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Objective: To determine the relationship between working conditions and dimensions of health-related quality of life during the COVID 19 pandemic among nursing and medical staff in intensive care units in Santa Marta, Colombia. Method: Cross-sectional analytical study. The sample consisted of 110 health professionals (physician and nurses) selected by non-probability sampling. The MOS-36 questionnaire was used. Results: The respondents were mostly female (69.09%), with children (64.54%), living with their nuclear family (90.00%), nursing assistant (59.09%), followed by nurses (23.63%) and physicians (17.27%), with postgraduate degrees (13.63%), with chronic illness (14.54%) and with multiple jobs (93.63%). The dimensions of quality of life with the best perception were physical functioning (M: 85.69, SD: 19.04) and role emotional (M: 81.79, SD: 33.92), while a lower mean was found in the vitality dimension (M: 59.95, SD: 17.51). The variables age, sex (male), having children, suffering from a chronic disease, profession (physician), hiring format, multi-employment, seniority at work and service seem to negatively influence workers' mental and physical health. Conclusions: The mental component was the most affected. The health-related quality of life in the study group is generally evaluated as good;and this showed to be related to working conditions, meriting the design and implementation of strategies to minimize the impact of work on the health and integrity of health care professionals © COPYRIGHT Servicio de Publicaciones - Universidad de Murcia
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Introduction: the COVID-19 pandemic generated a disruption in the modality of face-to-face education, forcing an abrupt migration to virtuality with little or no prior preparation, which makes it necessary to analyze the perception and satisfaction of teachers with the development of activities in this format. Objective: to analyze the perception and satisfaction with education in virtual modality during the COVID-19 pandemic of the teachers of the Nursing Degree of the University Institute of the Argentine Federal Police of the Autonomous City of Buenos Aires, Argentina. Methods: a descriptive, cross-sectional, and quantitative study was designed. The sample consisted of 23 teachers who responded to an instrument consisting of 21 questions with closed response options. Results: the mean age was 52 years (SD: 10), 87 % were women and 79,9 % have children, 56,5 % are teachers of third-year subjects of the curriculum and 56,5 % have a degree level of training. 65,2 % mentioned that in virtuality their main difficulty was the resistance of students to turn on their cameras and 43,5 % perceive the qualifications obtained in virtuality as equivalent to face-to-face. Those who possessed a postgraduate degree (p=0,005) and those who wished to continue virtual activities after isolation (p=0,041) were found to have higher levels of satisfaction. Conclusions: an average level of satisfaction was found with a score of 6.8 out of 10 and the perception of the virtual modality for the development of classes during the pandemic was positive. © 2023, Publicacion de la Asociacion Salud, Ciencia y Tecnologia. All rights reserved.
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Introduction: Sars-cov2 infection is commonly associated with acute kidney injury (AKI) which may be observed in up to 40% of cases. Pathogenesis of AKI during COVID-19 is yet not perfectly understood. Many risk factors have been proposed associated with AKI occurrence during COVID-19 infection. To date there is still limited data of AKI progression and long-term outcomes among these patients. We aim to describe risk factors for development of AKI and the progression of their renal function up to six months after hospital discharge. Methodology: This is a retrospective observational study in a tertiary car nephrology department in Barcelona, Spain. We evaluated data from 71 hospitalized patients with AKI occurrence during COVID-19 infection between 1st of March and 30th May 2020. Analysis of baseline characteristic, need of renal replacement therapy (RRT) and inflammatory parameters has been performed. Result(s): Of 71 patients (74,6% males;median age 71,9+/-11,15 years), 43 (60,6%) needed admission in the intensive care unit (ICU) for hemodynamic/respiratory support and 34 (47,9%) died during hospitalization. 13 (18,3%) needed RRT. 3 (23%) patients requiring RRT died during COVID-19 infection and 9 (69,2%) partially recovered renal function. Baseline serum creatinine of patients without RRT need during follow-up was 0,90+/-0,16 mg/dl with a peak serum creatinine 2,8+/-1,5 mg/dl. Patients that needed RRT support had a baseline serum creatinine 0,98+/-0,87 mg/dl and a peak serum creatinine of 4,34+/-3,35 mg/dl. Creatinine at discharge was of 1,5+/-0,59 mg/dl in the group of patients needing RRT and 1,2+/-0,52 mg/dl. At six months follow-up no significant differences were found in creatinine levels from discharge (p=0,65). Very poor correlation was observed between inflammatory parameters and serum creatinine peak levels (Dimer D levels and Serum creatinine peak R2=0,034;C reactive protein and creatinine peak levels R2=0,15 and Interleukin 6 and creatinine peak levels R2=0,042). Conclusion(s): COVID-19 infection is associated with AKI with and increased risk of chronic kidney disease after infection is resolved. No differences between renal function at discharge and at 6 months of follow-up was observed. No correlation between the studied inflammatory parameters and the worsening of renal function was observed.
