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OBJECTIVE: The study of the evolution of certain biomarkers in patients with persistent detection of SARS-CoV-2 could determine the profile of the pathology that these patients may suffer. The objective of this study was to describe the evolution of different laboratory markers in patients with persistent detection of SARS-CoV-2, and determining these parameters were into reference values. METHODS: Patients were divided into two groups: the control group (G0) included patients with a positive direct test for SARS-CoV-2 followed by 2 negative, while the problem group (G1) included patients with at least 3 consecutive positive tests. The time between consecutive samples was five to twenty days, and only patients with negative serology were included. Demographic data, comorbidities, symptoms, radiology and hospitalization were collected, as well as data from analytic and blood gases. The comparison between the study groups was realized using the t-student and U Mann-Whitney test for quantitative variables, and the chi2 test for qualitative variables. Results with p<0.05 were taken as significant. RESULTS: Ninety patients were included, thirty-eight in G0 and fifty-two in G1. D-dimer decreased 10.20 times more in G0 patients, and normal levels of this parameter at t1 were 1.46 times more frequent in these patients. The percentage of lymphocytes increased sixteen times more in G0, and the normal values in t1 were 10.40 times more common in these patients. C-reactive protein decreased significantly in both groups, and lactate increased more in G1 patients. CONCLUSIONS: The results of the study suggest that some biomarkers evolve differently in patients with persistent detection of SARS-CoV-2, which may have significant clinical impact. This information could help to determine the main organs or systems affected, allowing to anticipate socio-sanitary measures to prevent or compensate these alterations.
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BACKGROUND: One-third of pregnant women will experience worsening asthma requiring emergency hospitalization. However, no report comprehensively discussed the management of asthma attacks in pregnant women in impoverished settings. We attempt to illuminate what general practitioners can do to stabilize and improve the outcome of severe acute asthma exacerbations in primary care with resource limitations. CASE REPORT: A nulliparous 29-year-old woman in her 21st week of pregnancy presented severe acute asthma exacerbation in moderate persistent asthma with uncontrolled asthma status along with gestational hypertension, uncompensated metabolic acidosis with a high anion gap, anemia, respiratory infection, and asymptomatic bacteriuria, all of which influenced her exacerbations. This patient was admitted to our resource-limited subdistrict hospital in Indonesia during the COVID-19 pandemic for optimal stabilization. Crystalloid infusions, oxygen supplementation, nebulized beta-agonist with anticholinergic agents, inhaled corticosteroids, intravenous methylprednisolone, broad-spectrum antibiotics, subcutaneous terbutaline, mucolytics, magnesium sulphate, oral antihypertensives, and continuous positive airway pressure were used to treat her life-threatening asthma. After she was stabilized, we referred the patient to a higher-level hospital with more advanced pulmonary management under the supervision of a multidisciplinary team to anticipate the worst scenario of pregnancy termination. CONCLUSION(S): Limitations in primary care, including the lack of sophisticated intensive care units and laboratory panels, may complicate challenges in managing severe acute asthma exacerbation during pregnancy. To enhance maternal-fetal outcomes, all multidisciplinary team members should be well-informed about key asthma management strategies during pregnancy using evidence-based guidelines regarding the drug, rationale, and safety profile.Copyright © 2023 Muhammad Habiburrahman, Triya Damayanti, Mohammad Adya Firmansha Dilmy, Hariyono Winarto.
