Expression of Tenascin-C Is Upregulated in the Early Stages of Radiation Pneumonitis/Fibrosis in a Novel Mouse Model.

The lung is a major dose-limiting organ for radiation therapy (RT) for cancer in the thoracic region, and the clarification of radiation-induced lung damage (RILD) is important. However, there have been few reports containing a detailed comparison of radiographic images with the pathological findings of radiation pneumonitis (RP)/radiation fibrosis (RF). We recently reported the upregulated expression of tenascin-C (TNC), an inflammation-associated extracellular matrix molecule, in surgically resected lung tissue, and elevated serum levels were elevated in a RILD patient. Therefore, we have developed a novel mouse model of partial lung irradiation and studied it with special attention paid to the computed tomography (CT) images and immunohistological findings. The right lungs of mice (BALB/c) were irradiated locally at 30 Gy/1fr, and the following two groups were created. In Group 1, sequential CT was performed to confirm the time-dependent changes in RILD. In Group 2, the CT images and histopathological findings of the lung were compared. RP findings were detected histologically at 16 weeks after irradiation; they were also observed on the CT images from 20 weeks. The immunostaining of TNC was observed before the appearance of RP on the CT images. The findings suggest that TNC could be an inflammatory marker preceding lung fibrosis.

Potential of exogenous melatonin administration to mitigate heat stress induce pathophysiology of chicken.

Melatonin (MT) is an amine hormone secreted by the body that has antioxidant and anti-inflammatory properties. The aim of this study was to investigate pathophysiological protection of MT in heat-stressed chickens. By modelling heat-stressed chickens and treating them with MT. After 21 days of administration, serum antioxidant enzymes, biochemical indices, inflammatory cytokine and heat-stress indices were detected, along with cardiopulmonary function indices and histological observations in chickens. The results show heat-stress induced a decrease (P < 0.05) in body weight and an increase in body temperature, which was reversed after MT intervention. Treatment with MT inhibited (P < 0.05) the secretion of pro-inflammatory factors interleukin-1ß, interleukin-6, tumor necrosis factor α, serum heat shock protein 70, corticosterone, and elevated (P < 0.05) the levels of biochemical factors total protein, albumin, globulin, and increased (P < 0.05) the activities of antioxidant enzymes superoxide dismutase, glutathione peroxidase and catalase in chicken serum caused by heat stress, and the best effect was observed with the medium dose of MT. The heat-stress caused cardiac atrophy and pulmonary congestion, decreased (P < 0.05) the cardiac function indices creatine kinase isoenzyme, cardiac troponin I, angiotensin receptor I, creatine kinase and lung function indices myeloperoxidase, angiotensin-II, heat shock factor I, and increased (P < 0.05) the lung vascular endothelial growth factor II. Sections of the heart and lungs after administration of MT were observed to be more complete with more normal tissue indices. At the same time, compared with heat stress, heart and lung function indices of grade chickens after MT administration were significantly (P < 0.05)reduced and tended to normal levels, and the best effect was observed in the medium-dose MT. In conclusion, heat stress can cause pathophysiological damage in chickens, and 1 mg/kg/d of exogenous melatonin can attenuate this adverse effect.

Evaluating the therapeutic effect of vitamin D and nerolidol on lung injury due to experimental myocardial infarction: The potential role of asprosin and spexin.