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Background: As a reaction to the COVID-19 pandemic, a nation-wide lockdown was enforced in Brazil in March 2020, cancer care was impacted, and cancer screening reduced. Therefore, an increase in cancer diagnoses at more advanced stages was expected. In this study, we extracted data from our nationwide real-world database to evaluate the impact of the COVID-19 pandemic on the stage at diagnosis of breast cancer (BC) cases. Methods: We explored curated electronic medical record data of female patients, over 18 years of age, diagnosed with BC and with established disease stage based on the AJCC 8th edition, who started treatment or follow-up in the Oncoclínicas (OC) between Jan 1, 2018, and Dec 31, 2021. The primary objective was to compare stage distribution at first visit during COVID- 19 pandemic (2020-2021) with a historical control cohort from a period prior to the pandemic (2018- 2019). We investigated stage distribution according to age at diagnosis and tumor ER/HER2 subtype in univariate models. Associations were considered significant if they had a minimum significance (P < 0.1 in Chi-square test). The historical numbers of patients with BC at OC make it possible to identify differences in the prevalence of stages in the order of 5% comparing pre and post pandemic periods with a statistical power greater than 80%. Results: We collected data for 11,752 patients with initial diagnosis of BC, with 6,492 patients belonging to the pandemic (2020-2021) and 5,260 patients to the pre-pandemic period (2018-2019). For both ER+/ HER2- and HER2+ tumors, there was a lower percentage of patients with early-stage (defined as stage I-II) in the years 2020-2021 vs 2018-2019 and a considerable increase in advanced-stage disease (defined as stage IV). For triple negative BC (TNBC), there was a significant higher percentage of patients with advanced-stage disease in the pandemic vs pre-pandemic period (table 1). Age over 50 years was associated with a greater risk of advanced stage at diagnosis after the onset of the pandemic, with an absolute increase of 7% (P twosided <0.01). Conclusions: We observed a substantial increase in cases of advanced-stage BC in OC institutions as a result of delays in BC diagnoses due to the COVID-19 pandemic. The impact appeared greater in older adults, potentially because of stricter confinement in this group.
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The increasing burden of cancer represents a substantial problem for Latin America and the Caribbean. Two Lancet Oncology Commissions in 2013 and 2015 highlighted potential interventions that could advance cancer care in the region by overcoming existing challenges. Areas requiring improvement included insufficient investment in cancer control, non-universal health coverage, fragmented health systems, inequitable concentration of cancer services, inadequate registries, delays in diagnosis or treatment initiation, and insufficient palliative services. Progress has been made in key areas but remains uneven across the region. An unforeseen challenge, the COVID-19 pandemic, strained all resources, and its negative effect on cancer control is expected to continue for years. In this Series paper, we summarise progress in several aspects of cancer control since 2015, and identify persistent barriers requiring commitment of additional resources to reduce the cancer burden in Latin America and the Caribbean.
