Risk factors for invasive aspergillosis in ICU patients with COVID-19: current insights and new key elements.

Invasive pulmonary aspergillosis (IPA) has always been a challenging diagnosis and risk factors an important guide to investigate specific population, especially in Intensive Care Unit. Traditionally recognized risk factors for IPA have been haematological diseases or condition associated with severe immunosuppression, lately completed by chronic conditions (such as obstructive pulmonary disease, liver cirrhosis, chronic kidney disease and diabetes), influenza infection and Intensive Care Unit (ICU) admission. Recently, a new association with SARS-CoV2 infection, named COVID-19-associated pulmonary aspergillosis (CAPA), has been reported worldwide, even if its basic epidemiological characteristics have not been completely established yet. In this narrative review, we aimed to explore the potential risk factors for the development of CAPA and to evaluate whether previous host factors or therapeutic approaches used in the treatment of COVID-19 critically ill patients (such as mechanical ventilation, intensive care management, corticosteroids, broad-spectrum antibiotics, immunomodulatory agents) may impact this new diagnostic category. Reviewing all English-language articles published from December 2019 to December 2020, we identified 21 papers describing risk factors, concerning host comorbidities, ICU management, and COVID-19 therapies. Although limited by the quality of the available literature, data seem to confirm the role of previous host risk factors, especially respiratory diseases. However, the attention is shifting from patients' related risk factors to factors characterizing the hospital and intensive care course, deeply influenced by specific features of COVID treatment itself. Prolonged invasive or non-invasive respiratory support, as well as the impact of corticosteroids and/or immunobiological therapies seem to play a pivotal role. ICU setting related factors, such as environmental factors, isolation conditions, ventilation systems, building renovation works, and temporal spread with respect to pandemic waves, need to be considered. Large, prospective studies based on new risk factors specific for CAPA are warranted to guide surveillance and decision of when and how to treat this particular population.

Tumor necrosis factor alpha-induced angiogenesis depends on in situ platelet-activating factor biosynthesis.

Tumor necrosis factor (TNF) alpha, a potent inhibitor of endothelial cell growth in vitro, is angiogenic in vivo. Therefore, it was suggested that the angiogenic properties of this agent might be consequent to the production of secondary mediators. Since TNF-alpha stimulates the synthesis of platelet-activating factor (PAF) by monocytes and endothelial cells, we investigated the possible involvement of PAF in the angiogenic effect of TNF-alpha. Angiogenesis was studied in a murine model in which Matrigel was used as a vehicle for the delivery of mediators. In this model the angiogenesis induced by TNF-alpha was shown to be inhibited by WEB 2170, a specific PAF receptor antagonist. Moreover, in mice injected with TNF-alpha, PAF was detected within the Matrigel, 6 and 24 h after TNF-alpha injection. The synthesis of PAF within the Matrigel was concomitant with the early migration of endothelial cells and infiltration of monocytes. No infiltration of lymphocytes or polymorphonuclear leukocytes was observed. Synthetic PAF as well as PAF extracted and purified from mice challenged with TNF-alpha induced a rapid angiogenic response, inhibited by WEB 2170. These results suggest that the angiogenic effect of TNF-alpha is, at least in part, mediated by PAF synthesized from monocytes and/or endothelial cells infiltrating the Matrigel plug.

Carbapenem-resistant Klebsiella pneumoniae in ICU-admitted COVID-19 patients: Keep an eye on the ball.

Here we report on seven intensive care unit (ICU) patients with coronavirus disease 2019 (COVID-19)-related acute respiratory distress syndrome (ARDS) who developed positive rectal swabs and invasive infections due to carbapenemase-producing Klebsiella pneumoniae (CP-Kp). Notwithstanding the infection prevention measures introduced during the COVID-19 pandemic and changes in the hospitalised population, attention to CP-Kp infections must remain high, especially in the critically ill setting.

Regulation of polymorphonuclear cell activation by thrombopoietin.

