#ECT4Health. .. An Update.
There are currently 1,098,456 confirmed cases and 59,162 deaths from the coronavirus COVID-19 outbreak as of April 04, 2020, 02:52 GMT.
When the government predicted 6 months selective shutdown which finishesin August, we had to reinvent how we deliver quality seminars.
We are game ready for face to face courses from July onward. Remaining optimistic !!!
That said , our programs in this “down time” are being revamped and updated to 2020 standards.
We are also converting them into online webinar versions (just like our HICCS-COVID19 Seminar booking currently. You’ll have choice of online live, purchase a seminar series, or attend face to face.
I guess what I’m saying is - we will get through this and reclaim our territory as a popular option for face to face seminar delivery.
But the web space opens a whole world (literally) to our seminars.
Stay connected.
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The new virus free ECT4Health will rise, and we are taking bookings right now.
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Get on the list: admin@ect4health.com.au
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* Whatson page is our real time e-calendar of dates (www.ect4health.com.au/whats )
* Bundled Subscriptions
For a low $9.90/week (early bird $6/week) you can doin our collaborative subscription service. Each week there will be a number of items for you to access. From 3D or VR educational video lectures, to topical podcast episodes, to blogs/blogs, and all using the innovative delivery via Virtual Reality. In 3D you can participate in clinical scenarios and simulations right from the comfort of your bedroom or lounge. Upgrade your subscription to $25/week and you’ll own your very own state if the art VR headset with a fully integrated 3D Anatomy software loaded into the head gear.
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* Imagine putting on a VR head set and being transported to a tranquil rain forest or deserted beach to do a 30 min interactive yoga or mindfulness session.
All this and so much more with our exciting partnership launching in just 4 weeks. Click here for this Bundle of Rays Check our the sample
* ECT4Health blogs (>150 up for you now) are regularly written as a response to questions in our seminars. There is hours of Free CPD there for your reading pleasure- 5 minute grabs on my blogger page :www.knowingyourjargon.blogspot.com
* YouTube Channel. All the little videos I’ve recorded in one place on our YouTube channel
So so much going on people. Please spend a bit of time looking around our Whatson page- I really would love to see you in one of our seminars. But in the mean time . Let the CPD world get a shake up from ECT4Health and our collaborative approach to innovative health care professional education.
We will rise from this.
~Rob
Friday, 3 April 2020
Sunday, 8 March 2020
EKA and Gliflozins
Why do these drugs cause EKA?
#kYJ Euglycaemic KetoAcidosis (EKA)
With the introduction of *Gliflozins as a strategy to target hyperglycaema, and insulin resistance, there has been for the first time real promise that perhaps, we can reverse Type 2 Diabetes.
These drugs (like all) have costs and benefits. They cause increased incidence of UTI as now, sugary urine is a virtual fertiliser for bladder bacteria.
They also cause a rare ketoacidosis where the blood sugar isn’t elevated- euglycaemic KetoAcidosis.
Why?? Read on.
Unlike the older sulphonylureas, Metformin, and even incretin mimics, Januvia and it’s DPP4 inhibitor cousins, the Gliflozins are novel.
These drugs (empagliflozin, dapagliflozin) shut off a protein in your kidneys (SGLT2) responsible for reabsorbing glucose back into the blood.
Block SGLT2, and you pee your glucose out, dropping your blood sugar, and subsequently your insulin secretion. Less sugar=less insulin= improved insulin sensitivity.... T2 diabetes fixed (... ok not that simple, but treating Insulin Resistance (IR) is the goal in T2DM.
So ... remember that insulin reduction in blood results from blood glucose reduction.
...
Now insulin. To fully understand insulin, you need to rearrange what you previously knew about this little hormone.
Insulin is a growth hormone. It grows fat.
The more insulin a person has, the better they grow fat.
Insulin takes glucose and offers it to cells. When fat cells are offered glucose, they say “Yes please!!!”, and takes in glucose in to convert it with free fatty acids, to fat.
Now if there is lots of insulin,there is lots of storage.