Injury to internal organs caused by myocardial infarction (MI), although often neglected, is a very serious condition which damages internal organs especially the lungs. Changes in microcirculation can begin with acute lung injury and result in severe respiratory failure. The aim of this study was to create new approaches that will explain the pathophysiology and treatment of the disease by examining the therapeutic effects of vitamin D (VITD) and Nerolidol (NRD) on the injuries of the lungs caused by MI, and their relationship with asprosin / spexin proteins. METHODS: Six groups of seven experimental animals each were constituted. Control, VITD (only 50 IU/day during the experiment), NRD (only 100 mg/kg/day during the experiment), MI (200 mg/kg isoproterenol was administered to rats as a single dose subcutaneously), MI+VITD (200 mg/kg isoproterenol +50 IU/day) and MI+NRD (200 mg/kg isoproterenol +100 mg/kg/day) were the six (6) groups constituted. Tissues were analyzed using histopathological and immunohistochemical methods, whereas serum samples were analyzed using ELISA method. RESULTS: The result of the histopathological study for the MI group showed an observed increase in inflammatory cells, congestion, interalveolar septal thickening, erythrocyteloaded macrophages and fibrosis in the lung tissues. The treatment groups however recorded significant differences with regards to these parameters. In the immunohistochemical analysis, expressions of asprosin and spexin were observed in the smooth muscle structures and interalveolar areas of the vessels and bronchioles of the lung, as well as the bronchiole epithelium. There was no significant difference between the groups in terms of asprosin and spexin expression in the bronchiol epithelium. When immunohistochemical and serum ELISA results were examined, it was observed that asprosin levels increased significantly in the lung tissues of the MI group compared to the control group, decreased significantly in the treatment groups treated with Vitamin D and NRD after MI. While spexin decreased significantly in the MI group compared to the control group, it increased significantly in the MI+VITD group, but did not change in the MI+NRD group. CONCLUSION: It was observed that serious injuries occurred in the lungs due to myocardial infarction and that, VITD and NRD treatments had a curative effect on those injuries. It was also observed that Asprosin and Speksin proteins can have effect on mechanisms of both injury and therapy of the lung. Furthermore, the curative effects of VITD are dependent on the expression of asprosin and spexin; whereas the observation indicated that nerolidol could be effective through asprosin-dependent mechanisms and specisin by independent mechanisms.

Platycodin D facilitates antiviral immunity through inhibiting cytokine storm via targeting K63-linked TRAF6 ubiquitination.

Influenza virus infection is a worldwide challenge that causes heavy burdens on public health. The mortality rate of severe influenza patients is often associated with hyperactive immunological abnormalities characterized by hypercytokinemia. Due to the continuous mutations and the occurrence of drug-resistant influenza virus strains, the development of host-directed immunoregulatory drugs is urgently required. Platycodon grandiflorum is among the top 10 herbs of traditional Chinese medicine used to treat pulmonary diseases. As one of the major terpenoid saponins extracted from Platycodon grandiflorum, Platycodin D (PD) has been reported to play several roles, including anti-inflammation, analgesia, anti-cancer, hepatoprotection, and immunoregulation. However, the therapeutic roles of PD to treat influenza virus infection remains unknown. Here, we show that PD can protect the body weight loss in severely infected influenza mice, alleviate lung damage, and thus improve the survival rate. More specifically, PD protects flu mice via decreasing the immune cell infiltration into lungs and downregulating the overactivated inflammatory response. Western blot and immunofluorescence assays exhibited that PD could inhibit the activation of TAK1/IKK/NF-κB and MAPK pathways. Besides that, CETSA, SPR and immunoprecipitation assays indicated that PD binds with TRAF6 to decrease its K63 ubiquitination after R837 stimulation. Additionally, siRNA interference experiments exhibited that PD could inhibit the secretion of IL-1ß and TNF-α in TRAF6-dependent manner. Altogether, our results suggested that PD is a promising drug candidate for treating influenza. Our study also offered a scientific explanation for the commonly used Platycodon grandiflorum in many anti-epidemic classic formulas. Due to its host-directed regulatory role, PD may serve as an adjuvant therapeutic drug in conjunction with other antiviral drugs to treat the flu.

Fisiopatología de la displasia broncopulmonar / Pathophysiology of bronchopulmonary dysplasia

La fisiopatología de la displasia broncopulmonar (DBP) se centra en la interrupción del desarrollo pulmonar durante etapas críticas en las que la histología, anatomía y función celular están en proceso de adaptación para facilitar el intercambio gaseoso eficiente. Este desarrollo, que avanza hacia la etapa alveolar después de la etapa sacular, ocurre simultáneamente con una respuesta inflamatoria y de reparación al daño. Como resultado, se afectan la vía aérea (principalmente a través de la limitación obstructiva), los alvéolos (resultando en hipoxemia) y la vasculatura pulmonar (provocando hipertensión pulmonar).

The pathophysiology of bronchopulmonary dysplasia (BPD) is centered on the disruption of lung development during critical stages where histology, anatomy, and cellular function are adapting to facilitate efficient gas exchange. This development, advancing towards the alveolar stage after the saccular stage, occurs concurrently with an inflammatory and damage repair response. As a result, it affects the airway (primarily through obstructive limitation), alveoli (resulting in hypoxemia), and pulmonary vasculature (leading to pulmonary hypertension).