Thrombopoietin (TPO) regulates early and late stages of platelet formation as well as platelet activation. TPO exerts its effects by binding to the receptor, encoded by the protooncogene c-mpl, that is expressed in a large number of cells of hematopoietic origin. In this study, we evaluated the expression of c-Mpl and the effects of TPO on human polymorphonuclear cells (PMN). We demonstrate that PMN express the TPO receptor c-Mpl and that TPO induces STAT1 tyrosine phosphorylation and the formation of a serum inducible element complex containing STAT1. The analysis of biological effects of TPO on PMN demonstrated that TPO, at concentrations of 1-10 ng/ml, primes the response of PMN to n-formyl-met-leu-phe (FMLP) by inducing an early oxidative burst. TPO-induced priming on FMLP-stimulated PMN was also detected on the tyrosine phosphorylation of a protein with a molecular mass of approximately 28 kD. Moreover, we demonstrated that TPO by itself was able to stimulate, at doses ranging from 0.05 to 10 ng/ml, early release and delayed synthesis of interleukin 8 (IL-8). Thus, our data indicate that, in addition to sustaining megakaryocytopoiesis, TPO may have an important role in regulating PMN activation.

Platelet activating factor produced in vitro by Kaposi's sarcoma cells induces and sustains in vivo angiogenesis.

Imbalance in the network of soluble mediators may play a pivotal role in the pathogenesis of Kaposi's sarcoma (KS). In this study, we demonstrated that KS cells grown in vitro produced and in part released platelet activating factor (PAF), a powerful lipid mediator of inflammation and cell-to-cell communication. IL-1, TNF, and thrombin enhanced the synthesis of PAF. PAF receptor mRNA and specific, high affinity binding site for PAF were present in KS cells. Nanomolar concentration of PAF stimulated the chemotaxis and chemokinesis of KS cells, endothelial cells, and vascular smooth muscle cells. The migration response to PAF was inhibited by WEB 2170, a hetrazepinoic PAF receptor antagonist. Because neoangiogenesis is essential for the growth and progression of KS and since PAF can activate vascular endothelial cells, we examined the potential role of PAF as an instrumental mediator of angiogenesis associated with KS. Conditioned medium (CM) from KS cells (KS-CM) or KS cells themselves induced angiogenesis and macrophage recruitment in a murine model in which Matrigel was injected subcutaneously. These effects were inhibited by treating mice with WEB 2170. Synthetic PAF or natural PAF extracted from plasma of patients with classical KS also induced angiogenesis, which in turn was inhibited by WEB 2170. The action of PAF was amplified by expression of other angiogenic factors and chemokines: these included basic and acidic fibroblast growth factor, placental growth factor, vascular endothelial growth factor and its specific receptor flk-1, hepatocyte growth factor, KC, and macrophage inflammatory protein-2. Treatment with WEB 2170 abolished the expression of the transcripts of these molecules within Matrigel containing KS-CM. These results indicate that PAF may cooperate with other angiogenic molecules and chemokines in inducing vascular development in KS.

Role of nitric oxide and platelet-activating factor in cardiac alterations induced by tumor necrosis factor-alpha in the guinea-pig papillary muscle.

