Hétérogénéité des neutrophiles dans l’asthme équin

Les granulocytes de faible densité (LDGs) sont un sous-type de neutrophiles mis en évidence initialement dans le sang de patients atteints de différentes maladies telles que le lupus érythémateux systémique ou le psoriasis. Cependant, des études rapportent également leur présence chez des individus sains. On connait mal à ce jour les caractéristiques des LDGs, notamment en ce qui a trait à leur profil inflammatoire. De plus, leur biogenèse demeure toujours mal connue. Mes travaux de maîtrise visaient à comparer les propriétés des LDGs à celles des neutrophiles de densité normale (NDNs). Pour ce faire, 8 chevaux atteints d’asthme équin sévère et 11 chevaux sains bien caractérisés ont été sélectionnés pour l’étude et sur lesquels des isolations de NDNs ainsi que des LDGs ont été réalisées. La morphologie des neutrophiles a ensuite été évaluée par microscopie optique. Le contenu en myéloperoxidase, un composant des granules primaires azurophiles des neutrophiles, et la présence de récepteurs du N-formylméthionine-leucyl-phénylalanine (fMLP-R) ont été évalués par cytométrie de flux et immunofluorescence, respectivement. Enfin, la capacité fonctionnelle de ces cellules à produire spontanément des pièges extracellulaires des neutrophiles (NETs) a été étudiée in vitro par microscopie confocale. Les résultats démontrent que le nombre de LDGs est augmenté dans le sang des chevaux asthmatiques lors d'exacerbation de la maladie. De plus, ces cellules présentent une morphologie différente puisqu’elles sont de taille plus petite et contiennent plus de fMLP-R que les NDNs. Le contenu en myéloperoxidase est cependant similaire dans les deux populations de neutrophiles. Enfin, les LDGs produisent plus de NETs, et sont plus sensibles aux stimuli activateurs que les NDNs. Ces caractéristiques sont similaires dans les 2 groupes de chevaux suggérant ainsi que ce sont des propriétés intrinsèques des LDGs et qu’ils représentent une population cellulaire préactivée et qui de plus, est majoritairement mature. Cette étude caractérise et compare pour la première fois les LDGs chez des animaux sains et ceux retrouvés chez des animaux atteints d’une maladie inflammatoire chronique.Low-density granulocytes (LDGs) are a subset of neutrophils first described in the bloodstream upon pathological conditions. However, several studies also reported the presence of these cells in the blood of healthy patients. Whether LDGs characteristics, especially their enhanced pro-inflammatory profile, are specific to this subset of neutrophils and not related to disease states is unknown. Thus, we sought to compare the properties of LDGs to those of autologous normal-density neutrophils (NDNs), in both health and disease. We studied 8 horses with severe equine asthma and 11 healthy animals. Neutrophil morphology was studied using optical microscopy, and content in myeloperoxidase and N-formylmethionine-leucyl-phenylalanine receptors (fMLP-R) evaluated using flow cytometry and immunofluorescence, respectively. Confocal microscopy was used to determine their functional capacity to spontaneously release neutrophil extracellular traps (NETs) stimulating with phorbol-12-myristate-13-acetate (PMA). LDGs were smaller and contained more fMLP-R than NDNs, but myeloperoxidase content was similar in both populations of neutrophils. They also had an increased capacity to produce NETs, and were more sensitive to activation stimuli. These characteristics were similar in both healthy and diseased horses, suggesting that these are intrinsic properties of LDGs. Furthermore, these results suggest that LDGs represent a population of primed and predominantly mature cells. Our study is the first to characterize LDGs in health, and to compare their characteristics with those of animals with a naturally occurring disease

Effects of pretreated domestic wastewater supplies on leaf pigment content, photosynthesis rate and growth of mangrove trees: A field study from Mayotte Island, SW Indian Ocean

After 12 and 18 months of daily wastewater discharge into mangrove plots in Mayotte Island, SW Indian Ocean, leaf pigment content, photosynthesis rate and growth of Rhizophora mucronata and Ceriops tagal mangrove trees were evaluated and compared with similar individuals from control plots. Chlorophyll and carotenoid contents, measured using an HPLC analyser, were significantly higher in leaves of mangrove trees receiving wastewater discharges. Photosynthesis and transpiration rates, analysed using an LCi portable system, increased significantly for mangrove trees in impacted plots. Measurements of leaf areas, young branch length and propagule length showed significant increases in plots receiving wastewater. These results suggest a beneficial effect of domestic wastewater on R. mucronata and C. tagal mangrove tree functioning. Analyses and observations on mangrove ecosystems as a whole – taking into account water and sediment compartments, crab populations and nitrogen and phosphorus cycles – are nevertheless necessary for evaluation of bioremediation capacities of mangrove ecosystems