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Coronavirus disease 2019 (COVID-19) meant an unprecedented global crisis, which involved the reorganization of health systems and the rationalization of available diagnostic and therapeutic resources. The objective of this observational and retrospective study was to analyze the clinical characteristics and evolution of patients admitted to general ward, intensive care unit and emergency department of a high complexity hospital in Buenos Aires city, during the first seven months of viral circulation. A total of 1005 patients with laboratory-confirmed COVID-19 were included. The median age was 45 years, and 73.7% were men. Half of the patients had at least one comorbidity. Among the laboratory findings, the median of total leukocytes was 6300 cells/mm3 and that of lymphocytes 818 cells/mm3;82.3% of the patients presented alterations in the chest tomography, and the most frequently observed radiological pattern was ground-glass opacity (33%);82.4% of them received empirical antibiotic therapy directed to the respiratory focus and, in addition, 18.7% were treated with dexamethasone. Regarding severity, 14.7% of the patients presented uncomplicated disease, 55.2% mild pneumonia, 20.8% moderate pneumonia, and 9.2% severe pneumonia. Likewise, 8.7% of them were transferred to intensive care. In-hospital mortality was 2.3%, and 20.5% among critically ill patients. A statistically significant association was found between mortality and age, with an age difference of 9.6 years, being greater among the deceased (p = 0.0004;95% CI 4-14). However, there was no association between the presence of comorbidities and sex vs. mortality and severity of the disease.
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Controversies still exist regarding the humoral response to the virus SARS-CoV-2 in convalescent patients and seroconversion in patients with autoimmune diseases. There are few reports on the clinical and evolution of COVID-19 in the latter group. The objective was to examine the clinical and evolutionary characteristics associated with COVID-19 and the percentage of seroconversion in people with rheumatic diseases. Fifty-three patients were included, mainly with rheumatoid arthritis and lupus. The majority were female and average age 48 ± 14 years. Symptoms: fever (56%), anosmia (35.8%), dyspnea (34%), headache (30.2%) and cough (30.2%). Duration of infection 12 ± 7 days. Almost half of the patients were hospitalized (23, 43.4%), 5 in critical care units (9.4%) and 3 died (5.6%). The prevalence of steroid use was 56.6% (30), with an average dose of 8 mg/d, and 17 (32%) used immunosuppressive biopharmaceuticals. There was a correlation between age and the need for hospitalization with a risk of 9.4% per year. There were no differences with other variables. The presence in serum of IgG immunoglobulin against SARS-CoV-2 protein S was determined in 23/53 patients (43.4%), with detectable levels in 15 (62.2%), and in the 23 without autoimmune connective tissue diseases who suffered from COVID-19, 12 had detectable antibodies. Death in this group of rheumatic diseases was low, similar to the general population. More than half had specific antibodies against the virus regardless of the medication used.
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Background: The COVID-19 pandemic remains a public health emergency of global concern, with higher mortality rates in cancer patients as compared to the general population. However, early mortality of COVID19 in cancer patients has not been compared to historical real-world data from oncology population in pre-pandemic times. Methods: Longitudinal multicenter cohort study of patients with cancer and confirmed COVID-19 from Oncoclínicas Group in Brazil from March to December 2020. The primary endpoint was 30-day mortality after isolation of the SARS-CoV-2 by RT-PCR. As historical control, we selected patients from Oncoclínicas Data Lake treated before December 2019 and propensity score-matched to COVID-19 cases (3:1) based on the following clinical characteristics: age, gender, tumor type, disease setting (curative or palliative), time from diagnosis of cancer (or metastatic disease) to COVID-19 infection. Results: In total, 533 cancer patients with COVID-19 were prospectively registered in the database, with median age 60 years, 67% females, most frequent tumor types breast (34%), hematological (16%), gastrointestinal (15%), genitourinary (12%) and respiratory tract malignancies (10%). Most patients were on active systemic therapy or radiotherapy (84%), largely for advanced or metastatic disease (55%). In the overall population, early death rate was 15%, which was numerically higher than the Brazilian general population with COVID-19 diagnosis in 2020 (2.5%). We were able to match 442 cancer patients with COVID-19 to 1,187 controls with cancer from pre-pandemic times. The 30-day mortality rate was 12.4% in COVID-19 cases as compared to 5.4% in pre-pandemic controls with cancer (Odds Ratio 2.49, 95%CI 1.67 - 3.70;P value < 0.01, Power 97.5%). COVID-19 cancer patients had significantly higher death events than historical controls (Hazard Ratio 2.18, 95%CI 1.52 - 3.12;P value < 0.01, Power 99.7%), particularly from 20 to 30 days after diagnosis of the infection. Conclusions: Cancer patients with COVID-19 have an excess mortality 30 days after the infection when compared to matched cancer population from pre-pandemic times and the general population with COVID-19, reinforcing the need for priority vaccination in public health strategies. Legal entity responsible for the study: Oncoclínicas Group. Funding: Amgen. Disclosure: All authors have declared no conflicts of interest.