Zinc deficiency increases lung inflammation and fibrosis in obese mice by promoting oxidative stress.

BACKGROUND: Zinc deficiency can lead to multiple organ damage. In this study, we investigated the effects of zinc deficiency on obesity-related lung damage. METHODS: C57BL/6 J mice were fed a diet with differing amounts of zinc and fat over a 6-month period. Palmitic acid was used to stimulate A549 cells to construct a high-fat alveolar epithelial cell model. Western blotting and histopathological staining were performed on animal tissues. Nuclear expression of nuclear factor erythroid 2-related factor 2 (Nrf2) was detected in cultured cells. A reactive oxygen species (ROS) assay kit was used to detect intracellular ROS. Furthermore, Nrf2 siRNA was used to examine zinc deficiency effects on A549 cells. RESULTS: Pathological results showed significant damage to the lung structure of mice in the high-fat and low-zinc diet group, with a significant increase in the expression of inflammatory (IL-6, TNF-α) and fibrosis (TGFß1, PAI-1) factors, combined with a decrease in the expression of Nrf2, HO-1 and NQO1 in the antioxidant pathway. In A549 cells, high fat and low zinc levels aggravated ROS production. Western blot and immunofluorescence results showed that high fat and zinc deficiency inhibited Nrf2 expression. After Nrf2-specific knockout in A549 cells, the protective effect of zinc on oxidant conditions induced by high fat was reduced. Phosphorylated Akt and PI3K levels were downregulated on the high-fat and low-zinc group compared with the high-fat group. CONCLUSIONS: Zinc attenuated lung oxidative damage in obesity-related lung injury and Nrf2 activation is one of the important mechanisms of this effect. GENERAL SIGNIFICANCE: Regulating zinc homeostasis through dietary modifications or supplemental nutritional therapy can contribute to the prevention and treatment of obesity-related lung injury.

Abemaciclib-induced lung damage leading to discontinuation in brain metastases from breast cancer: A case report.

BACKGROUND: This case report addresses the dearth of effective therapeutic interventions for central nervous system metastases in patients with HER2-negative breast cancer. It presents a unique case of a woman with estrogen receptor-positive, HER2-negative breast cancer who developed brain metastasis. The report highlights her initial favorable response to abemaciclib and letrozole therapy prior to the discontinuation due to drug-induced lung damage (DILD). CASE SUMMARY: In this comprehensive case summary, we present the clinical course of a woman in her 60s, who 11 years following primary breast cancer surgery, was diagnosed with multiple brain metastases. As a third-line systemic therapy, she underwent treatment with abemaciclib and letrozole. This treatment approach yielded a near-partial response in her metastatic brain lesions. However, abemaciclib administration ceased due to the emergence of DILD, as confirmed by a computed tomography scan. The DILD improved after 1 mo of cessation. Despite ongoing therapeutic efforts, the patient's condition progressively deteriorated, ultimately resulting in death due to progression of the brain metastases. CONCLUSION: This case underscores the challenge of managing adverse events in responsive brain metastasis patients, given the scarcity of therapeutic options.

Do alternative tobacco products induce less adverse respiratory risk than cigarettes?

RATIONALE: Due to the relatively short existence of alternative tobacco products, gaps exist in our current understanding of their long-term respiratory health effects. We therefore undertook the first-ever side-by-side comparison of the impact of chronic inhalation of aerosols emitted from electronic cigarettes (EC) and heated tobacco products (HTP), and combustible cigarettes (CC) smoke. OBJECTIVES: To evaluate the potential differential effects of alternative tobacco products on lung inflammatory responses and efficacy of vaccination in comparison to CC. METHODS: Mice were exposed to emissions from EC, HTP, CC, or air for 8 weeks. BAL and lung tissue were analyzed for markers of inflammation, lung damage, and oxidative stress. Another group was exposed for 12 weeks and vaccinated and challenged with a bacterial respiratory infection. Antibody titers in BAL and sera and pulmonary bacterial clearance were assessed. MAIN RESULTS: EC- and HTP-aerosols significantly augmented lung immune cell infiltrates equivalent to that achieved following CC-exposure. HTP and CC significantly increased neutrophil numbers compared to EC. All products augmented numbers of B cells, T cells, and pro-inflammatory IL17A+ T cells in the lungs. Decreased lung antioxidant activity and lung epithelial and endothelial damage was induced by all products. EC and HTP differentially augmented inflammatory cytokines/chemokines in the BAL. Generation of immunity following vaccination was impaired by EC and HTP but to a lesser extent than CC, with a CC > HTP > EC hierarchy of suppression of pulmonary bacterial clearance. CONCLUSIONS: HTP and EC-aerosols induced a proinflammatory pulmonary microenvironment, lung damage, and suppressed efficacy of vaccination.