The FAT house
Think of a house with an open doorway where glucose is streaming in. Insulin keeps that door open, and glucose flushing in.
If insulin is absent or low, then instead of glucose flooding into fat cells, fatty acids flood out.
Low insulin= free fatty acids (FFA) released into blood.
...
Are you with me?
...
Insulin = fat cells grow
No insulin = fat cells melt.
Now , when this happens, the FFA, circulated to the liver which converts these FFAs into a group of acids called Ketone Bodies, or just, Ketones.
An accumulation of ketones can only happen when :
Fatty acids are converted to ketones, and this can only happen when insulin is too low.
Summary: low insulin- fat melts-ketones produced.
Now- back to the side effect of Gliflozins...Euglycaemic KetoAcidosis.
Work it back...
The blood is acidotic because too many ketone acids in the blood.
Ketones are made because fat cells are melting FFA into blood.
Fat is melting because insulin levels fell.
Insulin levels fell because glucose levels fell.
Glucose fell because Kidneys pee all the glucose out (glucosuria)
Glucosuria occurs because
The Gliflozins block glucose reabsorption back to blood.
Less glucose=less insulin= fat melt= ketones and acidosis (Ketoacidodis).
I need a chocolate!
#kYJ Euglycaemic KetoAcidosis (EKA)
With the introduction of *Gliflozins as a strategy to target hyperglycaema, and insulin resistance, there has been for the first time real promise that perhaps, we can reverse Type 2 Diabetes.
These drugs (like all) have costs and benefits. They cause increased incidence of UTI as now, sugary urine is a virtual fertiliser for bladder bacteria.
They also cause a rare ketoacidosis where the blood sugar isn’t elevated- euglycaemic KetoAcidosis.
Why?? Read on.
Unlike the older sulphonylureas, Metformin, and even incretin mimics, Januvia and it’s DPP4 inhibitor cousins, the Gliflozins are novel.
These drugs (empagliflozin, dapagliflozin) shut off a protein in your kidneys (SGLT2) responsible for reabsorbing glucose back into the blood.
Block SGLT2, and you pee your glucose out, dropping your blood sugar, and subsequently your insulin secretion. Less sugar=less insulin= improved insulin sensitivity.... T2 diabetes fixed (... ok not that simple, but treating Insulin Resistance (IR) is the goal in T2DM.
So ... remember that insulin reduction in blood results from blood glucose reduction.
...
Now insulin. To fully understand insulin, you need to rearrange what you previously knew about this little hormone.
Insulin is a growth hormone. It grows fat.
The more insulin a person has, the better they grow fat.
Insulin takes glucose and offers it to cells. When fat cells are offered glucose, they say “Yes please!!!”, and takes in glucose in to convert it with free fatty acids, to fat.
Now if there is lots of insulin,there is lots of storage.
The FAT house
Think of a house with an open doorway where glucose is streaming in. Insulin keeps that door open, and glucose flushing in.
If insulin is absent or low, then instead of glucose flooding into fat cells, fatty acids flood out.
Low insulin= free fatty acids (FFA) released into blood.
...
Are you with me?
...
Insulin = fat cells grow
No insulin = fat cells melt.
Now , when this happens, the FFA, circulated to the liver which converts these FFAs into a group of acids called Ketone Bodies, or just, Ketones.
An accumulation of ketones can only happen when :
Fatty acids are converted to ketones, and this can only happen when insulin is too low.
Summary: low insulin- fat melts-ketones produced.
Now- back to the side effect of Gliflozins...Euglycaemic KetoAcidosis.
Work it back...
The blood is acidotic because too many ketone acids in the blood.
Ketones are made because fat cells are melting FFA into blood.
Fat is melting because insulin levels fell.
Insulin levels fell because glucose levels fell.
Glucose fell because Kidneys pee all the glucose out (glucosuria)
Glucosuria occurs because
The Gliflozins block glucose reabsorption back to blood.
Less glucose=less insulin= fat melt= ketones and acidosis (Ketoacidodis).
I need a chocolate!
Saturday, 1 February 2020
How Vaccination works
How does a vaccine work?
Do you ever remember tasting something or smelling something that takes you back to a childhood memory?