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Background: The role of inflammatory cytokines is known in the pathogenesis of organ damage and is also confirmed in the context of COVID-19 disease. The modulation of the cytokine storm seems to determine endothelial protection, which can translate into a reduction of the "capillary leak syndrome", and, consequently, in a better control of the formation of edema and pulmonary infiltrates. CytoSorb stands in this context as a cartridge capable of adsorbing cytokines and allowing a better clinical course. Case Report: A 69 years-old woman with a history of arterial hypertension, diabetes mellitus and CKD, was admitted to ICU for SARS Cov 2 related critical illness staged with chest CT, blood gas analysis and PCR. At the admission, the patient presented with ubiquitous interstitial pneumonia, PaO2 60 mmHg with 90% Airvo2 and PCR 36.67. Therefore, in order to remove inflammatory cytokines, the patient underwent hemoperfusion treatment with the CytoSorb adsorbent cartridge. Method(s): The protocol used is approved by the FDA for the treatment of covid patients and consists of the use of 4 cartridges 12h, 12h, 24h, 24h with measurement for each cycle of PCR, PaO2 and chest CT control. Result(s): During the hemoperfusion whit CytoSorb, respiratory failure improved until the patient was discharged from the ICU on the tenth day, with oxygen support via simple facial mask. Below the progressive values of the PCR, PaO2 and the chest CT control on the twelfth day. Conclusion(s): The hemoperfusion treatment with the CytoSorb adsorbent cartridge proved to be a valid adjuvant therapy in determining a better clinical course both in terms of the need for invasive mechanical ventilation and survival.
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Introduction: Altered mental status (AMS) is a common symptom in patients with liver disease with a wide list of differential diagnoses. Knowledge of etiologies of AMS unique to patients with hepatic dysfunction is vital in order to help recognize, diagnose, and treat the underlying cause in a timely manner. Case Description/Methods: A 46-year-old man with a history of recent COVID infection was transferred to our hospital for further evaluation of acute liver injury and AMS. On arrival, his labs were notable for AST of 408 U/L, ALT of 620 U/L, ALP of 5942 U/L, TB of 11.0 mg/dL, and an INR of 1.1. His work-up included an MRCP that showed segmental biliary ductal dilation with associated restricted diffusion and peribiliary enhancement concerning for sclerosing cholangitis. ERCP revealed a 3cm biliary cast that was removed and noted diffuse rarefaction of ducts throughout the entire biliary tree. A liver biopsy revealed centrizonal cholestasis with portal-based bile ductular reaction and mild bile duct injury. Despite adequate treatment of suspected infection and hepatic encephalopathy, his AMS persisted. His basic metabolic panel (BMP) was notable for Na of 143 mEq/L. A send-out lipid panel that was obtained to work-up his dyslipidemia revealed a total cholesterol of 1018 mg/dL, triglycerides of 420mg/dL, and the presence of lipoprotein X. A venous blood gas (VBG) was obtained showing a Na of 157 mEq/L and serum osmolality was 322 mmol/kg, confirming true hypernatremia. He was slowly treated with hypotonic solutions with significant improvement in his mentation. On follow-up one year later, he has persistent cholestasis and is currently being considered for liver transplant. Discussion(s): The final diagnosis was COVID-related ischemic cholangitis and disappearing bile ducts with persistent cholangiopathy, presenting with severe cholestasis, accumulation of lipoprotein X, and pseudonormonatremia. When faced with severe cholestatic liver disease, clinicians should keep in mind the possibility of accumulation of lipoprotein X and its association with hyperviscosity and spurious electrolyte abnormalities. Clinicians should rely on obtaining blood gas analyses for accurate electrolyte measurement in such cholestatic patients as blood gas analyses utilize direct ion-sensitive electrodes (ISE) to measure electrolytes, whereas routine basic metabolic panels utilize indirect ISE that are liable to spurious results in the presence of hyperlipoproteinemia/lipoprotein X.