N-acetyl cysteine mitigates lung damage and inflammation after chlorine exposure in vivo and ex vivo.

The objective of this study was to explore the effects of antioxidant treatments, specifically N-acetylcysteine (NAC) and N-acetylcysteine amide (NACA), in a mouse model of chlorine (Cl2)-induced lung injury. Additionally, the study aimed to investigate the utility of pig precision-cut lung slices (PCLS) as an ex vivo alternative for studying the short-term effects of Cl2 exposure and evaluating antioxidant treatments. The toxicological responses were analyzed in Cl2-exposed mice (inflammation, airway hyperresponsiveness (AHR)) and PCLS (viability, cytotoxicity, inflammatory mediators). Airways contractions were assessed using a small ventilator for mice and electric-field stimulation (EFS) for PCLS. Antioxidant treatments were administered to evaluate their effects. In Cl2-exposed mice, NAC treatment did not alleviate AHR, but it did reduce the number of neutrophils in bronchoalveolar lavage fluid and inflammatory mediators in lung tissue. In PCLS, exposure to Cl2 resulted in concentration-dependent toxicity, impairing the lung tissue's ability to respond to EFS-stimulation. NAC treatment increased viability, mitigated the toxic responses caused by Cl2 exposure, and maintained contractility comparable to unexposed controls. Interestingly, NACA did not provide any additional treatment effect beyond NAC in both models. In conclusion, the establishment of a pig model for Cl2-induced lung damage supports further investigation of NAC as a potential treatment. However, the lack of protective effects on AHR after NAC treatment in mice suggests that NAC alone may not be sufficient as a complete treatment for Cl2 injuries. Optimization of existing medications with a polypharmacy approach may be more successful in addressing the complex sequelae of Cl2-induced lung injury.

Anti Inflammatory Action of Allium Sativum Ethanol Extract to Prevent Lung Damage in Smoker Rat Model.

Background: Smoking is the leading cause of death in worldwide and is known as one of the risk factors in the development and pathogenesis of several diseases and most are respiratory and cardiovascular diseases. Secondhand smoke (SHS) exposure is associated with negative health consequences including respiratory tract infection, asthma, and cancer. One of the pathogenesis that has known to cause these diseases is inflammation. Garlic (Allium sativum) is a medicinal herb that contains Allicin and other active constituents that are known to have anti-inflammatory ability by suppressing the expression and production of proinflammatory cytokines that will cause inflammation. Objective: The aim of this study is; to analyze the anti-inflammatory action of Allium sativum ethanol extract to prevent lung damage in the smoker rat model. Methods: This is a case-control study with five groups of rats each group contains of three rats. The five groups were negative control (KN), 10 days (10d) smoker (K1), 20 days (20d) smoker (K2), 20d smoker treated with Allium sativum for 10 days (K3) and 20d smoker treated with Allium sativum for 20 days (K4). After 20 days all animals were sacrificed and histological preparation of lung organs was observed under a microscope with 100 dan 400 times magnification and then captured by photomicrograph for analyzed. Results: There were improvements in lung structure both in group K3 and K4 . there was a decrease of leucocytes and inflammatory cells infiltration that covered almost all alveolar surface to 10-20% surface area and the dilated alveoli decrease from more than 50% to less than 30% area. The bronchus was clean in both two groups compared to the groups that were not treated with Allium sativum. Conclusion: This study shows that Allium sativum ethanol extract has the ability to prevent lung damage in the smoker rat model.

End-stage kidney disease patients with severe coronavirus disease: clinical characteristics, biological data, and mortality in nephrology unit, short communication.

