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Pneumonia: New Diagnostic and Therapeutic Options

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Dear Colleagues,

Pneumonia is a frequent disease, which can also impair the long-term health of infected patients. It can be caused by different pathogens, and its outcome is influenced by the virulence of the pathogen as well as the host’s immune response. In this Special Issue, studies investigating new diagnostic and therapeutic options in acute pneumonia will be presented. Additionally, this Special Issue will focus on the underlying pathomechanisms of pneumonia and metabolic changes induced by the different kinds of pathogens causing pneumonia. Also, as the host’s immune response strongly determines whether patients have a mild or severe course of disease, whether inflammatory processes are associated with genetic predisposition, gender, or other epigenetic/environmental factors will be examined. Furthermore, we also aim to characterize the relationship between symptoms of patients and metabolic alterations during acute infection and reconvalescence in more detail. All studies that intend to better understand the underlying pathomechanisms of pneumonia are welcome. Additionally, the long-term effects of pneumonia and their impact on patients’ quality of life will also be discussed.

Dr. Katharina Kurz
Guest Editor

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Keywords

pneumonia
pathogens
immune activation
host
underlying pathomechanisms
diagnostics
therapy
long-term effects
symptoms

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13 pages, 3561 KiB

Open AccessArticle

Establishment of a Mouse Model of Mycoplasma pneumoniae-Induced Plastic Bronchitis

by Peng Jin, Lin-Sheng Zhao, Tong-Qiang Zhang, Han Di and Wei Guo

Microorganisms 2024, 12(6), 1132; https://doi.org/10.3390/microorganisms12061132 - 1 Jun 2024

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Abstract

Plastic bronchitis (PB) constitutes a life-threatening pulmonary disorder, predominantly attributed to Mycoplasma pneumoniae (MP) infection. The pathogenic mechanisms involved remain largely unexplored, leading to the absence of reliable approaches for early diagnosis and clear treatment. Thus, the present investigation aimed to develop an MP-induced mouse model of PB, thereby enhancing our understanding of this complex condition. In the first stage, healthy BALB/c mice were utilized to investigate the optimal methods for establishing PB. This involved the application of nebulization (15–20 min) and intratracheal administration (6–50 μL) with 2-chloroethyl ethyl sulfide (CEES) concentrations ranging from 4.5% to 7.5%. Subsequently, the MP model was induced by administering an MP solution (2 mL/kg/day, 10⁸ CFU/50 μL) via the intranasal route for a duration of five consecutive days. Ultimately, suitable techniques were employed to induce plastic bronchitis in the MP model. Pathological changes in lung tissue were analyzed, and immunohistochemistry was employed to ascertain the expression levels of vascular endothelial growth factor receptor 3 (VEGFR-3) and the PI3K/AKT/mTOR signaling pathway. The administration of 4.5% CEES via a 6 µL trachea was the optimal approach to establishing a PB model. This method primarily induced neutrophilic inflammation and fibrinous exudate. The MP-infected group manifested symptoms indicative of respiratory infection, including erect hair, oral and nasal secretions, and a decrease in body weight. Furthermore, the pathological score of the MP+CEES group surpassed that of the groups treated with MP or CEES independently. Notably, the MP+CEES group demonstrated significant activation of the VEGFR-3 and PI3K/AKT/mTOR signaling pathways, implying a substantial involvement of lymphatic vessel impairment in this pathology. This study successfully established a mouse model of PB induced by MP using a two-step method. Lymphatic vessel impairment is a pivotal element in the pathogenetic mechanisms underlying this disease entity. This accomplishment will aid in further research into treatment methods for patients with PB caused by MP. Full article

(This article belongs to the Special Issue Pneumonia: New Diagnostic and Therapeutic Options)

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15 pages, 1505 KiB

Open AccessArticle

CRP/Neopterin Ratio and Neuropsychiatric Symptoms in Patients with Different Forms of Pneumonia: Results of a Pilot Study

by Katharina Konstanze Lilly Wagner, Daniele Corda, Andreas Steinmayr, Francesco Burkert, Dietmar Fuchs, Johanna Gostner, Stefanie Hofer, Lucia Parrakova, Irina Gasslitter, Günter Weiss, Christian Irsara, Sarah Maier, Andrea Griesmacher, Rosa Bellmann-Weiler and Katharina Kurz

Microorganisms 2024, 12(6), 1099; https://doi.org/10.3390/microorganisms12061099 - 29 May 2024

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Abstract

Background: Pneumonia is one of the most common infectious diseases, mostly caused by viruses or bacteria. In response to bacteria or viruses which are different but which also are partly overlapping, innate and adaptive immune responses are induced, which can be quantified using the determination of specific biomarkers. Among these, C-reactive protein (CRP) has been established as a marker of innate immune function, whereas Neopterin, which is mainly produced upon stimulation with interferon-gamma, reflects cellular immune activation. Aim: We investigated inflammation markers in patients with microbiologically confirmed viral or bacterial pneumonia, and studied the potential of CRP, Neopterin, and the CRP/Neopterin ratio to distinguish between viral and bacterial pathogenesis. Furthermore, we examined, how often neuropsychiatric symptoms occur in patients suffering from different kinds of pneumonia. Patients and method: A total of 194 patients diagnosed with either coronavirus disease 2019 (COVID-19) (n = 63), bacterial pneumonia (n = 58), Influenza infection (n = 10), Influenza and a bacterial superinfection (n = 9), and COVID-19 patients with a bacterial superinfection (n = 54) were included in our pilot study. Clinical as well as laboratory parameters were determined shortly after admission. Results: We found significantly higher CRP/Neopterin ratios in patients with bacterial pneumonia (median: 0.34) and lower CRP/Neopterin ratios in patients hospitalized with COVID-19 infection (median: 0.03; p < 0.001). Both in men and in women, the CRP/Neopterin ratio was able to distinguish between viral and bacterial pathogens, but also was able to detect bacterial super-infection (BSI) in subjects with initial viral pneumonia (p < 0.001). Patients with BSI presented with significantly lower CRP/Neopterin ratios (median 0.08) than patients with bacterial infection only (median 0.34; p < 0.001). Interestingly, COVID-19 patients had a decreased physical functioning (as reflected in the ECOG score) and a higher frequency of fatigue (84.1%) and neurological symptoms (54.8%) than patients with pneumonia, due to other underlying pathogens. Patients that reported fatigue during viral and bacterial pneumonia presented with lower CRP concentrations than patients without it. Conclusions: The CRP/Neopterin ratio is useful to differentiate between viral and bacterial pathogenesis. The occurrence of neuropsychiatric symptoms in pneumonia appears to depend on the kind of pathogen causing the infection. Lower CRP concentrations at admission appear to be related to fatigue during acute viral and bacterial infection. Full article

(This article belongs to the Special Issue Pneumonia: New Diagnostic and Therapeutic Options)

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