Perhaps it was a tune you heard, and you recognise it from the past. Well,when you were first exposed to it, your brain chose to store a memory of the taste/smell/sound.
Well it’s not just your brain that remembers stuff. Your immune system does too. Special White Blood Cells (leukocytes) called lymphocytes have an incredible capacity to remember chemicals that they’ve been previously exposed to. Every living and even non living thing is made up of matter that is unique to itself.
Think of an orange- it looks and tastes and smells like an orange. An apple looks and tastes and smells like an apple.
To your lymphocytes, they remember how a bacteria, virus, or parasite/fungus/allergen smell/taste.
On the surface of these organisms, proteins or sugars are present which act as a unique fingerprint called an Antigen.
Once your immune cells have been exposed to an antigen, your lymphocytes remember it for a while.
Lymphocytes that are born and mature in the bone marrow are called B Cells. They remember the antigens and produce memory jogger chemicals called Immunoglobulins (we commonly call these Antibodies).
Now floating around your blood stream are these Antibodies, and as soon as that virus, or bacteria or threatening allergy producing thing comes into contact with your body again, your immune system can remember it; remember what a threat it was, attack the invader to protect you.
This is happening every minute of every day. Constant surveillance and defence. Some diseases are so dangerous (measles, Flu, polio, tetanus (the list goes on)), that it isn’t safe to allow ourselves to be exposed to it. Your lymphocytes must have first come into contact with the disease before it can make those memory jogging Antibodies. So vaccination is the strategy.
When vaccination occurs a tiny dead (in the case of bacteria) , attenuated (weakened) or inactive virus sample is introduced into the body, stimulating your lymphocytes to learn to recognise it, and make those memory jogging Antibodies.
Now the immune system has been exposed, so should you come into contact with the wild live/active disease, your immune system can whoop it back to primordia.
Memories fade,and so do some antibodies, which is why some diseases need booster shots to remind the immune system what to be vigilant for.
Some organisms mutate so rapidly that they change their antigen. Kind of like getting a fake ID. So for diseases like these (Influenza is a great example) we often need an annual immunisation.
Hope this was in some way helpful. Get your shots!
~Rob. #ECT4Health
We cover this stuff in our Fevers and Sepsis sessions
Check out the website for more details www.ect4health.com.au/whatswww.ect4health.com.au/whats
Virus- alive or not
Is this alive or not?
Coronavirus
News out this week that Australia has “grown” the nCoV virus in a lab and is now “observing the ‘live’ virus in the laboratory to see how it ‘behaves”.
The biocontainment security facility at CSIRO in Geelong is set to offer valuable information on the Coronavirus.
I thought I’d touch on a bit of misinformation on the internet about this and other viruses.
Point - Viruses are not alive.
The term live virus is a figure of speech that indicates the virus is able to be active or functional.
It is not a living thing,nor is it dead. It’s undead. It is a particle of proteins (amino acids) and sugars.
Think of an egg, or a piece of chocolate; it’s not alive or dead, it just ... is.
Now stay with me,
Take a glass. The type of glass you drink from. Not alive or dead (because is was never first living), yet that same glass can hold water.
It functions as a tool to hold liquid. If you think of a glass as a virus, it isn’t living, so you can’t kill it.
In biology something that is living is called ‘biotic’. A biotic, possesses the ability to reproduce through cell division (mitosis and meiosis). Viruses are not cells, they can’t reproduce and therefore, are not biotic (alive). This is the fundamental reason that antibiotics have no effect on viruses. They’d have to be biotic, for an anti-biotic to have any effect.
So how do we stop viruses?
Well, come back to the analogy of the glass. The glass functions to hold a drink; and it does this with no need to be living; but it does need to be intact.
If we broke a glass (say, by dropping it), the glass wasn’t killed, but it broke to pieces, so it ceases to function. Now the same principle is applied to medications that we can use for viruses. Antivirals break the protein shell that encapsulates a virus’s genetic information. Alternatively, some antiviral agents break the genes inside a virus.