Evaluation des capacités bioremédiatrices d'une mangrove impactée par des eaux usées domestiques. Application au site pilote de Malamani, Mayotte

Réalisés à Mayotte, ces travaux ont permis d'évaluer les capacités de bioremédiation d'une mangrove vis-à-vis d'eaux usées domestiques prétraitées. A partir d'un réseau de parcelles (témoins et impactées par des effluents domestiques), un suivi a été réalisé sur quatre compartiments de la mangrove : végétation, eau, sédiment, crabes. Les résultats montrent que cet écosystème joue un rôle analogue à celui des filtres plantés et semble être adapté pour un traitement secondaire pour les eaux usées domestiques. Cependant, si les conclusions à court terme paraissent encourageantes, l'impact à long terme des eaux usées sur la biodiversité de cet écosystème et sur son fonctionnement reste à approfondir avant d'utiliser un tel système de traitement in situ.Performed in Mayotte (Fr), this work evaluates the potential of a mangrove for pre-treated domestic wastewater bioremediation. By comparing the evolution over time of four compartments of the mangrove, namely: vegetation, water, sediments and crabs in impacted and non-impacted parcels, we show that this ecosystem is analogous to constructed wetlands and seems to be adapted for second-stage treatment of domestic wastewaters. Even through short-term data is encouraging, more studies are required to evaluate the long-term impacts of domestic wastewaters on the biodiversity and functions of this ecosystem prior to using such strategies on a greater scale in situ

Exercise‐induced airflow changes in horses with asthma measured by electrical impedance tomography

Background: Equine asthma (EA) causes airflow impairment, which increases in severity with exercise. Electrical impedance tomography (EIT) is an imaging technique that can detect airflow changes in standing healthy horses during a histamine provocation test. Objectives: To explore EIT-calculated flow variables before and after exercise in healthy horses and horses with mild-to-moderate (MEA) and severe equine asthma (SEA). Animals: Nine healthy horses 9 horses diagnosed with MEA and 5 with SEA were prospectively included. Methods: Recordings were performed before and after 15 minutes of lunging. Absolute values from global and regional peak inspiratory (PIF, positive value) and expiratory (PEF, negative value) flows were calculated. Data were analyzed using a mixed model analysis followed by Bonferroni's multiple comparisons test to evaluate the impact of exercise and diagnosis on flow indices. Results: Control horses after exercise had significantly lower global PEF and PIF compared to horses with SEA (mean difference [95% confidence interval, CI]: 0.0859 arbitrary units [AU; 0.0339-0.1379], P < .001 and 0.0726 AU [0.0264-0.1188], P = .001, respectively) and horses with MEA (0.0561 AU [0.0129-0.0994], P = .007 and 0.0587 AU [0.0202-0.0973], P = .002, respectively). No other significant differences were detected. Conclusions and clinical importance: Electrical impedance tomography derived PIF and PEF differed significantly between healthy horses and horses with SEA or MEA after exercise, but not before exercise. Differences between MEA and SEA were not observed, but the study population was small

Electrical impedance tomography to measure lung ventilation distribution in healthy horses and horses with left‐sided cardiac volume overload

Background Left-sided cardiac volume overload (LCVO) can cause fluid accumulation in lung tissue changing the distribution of ventilation, which can be evaluated by electrical impedance tomography (EIT). Objectives To describe and compare EIT variables in horses with naturally occurring compensated and decompensated LCVO and compare them to a healthy cohort. Animals Fourteen adult horses, including university teaching horses and clinical cases (healthy: 8; LCVO: 4 compensated, 2 decompensated). Methods In this prospective cohort study, EIT was used in standing, unsedated horses and analyzed for conventional variables, ventilated right (VAR) and left (VAL) lung area, linear-plane distribution variables (avg-max VΔZLine, VΔZLine), global peak flows, inhomogeneity factor, and estimated tidal volume. Horses with decompensated LCVO were assessed before and after administration of furosemide. Variables for healthy and LCVO-affected horses were compared using a Mann-Whitney test or unpaired t-test and observations from compensated and decompensated horses are reported. Results Compared to the healthy horses, the LCVO cohort had significantly less VAL (mean difference 3.02; 95% confidence interval .77-5.2; P = .02), more VAR (−1.13; −2.18 to −.08; P = .04), smaller avg-max VΔZLLine (2.54; 1.07-4.00; P = .003) and VΔZLLine (median difference 5.40; 1.71-9.09; P = .01). Observation of EIT alterations were reflected by clinical signs in horses with decompensated LCVO and after administration of furosemide. Conclusions and Clinical Importance EIT measurements of ventilation distribution showed less ventilation in the left lung of horses with LCVO and might be useful as an objective assessment of the ventilation effects of cardiogenic pulmonary disease in horses