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Introduction: In acute respiratory distress syndrome (ARDS) inhomogeneities in lung aeration can act as local multipliers of pressure during inspiration (stress risers), increasing the risk of lung damage even in presence of airway pressures considered safe [1]. In this study we aimed to describe lung inhomogeneities in COVID-19 related ARDS (C-ARDS) and to relate these to disease severity and lung morphology. Method(s): We enrolled patients with C-ARDS within 3 days from mechanical ventilation start, deeply sedated and paralyzed. Lung CT scan was obtained at PEEP of 5 cmH2O to measure lung weight compartments (non-, poorly-, well- and over-aerated). Lung inhomogeneities were computed as the gas/tissue ratio of each voxel compared to the neighboring voxels. We considered values > 1.61 as pathologic lung inhomogeneities, as previously described [1]. The fraction of total lung volume with pathologic inhomogeneities (extent) and the average severity of inhomogeneities contained in that fraction (intensity) was calculated. Respiratory system compliance and blood gas analysis were obtained at the same PEEP level of the CT scan. Some results have been presented in another publication [2]. Result(s): Forty patients were studied in the supine position 1 (0-1) days after ICU admission. The extent of pathologic lung inhomogeneities represented 18 +/- 4% of total lung volume. The intensity of pathologic lung inhomogeneities was on average 2.53 +/- 0.12. Extent was positively correlated with the amount of poorly aerated lung weight ( r2 = 0.51, p < 0.001) (Fig. 1) and negatively correlated with the amount of non-aerated lung weight ( r2 = 0.22, p = 0.002). No correlation was found between extent and intensity and PaO2/ FiO2, dead space fraction or respiratory system compliance. Conclusion(s): In C-ARDS lung inhomogeneities represent roughly 20% of total lung volume. In these regions local stress is increased with risk of secondary lung damage.
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Introduction: Patients with COVID-19-related acute respiratory distress syndrome (ARDS) require respiratory support with invasive mechanical ventilation and show varying responses to recruitment manoeuvres. In patients with ARDS not related to COVID-19, two pulmonary subphenotypes that differed in recruitability were identified using latent class analysis (LCA) of imaging and clinical respiratory parameters [1]. We aimed to validate these phenotypes and evaluate if similar subphenotypes are present in patients with COVID-19-related ARDS. Method(s): This is the retrospective analysis of mechanically ventilated patients with COVID-19-related ARDS who underwent CT scans at positive end-expiratory pressure of 10 cmH2O and after a recruitment manoeuvre at 20 cmH2O. LCA was applied to quantitative CT-derived parameters, clinical respiratory parameters, blood gas analysis and routine laboratory values before recruitment to identify subphenotypes. Result(s): 99 patients were included. Using 12 variables, a two-class LCA model was identified as best fitting. Subphenotype 2 (recruitable) was characterized by a lower PaO2/ FiO2, lower normally aerated lung volume and lower compliance as opposed to a higher nonaerated lung mass and higher mechanical power when compared to subphenotype 1 (non-recruitable) (Fig. 1). Patients with subphenotype 2 had more decrease in non-aerated lung mass in response to a standardized recruitment manoeuvre (p = 0.024) and were mechanically ventilated longer until successful extubation (adjusted SHR 0.46, 95% CI 0.23-0.91, p = 0.026), while no difference in survival was found (p = 0.814). Conclusion(s): A recruitable and non-recruitable subphenotype were identified in patients with COVID-19-related ARDS. The subphenotypes are similar to non-COVID-19-related ARDS and are promising for identification of recruitable patients in future practice as they can be classified with only few clinically available parameters before the recruitment manoeuvre.
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Introduction: Central venous-to-arterial carbon dioxide tension ( PvaCO2) can be useful for monitoring adequacy of tissue perfusion in patients with ARDS supported with veno-venous Extracorporeal Membrane Oxygenation (VV-ECMO). However, in theory, the unavoidable mixing of venous blood with blood after the oxygenator can affect PvaCO2 values by increasing central venous oxygen saturation and substantially decreasing CO2 concentration. This study aimed to evaluate acute changes in PvaCO2 after VV-ECMO installation and determine its association with patient outcomes. Method(s): Retrospectively evaluated coronavirus disease 2019 (COVID-19) ARDS patients with at least one concurrent arterial and central venous blood gas analysis before and after VV-ECMO installation as standard care. The primary outcome was intensive care unit (ICU) mortality at 28 days. Result(s): 29 patients were enrolled in the study. All the patients had a 25 F drainage multistage femoral cannula and a 21 F internal jugular infusion cannula. The median distance between the central venous sampling point and the tip of the infusion cannula was 39 [23-73] mm. No statistically significant changes in PvaCO2frelative changes calculated. After were observed 24-48 h after VV-ECMO installation (5 [4-7] mmHg to 6.5 [5-8.2] mmHg, p = 0.12). Hemoglobin concentration decreased 24 to 48 h after VVECMO installation (10.7 [9.5-12.7] g/dl to 9.6 [8.8-11.6] g/dl, p < 0.01) but neither central venous (75 [70-81]% to 73 [67-78]%, p = 0.46) nor arterial oxygen saturation (95 [92-97]% to 95 [93-96]%, p = 0.81) changed significantly. Elevated PvaCO2 after VV-ECMO installation had a good predictive value for 28 day ICU mortality (calculated area under the ROC curve 0.81) (Fig. 1 veno-venous). Conclusion(s): VV-ECMO support appears to have little effect on the PvaCO2 calculation. PvaCO2 can be used to evaluate patients with ARDS supported with VV-ECMO, as persistently elevated values can be associated with poor outcomes.