OBJECTIVE: Tumor necrosis factor-alpha (TNF-alpha), a proinflammatory cytokine with negative inotropic properties, is implicated in several pathophysiological events. To clarify the mechanism of action of TNF-alpha on myocardium, we investigated the possible role of platelet-activating factor (PAF) and nitric oxide (NO) as secondary mediators of the depressant effect of this cytokine. METHODS: Isometric twitches and intracellular action potentials were recorded from guinea pig papillary muscles. The effects of TNF-alpha (1-10 ng/ml) were studied in controlled conditions and after treatment with 0.5% Triton X-100, to destroy the endocardial endothelium NG-nitro-L-arginine methyl ester (L-NAME), D-NAME (1 mM) and the two different PAF-receptor antagonists WEB 2170 (3 microM) and CV 3988 (5 microM) were used to study the role of NO and PAF in cardiac depression induced by TNF-alpha. To study the role of NO in cardiac alterations induced by PAF, papillary muscles were pretreated with L-NAME or D-NAME and then challenged with PAF (0.1-1 microM). Nitrite production by papillary muscles challenged with TNF-alpha alone. TNF-alpha in the presence of WEB 2170 or CV 3988, or PAF was studied with the Greiss reagent method. PAF production by papillary muscles stimulated by TNF-alpha was studied by a bioassay method. RESULTS: TNF-alpha induced an initial, transient positive inotropic effect, then reduced the contractility and the action potential duration in a concentration-dependent manner. Treatment of papillary muscle with Triton X-100 did not modify the response to TNF-alpha, suggesting that the effect of TNF-alpha is not mediated by endocardial endothelial cells. Pretreatment with indomethacin reduced the negative effect of TNF-alpha, while propranolol abolished the initial increase of contractility. The role of PAF and NO as mediators of TNF-alpha was suggested by: (1) the protective effect of L-NAME, but not of D-NAME, on electrical and mechanical alterations; (2) the stimulatory effect of TNF-alpha on nitrite production; (3) the inhibitory effect of WEB 2170 and CV 3988, on both the electromechanical alterations and the nitrite production; (4) the synthesis of PAF induced by TNF-alpha. L-NAME blocked the negative effect of PAF and PAF enhanced nitrite production by papillary muscle. CONCLUSIONS: The present results suggest that in cardiac muscle: (1) the release of PAF triggered by TNF-alpha may account for the stimulation of NO production; (2) both PAF and NO contribute to the development of the electrical and mechanical alterations induced by TNF-alpha; (3) NO production was down-stream to the synthesis of PAF.

Effect of cytokines on the cytoskeleton of resident glomerular cells.

Resident glomerular cells have complex cytoskeletal organizations relevant to maintaining functional and structural integrity. The ability of cells to change shape, develop coordinate directed movements, replicate and interact with contiguous cells or extracellular matrix depends on cytoskeletal functions. Several cytokines directly or indirectly change cytoskeletal organization. Cytokines may alter cytoskeletal organization in cultured glomerular epithelial and mesangial cells and vascular endothelial cells mainly by mechanisms involving production of secondary mediators, such as PAF and leukotrienes that stimulate cell contraction, or PGE2 and PGI2 that stimulate cell relaxation. Consequent assembly and disassembly of microfilaments leads to functional responses of cells that may account for the physiopathological changes induced by cytokines in vivo.

Role of platelet activating factor in acute pancreatitis induced by lipopolysaccharides in rabbits.

In the present study we demonstrated that a single injection of endotoxin (lipopolysaccharides, E. Coli 0111-B4) into the superior pancreaticoduodenal artery of rabbits induced a dose-dependent acute necrotizing pancreatitis. The lesions observed by light microscopy were significant for 10 micrograms lipopolysaccharides and were maximal for 20 micrograms. After 24 h the main findings were edema, acinar cell vacuolisation, polymorphonuclear neutrophil infiltration and tissue necrosis. The pancreatic lesions developed strictly in the area supplied by the artery injected with lipopolysaccharides, without significant intestinal involvement. Since platelet-activating factor (1-O-hexadecyl-2-acetyl-sn-glycero-3- phosphocholine, PAF; 50-500 ng), a phospholipid mediator of endotoxin-induced inflammation and shock, was previously shown to cause an acute necrotizing pancreatitis in rabbits, the role of PAF in the development of acute pancreatitis induced by lipopolysaccharides was studied by evaluating: (1) the synergism between doses of lipopolysaccharides (5-10 micrograms), which produced a mild tissue injury, and doses of PAF (10 ng) not producing, per se, any significant injury, and (2) the effect of three structurally unrelated PAF receptor antagonists. The results obtained demonstrated that 10 ng of PAF significantly potentiated pancreatic tissue damage induced by 10 micrograms of lipopolysaccharides.(ABSTRACT TRUNCATED AT 250 WORDS)

Detection of platelet-activating factor in gingival tissue surrounding failed dental implants.

