ABSTRACT
Aim/Introduction: While there's a wide literature on Computed Tomography (CT) abnormalities in COVID-19 sequelae, the role of lung perfusion scintigraphy has been scarcely investigated. Recent findings reported lung microvascular and endothelial alterations in patients recovered from COVID-19 without pulmonary embolism (PE), presenting persistent dyspnea (post-COVID). We compared perfusion scintigraphy and CT findings of post-COVID patients with dyspneic subjects in whom lung scintigraphy excluded pulmonary embolism (non-COVID). The correlation between lung perfusion scintigraphy findings and 1) CT abnormalities and 2) clinical/biochemical parameters were also assessed. Material(s) and Method(s): 18 post-COVID and 20 non-COVID patients who underwent lung perfusion scintigraphy and chest high-resolution CT for dyspnea from March 2020 to April 2022 were retrospectively enrolled. From lung perfusion scintigraphy images, counting rates for upper, middle, and lower fields were normalized for the total lung counts to calculate the corresponding ratios (UTR, MTR, and LTR, respectively). CT images were analyzed using a semiautomated segmentation algorithm of 3DSlicer (www.slicer. org), obtaining total, emphysematous, infiltrated and collapsed volumes, normalized for the total lung volumes. Similarly, blood vessel's volumes were collected to compute the vascular density. White blood cells (WBC) count, PT, INR, PTT and D-dimer of both groups, and the infection duration of post-COVID patients were collected from clinical records and blood tests performed before the lung perfusion scintigraphy. Result(s): At the per lung analysis, post-COVID patients with persistent dyspnea showed reduced LTR (24.67>5.08) and higher MTR (52.51>5.22) compared to non-COVID patients (29.85>5.05 and 46.66>3.94, respectively;p<0.0001 for both), while UTR resulted bilaterally superimposable between the two groups. At CT imaging, the rates of emphysematous, infiltrated and collapsed volumes and the vascular density were bilaterally similar in both groups. In post-COVID patients, LTR correlated with the percentage of emphysematous (r=0.498;p<0.01), infiltrated (r=-0.464;p=<0.01) and collapsed (r=-0.463;p<0.01) lungs, while no significant correlations were observed between LTR and CTderived volumes in non-COVID subjects. There was no correlation between lung perfusion scintigraphy parameters with infection duration in post-COVID, WBC, and coagulation biomarkers in both groups. Conclusion(s): Lung perfusion scintigraphy can reveal reduced perfusion rates of lower pulmonary fields in post-COVID patients with persistent dyspnea without pulmonary embolism. This phenomenon is correlated with structural lung modifications, including lung parenchymal emphysema, infiltration and collapse, and is independent of infection duration and coagulation biomarkers. Although mechanisms underlying these findings need to be supported by pathological lung tissue examination, pulmonary non-thrombotic microvascular and endothelial dysfunction may be involved.
ABSTRACT
Background-Aim: While there's a wide literature on CT abnormalities in COVID-19 sequelae, the role of lung perfusion scintigraphy have been scarcely investigated. Recent findings reported lung microvascular and endothelial alterations in patients recovered from COVID-19 without pulmonary embolism, presenting persistent dyspnea (POST-COVID). We compared perfusion scintigraphy and CT findings of these patients with dyspneic subjects in whom lung scintigraphy excluded pulmonary embolism (NON-COVID). In POST-COVID patients, the correlation between lung perfusion scintigraphic findings and (1) CT abnormalities, and (2) clinical/ biochemical parameters were also assessed. Methods: 24 POST-COVID and 33 NON-COVID patients who underwent lung perfusion scintigraphy for dyspnea from March 2020 to December 2021 were retrospectively enrolled. High-resolution chest CT performed 15 days before/after lung perfusion scintigraphy were available in 15/24 POST-COVID and 15/33 NON-COVID patients. From scintigraphic images counting rates for upper, middle, and lower fields were calculated in order to compute their ratio with total lung counts (UTR, MTR, and LTR, respectively) for both right and left lungs (RL and LL, respectively). CT images were analyzed using a semi-automated segmentation algorithm of 3D Slicer ( http://www.slicer.org), obtaining