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Background and Aim: The new type of Severe Acute Respiratory Syndrome Coronavirus 2 (Coronavirus 2019-COVID-19) infection is the largest pandemic in the last decade. Acute respiratory distress syndrome is the complication with the highest mortality rate of this infection and there is no adequate treatment with proven efficacy to reduce mortality. This multi-center, retrospective study aimed to determine the effect of high-dose vitamin C on survival and other endpoints in invasively ventilated ARDS patients. Method(s): This multi-center, observational retrospective cohort study was performed at five ICU centers between March 2020 and July 2020. Patients with ARDS due to COVID-19 who required IMV were included. High-dose vitamin C group was defined as patients who were treated with vitamin C over 200 mg/kg for four days. Patients who were not given vitamin C treatment were defined as the control group by using propensity score match analysis, as well. The groups were compared about the effects of high-dose vitamin C treatment on ICU mortality. Result(s): A total of 86 patients with a mean age of 67.85 +/- 10.38 were included in the study. 72.1% of the patients were male. Forty-two (49%) patients were in the high dose vitamin C group, and 44 (51%) were in the control group. The mean PaO2/FiO2 at the time of admission to the ICU was 128.27+/-58.69 mmHg (133.63+/-56.51 mmHg in the control group, 122.36+/-61.18 mmHg in the study group, p=0.389). The mortality rate of high dose vitamin C group was lower than the control group (73.8% vs. 90.9%, p = 0.037,respectively). Conclusion(s): As an adjunctive therapy in invasively ventilated patients with COVID-19-associated ARDS, high doses of vitamin C may reduce mortality and development of organ damage. Prospective, randomized controlled studies with larger numbers of patients are needed to confirm these findings.Copyright © 2023, Society of Turkish Intensivists. All rights reserved.
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Background: During COVID 19 pandemic many clinical presentations of respiratory infection were seen. Moreover, many other parts of the body can be involved. More than 75 % of patients were presented as respiratory infection. According to recent published data around 85 % of COVID 19 cases were asymptomatic. Patients with clinical presentation of COVID 19 pneumonia, if they are symptomatic, were presented as widespread pneumonia with appearance of ground glass opacities in most cases. Clinical course of COVID 19, if the predominant is respiratory infection, were divided according to severity, in five groups, as was presented in recent literature. Inflammatory markers rest the corner stone in process of decision making in diagnostic and therapeutic approach. Method(s): Patients treated in COVID Division of Pneumonology department of General hospital Tesanj were analyzed. Standardized diagnostic tools was performed for all patients, and separate other ones, if needs, as follow: Chest x-ray on admission, third, seventh hospitalization day and the day before discharge were performed. Chest CT scan was performed for patients if needs. IL-6, procalcitonin were performed so and LAB analyses including blood cells account, SE, CRP, LDH, CK, ALaAT, AspAT, total amount of proteins, albumins, globulins, lipids, creatinine, blood gas analyses, deep dimer, and other analyses if needs. Result(s): Out of all we analyzed 196, among them 93 female (47.45 %) and 103 (52.55 male, average age 53,2 (+/- 6.6) years. Measurement of IL-6 and procalcitonin were performed for those patients with substantial presentation of ground glass opacities in chest x-ray. Substantial variability was found in IL-6 level in relative short time frame, no more than 24 hours, in 38 patients. Variability of IL-6 was from 2.22 pg/ml as the lowest level and 2600 pg/ml as the highest measured level. Due to the large variability in the concentration of Il-6 in the blood, the calculation of the average value is not informative. Conclusion(s): We concluded that the level of IL-6 is very variable, with no constant close correlation with other inflammatory markers, like CRP.
