The scombroid poisoning is due to the ingestion of poorly preserved fish (especially tuna, sardines, and mackerel) out of the cold chain. Under the influence of the proliferation of gram negative bacteria that occurs for heating, the histidine content in the muscle of the fish is converted into histamine, by the action of the enzyme histidine decarboxylase. If the histamine is ingested in large quantities, it causes an anaphylactoid reaction with a variety of symptoms from moderate to severe to life-threating. We will describe two cases that came under our observation after consuming a meal of bluefin tuna. The diagnosis of scombroid syndrome was made on the basis of the anamnestic data and the clinical one. The rapid resolution of the signs and symptoms after treatment with histamines H1-H2 receptor blockers confirmed the suspected diagnosis.
The spider bites are quite frequent and often resolve quickly without leaving outcomes; only some species are capable of causing necrotic and systematic lesions in humans. Among them, we should mention the genus Loxosceles. The venom released from the spider bite of Loxosceles species is composed of proteins, enzymes, and nonenzymatic polypeptides. The phospholipase D family was identified as the active component of the venom. This family of enzymes is responsible for the local and systemic effects observed in loxoscelism. Phospholipases D interact with cell membranes triggering alterations which involve the complement system and activation of neutrophils and they cause the dermonecrotic skin lesions and systemic effects. We describe a fatal case of acute intoxication caused by a spider bite probably belonging to the species Loxosceles. The initial lesion was localized to a finger of a hand. Clinical course was worsening with deep necrotic lesions on limb, shock, hemolysis, acute kidney failure, and disseminated intravascular coagulation. All therapies were ineffective. This is the first fatal case described in Europe.
Severe musculoskeletal injuries induce the release of sarcoplasmic elements such as muscle enzymes, potassium, and myoglobin in the systemic circulation. The circulating myoglobin damages the glomerulus and renal tubules. Conventional haemodialysis is not able to remove myoglobin, due to its high molecular weight (17,8 kilodaltons [kDa]). We treated four traumatic rhabdomyolysis patients with Coupled Plasma Filtration Adsorption (CPFA) in order to remove myoglobin followed by 14 hours of Continuous Veno-Venous Hemofiltration (CVVH). During the treatment, all patients showed clinical improvement with a decrease in muscular (creatine kinase [CK] and myoglobin) and renal (creatinine and potassium) damage indices. One patient, in spite of full renal recovery, died of cerebral haemorrhage on the 26th day of hospital stay.
Multiresistant bacteria infections cause widespread morbidity and mortality and lead to an increase in expenses for hospital stays and complications. We describe the case of a 27-year-old patient with puerperal sepsis after cesarean section due to Escherichia coli complicated by multiresistant Klebsiella ESBL-producing superinfection with septic shock and multiple organ dysfunction syndrome, successfully treated with ceftolozane/tazobactam.
Corrosion at splash zones of risers and spool pieces of subsea pipelines, can be severe reading corrosion rates up to 1mm/year, due to the lack of effectiveness of cathodic protection and coating damages caused either by disbondment or object impact. So, it´s highly recommended that this zone have a specific inspection plan combined with a special inspection program for preventing the occurrence of failure, as well as following up the evolution of any failure mechanism which eventually might be present. Traditionally inspection techniques applied at splash zone are: general visual inspection and local thickness measurement. However these techniques are not practical as they require marine growth and even coating removal.After an event caused by corrosion at splash zone, a literature review was carried out to produce the state of the art of non intrusive technological solutions for inspecting the corroded areas of splash zones of risers and spools. This paper describes the results of laboratory tests carried out with some of the identified technologies on full scale riser samples. Test results indicate that technologies such as guided waves and Saturated Low Frequency Eddy Current (SLOFEC) can be complementary alternatives to the splash zone traditional inspection techniques, although the coating type and wall thickness have significant influence on these technologies´ sensitivity and probability of detection. These technologies have the capability of inspecting/monitoring large areas of splash zones of risers and spools without marine growth and coating removal. This is an advantage when compared to the traditional inspection techniques.
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