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Background: COVID-19 is a challenge for clinical decision-making in cancer patients and the allocation of healthcare resources. An accurate prognosis prediction to effectively triage patients is needed, especially in the community oncology practice. Methods:Nationwide cohort from Oncoclínicas Brazil was used to validate previously developed multivariable logistic regression (mLR) model (Ferrari et al, JCO GO 2021) and to construct a machine learning Random Forest (RF) algorithm as predictor of 30-day mortality after SARS-CoV-2 detection by RT-PCR in cancer patients diagnosed in an outpatient setting. To find the most important baseline clinical determinants of early COVID19-related death via Gini index, a RF with 100,000 trees was trained in 75% of the dataset, and the performance was assessed in the remaining 25%. We then compared the accuracy of different models in terms of sensitivity, specificity and area under the receiver operating characteristics curves (AUC). Results:From March to December 2020, 533 patients with COVID-19 were prospectively registered in the database. Median age was 60 years (19-93) and 67% were female. Most frequent cancers were breast in 34%, hematological in 16%, and gastrointestinal in 15%. Comorbidities were common (52%), as was current/former smoking history (17%). Most patients were on active systemic therapy or radiotherapy (84%) in the advanced or metastatic disease setting (55%). The overall mortality rate was 15% (CI95% 12%-18%). We validated the original mLR model trained in the first 198 patients: management in a noncurative setting (odds ratio [OR] 3.7), age ≥ 60 years (OR 2.3), and current/former smoking (OR 1.9) were significant predictors of death in the expanded cohort. Presence of comorbidities (OR 1.9) also defined poor outcome in the updated mLR model, which yielded low sensitivity (74%), specificity (68%) and AUC (0.78). With RF modeling, the most significant predictors of 30-day death after COVID-19 (in decreasing order) were older age, treatment of advanced or metastatic disease, tumor type (respiratory tract, brain and unknown primary cancers had higher mortality), COVID-related symptom burden at baseline evaluation and treatment regimen (immunotherapy combinations had higher mortality). The RF model demonstrated high sensitivity (89%), specificity (88%) and AUC (0.96). Conclusions:The results highlight the possibility that machine learning algorithms are able to predict early mortality after COVID-19 in cancer patients with high accuracy. The proposed prediction model may be helpful in the prompt identification of high-risk patients based on clinical features alone, without having to wait for the results of additional tests such as laboratory or radiologic studies. It can also help prioritize medical resources and redefine vaccination strategies. A web-based mortality risk calculator will be created for clinical decision support.