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BACKGROUND: One of the most precocious Italian COVID-19 outbreaks began in February 2020 in Medicina, a small town in the province of Bologna. We compared the characteristics of different cohorts, to identify potential predictive factors for outcome: patients of Medicina outbreak versus those of the surrounding district (Imola), and before or after the local medical intervention. METHOD(S): Between March the 3rd and April the 9th, 2020 167 adults with COVID-19 were admitted to the Emergency Department (ED) (78 from Medicina cluster, 89 from Imola district). Data at ED presentation were collected;hospitalized patients were followed until death or discharge. RESULT(S): Medicina and Imola cohorts were similar in age, main comorbidities, clinical presentation, laboratory tests, arterial blood gas analysis (ABG), death and acute respiratory distress syndrome (ARDS) rates. Age, hypertension, diabetes, chronic obstructive pulmonary disease, dyspnea, body temperature, quickSOFA Score, elevated C-reactive protein (CRP), creatinine, urea, DELTA A-a O2, respiratory rate and FiO2 were associated with death and ARDS. Elevated Glasgow Coma Scale, diastolic blood pressure, oxygen peripheral saturation, P/F and pH were associated with patient survival and protective from ARDS. After the intervention in Medicina district, patients presenting at ED were younger and with long-lasting symptoms;CRP values were significantly lower, ABG and respiratory clinical parameters were less severely impaired. These differences did not affect the outcome. CONCLUSION(S): Since the results of our study are consistent with worldwide evidences, we suggest that the early insight of a small local SARS-CoV-2 outbreak can be representative and predictive of the subsequent course of the virus in wider areas. This must be kept in mind to manage next epidemic waves.Copyright © 2022 EDIZIONI MINERVA MEDICA.
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This study aimed to investigate the usefulness of cerebral regional oxygen saturation (rSO2) during the initial 5 and 10 minutes of cardiopulmonary resuscitation (CPR) compared with an initial rSO2 and mean rSO2 during entire CPR to predict the futility of resuscitation for patients without of-hospital-cardiac arrest (OHCA). This was a prospective study involving 52 adult patients presenting in OHCA and whose cerebral rSO2 values were measured until either CPR was terminated or sustained return of spontaneous circulation (ROSC) was achieved. Receiver operating characteristics analyses were used to evaluate which time and type of measurement is better to predict non-ROSC. The area under the curve (AUC) of each rSO2 value according to measurement time (overall, initial 5 minutes and 10 minutes) were the highest value of 0.743, 0.724, and 0.739, mean values of 0.724, 0.677 and 0.701 and rSO2 (Changes in values of regional cerebral oxygen) value of 0.722, 0.734 and 0.724, respectively, while all of the initial values had a poor AUC (<0.7) and also were not statistically significant. The optimal cut-off value of each rSO2 values during overall, initial 5 minutes and 10 minutes were the highest value of 26% (sensitivity, 53.9% specificity, 92.3%), 24% (sensitivity, 56.4% specificity, 92.3%), and 30% (sensitivity, 61.5% specificity, 84.6%), mean value of 15.2%, 15.3% and 16%, respectively. None of the patients with a persistent rSO2 <=18% during the overall period achieved ROSC. Initial 5 minutes and 10 minutes cerebral rSO2 values an out-of-hospital-cardiac arrest (OHCA) are a better predictor in deciding the futility of CPR, compared to initial and overall measurements.Copyright © 2023 The Author(s). Published by MRE Press.
