Escala para medir las capacidades resilientes en las pymes mexicanas

El impacto provocado por la COVID-19 y sus efectos en la economía nacional puso en evidencia la poca o nula capacidad de las empresas para sobrellevar esta situación causando el cierre temporal y, en algunos casos, definitivo en diversos sectores. Ante esta situación, el presente estudio tiene como objetivo determinar la validez y confiabilidad de un instrumento para medir la resiliencia empresarial en pequeñas y medianas empresas a partir de la percepción de sus directores, gerentes, encargados y/o propietarios. La metodología se basa en un enfoque cuantitativo, de alcance exploratorio y diseño no experimental. El instrumento se compuso inicialmente de 48 ítems agrupados en tres dimensiones de las capacidades resilientes: previsión, adaptación y recuperación, el cual fue aplicado a una muestra de 346 empresas establecidas en Ciudad del Carmen, Campeche, México. De acuerdo con los resultados se concluye que, el instrumento analizado cumple los criterios de confiabilidad y validez de constructo, destacando la reducción a 20 ítems con cargas factoriales entre 0.556 y 0.811 agrupados en tres factores que explican el 66.97% de la varianza total.Alternate :The impact caused by COVID-19 and its effects on the national economy revealed the little or no capacity of companies to cope with this situation, causing temporary and, in some cases, permanent closure in various sectors. Given this situation, this paper aims to determine the validity and reliability of an instrument to measure business resilience in small and medium-sized companies based on the perception of their directors, managers and/or owners. The methodology was based in a quantitative approach, exploratory scope, and non-experimental design. The instrument was initially composed of 48 items grouped into three dimensions of resilient capacities: foresight, adaptation, and recovery, which was applied to a sample of 346 companies established in Ciudad del Carmen, Campeche, Mexico. According to the results, it is concluded that the analyzed instrument meets the reliability and construct validity criteria, highlighting the reduction to 20 items with factor loads between 0.556 and 0.811 grouped into three factors that explain 66.97% of the total variance.

SARS-CoV-2 Omicron Replacement of Delta as Predominant Variant, Puerto Rico.

We reconstructed the SARS-CoV-2 epidemic caused by Omicron variant in Puerto Rico by sampling genomes collected during October 2021-May 2022. Our study revealed that Omicron BA.1 emerged and replaced Delta as the predominant variant in December 2021. Increased transmission rates and a dynamic landscape of Omicron sublineage infections followed.

Genomic surveillance of SARS-CoV-2 in Puerto Rico enabled early detection and tracking of variants.

Background: Puerto Rico has experienced the full impact of the COVID-19 pandemic. Since SARS-CoV-2, the virus that causes COVID-19, was first detected on the island in March of 2020, it spread rapidly though the island's population and became a critical threat to public health. Methods: We conducted a genomic surveillance study through a partnership with health agencies and academic institutions to understand the emergence and molecular epidemiology of the virus on the island. We sampled COVID-19 cases monthly over 19 months and sequenced a total of 753 SARS-CoV-2 genomes between March 2020 and September 2021 to reconstruct the local epidemic in a regional context using phylogenetic inference. Results: Our analyses reveal that multiple importation events propelled the emergence and spread of the virus throughout the study period, including the introduction and spread of most SARS-CoV-2 variants detected world-wide. Lineage turnover cycles through various phases of the local epidemic were observed, where the predominant lineage was replaced by the next competing lineage or variant after ~4 months of circulation locally. We also identified the emergence of lineage B.1.588, an autochthonous lineage that predominated in Puerto Rico from September to December 2020 and subsequently spread to the United States. Conclusions: The results of this collaborative approach highlight the importance of timely collection and analysis of SARS-CoV-2 genomic surveillance data to inform public health responses.

Genomic surveillance of SARS-CoV-2 in Puerto Rico enabled early detection and tracking of variants

Background Puerto Rico has experienced the full impact of the COVID-19 pandemic. Since SARS-CoV-2, the virus that causes COVID-19, was first detected on the island in March of 2020, it spread rapidly though the island’s population and became a critical threat to public health. Methods We conducted a genomic surveillance study through a partnership with health agencies and academic institutions to understand the emergence and molecular epidemiology of the virus on the island. We sampled COVID-19 cases monthly over 19 months and sequenced a total of 753 SARS-CoV-2 genomes between March 2020 and September 2021 to reconstruct the local epidemic in a regional context using phylogenetic inference. Results Our analyses reveal that multiple importation events propelled the emergence and spread of the virus throughout the study period, including the introduction and spread of most SARS-CoV-2 variants detected world-wide. Lineage turnover cycles through various phases of the local epidemic were observed, where the predominant lineage was replaced by the next competing lineage or variant after ~4 months of circulation locally. We also identified the emergence of lineage B.1.588, an autochthonous lineage that predominated in Puerto Rico from September to December 2020 and subsequently spread to the United States. Conclusions The results of this collaborative approach highlight the importance of timely collection and analysis of SARS-CoV-2 genomic surveillance data to inform public health responses. Plain language summary The COVID-19 pandemic reached Puerto Rico in March 2020. To understand the impact of SARS-CoV-2 on Puerto Rico, we formed a partnership with universities and local government to study the genetic sequence of viruses sampled from infected people between March 2020 and September 2021. Our results show that the local epidemic was initiated and sustained by frequent importation of a wide diversity of SARS-CoV-2 lineages and variants, some of which circulated for some time in the island. We also detected a lineage of SARS-CoV-2, named B.1.588, that was first detected in Puerto Rico and subsequently spread to the United States. This study highlights the importance of the study of viral genetic data to inform public health responses. Santiago et al. sequenced SARS-CoV-2 genomes sampled in Puerto Rico between March 2020 and September 2021. Phylogenetic analyses found multiple importations that increased infections and that variant turnover dynamics were similar to those seen in the USA.