Currently we don’t have a magic drug available to destroy (break) the novel CoV virus. The first step in knowing how to break this virus, is to understand the mechanism this virus uses to infect, and the behaviour of these proteins that it is composed from.
Interesting times ahead. But for now you’d be more correct to think of a virus as active or inactive, rather than live or dead.
Sunday, 26 January 2020
How a virus like nCoV works?
First -Out of China
There are concerning (unconfirmed) reports in news channels and social media leaks that Novel CoV has infected now 90000. This disease first emerged as a new viral pneumonia in seafood market workers in Wuhan China.
The virus is infectious during incubation, and Chinese authorities are now suggesting that where previously this incubation was thought to be less than a week, it’s now reporting up to 14 days .
Let’s do a recap on how this virus works.
Transmission- droplet and contact, and faecal.
If someone with nCoV sneezes in a shopping centre, like measles, the virus is aerosolised and breathed in or, the virus settles on a surface (eg escalators hand rail, elevator button, coffee table). Someone touches it, and then touches their own face or eyes, and has at that point become infected.
That is called transmission.
Now the virus starts to invade cells lining the respiratory tree, lungs, throat and nose. It enters the cell using enzymes to invite itself into the cell.
The cell tries to defend itself, by dissolving the virus outer membrane (the envelope) but this is what the virus wants; now the payload is exposed- the genetic instruction sheet called RNA.
Like a recipe book, the lung cell’s own genetic material (DNA) is altered by the virus RNA which now reprograms these cells to to start to make copies of the nCoV .
When millions of copies are made- the new viruses then burst out of the slave cell, killing it, and showering a spread of millions of virus particles to neighbouring cells.
The process repeats until so many cells have been damaged that the immune system responds.
This lag from Transmission to symptoms is called incubation time.
In Flu it’s 1-3 days, but this nCoV is now believed to be up to 14 days. All that time, a person is shedding and spreading virus, and has no idea they were even infected or infectious.
Mutation:
The concerning issue at hand is that this virus is thought to have mutated in to a second generation- meaning it can be passed from human to human. Previously it was thought to be purely zoonotic, transmitted by an animal to human only in its first generation.
As a virus mutates, it undergoes minor changes called Drift, but major changes like second mutations, are referred to as Shift. This causes the host (is in this case) to not recognise the virus from one mutation to another. Very difficult to pin down this virus yo produce a vaccine.
#ncov
Official death toll (reported) is currently at 80.
Cases in China, Japan, France, USA, Australia and no doubt third world nations with limited capacity to contain or report.
Written at 8am on 27th Jan 2020.
First -Out of China
There are concerning (unconfirmed) reports in news channels and social media leaks that Novel CoV has infected now 90000. This disease first emerged as a new viral pneumonia in seafood market workers in Wuhan China.
The virus is infectious during incubation, and Chinese authorities are now suggesting that where previously this incubation was thought to be less than a week, it’s now reporting up to 14 days .
Let’s do a recap on how this virus works.
Transmission- droplet and contact, and faecal.
If someone with nCoV sneezes in a shopping centre, like measles, the virus is aerosolised and breathed in or, the virus settles on a surface (eg escalators hand rail, elevator button, coffee table). Someone touches it, and then touches their own face or eyes, and has at that point become infected.
That is called transmission.
Now the virus starts to invade cells lining the respiratory tree, lungs, throat and nose. It enters the cell using enzymes to invite itself into the cell.
The cell tries to defend itself, by dissolving the virus outer membrane (the envelope) but this is what the virus wants; now the payload is exposed- the genetic instruction sheet called RNA.
Like a recipe book, the lung cell’s own genetic material (DNA) is altered by the virus RNA which now reprograms these cells to to start to make copies of the nCoV .
When millions of copies are made- the new viruses then burst out of the slave cell, killing it, and showering a spread of millions of virus particles to neighbouring cells.
The process repeats until so many cells have been damaged that the immune system responds.
This lag from Transmission to symptoms is called incubation time.
In Flu it’s 1-3 days, but this nCoV is now believed to be up to 14 days. All that time, a person is shedding and spreading virus, and has no idea they were even infected or infectious.