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Previous studies comparing treatment outcomes and the recovery of smokers after COVID 19 infection have yielded contradictory results. The aim of this retrospective study was to compare recovery and the rate of posthospital complications of former long-term smokers (FS) with non-smoking (NS) controls observed in PostCovid out-clinic hospital. We compared 88 FS and 96 NS, who had suffered from moderate to severe Covid-19 pneumonia, and were observed during 1-year follow-up period. The inclusion criteria were positive PCR test for SARS-CoV-2 infection and hospitalization due to acute respiratory failure. We compared lung function tests, blood gas analyses, onset of new symptoms and incidence of thrombotic incidents. Mean age of participants was 64.8+/-11.4 years for NS and 63.8+/-8.8 years for FS. At the beginning of follow-up FS group had significantly lower pulmonary function tests vs NS, including FEV1 (89.9% vs 94.6%, p<0.01);FVC (87.5% vs 94.3%, p< 0.01);DLco (62.3% vs 72.7%, p< 0.01), with a tendency for slower recovery during subsequent examinations. There was no significant difference between two groups regarding blood gas levels, number of reported symptoms and incidence of pulmonary embolism (7 vs 7). According to the results we can conclude that former smokers initially had worse lung function scores and prolonged recovery course. However, there was no significant difference in the number of symptoms and the frequency of thrombotic complications.
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Since beginning of 2020, SARS-CoV2 pandemic has been prevailing in humans causing COVID-19. Airways are strongly impacted during virus mediated inflammation and damage. Exact pathomechanisms during COVID-19 are still under investigation. We now further characterized limitations in exercise capacity in outpatient patients after symptomatic infection with SARS-CoV2 using bicycle cardiopulmonary exercise testing (CPET). 45 patients (21female/24 male) underwent standard pulmonary function testing (PFT) including spirometry, bodyplethysmography, CO-diffusion-measurement (DLCO, DLCO/VA), capillary blood gas-analysis (BGA) and symptom limited CPET on a bicycle. Patients' disease history was evaluated in advance. Severity of the disease was quantified according to reported data. At rest, there were no statistically relevant abnormalities in spirometry, bodyplethysmography, CO-diffusion-measurement or blood gas-analysis, even in those patients less than 40 days post infection. We found significantly impaired alveolar-arterial oxygen gradients (A-aO2) and decreased peak V'O2 level post-COVID-19 patients up to up to 80days post infection. Reevaluating 10 patients 3 month later, a markedly increase in peak oxygen-uptake (V'O2) and a normalized A-aO2 at rest was noted. We conclude that COVID-19 resulted in decreased cardiopulmonary exercised capacity as demonstrated by CPET (significantly decreased peak V'O2). The underlying mechanism is limitation of oxygen-diffusion indicated by significantly elevated A-aO2 level in post-COVID-19 patients. Limitation was temporary and patients reached age-appropriate level 3 month later.
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During intensive care unit (ICU) management of COVID-19, blood tests are often conducted for close monitoring of patients, a poor prognostic factor for survival, especially in hypoxemic patients. This study aimed to determine the degree of anemia and its effect on prognosis in ICU COVID-19 patients. This retrospective study included COVID-19 patients admitted to the ICU between 1 October 2020 and 1 May 2021. All the patients included were aged > 18 years and stayed in the ICU for >=14 days. Patients aged <18 years, those with major bleeding, and those recovering from surgery were excluded. The total blood samples (mL) taken in the ICU were calculated. From among the 395 patients screened for inclusion, 112 patients were included in the study. Mean age of the patients was 71.3 +/- 13.2 years (Male/Female: 1.8). Mean hemoglobin (Hb) at admission was 13.2 +/- 1.8 g dL-1. At the end of the ICU stay mean Hb was 9.74 +/- 1.98 g dL-1. During ICU stay, the mean reduction in Hb was 3.47 +/- 2.11 g dL-1. Age (p= 0.049), drawn blood volume per day (p= 0.001), and higher hemoglobin at admission (p= 0.001) were determined by multivariate analysis as independent risk factors for hemoglobin reduction. Hemoglobin reduction (OR: 1.34), and intubation status (OR: 57.50) were independent risk factors for mortality. Considering that most COVID-19 patients are admitted to the ICU due to acute respiratory failure (ARF), it is vital to maintain the Hb level as high as possible, so as to maintain oxygenation.Copyright © 2022, UHOD - Uluslararasi Hematoloji Onkoloji Dergisi. All rights reserved.