Patients suffering from end-stage kidney disease (ESKD) are particularly vulnerable to SARS-CoV-2 infection, and their risk of death is higher than for the general population. The objective was to determine the epidemiologic profile at admission and mortality among patients presenting EKSD with severe coronavirus disease (COVID-19). Methods: A retrospective study was conducted in the Nephrology unit between October 2020 and February 2022. Were included all adult patients who presented ESKD on dialysis, or not on dialysis with an estimated glomerular filtration rate less than or equal to 15 ml/min/1.73 m2 and presenting a confirmed COVID-19. Patients with ESKD who were immediately admitted to the ICU were excluded. Results: Sixty-five patients' data were collected. The mean age was 58.9 ±16.7 years and 60% were males. Hypertension arterial and diabetes observed in 75% and 56.3% of cases, respectively. 52.3% were on haemodialysis, 4.6% were on peritoneal dialysis and 43.1% not were on dialysis. 94% of the patients were symptomatic of COVID-19, dominated by dyspnoea (87.5%), cough (65.6%), and fever (58.5%). More than half of patients (58.5%) showed signs of gravity and 62% required oxygen therapy. According to thoracic scan, 72.3% were classified COVID-19 Raw Data System 5 and 6. Most patients had severe anaemia (58.5%), lymphopenia (81.3%), and high levels of C-reactive protein (54%), D-Dimer (93.6%) and ferritin (91.2%). 38.5% of patients presented complications of whom 60% were transferred to ICU. Mortality was observed in 8% of cases. Conclusion: Rigorous monitoring is necessary for patients in ESKD, particularly those with comorbidities, to reduce the risk of severe form of COVID-19.

Association of the ACE2-Angiotensin1-7-Mas axis with lung damage caused by cigarette smoke exposure: a systematic review.

Through the Mas receptor, angiotensin-(1-7) [Ang-(1-7)] has been shown to have a key role in the development of lung inflammation. This systematic review (SR) sought to identify the relationship between lung damage brought on by exposure to cigarette smoke (CS) and the ACE2-Ang-(1-7)-Mas pathway. In this investigation, relevant keywords were used to search PubMed (MEDLINE), Scopus (Elsevier), and Institute for Scientific Information (ISI) Web of Science up to December 2022. Nine studies were chosen because they satisfied the inclusion/exclusion criteria. The majority of research concluded that exposure to CS increased the risk of lung damage. Smoking cigarettes is the main cause of COPD because it causes massive amounts of reactive oxygen and nitrogen species to enter the lungs, which stimulate the production of inflammatory cytokines like IL-1 ß, IL-6, and TNF-α, as well as the invasion of inflammatory cells like neutrophils and macrophages. These findings support the renin-angiotensin system's (RAS) involvement in the pathophysiology of smoking-induced damage. Additionally, via stimulating pro-inflammatory mediators, aberrant RAS activity has been linked to lung damage. Lung inflammation's etiology has been shown to be significantly influenced by the protective known RAS arm ACE2-Ang-(1-7)-Mas. In conclusion, these are important for informing policymakers to pass legislation limiting the use of smoking and other tobacco to prevent their harmful effects.

Surviving Pulmonary Tuberculosis: Navigating the Long Term Respiratory Effects.

Tuberculosis is a transmissible disease caused by the bacteria Mycobacterium tuberculosis, which is a cause of significant morbidity and mortality all over the world. Tuberculosis has a number of risk factors, such as living in a developing country, poor ventilation, smoking, male sex, etc., which not only increase the chance of infection but may be independent factors for impairment in pulmonary function as well. In this review article, we have compiled several studies to learn how tuberculosis causes impaired lung function and further explored the long-term effects of tuberculosis on the same. We studied tuberculosis's effect on the lungs even after appropriate treatment and its relationship with obstructive and restrictive lung disorders. A significant relationship exists between chronic respiratory disorders and tuberculosis even after treatment; hence, we believe prevention is far superior to cure.

Pathogenesis of nontypeable Haemophilus influenzae infections in chronic suppurative lung disease.

