Faculty Bibliography

BACKGROUND:Pulmonary histoplasmosis is a mycotic infection that often resembles pulmonary malignancy and continues to complicate the evaluation of pulmonary nodules. CASE PRESENTATION/METHODS:We report a case of an immunocompetent patient who, despite adequate treatment for known histoplasmosis lung infection, presented with radiological and F-18 fluorodeoxyglucose (FDG) positron emission tomography (PET) findings mimicking primary lung malignancy which eventually required surgical resection. CONCLUSION/CONCLUSIONS:Histoplasmosis infection may radiologically resemble pulmonary malignancy, often causing a diagnostic dilemma. PET imaging is currently used for and considered accurate in the evaluation of pulmonary nodules. However, overlap in PET standardized uptake value (SUV) between granulomatous and malignant lesions decreases the accuracy of PET as a diagnostic modality. Future advances in PET imaging are needed to improve its accuracy in the evaluation of pulmonary nodules in areas where histoplasmosis is endemic.

OBJECTIVE:To determine if cross-tolerance to septic shock could be induced by a previous insult with sublethal hemorrhage (SLH) and to characterize the mechanisms involved in this induced protective response. BACKGROUND DATA/BACKGROUND:It is possible to condition animals by prior SLH such that they tolerate an otherwise lethal hemorrhage. It is also possible to condition animals with low doses of lipopolysaccharide (LPS) so that they survive a "lethal" septic insult. However, a paucity of information exists on cross-tolerance between hemorrhage and sepsis. METHODS:Rats were made tolerant by conditioning SLH or sham operation. Twenty-four hours later, tolerant and sham rats were exposed to a lethal dose of LPS. To explore the mechanism of tolerance induction, rats were given the macrophage (Mphi) inhibitor CNI-1493 or saline carrier before SLH. Survival and pulmonary vascular injury were determined after LPS. Serum tumor necrosis factor (TNF) levels and splenic Mphi TNF gene expression were measured at several time points. RESULTS:Prior SLH indeed made rats tolerant and imparted a significant survival benefit and reduction in pulmonary vascular injury after LPS. The tolerance induced by SLH was reversed by Mphi inhibition. Tolerant animals had low serum TNF levels immediately after SLH and reduced circulating TNF levels after LPS. SLH, however, did not inhibit the augmentation of TNF gene expression after LPS. CONCLUSIONS:Sublethal hemorrhage bestows protection against a lethal LPS challenge. Inhibition of the Mphi attenuated the benefit of the tolerance induced by SLH. Circulating TNF but not TNF gene after LPS is lessened by SLH. This implicates changes in Mphi intracellular signaling in induction of the tolerant state.

Macrophage overproduction of inflammatory mediators is detrimental in the progression of acute pancreatitis. Although inhibition of inflammatory mediators has been shown to decrease the severity of experimental pancreatitis and improve overall survival, less is known about the mechanism by which blockade produces these benefits. Prior to the induction of lethal acute pancreatitis, rats were randomized to receive a single dose (.01, .1, 1.0, or 10 mg/kg) of a macrophage-pacifying compound (CNI-1493) or vehicle. Escalating doses provided incremental increases in survival from 10% (vehicle) to a maximum of 70% (CNI-1493, 1.0 mg/kg). To evaluate the physiologic mechanism responsible for the improved survival, continuous arterial blood pressure, serial hematocrit, ascites volume, pancreatic edema, bronchoalveolar leukocytes and protein, and pancreatic histology were determined in additional rats receiving CNI-1493 (1.0 mg/kg). Serum tumor necrosis factor-alpha and nitrites were also determined to assess the mechanism of action of CNI-1493. Macrophage pacification decreased pancreatitis severity as determined by enzyme release and pancreatic histology score. Ascites volume and bronchoalveolar protein levels were also decreased, indicating that CNI-1493 prevents the loss of circulating blood volume and maintains hematocrit and mean arterial pressure, thus improving survival. CNI-1493 prevented the increase of serum tumor necrosis factor-alpha but not serum nitrites, implicating macrophage-derived cytokines and not nitric oxide in the pathogenesis of physiologic decompensation and death in this model of pancreatitis.