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Covid 19: corticosteroids, inflammatory markers, comorbidities

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Canto’s bronchiectasis – a relatively mild case, thank dog

 

Canto: So update 87, in late June, reflects a period when daily cases were just starting to rise, but deaths were apparently reducing – and various reasons were being given for this.

Jacinta: And interesting to note all the skepticism around Oxford University’s dexamethasone trial, which has led (the trial, not the skepticism) to a huge demand for the steroid. Dr Paul Sax of Harvard Medical School has expressed some dismay at the negativity, as this was a randomised controlled trial (RTC) of a widely available drug by a highly reputable, government-funded institution. 

Canto: Yet it seems that the website on this trial has since been taken down, so maybe there are some issues…

Jacinta: Okay, so let’s move on. Dr Seheult talks about raised ‘inflammatory markers’ in patients he observes coming in with covid-19. He names them, and I want to do a shallow dive into what they are and what they mean: Ferritin, C-reactive protein (CRP), CPK (to do with muscle breakdown), erithrocyte sedimentation rate (ESR), and d-dimer levels. So, ferritin is an iron-containing protein. It stores the iron and releases it when needed. Ferritin is mostly concentrated in the liver cells (hepatocytes) and in the reticuloendothelial cells of the immune system. That endothelial word again. As for CRP, this abstract from a 2018 paper Frontiers in Immunology tells me that ‘C-reactive protein (CRP) is an acute inflammatory protein that increases up to 1,000-fold at sites of infection or inflammation….CRP is synthesized primarily in liver hepatocytes but also by smooth muscle cells, macrophages, endothelial cells, lymphocytes, and adipocytes’. Need I say/quote more? And on CPK, this from the Johns Hopkins Lupus Center: 

Creatine phosphokinase (a.k.a., creatine kinase, CPK, or CK) is an enzyme (a protein that helps to elicit chemical changes in your body) found in your heart, brain, and skeletal muscles. When muscle tissue is damaged, CPK leaks into your blood. Therefore, high levels of CPK usually indicate some sort of stress or injury to your heart or other muscles.

And the US website medicineplus.gov has this to say on ESR:

An erythrocyte sedimentation rate (ESR) is a type of blood test that measures how quickly erythrocytes (red blood cells) settle at the bottom of a test tube that contains a blood sample. Normally, red blood cells settle relatively slowly. A faster-than-normal rate may indicate inflammation in the body. 

So, a fast ESR is an inflammation marker. High levels of CPK in the blood are too, presumably, as are high levels of CRP, wherever. And ferritin. Lastly, d-dimer levels, which are also related to clotting. This Australian site, healthdirect, tells me that ‘D-dimer is a type of protein your body produces to break down the blood clot’. So, a d-dimer test is ‘a blood test usually used to help check for or monitor blood clotting problems. A positive test means the D-dimer level in your body is higher than normal and suggests you might have blood clots’.

Canto: With all that let’s continue with the update. In Seheult’s hospital they started using dexamethasone as soon as the Oxford results came out and they’ve seen a reduction in all these rising inflammation markers. He recognises issues here though. Is this just anecdotal? Is this just a drop in the markers without real-life effects? Could it be recall bias? We know how conveniently inaccurate memory can be. 

Jacinta: My impression is that’s not going so well, though there’s no doubt still a varied use of dexamethasone and other corticosteroids throughout the USA. We’re at the point with the updates where they’re still thinking deaths in particular are reducing. We now know better. So the update next looks at a Chinese study from mid-June entitled ‘clinical and immunological assessment of asymptomatic SARS-CoV2 infections’. This small study looked at 37 asymptomatic patients and found that viral shedding (the release of virus from an infected person into the environment – the period of contagiousness) was 19 days, presumably on average. This compared with 14 days for symptomatics. A pretty significant finding. Immunoglobulin G (IgG) levels – essentially antibodies – were about six times higher in the symptomatic cases. That seems unsurprising I think, because it’s the antibodies that largely create the symptoms – the inflammation and clotting, the cytokine storm. Another finding was that, eight weeks after being discharged from hospital, the asymptomatic cases were 40% seronegative (having no antibodies) against SARS-CoV2, compared to 12.9% for the symptomatic cases. This suggests that neutralising antibodies may be ‘disappearing’ over time, though other immune cells, such as T cells may have a mitigating effect. Overall, though, the study advises extreme caution:

Together, these data might indicate the risks of using covid19 ‘immunity passports’ and support the prolongation of public health interventions, including social distancing, hygiene, isolation of high-risk groups and widespread testing.