The respiratory tract antimicrobial defense system is a multilayered defense mechanism that relies upon mucociliary clearance and components of both the innate and adaptive immune systems to protect the lungs from inhaled or aspirated microorganisms. One of these potential pathogens, nontypeable Haemophilus influenzae (NTHi), adopts several, multifaceted redundant strategies to successfully colonize the lower airways and establish a persistent infection. NTHi can impair mucociliary clearance, express multiple multifunctional adhesins for various cell types within the respiratory tract and evade host defenses by surviving within and between cells, forming biofilms, increasing antigenic drift, secreting proteases and antioxidants, and by host-pathogen cross-talk, impair macrophage and neutrophil function. NTHi is recognized as an important pathogen in several chronic lower respiratory disorders, such as protracted bacterial bronchitis, bronchiectasis, cystic fibrosis, and primary ciliary dyskinesia. The persistence of NTHi in human airways, including its capacity to form biofilms, results in chronic infection and inflammation, which can ultimately injure airway wall structures. The complex nature of the molecular pathogenetic mechanisms employed by NTHi is incompletely understood but improved understanding of its pathobiology will be important for developing effective therapies and vaccines, especially given the marked genetic heterogeneity of NTHi and its possession of phase-variable genes. Currently, no vaccine candidates are ready for large phase III clinical trials.

Microarray analysis of hub genes, non-coding RNAs and pathways in lung after whole body irradiation in a mouse model.

PURPOSE: Previous research has highlighted the impact of radiation damage, with cancer patients developing acute disorders including radiation induced pneumonitis or chronic disorders including pulmonary fibrosis months after radiation therapy ends. We sought to discover biomarkers that predict these injuries and develop treatments that mitigate this damage and improve quality of life. MATERIALS AND METHODS: Six- to eight-week-old female C57BL/6 mice received 1, 2, 4, 8, 12 Gy or sham whole body irradiation. Animals were euthanized 48 h post exposure and lungs removed, snap frozen and underwent RNA isolation. Microarray analysis was performed to determine dysregulation of messenger RNA (mRNA), microRNA (miRNA), and long non-coding RNA (lncRNA) after radiation injury. RESULTS: We observed sustained dysregulation of specific RNA markers including: mRNAs, lncRNAs, and miRNAs across all doses. We also identified significantly upregulated genes that can indicate high dose exposure, including Cpt1c, Pdk4, Gdf15, and Eda2r, which are markers of senescence and fibrosis. Only three miRNAs were significantly dysregulated across all radiation doses: miRNA-142-3p and miRNA-142-5p were downregulated and miRNA-34a-5p was upregulated. IPA analysis predicted inhibition of several molecular pathways with increasing doses of radiation, including: T cell development, Quantity of leukocytes, Quantity of lymphocytes, and Cell viability. CONCLUSIONS: These RNA biomarkers might be highly relevant in the development of treatments and in predicting normal tissue injury in patients undergoing radiation treatment. We are conducting further experiments in our laboratory, which includes a human lung-on-a-chip model, to develop a decision tree model using RNA biomarkers.

Caracterización de la enfermedad pulmonar intersticial en los pacientes con esclerosis sistémica / Description of Interstitial Lung Disease in Systemic Sclerosis Patients

Introducción: La esclerosis sistémica es una enfermedad autoinmune crónica, caracterizada por vasculopatía, activación del sistema inmune y aumento de depósitos de matriz extracelular. En los últimos años, el compromiso pulmonar ha cobrado gran importancia, ha pasado a ser la primera causa de muerte en estos pacientes. La afección pulmonar puede ocurrir como hipertensión o enfermedad pulmonar intersticial. La meta del tratamiento es detener el deterioro de la función pulmonar. Objetivo: Caracterizar las manifestaciones clínicas, imagenológicas y la función respiratoria en pacientes con esclerosis sistémica y enfermedad pulmonar intersticial. Métodos: Se realizó un estudio observacional, descriptivo de corte transversal en el período comprendido entre diciembre de 2018 y diciembre de 2019. En el Servicio de Reumatología para caracterizar la enfermedad pulmonar intersticial en pacientes con esclerosis sistémica. El universo estuvo constituido por 168 pacientes, diagnosticados con esa enfermedad y la muestra se conformó por 55 pacientes que cumplieron los criterios de inclusión establecidos. Resultados: La enfermedad pulmonar intersticial fue más frecuente en pacientes mayores de 40 años, del sexo femenino, piel mestiza, predominó la forma clínica difusa, el síntoma más frecuente fue la disnea de esfuerzo, la mayoría tuvo ANA positivo y el patrón tomográfico en panal de abejas. La capacidad vital forzada estaba disminuida con mayor frecuencia, se asoció a un comportamiento autoinmune positivo para anti-ScL-70. Conclusiones: Se caracterizó las manifestaciones clínicas y radiográficas de la enfermedad pulmonar intersticial fueron comprobadas por la utilidad de la tomografía computarizada y la espirometría para identificar la presencia de fibrosis pulmonar(AU)

