than with cisplatin-solution (P < .0005). This is also reflected by significantly reduced serum creatinine and urea values in the cisplatin-fibrin group (P < .0001). Animals treated with cisplatin-fibrin additionally had a significantly better postoperative course as assessed by a well-being score (P < .001). CONCLUSIONS: After cisplatin-fibrin treatment, cisplatin tissue concentration was increased whereas systemic cisplatin concentrations were significantly reduced in comparison with cisplatin-solution treatment. This finding offers a clear advantage inasmuch as rate and severity of systemic adverse events can be reduced while local cytotoxic concentrations are at least maintained.