Tracing sewage water by 15N in a mangrove ecosystem to test its bioremediation ability

Mangrove forests could be a simple and effective alternative to conventional sewage treatment, particularly for island communities given its low cost and low maintenance. Due to their high adaptation capacity, these plants are able to tolerate and bioremediate the high levels of nutrients and pollutants found in sewage water. This solution could be applied to small tropical islands with high population density such as Mayotte in the Indian Ocean. This paper reports on a trial by stable isotopic 15N tracing of such a bioremediation process on pre-treated wastewater near the village of Malamani, in the middle of the large coastal mangrove in the bay near Chirongui. The first results show a boost in the mangrove growth, but a longer period of observation is needed to confirm the beneficial effects, and also to clarify the role of the local crab population, whose engineering activities play an important part in the ecosystem. The exact denitrification process is not yet understood, and the mass balance equation also reveals loss of nitrogen-containing compounds, which needs to be analyzed more closely

Thoracic Electrical Impedance Tomography—The 2022 Veterinary Consensus Statement

Electrical impedance tomography (EIT) is a non-invasive real-time non-ionising imaging modality that has many applications. Since the first recorded use in 1978, the technology has become more widely used especially in human adult and neonatal critical care monitoring. Recently, there has been an increase in research on thoracic EIT in veterinary medicine. Real-time imaging of the thorax allows evaluation of ventilation distribution in anesthetised and conscious animals. As the technology becomes recognised in the veterinary community there is a need to standardize approaches to data collection, analysis, interpretation and nomenclature, ensuring comparison and repeatability between researchers and studies. A group of nineteen veterinarians and two biomedical engineers experienced in veterinary EIT were consulted and contributed to the preparation of this statement. The aim of this consensus is to provide an introduction to this imaging modality, to highlight clinical relevance and to include recommendations on how to effectively use thoracic EIT in veterinary species. Based on this, the consensus statement aims to address the need for a streamlined approach to veterinary thoracic EIT and includes: an introduction to the use of EIT in veterinary species, the technical background to creation of the functional images, a consensus from all contributing authors on the practical application and use of the technology, descriptions and interpretation of current available variables including appropriate statistical analysis, nomenclature recommended for consistency and future developments in thoracic EIT. The information provided in this consensus statement may benefit researchers and clinicians working within the field of veterinary thoracic EIT. We endeavor to inform future users of the benefits of this imaging modality and provide opportunities to further explore applications of this technology with regards to perfusion imaging and pathology diagnosis

Thoracic Electrical Impedance Tomography—The 2022 Veterinary Consensus Statement

Electrical impedance tomography (EIT) is a non-invasive real-time non-ionising imaging modality that has many applications. Since the first recorded use in 1978, the technology has become more widely used especially in human adult and neonatal critical care monitoring. Recently, there has been an increase in research on thoracic EIT in veterinary medicine. Real-time imaging of the thorax allows evaluation of ventilation distribution in anesthetised and conscious animals. As the technology becomes recognised in the veterinary community there is a need to standardize approaches to data collection, analysis, interpretation and nomenclature, ensuring comparison and repeatability between researchers and studies. A group of nineteen veterinarians and two biomedical engineers experienced in veterinary EIT were consulted and contributed to the preparation of this statement. The aim of this consensus is to provide an introduction to this imaging modality, to highlight clinical relevance and to include recommendations on how to effectively use thoracic EIT in veterinary species. Based on this, the consensus statement aims to address the need for a streamlined approach to veterinary thoracic EIT and includes: an introduction to the use of EIT in veterinary species, the technical background to creation of the functional images, a consensus from all contributing authors on the practical application and use of the technology, descriptions and interpretation of current available variables including appropriate statistical analysis, nomenclature recommended for consistency and future developments in thoracic EIT. The information provided in this consensus statement may benefit researchers and clinicians working within the field of veterinary thoracic EIT. We endeavor to inform future users of the benefits of this imaging modality and provide opportunities to further explore applications of this technology with regards to perfusion imaging and pathology diagnosis