total, infiltrated and blood vessels' volumes, in order to calculate the infiltration rate (IR) and vascular density (VD). White blood cells, platelets, PT, INR, PTT, fibrinogen, and D-dimer of 15/24 POST-COVID patients were also collected from blood tests performed before the lung perfusion scintigraphy. Results: POST-COVID patients with persistent dyspnea showed reduced LTR (RL 22.4% ± 6.6%;LL 24.7% ± 3.1%) and higher MTR (RL 55.2% ± 5.2%;LL 49.1% ± 3.3%) compared to non- COVID patients (RL-LTR 29.6% ± 6.0%, p<0.0001;LL-LTR 28.3% ± 4.6%, p = 0.001;RL-MTR 47.3% ± 4.2%, p<0.0001;LL-MTR 47.3% ± 3.0%, p = 0.036), while UTR resulted bilaterally superimposable between the two groups. Similar IR and VD values at CT imaging were documented bilaterally in both groups. In POSTCOVID patients, no significant correlations between lung perfusion scintigraphy and CT findings were observed. Correlation analysis indicated D-dimer levels as associated with UTR (Pearson's r = 0.664;p = 0.007) and MTR (Pearson's r = - 0.555;p = 0.032), while no parameter significantly associated with LTR was observed. Conclusions: Lung perfusion scintigraphy can reveal reduced perfusion rates of lower pulmonary fields in POST-COVID patients with persistent dyspnea in the absence of pulmonary embolism, independently from CT abnormalities, infection duration and coagulation biomarkers. Although mechanisms underlying these findings need to be supported by pathological lung tissue examination, lung nonthrombotic microvascular and endothelial dysfunction may be involved.
ABSTRACT
Background-Aim: A potential link has been investigated between hyposmia after COVID-19 and an increased risk to develop neurological long-term sequelae also in patients who experienced mild or moderate disease. Hyposmia is a common feature PD and parkinsonism has been reported after COVID-19 suggesting a potential link between SARS-CoV2 infection and PD. [18F]FDG PET may represent a suitable tool to capture potential common metabolic signature of hyposmia after COVID-19 and in PD patients. We aimed to evaluate brain metabolic correlates of isolated persistent hyposmia after mild-to-moderate COVID-19 and to compare them with metabolic signature of hyposmia in drug-naive PD patients. Methods: Forty-four patients who experienced hyposmia after SARSCOV2 infection underwent brain [18F]FDG-PET in the first 6 months after recovery. Olfaction was assessed by means of the 16-item ''Sniffin-Sticks'' test and patients were classified as with or without persistent hyposmia (COVID-hyposmia and COVID-no-hyposmia respectively). Brain [18F]FDG-PET of post-COVID subgroups were compared in SPM12. COVID-hyposmia patients were also compared with eighty-two drug-naïve PD patients with hyposmia. Multiple-regression- analysis was used to identify correlations between olfactory test-scores and brain metabolism in patients' subgroups. Results: COVID-hyposmia patients (n = 21) exhibited significant hypometabolism in bilateral gyrus rectus and orbitofrontal cortex with respect to COVID-non-hyposmia (n = 23) (p<0.002) and in middle and superior temporal gyri, medial/middle frontal gyri and right insula with respect to PD-hyposmia (p<0.012). With respect to COVIDhyposmia, PD-hyposmia patients showed hypometabolism in inferior/ middle occipital gyri and cuneus bilaterally. Olfactory test-scores were directly correlated with metabolism in bilateral rectus and medial frontal gyri and in right middle temporal and anterior-cingulate gyri in COVID-hyposmia patients (p<0.006) and with bilateral cuneus/precuneus and left lateral occipital-cortex in PD-hyposmia patients (p<0.004). Conclusions: Metabolic signature of persistent hyposmia after COVID-19 encompasses cortical regions involved in olfactory perception and does not overlap metabolic correlates of hyposmia in PD. An impairment in olfactory judgement seem to underlie hyposmia in PD patients while a more restricted perception deficit seems to explain hyposmia in COVID-19. The potential long term neurological sequelae of COVID-19 are of interest from the clinical and economical point of view. Studies targeting symptoms common to COVID-19 and chronic neurological diseases and aiming to explore potential common pathways are of interest also to avoid unjustified claims about a future high incidence of neurodegenerative diseases secondary to the SARS-CoV-2 pandemic.
