James Kozlowski scite author profile

Rationale: Few noninvasive biomarkers for pulmonary inflammation are currently available that can assess the lung-specific response to antiinflammatory treatments. Positron emission tomography with [ 18 F]fluorodeoxyglucose (FDG-PET) is a promising new method that can be used to quantify pulmonary neutrophilic inflammation. Objectives: To evaluate the ability of FDG-PET to measure the pulmonary antiinflammatory effects of hydroxymethylglutarylcoenzyme A reductase inhibitors (statins) and recombinant human activated protein C (rhAPC) in a human model of experimentallyinduced lung inflammation. Methods: Eighteen healthy volunteers were randomized to receive placebo, lovastatin, or rhAPC before intrabronchial segmental endotoxin challenge. FDG-PET imaging was performed before and after endotoxin instillation. The rate of [ 18 F]FDG uptake was calculated as the influx constant K i by Patlak graphical analysis. Bronchoalveolar lavage (BAL) was performed to determine leukocyte concentrations for correlation with the PET imaging results. Measurements and Main Results: There was a statistically significant decrease in K i in the lovastatin-treated group that was not seen in the placebo-treated group, suggesting attenuation of inflammation by lovastatin treatment despite a small decrease in BAL total leukocyte and neutrophil counts that was not statistically significant. No significant decrease in K i was observed in the rhAPCtreated group, correlating with a lack of change in BAL parameters and indicating no significant antiinflammatory effect with rhAPC. Conclusions: FDG-PET imaging is a sensitive method for quantifying the lung-specific response to antiinflammatory therapies and may serve as an attractive platform for assessing the efficacy of novel antiinflammatory therapies at early phases in the drug development process. Clinical trial registered with www.clinicaltrials.gov (NCT00741013).

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Physiologic, Biochemical, and Imaging Characterization of Acute Lung Injury in Mice

Zhou

Kozlowski

Schuster

2005

Am J Respir Crit Care Med

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Rationale: Most models of acute lung injury in mice have yet to be fully characterized. Objectives: To directly compare and contrast endotoxin and oleic acid models of acute lung injury in mice in terms of their physiologic, biochemical, histopathologic, and imaging manifestations. Methods: Survival studies, lung weights, x-ray computed tomographic scanning, light and electron microscopy, bronchoalveolar lavage, lung uptake of ( In contrast, oleic acid caused severe alveolar damage with the development of alveolar edema of the increased-permeability type with associated abnormalities in gas exchange. When given together, endotoxin and oleic acid acted synergistically to increase pulmonary edema and to worsen gas exchange and hemodynamics, thereby increasing mortality. This synergism was significantly attenuated by the prior administration of the endotoxin antagonist E5564 (eritoran). Conclusions: Under the conditions of these studies, only mice exposed to oleic acid showed both structural and functional characteristics of acute lung injury. Nevertheless, endotoxin had potent synergistic physiologic effects that increased mortality. Overall, these models, which can be translated to genetically altered mice, are amenable to study with state-of-the-art imaging techniques, and with experimental interventions that can probe the underlying mechanisms of injury.

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Molecular imaging of lung glucose uptake after endotoxin in mice

