This study shows that in the Italian population aged >or=45, hospitalizations following hip fracture and AMI between 1999 and 2002 were comparable, while hip fractures' direct costs were higher and grew faster than costs for AMI. Hip fractures in Italy are a serious medical problem and a leading health-cost driver.
Air pollution is increasingly recognized as an important and modifiable determinant of cardiovascular diseases in urban communities. The potential detrimental effects are both acute and chronic having a strong impact on morbidity and mortality. The acute exposure to pollutants has been linked to adverse cardiovascular events such as myocardial infarction, heart failure and life-threatening arrhythmias. The long-terms effects are related to the lifetime risk of death from cardiac causes. The WHO estimates that air pollution is responsible for 3 million premature deaths each year. The evidence supporting these data is very strong nonetheless, epidemiologic and observational data have the main limitation of imprecise measurements. Moreover, the lack of clinical experimental models makes it difficult to demonstrate the individual risk. The other limitation is related to the lack of a clear mechanism explaining the effects of pollution on cardiovascular mortality. In the present review we will explore the epidemiological, clinical and experimental evidence of the effects of ozone on cardiovascular diseases.The pathophysiologic consequences of air pollutant exposures have been extensively investigated in pulmonary systems, and it is clear that some of the major components of air pollution (e.g. ozone and particulate matter) can initiate and exacerbate lung disease in humans [1]. It is possible that pulmonary oxidant stress mediated by particulate matter and/or ozone (O3) exposure can result in downstream perturbations in the cardiovasculature, as the pulmonary and cardiovascular systems are intricately associated, and it is well documented that specific environmental toxins (such as tobacco smoke [2]) introduced through the lungs can initiate and/or accelerate cardiovascular disease development. Indeed, several epidemiologic studies have proved that there is an association between PM and O3 and the increased incidence of cardiovascular morbidity and mortality [3]. Most of the evidence comes from studies of ambient particles concentrations. However, in Europe and elsewhere, the air pollution profile has gradually changed toward a more pronounced photochemical component. Ozone is one of the most toxic components of the photochemical air pollution mixture. Indeed, the biological basis for these observations has not been elucidated.In the present review, the role of ozone as chemical molecule will be firstly considered. Secondly, pathogenetic mechanisms connecting the atmospheric ozone level and cardiovascular pathology will be examined. Thirdly, the literature relating hospitalization frequency, morbidity and mortality due to cardiovascular causes and ozone concentration will be studied. The correlation between ozone level and occurrence of acute myocardial infarction will be eventually discussed.
A 76-year-old otherwise healthy man was delivered by ambulance to the emergency room with a 4-day history of fever (up to 39°C), a dry cough, and diarrhea. The main clinical findings were tachypnea and respiratory insufficiency (SpO2 93%, 15 L oxygen with reservoir mask). Laboratory tests detected elevated concentrations of C-reactive protein (86 mg/L) and lactate dehydrogenase (431 U/L); the procalcitonin level was normal. Pulmonary sonography at the bedside revealed areas of jagged fragmentary pleural line with partially confluent B lines, particularly in the upper anterior portion of the left lung; lung sliding was present (Figure a). In adjacent lung areas the sonographic findings were normal. A consolidation with liver-like echo texture and air bronchogram was visualized in the right costophrenic angle (Figure b). A pleural effusion was also seen. This pattern on pulmonary sonography is currently considered indicative of COVID-19 viral pneumonia. Computed tomography confirmed the morphological findings, with ground-glass opacities concentrated in the left upper lobe and a consolidation in the right lower lobe. Despite intensive treatment the patient developed severe acute respiratory distress syndrome and multiorgan failure. He died on day 14 after admission.
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.