BACKGROUND: Dental implant therapy has entered routine clinical practice. However, the failure rate of implants at 5 years, due to biological factors, is still around 7%. The pathogenesis of implant loss involves a complex network of cells and inflammatory mediators. This study evaluated platelet-activating factor (PAF), a potent phospholipid mediator of inflammation, in soft tissue surrounding failed dental implants versus healthy implants. METHODS: PAF was estimated on extracted lipids by bioassay on washed rabbit platelets; inflammatory cell populations were assessed semiquantitatively after staining, and microvessel density was evaluated after immunohistochemical staining. RESULTS: Biologically active PAF was detected in the lipid extracts of samples excised from gingival tissue of patients with failed implants, but not in samples from patients with osseointegrated implants or from healthy edentulous subjects. The amount of PAF detected in failed implants was significantly higher than in healthy implants, suggesting a local production of this mediator. CONCLUSIONS: The presence of PAF was associated with histopathological findings of local inflammation and increased blood vessel density.

[Hypotensive effect of sotalol under basic conditions and during exercise. Clinical cases]. / Effetto ipotensivo del Sotalolo in condizioni basali e sotto sforzo. Casistica clinica.

An assessment was made of the efficacy of Sotalol, a beta1 selective beta blocker, in the management of essential arterial hypertension. A single 160 mg dose per diem was administered per os to 34 patients over a period of 14 weeks. Arterial pressure and heart rate were checked periodically. In addition, SAP, DAP and heart rate were evaluated before and during the third week of treatment in 8 subjects under maximum ergometric test conditions. Excellent tolerance was observed. Under basal conditions, all subjects displayed good reduction of SAP and DAP. This was highly significant. During exercise, it was less evident, and the results were only significant for low work loads. It is nevertheless felt that the simple dose protocol of the drug, its good tolerance and its effectiveness under basal conditions suggest that more extensive ergometric studies should be conducted.

Cardiovascular alterations in the rabbit infused with platelet activating factor (PAF): effect of kadsurenone, a PAF-receptor antagonist.

The ECG and haemodynamic alterations caused by the i.v. infusion of platelet-activating factor (PAF) in the rabbit were studied after pretreatment with Kadsurenone, a specific PAF-receptor antagonist. Infusion of PAF at 0.8 microgram/kg in the rabbit caused important ECG changes, such as ST-segment depression and conduction arrhythmias, concomitantly with a marked reduction in left ventricular systolic pressure, mean arterial pressure and cardiac output, with a rise in total peripheral resistances and mean right atrial pressure. These physiological parameters became maximal at 75-120 seconds after PAF challenge, and returned to near prechallenge values within 25-60 minutes. Pretreatment with Kadsurenone, administered either intravenously (0.014 M, 1 ml/kg) or intraperitoneally (0.14 M, 1 ml/kg), exerted a quite complete protective effect in regard to the ECG changes and caused a significant reduction in the magnitude of all the haemodynamic alterations observed after intravenous infusion of PAF (0.8 microgram/kg). These results suggest that Kadsurenone is an effective inhibitor of PAF-induced cardiovascular changes in the rabbit, probably due to its competitive antagonism against PAF binding to specific receptors.

The role of platelet-activating factor in experimental immune complex pathology.

Tissue localization of immune complexes (IC) after infusion of synthetic platelet-activating factor (PAF) in rabbits was studied. Bovine serum albumin (BSA) was injected intravenously either before or after the infusion of synthetic PAF, later followed by the administration of anti-BSA antibodies over a 30-min period. Control rabbits received both BSA and anti-BSA antibodies, followed by lyso-PAF or saline-BSA instead of PAF. The infusion of PAF induced structural alterations in the heart, lung and kidney which were consistent with an increased vascular permeability. Deposits of BSA, IgG, and C3 were found in the heart, lung, and kidney of rabbits infused with PAF but not in control rabbits. In the liver of PAF-infused rabbits, immune deposits were only infrequently observed, whereas they were constantly present in the cardiac valves, thoracic aorta and at the bifurcation of the renal artery as they were in the control rabbits. These results suggest that PAF favors the localization of IC in the heart, lung and kidney vessels but does not influence the formation of immune deposits at the sites of turbulence of the blood flow.