Zhou

Kozlowski

Goodrich

et al. 2005

American Journal of Physiology-Lung Cellular and Molecular Phys

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Positron emission tomographic imaging after administration of the glucose analog fluorine-18 fluorodeoxyglucose ([18F]FDG) may be useful to study neutrophilic inflammation of the lungs. In this study, we sought to determine the specificity of the increase in lung [18F]FDG uptake after intraperitoneal endotoxin (Etx) for neutrophil influx into mouse lungs and to determine the regulation of glucose uptake after Etx by Toll-like receptors (TLRs) and TNF-α. Lung tissue radioactivity measurements by imaging were validated against counts in a gamma well counter. Glucose uptake was quantified as the [18F]FDG tissue-to-blood radioactivity ratio (TBR) after validating this measure against the “gold standard” measure of glucose uptake, the “net influx rate constant.” TBR measurements were made in a control group (no intervention), a group administered Etx, and a group administered Etx plus an additional agent (e.g., vinblastine) or Etx administered to a mutant mouse strain. The glucose uptake measurements were compared with measurements of myeloperoxidase. Increases in TBR after Etx were significantly but not completely eliminated by neutrophil depletion with vinblastine. Increases in TBR after Etx were consistent with signaling via either TLR-4 or TLR-2 (the latter probably secondary to peptidoglycan contaminants in Etx preparation) and were decreased by drug inhibition of TLR-4 but not by inhibition of TNF-α. Thus molecular imaging can be used to noninvasively monitor biological effects of Etx on lungs in mice, and changes in lung glucose uptake can be used to monitor effects of anti-inflammatory agents. Such imaging capacity provides a powerful new paradigm for translational “mouse-to-human” pulmonary research.

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Synergistic Hemodynamic Effects of Low-dose Endotoxin and Acute Lung Injury

Gust

Kozlowski

Stephenson

et al. 1998

Am J Respir Crit Care Med

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We evaluated the effects of low-dose endotoxin (15 microg/kg) on the pulmonary and systemic responses to oleic acid (OA)-induced acute lung injury in dogs. Animals given endotoxin alone (n = 5) showed a modest decrease in arterial blood pressure, but no effects on pulmonary hemodynamics, blood gases, cardiac output, or lung water accumulation. Animals (n = 6) given only OA (0.08 ml/kg) showed the expected development of mild-moderate pulmonary hypertension, a comparable reduction in arterial blood pressure, hypoxemia, increased lung water concentration, and an altered intrapulmonary perfusion pattern, as assessed by positron emission tomography. Animals (n = 7) given the same dose of endotoxin, followed 30 min later by the same dose of OA, developed a similar increase in lung water concentration as the group given OA alone, but failed to develop pulmonary hypertension or to redistribute pulmonary blood flow away from the edematous lung regions. In addition, arterial blood pressure fell significantly more than in the other groups. These responses were associated with a 30-fold increase in circulating prostacyclin (assayed as 6-keto prostaglandin F1 alpha [PGF1alpha]). The effects on systemic blood pressure, intrapulmonary blood flow redistribution, and eicosanoid production were eliminated by pretreating (n = 5) animals with meclofenamate (2 mg/kg). The results are consistent with a "priming" effect of low-dose endotoxin on the pulmonary endothelium, with exaggerated prostacyclin production in response to a subsequent lung injury. This interaction leads to altered intrapulmonary hemodynamics that exacerbate the development of hypoxemia, and to significant decreases in systemic blood pressure. To the extent that the lung is the most likely source of the increased prostacyclin production, the synergistic effects of low-dose endotoxin and lung injury may produce a kind of "lung shock."

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Importance of hypoxic vasoconstriction in maintaining oxygenation during acute lung injury

Brimioulle

Julien

Gust

et al. 2002

Critical Care Medicine

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James Kozlowski

[¹⁸F]Fluorodeoxyglucose Positron Emission Tomography for Lung Antiinflammatory Response Evaluation

Physiologic, Biochemical, and Imaging Characterization of Acute Lung Injury in Mice

Molecular imaging of lung glucose uptake after endotoxin in mice

Synergistic Hemodynamic Effects of Low-dose Endotoxin and Acute Lung Injury

Importance of hypoxic vasoconstriction in maintaining oxygenation during acute lung injury

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James Kozlowski

[18F]Fluorodeoxyglucose Positron Emission Tomography for Lung Antiinflammatory Response Evaluation

Physiologic, Biochemical, and Imaging Characterization of Acute Lung Injury in Mice

Molecular imaging of lung glucose uptake after endotoxin in mice

Synergistic Hemodynamic Effects of Low-dose Endotoxin and Acute Lung Injury

Importance of hypoxic vasoconstriction in maintaining oxygenation during acute lung injury

Contact Info

Product

Resources

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[¹⁸F]Fluorodeoxyglucose Positron Emission Tomography for Lung Antiinflammatory Response Evaluation