Canto: Not suggestions the current Trump administration would be likely to pay attention to. 

Jacinta: Well the question here is one of re-infection, and I don’t know if there are any clear answers to that. Anyway update 87 goes on to look again briefly at vitamin D, and research in the UK, where vitamin D deficiency is more of a problem, and is associated with viral chest infections and with covid19 outcomes, with people of colour being disproportionately affected. They’re looking to people to sign up with a study called ‘covidence UK’. Dr Seheult also looks at a ‘Research Letter’ from the JAMA network entitled ‘prone positioning in awake, non-intubated patients with covid19 hypoxemic respiratory failure’. Prone positioning – lying on your tummy – was highlighted in one of the earliest of these covid19 updates as improving the symptoms of patients with ARDS. The findings from this JAMA are instructive:

In this small, single-centre cohort study, we found that the use of the prone position for awake, spontaneously breathing patients with covid19 severe hypoxemic respiratory failure was associated with improved oxygenation. In addition, patients with an SPo2 [pulse oximetry, a measure of blood oxygen level] of 95% or greater after one hour of the prone position was associated with a greater rate of intubation.

So, though there’s a need for RCTs etc etc, Dr Seheult has found dramatic improvements in oxygenation in his own patients through prone positioning.

Canto: Who are we to argue? And this update 87 ends on a positive note due to these combined findings about treatment. Prone positioning, remdesivir, dexamethasone, vitamins D and C, zinc, and maybe convalescent plasma, which needs to be explored further..

Jacinta: That’s blood plasma from recovered covid19 patients, with of course the antibodies to go with it, and I’ve looked at the National Covid19 Convalescent Plasma Project website to see if there are recent studies on this, but there’s nothing since March – small studies from China, which seem promising.

Canto: Update 88 starts again with dexamethasone, the cheap and widely available steroid, which – and this is back in late June – the British government got behind after the Oxford study was published, authorising its use ‘for patients hospitalised with covid19 who required oxygen, including those on ventilators’. It’s interesting that clinical views have changed on corticosteroids for covid19 over time, and there are still concerns about dosage and time periods on the drugs. 

Jacinta: Yes, short courses of corticosteroid treatment seem to be recommended, and not just dexamethasone. And many studies showed this before the release of the Oxford data. 

Canto: So the Oxford data itself is fascinating, especially for comorbidities or previous conditions. Especially interesting to me as I have such a condition, one that fits under their heading ‘chronic lung disease’, in my case bronchiectasis. They’re finding that people with such conditions are ending up on ventilators far less than those with diabetes or heart disease. So that’s good news for me. The disease, as they’ve been finding, is that covid19 is essentially an inflammatory disease of the vascular system. However, it seems that Dr Seheult’s hopes, at the end of update 88, that the greater introduction of short-term corticosteroids, and the use of other medications that might be efficacious, would reduce the mortality rate, have been dashed. We’ll be interested to find out why in upcoming posts.   

References

Coronavirus Pandemic Update 87: More on Dexamethasone; Do COVID-19 antibodies last?

Coronavirus Pandemic Update 88: Dexamethasone History & Mortality Benefit Data Released From UK

https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5908901/

https://medlineplus.gov/lab-tests/erythrocyte-sedimentation-rate-esr/#:~:text=An%20erythrocyte%20sedimentation%20rate%20(ESR)%20is%20a%20type%20of%20blood,indicate%20inflammation%20in%20the%20body.

https://www.healthdirect.gov.au/d-dimer-test

https://ccpp19.org/

Written by stewart henderson

August 22, 2020 at 10:57 pm