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Background and Objective: In order to determine the Hypoxemia and prognosis of patients with covid-19 hospitalized in the intensive care unit, reliable oxygen supply indicators are needed. In this situation, the examination of the percentage of arterial oxygen saturation (SaO2) and arterial oxygen pressure (PaO2), as well as their relationship, may be helpful. Materials and Methods: This descriptive-cross-sectional study examined 1,121 patients with covid-19 hospitalized in the intensive care unit of hospitals affiliated with Hamadan University of Medical Sciences. Data were collected through a researcher-made checklist, including age, gender, history of smoking and drug use, underlying disease, duration of hospitalization, the outcome of hospitalization, and hemoglobin listed in the patient's medical records. Moreover, SaO2 and PaO2 were examined in the first arterial blood analysis report after admission to the hospital. Results: A positive and significant correlation was observed between SaO2 and PaO2 (r=0.733 and P<0.001). SaO2 significantly predicted Pao2 in COVID-19 patients (β=63.51, R2=0.630, P<0.001). Furthermore, the duration of hospitalization had a positive and significant correlation with PaO2 (r=0.112, P<0.001) and SaO2 (r=0.063, P=0.034). Conclusion: The measurement of the percentage of oxygen saturation and arterial oxygen pressure through arterial blood gas analysis is more accurate in diagnosing Hypoxemia in covid-19 patients. They are better indicators to determine the prognosis of critically ill patients. © 2023 Avicenna Journal of Nursing and Midwifery Care.
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Several studies have evaluated the impact of radiological phenotyping in the management of COVID-19 pneumonia (G. Scioscia et al. Arch Bronconeumol (Engl Ed). 2021 Jul 28). Moreover, among the various procedures, the prone position (PP) appears to be effective in improving alveolar gas exchange. Therefore, we have tested the efficacy of PP in different COVID-19 radiological phenotypes (PH). The study was conducted on COVID-19 patients admitted in our Unit between November 2020 and April 2021. The patients with a PaO2/FiO2 (P/F) <= 200 mmHg on blood gas analysis underwent PP cycles. In relation to PP ability, they were divided into two groups (Prone and Supine) and the groups were then compared. We enrolled 60 patients (29 Prone and 22 Supine). Of all patients, we calculated the post-PP P/F gain, resulting in 51.7+/-30.2 mmHg in PH1, 50.3+/-24.2 in PH2 and 55.0+/-19.7 mmHg in PH3. Although there were no significant differences in mortality rates between phenotypes, a post-PP gain >=20% seems to be a safety cut-off of response to PP. Hence, 83.3% PH2, 66.7% PH1 and 55% PH3 were identified as "responders" In conclusion, our findings suggest that PP is a procedure that should be performed;it improves gas exchange even if it shows different efficacy based on the radiological phenotype. Therefore, a gain of >=20% PaO2/FiO2 post-PP could be considered a discriminating marker of efficacy of this therapeutic approach.