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Background: Based on findings from IMpassion130, international guidelines now recommend atezolizumab (A) + nab-paclitaxel (nP) for patients (pts) with locally advanced or metastatic TNBC (mTNBC) whose tumours express PD-L1 on tumour-infiltrating immune cells (IC). Here we report prespecified final OS and long-term safety results. Methods: The study design and final PFS analysis have been reported (Schmid NEJM 2018). Pts were randomised 1:1 to A + nP or placebo (P) + nP. Co-primary endpoints were PFS (tested in parallel in ITT and PD-L1+ pts) and OS (tested hierarchically in ITT and, if significant, in PD-L1+ pts). Results: As of 14 April 2020, 666/902 pts (73.8%) had died;median OS follow-up was 18.8 mo (IQR, 8.9-34.7 mo). 6% of pts in the A + nP arm and 2% in the P + nP arm remained on any treatment. OS data are in the Table. 460 A + nP arm pts and 430 P + nP arm pts were safety evaluable, of whom 8% and 3%, respectively, received nP for up to 24 mo. Similarly, 5% in the A + nP arm received nP for ≥ 24 mo (vs 1% in the P + nP arm). Respectively, 51% vs 43% had a G 3-4 AE;≈ 1% per arm had a G 5 AE (no new G 5 AEs since last analysis;no patterns seen);24% vs 19% had a serious AE, and 59% vs 42% had an AE of special interest (G 3-4 in 8% vs 5%). No confirmed or suspected COVID-19 AEs were reported. 19% in the A + nP arm and 8% in the P + nP arm had an AE leading to treatment discontinuation (most commonly due to neuropathy);in 18% and 8%, respectively, AEs led to nP discontinuation, and in 8% and 1%, AEs led to A or P discontinuation. Conclusions: While OS differences for A + nP vs P + nP in the IMpassion130 ITT population were not statistically significant, precluding formal testing, clinically meaningful OS benefit was observed in PD-L1+ pts (7.5-mo median OS improvement). A + nP remained safe and tolerable with longer follow-up. Results from this final and mature OS analysis are consistent with prior interim analyses. [Formula presented] Clinical trial identification: NCT02425891. Editorial acknowledgement: Medical writing assistance for this abstract was provided by Ashley J. Pratt, PhD, of Health Interactions, and funded by F. Hoffmann-La Roche, Ltd. Legal entity responsible for the study: F. Hoffmann-La Roche, Ltd. Funding: F. Hoffmann-La Roche, Ltd. Disclosure: L.A. Emens: Honoraria (self): AbbVie, Amgen, Celgene, Chugai, Gritstone, MedImmune, Peregrine, Shionogi, Syndax;Honoraria (self), Travel/Accommodation/Expenses: AstraZeneca, Bayer, MacroGenics, Replimune, Vaccinex;Travel/Accommodation/Expenses: Bristol Myers Squibb, Genentech/Roche, Novartis;Research grant/Funding (institution): Aduro Biotech, AstraZeneca, The Breast Cancer Research Foundation, Bristol Myers Squibb, Bolt Therapeutics, Corvus, The US Department of Defense, EMD Serono, Genentech, Maxcyte, Merck, The National Cancer Institute, The NSABP Foundation, Roche, The Transl;Licensing/Royalties: Aduro;Advisory/Consultancy: Roche. S. Adams: Research grant/Funding (institution): Genentech;Research grant/Funding (institution): Merck, Amgen, BMS, Novartis, Celgene, Daiichi Sankyo. C.H. Barrios: Advisory/Consultancy: Boehringer- Ingelheim;Advisory/Consultancy: GSK;Advisory/Consultancy, Research grant/Funding (institution): Novartis;Advisory/Consultancy, Research grant/Funding (institution): Pfizer;Advisory/ Consultancy, Research grant/Funding (institution): Roche/Genentech;Advisory/Consultancy: Eisai;Advisory/Consultancy, Research grant/Funding (institution): Merck;Advisory/Consultancy, Research grant/Funding (institution): AstraZeneca;Non-remunerated activity/ies: Bayer;Research grant/ Funding (institution): AbbVie;Research grant/Funding (institution): Amgen;Research grant/Funding (institution): Astellas;Research grant/Funding (institution): BMS;Research grant/Funding (institution): Celgene;Research grant/Funding (institution): Lilly;Research grant/Funding (institution): Medivation;Research grant/Funding (institution): Sanofi;Research grant/Funding (institution): Taiho Pharmaceutical;Research grant/Funding (institution) Mylan;Research grant/Funding (institution): Merrimack;Research grant/Funding (institution): Biomarin;Research grant/Funding (institution): Daiichi Sankyo;Research grant/Funding (institution): Abraxis BioScience;Research grant/Funding (institution): AB Science;Research grant/Funding (institution): Asana BioSciences;Research grant/Funding (institution): Exelixis, Research grant/Funding (institution): ImClone Systems, Research grant/Funding (institution): LEO Pharma;Research grant/Funding (institution): Millennium;Advisory/Consultancy: Merck Sharp and Dohme;Advisory/Consultancy: AstraZeneca. V.C. Dieras: Honoraria (self), Advisory/Consultancy: Roche/Genentech, Pfizer, Lilly, Novartis, Daiichi Sankyo, AstraZeneca, AbbVie, Seattle Genetics, Odonate, MSD. H. Iwata: Honoraria (self), Advisory/Consultancy: Chugai;Honoraria (self), Advisory/Consultancy: Novartis, AstraZeneca, Pfizer, Lilly, Daiichi-Sankyo, Eisai, Kyowa Kirin;Non-remunerated activity/ies: MSD, Bayer, BI, Nihon, Kayaku, Sanofi. S. Loi: Research grant/Funding (institution), Non-remunerated activity/ies: Novartis, BMS, Roche-Genentech, Merck;Research grant/Funding (institution): Puma, Eli Lilly, Pfizer;Unpaid consultant: Seattle Genetics;Unpaid consultant: Pfizer;Unpaid consultant: Novartis;Unpaid consultant: BMS;Unpaid consultant: AstraZeneca;Unpaid consultant: Roche/Genentech;Advisory/Consultancy (institution): Aduro Biotechnology. H.S. Rugo: Research grant/Funding (institution): Pfizer, Novartis, Lilly, Genentech/Roche, Merck, OBI, Eisai, Plexxikon, Immunomedics;Research grant/Funding (institution), Travel/Accommodation/Expenses: Macrogeneics, Daiichi;Travel/Accommodation/Expenses: Puma, Mylan, Genentech/Roche, Novartis, Pfizer;Honoraria (self): Celltrion. A. Schneeweiss: Research grant/Funding (institution): Celgene, Roche, AbbVie, Molecular Partner;Advisory/Consultancy: Roche AstraZeneca;Travel/Accommodation/Expenses: Celgene, Roche, Pfizer;Honoraria (self): Roche, Celgene, Pfizer, AstraZeneca, Novartis, MSD, Tesaro, Lilly. E.P. Winer: Honoraria (self): Lilly, Genentech, Infinite MD, Carrick Therapeutics, GSK, Jounce, Genomic HEalth, Merck, Seattle Genetics;Honoraria (self), Leadership role: Leap. S. Patel: Shareholder/Stockholder/Stock options, Full/Part-time employment: F. Hoffmann-La Roche. V. Henschel: Shareholder/Stockholder/Stock options, Full/Part-time employment: F. Hoffmann-La Roche. A. Swat: Shareholder/Stockholder/Stock options, Full/Part-time employment: F. Hoffmann-La Roche. M. Kaul: Shareholder/Stockholder/Stock options, Full/Part-time employment: F. Hoffmann-La Roche. L. Molinero: Shareholder/Stockholder/Stock options, Full/Part-time employment: F. Hoffmann-La Roche. S.Y. Chui: Shareholder/Stockholder/Stock options, Full/Part-time employment: Genentech/Roche. P. Schmid: Honoraria (self), Advisory/Consultancy, Research grant/Funding (institution), Spouse/Financial dependant, spouse – consulting for Genentech: Roche;Honoraria (self): Medscape;Honoraria (self), Advisory/Consultancy: AstraZeneca;Honoraria (self): GI Therapeutics;Honoraria (self): Health Interactions;Advisory/Consultancy: Pfizer;Advisory/Consultancy, Research grant/Funding (institution): Novartis;Advisory/Consultancy: Merck;Advisory/Consultancy: Boehringer Ingelheim;Advisory/Consultancy: Bayer;Advisory/Consultancy: EISAI;Advisory/Consultancy: Celegence;Advisory/Consultancy: Puma;Research grant/Funding (institution), Spouse/Financial dependant, spouse – consulting for Genentech: Genentech;Research grant/Funding (institution): Oncogenex.