[The humoral and cellular factors of glomerular damage]. / Fattori umorali e cellulari del danno glomerulare.

The present review summarizes current concepts on glomerular non-inflammatory and inflammatory immune injury. Non-inflammatory glomerular injury can be ascribed to mechanisms involving antibody alone, terminal component of complement (C5b-9) or cytokines having as primary target the glomerular epithelial cells. These mechanisms induce changes in cell cytoskeleton and in surface distribution of adhesion molecules leading to functional alterations which may account for loss of glomerular permselectivity. Inflammatory glomerular injury is mediated by neutrophils, macrophages, platelets and lymphocytes as well as by resident glomerular cells. Cell derived mediators include proteases, reactive oxygen species, cationic proteins, cytokines and growth factors that may variably affect recruitment of inflammatory cells, proliferation of resident glomerular cells and production of extracellular matrix. These alterations may determine proteinuria, impairment of renal function and eventually progression of glomerular injury to sclerosis. The inflammatory type of glomerular injury is mainly initiated by subendothelial-mesangial immune deposits and/or activation of cell mediated immunity. The role of factors such as the nature, intensity and persistence of initiating mechanisms, the types of inflammatory cells involved and the response of intrinsic glomerular cells, in expression and progression of glomerular injury are discussed.

[Functional changes of the endothelium and atherosclerotic process]. / Alterazioni funzionali dell'endotelio e processo aterosclerotico.

The aim of this review is to summarize the current concepts concerning the active role of the endothelium in the pathogenesis of atherosclerosis. Activated endothelium may promote the adhesion of monocytes and their transmigration into the intima. The coordinated expression of adhesion molecules of the selectin, integrin or immunoglobulin superfamily on the surface of endothelial cells and of monocytes modulates these events. The role of lipoproteins and their oxidative derivatives as well as that of selected cytokines and platelet activated factor in initiating changes on the endothelial cell surface has been investigated: these events are associated with an increased endothelial permeability to lipids and lipoproteins with their accumulation in the subendothelium. Once migrated into the intima, monocytes undergo morphological and functional modifications leading to the generation of a polypeptide mediator network which is instrumental in the migration, differentiation and proliferation of smooth muscle cells. Mediators produced by macrophages infiltrating the atherosclerotic plaque and by the endothelium may render the surface of the endothelial cells thrombogenic thus favoring thrombotic occlusion. In conclusion, the most recent studies suggest that the endothelium plays an active role in the pathogenesis of atherosclerosis.

Elevated thrombopoietin in plasma of burned patients without and with sepsis enhances platelet activation.

BACKGROUND: Thrombopoietin (TPO) is a humoral growth factor that does not induce platelet aggregation per se, but enhances platelet activation in response to several agonists. Circulating levels of TPO are increased in patients with sepsis and are mainly related to sepsis severity. OBJECTIVES: To investigate the potential contribution of elevated TPO levels in platelet activation during burn injury complicated or not by sepsis. METHODS: We studied 22 burned patients, 10 without and 12 with sepsis, and 10 healthy subjects. We measured plasma levels of TPO, as well as leukocyte-platelet binding and P-selectin expression. The priming activity of plasma from burned patients or healthy subjects on platelet aggregation and leukocyte-platelet binding, and the role of TPO in these effects were also studied in vitro. RESULTS: Burned patients without and with sepsis showed higher circulating TPO levels and increased monocyte-platelet binding compared with healthy subjects. Moreover, TPO levels, monocyte-platelet binding and P-selectin expression were significantly higher in burned patients with sepsis than in burned patients without sepsis. In vitro, plasma from burned patients without and with sepsis, but not from healthy subjects, primed platelet aggregation, monocyte-platelet binding and platelet P-selectin expression. The effect of plasma from burned patients with sepsis was significantly higher than that of plasma from burned patients without sepsis. An inhibitor of TPO prevented the priming effect of plasma from burned patients. CONCLUSIONS: Increased TPO levels may enhance platelet activation during burn injury and sepsis, potentially participating in the pathogenesis of multi-organ failure in these diseases.