Introduction: Systemic sclerosis is a chronic autoimmune disease, characterized by vasculopathy, activation of the immune system and increased extracellular matrix deposits. In recent years, lung involvement has gained great importance, it has become the first cause of death in these patients. Lung involvement can occur as hypertension or interstitial lung disease. The goal of treatment is to stop the decline in lung function. Objective: To characterize the clinical and imaging manifestations and respiratory function in patients with systemic sclerosis and interstitial lung disease. Methods: An observational, descriptive, cross-sectional study was carried out from December 2018 to December 2019 in the rheumatology service to characterize interstitial lung disease in patients with systemic sclerosis. The universe consisted of 168 patients diagnosed with this disease and the sample was made up of 55 patients who met the established inclusion criteria. Results: Interstitial lung disease was more frequent in patients older than 40 years, female, mixed-race skin color, the diffuse clinical form predominated, the most frequent symptom was exertional dyspnea, the majority had positive ANA and the pattern honeycomb tomography. Forced vital capacity was more frequently decreased, associated with positive autoimmune behavior for Anti-ScL-70. Conclusions: The radiographic and clinical manifestations of PID were verified by the usefulness of computed tomography and spirometry to identify the presence of pulmonary fibrosis(AU)

Uso prolongado de cánula nasal de alto flujo en niños con problemas respiratorios / Prolonged use of high flow nasal cannula in children with respiratory problems

La cánula nasal de alto flujo (CNAF) es una modalidad ventilatoria no invasiva segura y efectiva, usada ampliamente en patología respiratoria aguda en adultos y niños. Objetivo: presentar casos clínicos pediátricos que utilizaron CNAF por tiempo prolongado por problemas respiratorios crónicos. Descripción de casos clínicos, revisión de fichas clínicas de 5 pacientes que utilizaron CNAF por más de 1 mes, entre los años 2017-2020 en el Complejo Asistencial Dr. Sótero del Río. Aprobado por Comité de Ética. Resultados: 5 pacientes varones de mediana 61 (44 a 212) días de edad al inicio del uso de CNAF. Diagnóstico de base: displasia broncopulmonar (2/5), síndrome de Treacher Collins (1/5), síndrome de cimitarra con hipoplasia pulmonar derecha (1/5) y traqueobroncomalacia severa (1/5). Todos requirieron previamente uso de ventilación invasiva o no invasiva con mediana de 59 (4 a 78) días. A todos se les realizó broncoscopia, saturometría contínua o poligrafía para diagnóstico y titulación de CNAF y oxígeno. Todos mejoraron clínicamente, la SpO2 y el número de apneas. Dos pacientes se enviaron a domicilio con uso de Airvo2 nocturno. La mediana de uso de CNAF fue 165 (34 a 445) días. Conclusiones: el uso prolongado de CNAF es útil en pacientes pediátricos seleccionados, bien tolerado y factible de utilizar en domicilio.

The high-flow nasal cannula (HFNC) is a safe and effective non-invasive ventilation support widely used in acute respiratory pathology in adults and children. Objective: To present pediatric clinical cases that used HFNC for an extended period due to chronic respiratory disease. Description of clinical cases, review of medical records of 5 patients who used HFNC for more than 1 month, between the years 2017-2020 at Complejo Asistencial Dr. Sótero del Río. Approved by the Ethics Committee. Results: 5 male patients with a median age of 61 (44 to 212) days at the start of HFNC use. Underlying diagnoses: bronchopulmonary dysplasia (2/5), Treacher Collins syndrome (1/5), Scimitar syndrome with right pulmonary hypoplasia (1/5), and severe tracheobronchomalacia (1/5). All of them previously required invasive or non-invasive ventilation for a median of 59 (4 to 78) days. All patients underwent bronchoscopy, continuous pulse oximetry or polygraphy for diagnosis and titration of HFNC and oxygen. All showed clinical improvement, including SpO2 levels and the number of apneas. Two patients were discharged with nocturnal use of Airvo 2 at home. The median duration of HFNC use was 165 (34 to 445) days. Conclusions: Prolonged use of HFNC is useful in selected pediatric patients, well tolerated, and feasible for home use.