Mutation:
The concerning issue at hand is that this virus is thought to have mutated in to a second generation- meaning it can be passed from human to human. Previously it was thought to be purely zoonotic, transmitted by an animal to human only in its first generation.
As a virus mutates, it undergoes minor changes called Drift, but major changes like second mutations, are referred to as Shift. This causes the host (is in this case) to not recognise the virus from one mutation to another. Very difficult to pin down this virus yo produce a vaccine.
#ncov
Official death toll (reported) is currently at 80.
Cases in China, Japan, France, USA, Australia and no doubt third world nations with limited capacity to contain or report.
Written at 8am on 27th Jan 2020.
Monday, 2 December 2019
Friday, 15 November 2019
Tropes and Pressors - Part 2 of a 3 part series.
Tropes and Pressors -A 3 part series.
Part 2 of 3 # KYJ (Knowing your jargon)
This episode – The Pressors
Recap from yesterday …
Vasopressors are drugs we give to
squeeze arteries (and veins) to increase SVR (Afterload and Blood pressure, and
subsequently MAP.
Inoptopes :more correctly – positive inotropes,
are drugs we give to increase the force of the cardiac contraction. This
increases SV, and CO which of course increases MAP. Its all about that MAP!!.
So when are each indicated?
God I wish it was that simple, but it
comes down to etiology (cause) and type of shock occurring in the patient.
If you didn’t already view the post on
shock, or watch my Video on shock; then
perhaps that might be a good place to refresh.
Remembering there are 4 main types of
shock: hypovolemic, distributive, cardiogenic, and obstructive. Vasopressors
and inotropes may be indicated for all types, and though most of the
medications can be used in each type, we do need to tackle the specifics of each
one.
So….here goes.
The major vasopressors include
phenylephrine, norepinephrine, vasopressin and Metaraminol.
Drugs like Adrenaline and Dopamine are
vasopressors, but they also exert inotrope properties.
Then
out on a limb (good choice of words really) Dobutamine and Milrinone are
obligate inotropes.
So Last bit of FIZZ (physiology before
we dive into the drugs)
Receptors to consider for this post :
Adrenergic - Alpha 1 – Cause Vasoconstriction
Adrenergic - Beta 1 - Causes increase Chronotropy and Inotropy
Vasopressin Receptors – V1 =
vasoconstriction, V2= reduced urine output.
The Vasopressors
By redistributing blood back to the
heart, vasopressors help increase CO directly with an increase in blood return
to the heart (Preload), and and increase
in SVR. through arterial vasoconstriction peripherally. There are main groups are catecholamines, Smooth Muscle and dopaminergic receptors
The Vasopressors are ‘Boss of the Pit’
when distributive shock (Sepsis, Neurogenic disruption or anaphylaxis) is the
dominant cause of drop in Cardiac output.
The goal of vasopressors is to increase the SVR by direct constriction
of the vessels.
Two distinct physiologies are happening
in distributive shock.
First a loss of nerve messages to blood
vessel walls causes them to relax –
dilate, and blood pools in the peripheries.
With the maldistribution of volume between central and peripheral
circulation, (blood stuck out in the veins of Arms and legs), there is little
perfusing the core vital organs. Remember
at any given moment in time your 5.5 litres of blood is parked 30% in your
arteries, and 70% in your veins.
Increases in that venous pooling causes a dramatic drop in arterial
flow/volume and of course, pressure (SVR and MAP).
Secondly, as blood in peripheral areas
pools, and causes congestion, this vasodilation extends to the capillaries,
and these little guys are super leaky. As
they congest, and spill their plasma into the peripheral tissues, you see
oedema forming and drop in blood volume, which is now becoming thick and
viscous as plasma leaves, the haemoconcentrated blood now has a tenacious
sticky vibe going on. Bad bad bad. You can see why we fluid resuscitate these
people. In fact, a fluid load, is
frequently the First line treatment; and only after some sauce is given to we
then squeeze the pie – ok bad visual.
Note to Americans – in Australia we eat
real pies with meat inside – sauce “dead horse” or what you mob call “ketchup” is a must have.