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Background: There is evidence of persistent symptoms after COVID-19 disease in more than 50 %. of patients (pts.). We hereby report our experience with lung function tests in Post-COVID pts. in an outpatient clinic. Method(s): Since spring 2020, we offered ambulatory control of lung function and imaging after COVID-19 disease. Lung function tests (LFT) including blood gas analysis were performed. Result(s): 66 consecutive pts. (39M, 27F, age 50+/-15.1 Y, BMI 29+/-6 kg/m2) without pulmonary pre-existing condition presented with persistent symptoms 168+/-122 days after COVID. 41 pts. were treated ambulatory and 25 pts. were hospitalized (none with prolonged ventilation). LFT's were normal (TLC 99+/-18 %, VC 91+/-20 %, FEV1/VC 80+/-10 %, pO2 86+/-10 mmHg, pCO2 37+/-4 mmHg), except in 6 pts., where LFT was slightly impaired: 2 showed moderate obstruction and 4 a restrictive pattern. Interestingly 22 pts. (34.9%) presented with a low pCO2, indicating different degrees of HV, inclining in F (M 7/39 vs. F 15/27, p=0.004). Also, 12 pts. with known pulmonary precondition diagnoses (6 sarcoidosis, 2 chronic hypersensitivity pneumonitis (HP), 1 non-specific interstitial pneumonia, 1 CTD-ILD, 1 asthma, 1 organizing pneumonia (OP) by primary biliary cirrhosis) presented after COVID-19 disease. In 8 of these pts. the LFT was comparable as before COVID-19 disease. One patient with HP showed prolonged recovery, one asthmatic needed intensified treatment, and one presented with a new episode of OP. Discussion(s): Our pts., who recovered from mild to moderate COVID-19 disease, presented with good prognosis with regard to LFT. HV could be one pathophysiologic mechanism for Post-COVID symptoms, particularly in F.
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Ventricular tachycardia (VT) is a type of broad complex tachycardia originating from a focus in the ventricle. It is one of the four important rhythms which can lead to cardiac arrest. Accurate and timely diagnosis of true VT is the cornerstone for proper management in the emergency department (ED). We present an interesting case of an electrocardiographic artifact mimicking VT, which led to a diagnostic dilemma in the ED.Copyright © 2023 Rehman, Albaroudi, Akram, Ahmad, licensee HBKU Press.
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Background: COVID-19 has become a serious health problem worldwide. Objective(s): The current study investigated the prognostic factors associated with demographical parameters, clinical and vital signs, and laboratory results for predicting severity and mortality in patients infected with COVID-19. Method(s): This retrospective analysis was conducted on the medical records of 372 COVID-19-positive patients hospitalized at the Khatam al-Anbiya Hospital, Shoushtar, Iran, from Sep 2020 to Sep 2021. The association of demographic parameters, clinical and vital signs, and laboratory results with severity and patients' outcomes (survival/mortality) was studied. The patients were divided into the non-severe group (n = 275) and the severe group (n = 97). COVID-19 disease severity was determined based on the severity of pulmonary involvement using CT chest images. The collected data were analyzed using IBM SPSS software for Windows (version 18). Logistic regression analysis was employed using the Forward LR method to predict COVID-19 severity and mortality. Result(s): The rates of mortality and the severe form of the disease were 87.1% (n = 324) and 12.9% (n = 48), respectively. A prognostic value was observed in predicting COVID-19 severity and mortality for some clinical and vital signs (diabetes (P < 0.001, P = 0.019), hypertension (P = 0.024, P = 0.012), pulmonary diseases (P = 0.038, P < 0.001), and anosmia (P = 0.043, P = 0.044) and paraclinical parameters (FBS (P = 0.014, P = 0.045), BUN (P = 0.045, 0.001), Cr (P = 0.027, P = 0.047), Neut (P = 0.002, P = 0.005), and SpO2 (P = 0.014, P = 0.001)). Cardiovascular disorders (P = 0.037), fever (P = 0.008), and dyspnea (P = 0.020) were also effective at predicting disease-related mortality. Multiple logistic regression analyses showed that diabetes disease, the place of residence, PCO2, and BUN with R2 = 0.18, and age, pulmonary diseases, and BUN with R2 = 0.21 were involved in predicting the severity and mortality, respectively. Conclusion(s): It seems that in addition to the BUN, diabetes and pulmonary diseases play a more significant role in predicting the severity and mortality due to COVID-19, respectively.Copyright © 2023, Author(s).