Apameh Khatam-Lashgari scite author profile

The calcineurin inhibitor cyclosporine A (CsA) improves survival in endotoxemic mice. It was hypothesized that CsA counteracts the bradycardia and hypotension characteristic of endotoxemia. Vascular reactivity was determined in lipopolysaccharide (LPS; 50 μg/mL)-treated mouse aortic rings suspended in a myograph. Arterial blood pressure and heart rate were measured continuously with indwelling catheters in conscious mice treated with CsA and a bolus injection of LPS (2 mg/kg). The α1-adrenoceptor agonist phenylephrine induced stable tension of aortic rings that were attenuated significantly by LPS. Co-incubation of rings with LPS and CsA (1 × 10(-7) mol/L-1 × 10(-5) mol/L) restored vascular reactivity to phenylephrine. Intravenous administration of CsA (20 and 40 mg/kg/day) to mice induced a significant increase (by approximately 10 mmHg) in mean arterial blood pressure (MAP), with no effect on heart rate. An LPS bolus led to significant decreases in MAP (by approximately 30 mmHg) and heart rate (to 50 % of baseline). CsA-treated LPS-mice exhibited higher MAP at some (20 mg/kg) or all (40 mg/kg) time points after LPS. The decrease in MAP (Δ pressure) was similar between vehicle- and CsA-treated groups. The 50 % decrease in heart rate was not affected by CsA. Inducible nitric oxide synthase (iNOS) mRNA and protein levels in LPS-treated mice organs and plasma NO x concentration were significantly reduced by CsA. It is concluded that in a murine model of endotoxemia, increased peripheral vascular resistance and suppression of systemic NO formation by cyclosporine A are not sufficient to prevent cardiovascular collapse, which is caused primarily by compromised cardiac function.

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Autopsies in pandemics – a perspective on barriers and benefits. Is it time for a revival?

Khatam-Lashgari

Henningsen

Olsen

et al. 2021

APMIS

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Influenza virus and coronavirus pandemics regularly sweep the globe, at great cost of health and economy. Our aim was to conduct a PubMed search for autopsy studies on influenza and coronavirus to investigate the contribution of autopsies during pandemics, focussing on autopsy methods and procedures and the role of autopsy findings in pandemics. The retrieved autopsy studies generally relied on microscopy, polymerase chain reaction (PCR), immunostaining and electron microscopy. Most were small and reported on lung effects, including diffuse alveolar damage (DAD), pneumonia and tracheobronchitis. Antibiotic therapy has diminished a role for bacterial pneumonia, whereas obesity is an emerging risk factor. Autopsy studies have provided new insights into coronavirus disease 2019 (COVID‐19) treatments like anti‐coagulative therapy. Unfortunately, autopsies during pandemics are hampered by lack of guidelines, facilities and expertise for handling potentially infectious corpses and by widely varying recommendations for personal protective equipment and procedures. The Department of Forensic Pathology, at the Forensic Institute, at the University of Copenhagen in Denmark has, in collaboration with the Department of Pathology, Rigshospitalet, Copenhagen, initiated a prospective observational study on COVID‐19‐related deaths encompassing postmortem imaging, standardized autopsy procedures/reporting and extensive tissue sampling for histological, chemical, microbiological and genetic analysis. The study involves a diverse array of research groups at the University of Copenhagen, and the clinical field.

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Translational deep phenotyping of deaths related to the COVID-19 pandemic: protocol for a prospective observational autopsy study

et al. 2021

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IntroductionThe COVID-19 pandemic is an international emergency with an extreme socioeconomic impact and a high mortality and disease burden. The COVID-19 outbreak is neither fully understood nor fully pictured. Autopsy studies can help understand the pathogenesis of COVID-19 and has already resulted in better treatment of patients. Structured and systematic autopsy of COVID-19-related deaths will enhance the mapping of pathophysiological pathways, not possible in the living. Furthermore, it provides an opportunity to envision factors translationally for the purpose of disease prevention in this and future pandemics. This is the protocol for an autopsy study that offers an umbrella for deep and diverse investigations of COVID-19-related deaths, including a systematic investigation of ‘long’ COVID-19 by means of extensive and systematic tissue sampling.Methods and analysisA COVID-19-specific autopsy algorithm has been created to cover all cases undergoing clinical or forensic autopsy in Denmark. The algorithm describes advanced tissue sampling and a translational analytical follow-up for deep phenotyping. The translational approach covers registry data, postmortem imaging, gross autopsy findings, microscopic organ changes, postmortem toxicology, postmortem biochemical investigation, microbiological profiling and immunological status at the time of death, and future research projects covering genetics and epigenetics on an organ level.Ethics and disseminationThis study has been approved by the Regional Ethics Committee of the Region of Greater Copenhagen (No: H-20078436) and the Danish Data Protection Agency (No: 2002-54-1080). Next of kin gave informed consent to research. The study results will be published in peer-reviewed journals.Trial registration numberThis study is purely observational and, as such, does not meet the criteria of the International Committee of Medical Journal Editors for clinical trials; thus, there is no need for registration in a database of research trials, such as clinical trials. To facilitate cooperation in research, provide transparency on case recruitment for publications to come and to avoid unnecessary duplicate work, we nevertheless wish to publish our protocol.

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Effect of a calcineurin inhibitor on Lipopolysaccharide‐induced loss of vascular tone and blood pressure decrease in conscious mice

et al. 2013

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The immunosuppressive drug cyclosporin A (CsA) inhibits the production of nitric oxide (NO) through inhibition of the NO synthases. Especially iNOS is involved in the synthesis of large amounts of NO seen in sepsis, which leads to hypotension and multiple organ dysfunction. We hypothesized that CsA counteracts the LPS‐induced blood pressure decrease and reduced vasoreactivity in isolated murine aorta rings in a model of septic shock.To test this, blood pressure and heart rate was measured in conscious mice with indwelling catheters given a bolus (20 or 40 mg/kg) of CsA followed by continuous infusion (20 or 40 mg/kg/day) for one day before an LPS bolus was given (2 mg/kg). In vitro, studies were performed with aortic rings incubated with LPS (50 μg/ml) w/wo CsA, with CsA alone or vehicle.CsA (20 and 40 mg/kg) induced a significant increase in blood pressure (≈11 mmHg), with no effect on heart rate. After an LPS bolus, blood pressure and heart rate decreased, but there was no difference in delta blood pressure and heart rate compared to LPS alone. iNOS mRNA and protein expression was significantly reduced by CsA as well as plasma NOx excretion. CsA significantly attenuated the LPS‐induced decrease in vasoreactivity. It is concluded that CsA improve vasoreactivity in vitro while in a murine model of septic shock in vivo, CsA at 20 and 40 mg/kg did not counteract the effect of LPS on blood pressure.

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