Fulminant myocarditis in a patient with a lung adenocarcinoma after the third dose of modern COVID-19 vaccine. A case report and literature review.

Introduction COVID-19 disease has caused a global health and economic crisis. The introduction of the different COVID-19 vaccines has resulted in a significant decrease in the morbidity and mortality associated with this disease. Adverse effects have been reported, including cardiological ones such as myocarditis or pericarditis after administration. Likewise, tyrosine kinase inhibitor drugs such as osimertinib used in lung cancer patients with epidermal growth factor receptor (EGFR) mutation are associated with heart failure or prolongation of the QT interval. Case report 62-year-old woman diagnosed in September 2019 of lung adenocarcinoma stage IV with bilateral lung and lymph node involvement, carrier of an EGFR mutation (Ex19Del) on treatment with osimertinib. She attended emergency department for fever and hypotension 24 h after administration of the third dose of Moderna® COVID-19 vaccine in the context of acute myocarditis with evidence of severe left ventricular (LV) dysfunction in cardiogenic shock. She required vasoactive support, non-invasive mechanical ventilation, corticotherapy, immunoglobulins and subsequent ventricular support with Impella, with improvement of the clinical picture after 3 days. Cardiac magnetic resonance imaging (MRI) showed evidence of global myocardial oedema compatible with acute myocarditis. Coronary CT showed a lesion in the anterior descending coronary artery requiring revascularization. A few days later, she presented febrile symptoms with isolation of Staphylococcus aureus in the central line catheter and antibiotherapy with cloxacillin was started, with subsequent resolution of the infectious symptoms. Conclusion This is an exceptional and controversial case of fulminant myocarditis probably related to the Modern COVID-19 vaccine in a patient diagnosed with metastatic lung adenocarcinoma on treatment with osimertinib. An increasing number of cases of myocarditis and pericarditis have been reported following vaccination with COVID-19 mRNA vaccines. In addition, retrospective data have shown an increased risk of QT prolongation and heart failure in patients treated with tyrosine kinase inhibitors. Hence, the need for close monitoring of cardiac function during treatment of these patients. Future studies will be necessary to evaluate unknown adverse reactions of these vaccines and their possible interaction with other antineoplastic drugs.

Short-term exposure to benzalkonium chloride in bacteria from activated sludge alters the community diversity and the antibiotic resistance profile.

The continuous introduction of cleaning products containing benzalkonium chloride (BAC) from household discharges can mold the microbial communities in wastewater treatment plants (WWTPs) in a way still poorly understood. In this study, we performed an in vitro exposure of activated sludge from a WWTP in Costa Rica to BAC, quantified the changes in intI1, sul2, and qacE/qacEΔ1 gene profiles, and determined alterations in the bacterial community composition. The analysis of the qPCR data revealed elevated charges of antibiotic resistance genes in the microbial community; after BAC's exposure, a significant increase in the qacE/qacEΔ1 gene, which is related to ammonium quaternary resistance, was observed. The 16S rRNA gene sequences' analysis showed pronounced variations in the structure of the bacterial communities, including reduction of the alpha diversity values and an increase of the relative abundance of Alphaproteobacteria, particularly of Rhodospseudomonas and Rhodobacter. We confirmed that the microbial communities presented high resilience to BAC at the mg/mL concentration, probably due to constant exposure to this pollutant. They also presented antibiotic resistance-related genes with similar mechanisms to tolerate this substance. These mechanisms should be explored more thoroughly, especially in the context of high use of disinfectant.

Clinical evaluation of the Procleix SARS-CoV-2 assay, a sensitive, high-throughput test that runs on an automated system.

Testing is crucial in controlling COVID-19. The Procleix® SARS-CoV-2 assay, a transcription-mediated amplification nucleic acid test that runs on an automated system, was evaluated using inactivated virus and clinical samples. The sensitivity of the assay was assessed using heat-inactivated SARS-CoV-2 and compared to 3 other tests. Clinical validation utilized 2 sets of samples: (1) Nasal, nasopharyngeal and oropharyngeal samples (n = 963) from asymptomatic individuals, and (2) nasopharyngeal samples from symptomatic patients: 100 positive and 100 negative by RT-PCR. The Procleix assay had greater sensitivity (3-fold to 100-fold) than the comparators and had high specificity (100%) in asymptomatic subjects. In symptomatic patients, the Procleix assay detected 100% of PCR-positives and found 24 positives in the initial PCR-negatives. Eighteen of these were confirmed positive and 6 were inconclusive. These studies showed that the Procleix SARS-CoV-2 assay was a sensitive and specific tool for detecting COVID-19.