ABSTRACT
In early December 2019, some people in China were diagnosed with an unknown pneumonia in Wuhan, in the Hubei province. The responsible of the outbreak was identified in a novel human-infecting coronavirus which differs both from severe acute respiratory syndrome coronavirus and from Middle East respiratory syndrome coronavirus. The new coronavirus, officially named severe acute respiratory syndrome coronavirus 2 by the International Committee on Taxonomy of Viruses, has spread worldwide within few weeks. Only two vaccines have been approved by regulatory agencies and some others are under development. Moreover, effective treatments have not been yet identified or developed even if some potential molecules are under investigation. In a pandemic outbreak, when treatments are not available, the only method that contribute to reduce the virus spreading is the adoption of social distancing measures, like quarantine and isolation. With the intention of better managing emergencies like this, which are a great public health threat, it is important to dispose of predictive epidemiological tools that can help to understand both the virus spreading in terms of people infected, hospitalized, dead and recovered and the effectiveness of containment measures.
ABSTRACT
BACKGROUND: The social consequences of COVID-19 pandemic are universally known. In particular, the pediatric population is dealing with a radical lifestyle change. For some risk categories, such as overweight or obese children, the impact of home confinement has been greater than for others. The increased sedentary life, the wrong diet and social distancing have stopped the chance of losing weight. The aims of this study were to analyse the impact of COVID-19 lockdown on the behavior changes in a obese pediatric population and to explore the correlation between the new lifestyle and the level of parental instruction. METHODS: Data show features of 40 obese and overweight pediatric patients of our Clinic in Messina (Italy). We evaluated weight, height, BMI and other biochemical parameters: total cholesterol, HDL, LDL, triglyceride, transaminases, glycemia and insulinemia. After the lockdown, we contacted all patients in order to get some information about diet, physical activity and sedentary lifestyle changes in correlation to the level of their parents' instruction. Additionally, we also evaluated 20 children twice from a clinical and laboratory perspective. RESULTS: The study showed an increase of daily meals during COVID-19 lockdown (3.2 ± 0.4 vs 5 ± 1, P < 0.001). In particular, children whose parents have primary school diploma ate a greater significant number of meals during the lockdown, compared to those who have parents with secondary school diploma (P = 0.0019). In addition, the 95% of patients did low physical activity during the lockdown and the 97.5% spent more time in sedentary activity. Even if BMI's values don't show significant differences, they have increased after the lockdown. We didn't find any correlation between biochemical parameters before and after the lockdown. CONCLUSION: The lockdown has had bad consequences on good style of life's maintenance in overweight and obese children. The absence of a significant correlation between the worsening of biochemical parameters and the lockdown doesn't allow to exclude any long-term consequences. It's safe to assume that, if the hours spent in sedentary activity and the number of meals don't diminish, there will probably repercussion on the biochemical parameters.
Subject(s)
COVID-19/epidemiology , Communicable Disease Control/methods , Exercise/physiology , Life Style , Overweight/epidemiology , Pediatric Obesity/epidemiology , Quarantine/methods , Adolescent , Body Mass Index , Child , Child, Preschool , Comorbidity , Female , Humans , Italy/epidemiology , Male , Pandemics , Pediatric Obesity/physiopathology , Pediatric Obesity/psychology , Retrospective Studies , SARS-CoV-2ABSTRACT
Background: Advanced Care Planning (ACP) is a complicated process that allows patients to make decisions about their future medical care that are consistent with their values. Documentation of patient's values should be done routinely and revised with change in the medical condition, this allows for their voice to be heard when they are no longer able to choose. We recently instituted addressing elements known as 4Ms (What matters, medication, mentation, and mobility) into our daily clinic flow as part of our certification to become an Age Friendly Health System1. This clinic-based QI project aims to assess the effect of the 4Ms process on ACP completion. Methods: We used a retrospective chart review and an electronic health record (EHR) generated report that compared patients seen in our office in 2 six-month periods;before (Jan-Jun, 2020) and after (Jul -Dec, 2020) instituting 4M care into our practice to assess its effects on our ACP completion rate. This QI project was conducted at our Geriatric Care Clinic, an outpatient clinic with a multidisciplinary team including physicians, pharmacists, nurses, and medical assistants. Our clinic used a checklist form as part of the rooming process that included all elements of the 4Ms. This project looked at the effect of addressing what matters most on ACP completion and documentation rates. We reviewed ACP documentation in the EHR that includes: Living Will, Advance Directive, Power of Attorney, Five Wishes, to populate a completion rate. Results: We anticipate an increase in our ACP completion rate. Conclusions: We anticipate that there should be an improvement in our ACP completion rates after instituting 4M screening procedures. We recognize that our results may be complicated by changes in ACP discussion practices as they relate to differences in care during the COVID-19 pandemic. instituting 4M screening practices may be a useful process to improve ACP discussion and documentation.