Genetic Deletion of Mmp9 Does Not Reduce Airway Inflammation and Structural Lung Damage in Mice with Cystic Fibrosis-like Lung Disease.

Elevated levels of matrix metalloprotease 9 (MMP-9) and neutrophil elastase (NE) are associated with bronchiectasis and lung function decline in patients with cystic fibrosis (CF). MMP-9 is a potent extracellular matrix-degrading enzyme which is activated by NE and has been implicated in structural lung damage in CF. However, the role of MMP-9 in the in vivo pathogenesis of CF lung disease is not well understood. Therefore, we used ß-epithelial Na+ channel-overexpressing transgenic (ßENaC-Tg) mice as a model of CF-like lung disease and determined the effect of genetic deletion of Mmp9 (Mmp9-/-) on key aspects of the pulmonary phenotype. We found that MMP-9 levels were elevated in the lungs of ßENaC-Tg mice compared with wild-type littermates. Deletion of Mmp9 had no effect on spontaneous mortality, inflammatory markers in bronchoalveolar lavage, goblet cell metaplasia, mucus hypersecretion and emphysema-like structural lung damage, while it partially reduced mucus obstruction in ßENaC-Tg mice. Further, lack of Mmp9 had no effect on increased inspiratory capacity and increased lung compliance in ßENaC-Tg mice, whereas both lung function parameters were improved with genetic deletion of NE. We conclude that MMP-9 does not play a major role in the in vivo pathogenesis of CF-like lung disease in mice.

Canavalia gladiata Pod Extract Mitigates Ovalbumin-Induced Asthma Onset in Male BALB/c Mice via Suppression of MAPK.

Asthma is one of the most common inflammatory diseases of the lung worldwide. There has been considerable progress in recent studies to treat and prevent allergic asthma, however, various side effects are still observed in clinical practice. Six-week-old male BALB/c mice were orally administered with either sword bean pod extracts (SBP; 100 or 300 mg/kg) or dexamethasone (DEX; 5 mg/kg) once daily over 3 weeks, followed by ovalbumin sensitization (OVA/Alum.; intraperitoneal administration, 50 µg/2 mg/per mouse). Scoring of lung inflammation was performed to observe pathological changes in response to SBP treatment compared to OVA/Alum.-induced lung injury. Additionally, inflammatory cytokines were quantified in serum, bronchoalveolar lavage fluid (BALF), and lung tissue using ELISA and Western blot analyses. SBP treatment significantly reduced the infiltration of inflammatory cells, and release of histamine, immunoglobulin E, and leukotriene in serum and BALF. Moreover, the therapeutic effect of SBP was also assessed to analyze the inflammatory changes in the lung tissues. SBP markedly suppressed the activation of the MAPK signaling pathway and the expression of key inflammatory proteins (e.g., TNF-α) and Th2 type cytokines (IL-5 and IL-13). SBP was effective in ameliorating the allergic inflammation against OVA/Alum.-induced asthma by suppressing pulmonary inflammation.

Role of Mesenchymal Stem Cells and Extracellular Vesicles in Idiopathic Pulmonary Fibrosis.

Idiopathic pulmonary fibrosis (IPF) is a progressive interstitial fibrotic disease that leads to disability and death within 5 years of diagnosis. Pulmonary fibrosis is a disease with a multifactorial etiology. The concept of aberrant regeneration of the pulmonary epithelium reveals the pathogenesis of IPF, according to which repeated damage and death of alveolar epithelial cells is the main mechanism leading to the development of progressive IPF. Cell death provokes the migration, proliferation and activation of fibroblasts, which overproduce extracellular matrix, resulting in fibrotic deformity of the lung tissue. Mesenchymal stem cells (MSCs) and extracellular vesicles (EVs) are promising therapies for pulmonary fibrosis. MSCs, and EVs derived from MSCs, modulate the activity of immune cells, inhibit the expression of profibrotic genes, reduce collagen deposition and promote the repair of damaged lung tissue. This review considers the molecular mechanisms of the development of IPF and the multifaceted role of MSCs in the therapy of IPF. Currently, EVs-MSCs are regarded as a promising cell-free therapy tool, so in this review we discuss the results available to date of the use of EVs-MSCs for lung tissue repair.