Right Back to it…
Remembering that that Magic MAP of 60
to 65 mm Hg is required to perfuse organs (American College of Critical Care
Medicine (ACCM) guidelines). If fluid resuscitation doesn’t get that MAP up to 60
mm Hg, it is recommended that vasopressors be next in line.
So what do we select?
Norad (Noradrenaline) / Norepinephrine
The first of our Catecholamines, and a favourite
in the Sepsis world (Surviving Sepsis Campaign recommendation).
We follow this with Adrenaline
(epinephrine) or Vasopressin as a back
up plan
Norepinephrine is recommended as the
initial pressor for because it lights up
those Alpha receptors. In blood vessels, these receptors act like
switches that open Calcium gateways into the smooth muscle cells lining the
vessel walls. As they get turned on,
Calcium rushes in, causing the muscles to contract (constrict) pushing up the
pressure, and squeezing the blood out of those naughty veins, back to the heart
and central core circulation. By
increasing the venous return, then you increase the Preload, and the heart now
has volume it can use to pump with. They
also act on the arteries (remember that constriction here increases SVR and
MAP) … And that is the game changer.
Vasopressin
Vasopressin is a natural hormone also
known as ADH (Antidiuretic Hormone) normally secreted from the Pituitary gland.
It fires up specific Vasopressin 1 and
2 receptors. Remember V-1 receptors to
stimulate smooth muscle contraction of the vessels , and the V-2 receptors in
the kidneys stop urine production hence increased blood volume, and increased
CO and MAP.
It wont cause the patient to increase heart
rate, or increase force of contraction.
Phenylephrine
This is another pressor that occasionally
gets bandied around, but caution in use is advised because it tends to cause a
reflex bradycardia.
Ironically, as much as it fires off those
alpha receptors to cause vasoconstriction, The sudden increase in BP can
trigger off the vagus nerve (Parasympathetic) which is actually the nerve that
tells the heart to “Go Slow – this is a school zone”. So BP goed up, parasympathetic response kicks
in and a reflex bradycardia loses the ground you gain. Some docs love it- Im not convinced. Many of you will know of Phenylephrine as the
why bother replacement for pseudoephedrine in the old cold and flu tablets.
Phenylephrine is a pure alpha-1
agonist, inducing peripheral arterial vasoconstriction. Reflex bradycardia may
occur due to selective vasoconstriction and elevation of blood pressure.
Adrenaline
Also known as Epinephrine, this hormone
has essentially equivocal activity on alpha-1 and beta -1 receptors. So Epinephrine
increases SVR through the Alpha 1, and the Beta effects on increasing Inotropy
and HR, boost cardiac output on both
sides of the equation (CO=SVxHR).
Dopamine is a precursor of norepinephrine
and epinephrine (catecholamines). So it
essentially does the same thing. All
good pies need a reliable base, so as a precursor to the catecholamines, the
effects are both vasopressor and inotropic.
Controversy exists around whether
differing doses of Dopamine affect different tissues. Many readers will recall
that low doses increase renal perfusion(5 to 15 micrograms/kg/min), and higher
doses (>15 micrograms/kg per minute), are more peripherally vasopressor.
Giving
Pressors
IV.
Say it out loud. IV. These drugs are for intravenous (IV) use
only. They are fast acting, short
duration, and epically destructive if an IV cannula through which these drugs
are given, should extravasate (tissue).
It’s a brave clinician that will settle
for a peripheral IV line, so as soon as possible these patients should have a
central access (either CVL or PICC).
Doses are dependent on presentation but always via a pump, and the
patient should be very closely monitored – especially heart rate and BP, but
also Sats, JVP and breath sounds. As BP can
rise dramatically with pressors, complications like heart failure can declare
itself with a surprise ankle swelling, pulmonary oedema, and breathlessness.
Next part of our series will tackle the
other class of drugs, looking deeper at the Beta 1 receptor meds - the inotropes.
Now the physiology and Jargon is out the way, stay tuned for Part 2 as we dive into the deep dark world of the "Tropes and Pressors"
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