Welcome to Open Source Ventilator (OSV) Ireland. This project was initiated by the COVID-19 global pandemic as a result of a community discussion within a Facebook group called Open Source COVID-19 Medical Supplies (OSCMS). This group rapidly grew and currently is targeting the development of a number of different COVID-19 related medical supplies.
OSV Ireland was formed by Colin Keogh, Conall Laverty & David Pollard, with the goal of building a focused team in Ireland to begin development of a Field Emergency Ventilator (FEV) in partnership with the Irish Health Service. To date we have formed a team of engineers, designers and medical practitioners to develop new, low resource interventions, all working collaboratively online. Bag Valve Masks (BVM), 3D printed and traditionally manufactured components are being considered to maximise potential manufacturing capabilities. We will also include other challenges and problems as they arise from frontline healthcare workers, which we will encourage our volunteers to tackle.
We have a core developer team publishing open source designs with ongoing communication with medical professionals regarding needs requirements, testing and validation processes. The developer team is led by OpenLung in Canada in collaboration with an Irish based engineering and operations team. The developer team is led by Trevor Smale, Dr. Andrew Finkle, and David O’Reilly from OpenLung as well as Conall Laverty and Dr. Keith Kennedy from Ireland. Work is well underway with hundreds of worldwide contributors.
What is the point of all these? Large scale manufacturers have already been sent blueprints of ventilators and have the engineering ability and production lines to make them. Then you need trained nurses and staff to operate them.
Open source designs could help scale up production in times of need by allowing manufacturers to self-assess whether they're capable of providing additional capacity.
Yes, we assume blueprints have now been shared and that production is scaling up - but it has required a lot of time, effort, communication and bargaining.
That said, open source alone is not a panacea. Questions should be asked of open source designs:
- Do the designs meet regulatory standards for the market(s) they are intended for?
- Is the quality assurance process equally open, so that manufacturers & recipients can verify whether products are authentic and fit-for-purpose?
It looks like the OSV project are aware of these questions and provide their working assumptions and information about work-in-progress on their homepage.
Ventilators for covid19 seem to be mostly for inflammation and fluid in the lungs (aka pneumonia), not lung or chest paralysis.
If you need a ventilator due to inflammation or fluid build up, you can do other things to address those issues.
If you are doing home care for serious lung issues, a downside of mechanical intervention is that you probably don't know how to adequately sterilize your equipment. This means nasty stuff grows on the equipment and then this nasty stuff gets delivered directly into the lungs.
So I'm not thrilled to pieces to see the emphasis on "ooh, shiny!" homemade technical solutions in place of non-invasive home care.
You can do lung clearance without mechanical intervention. This can make a ventilator unnecessary.
You can do lung clearance easily on your own in the shower by standing with your feet shoulder-width apart or a bit wider, bending over as far as you can and coughing hard.
If you bring up a lot of fluid from the lungs, it looks and feels a whole lot like vomiting. My sons and I call it "puking up a lung."
Inflammation can be combated with commonly available non drug remedies, like caffeine, lettuce, avoiding pro inflammatory foods (avoid peanut oil like the devil himself made it for you, limit or avoid bacon as it is hard on the lungs).
Etc.
Please see my previous remarks about best sleeping positions, etc.
I am very concerned that homemade ventilators are going to become a source of secondary infection and this secondary infection will be worse than covid19 because it will be bacterial or fungal and it will be antibiotic resistant.
If I had any idea how on Earth to start a counter movement, I would be all over it. I have no idea how to do that, so I occasionally leave a comment on HN giving some of my thoughts, which isn't likely to exactly catch fire. This is today's comment in that vein.
>We have a core developer team publishing open source designs with ongoing communication with medical professionals regarding needs requirements, testing and validation processes. The developer team is led by OpenLung in Canada in collaboration with an Irish based engineering and operations team. The developer team is led by Trevor Smale, Dr. Andrew Finkle, and David O’Reilly from OpenLung as well as Conall Laverty and Dr. Keith Kennedy from Ireland.
It sounds like a lot of these vents will end up in the hands of medical professionals. We're looking at a future with warehouses or stadiums full of sick individuals, and also a future where everyone will be pulled from every specialty to work on COVID-19, so there is some evidence that trained professionals and patients will outnumber commercial ventilators. Depending on how many people get sick at once, we could easily end up in a situation where the patients waiting outside are so numerous that they could consume as much equipment as anyone could put together, no matter how much the real manufacturers ramp up production.
I'm still not thrilled because hospitals actively breed antibiotic resistant infections. They are a primary source.
Keeping invasive equipment adequately sterile is hard to do, even in a hospital. It's just the nature of the beast.
To be clear, I'm extremely not thrilled at the global acceptance that "we need a zillion ventilators" instead of "we need non invasive alternatives and we need to educate the world as to what they are."
It's well known this is a problem with this kind of equipment. I'm aghast that the medical establishment isn't freaking the fuck out at the need to find some answer better than ventilators because widespread use of ventilators has a rather high probability of leading to the development of new antibiotic resistant infections for funsies, just as we think the worst is behind us.
Cystic fibrosis accounts for about a third of all adult lung transplants in the US and about half of all pediatric lung transplants. At the time that I was diagnosed with a relatively mild form of it, life expectancy in the US was 36.
So I have a quite serious lung condition and I used to own and use (and sterilize at home) various forms of mechanical intervention. I no longer use mechanical intervention, in part because I'm better off when I can find effective alternatives.
I'm describing things I know from first-hand experience to work well in the face of lung problems that are supposed to have long ago killed me.
I'm doing my best to be very careful and conservative in what I say. I feel it's actively irresponsible to not share such thoughts, in part because a lot of places are de facto rationing health care because there simply aren't enough supplies to go around.
If you can't get to a hospital or are denied entry because of overwhelming demand, having the option to puke up a lung in the shower is better than having no alternatives to a ventilator.
And perhaps doctors will see my remarks, realize this is a valid criticism and decide to develop some best practices to try to reduce the use of ventilators overall.
Worst case scenario if I speak up and no one agrees: I get downvoted to hell. Hardly a novel experience.
Worst case scenario if I say nothing: Lots of people die who might not have.
So it's an easy decision on my part. When weighing the personal pain of people downvoting me and calling me crazy versus death for others, it's a no brainer. I'll take my lumps, thanks.
IANAMedic: I assumed you/a loved one had CF. As I understand it CF creates a thick mucus that blocks the lungs.
But Covid19 reportedly destroys pilii, and the cells that bare them, and when the immune response kicks in fully it attacks lung tissue as well as the virus.
_If_ this understanding of mine is corrext, then it seems clearing the lungs in CF opens them to take oxygen that's there (if the mucus is moved the underlying lung function is still enough), but in Covid19 even if cleared the lung tissue is damaged and can't process enough oxygen from a regular supply; people need higher pressure and/or higher saturation oxygen for a period in order to recover lung function.
Maybe I'm wrong.
It's certainly not wrong to share how you clear lungs affected by CF if you're explicit about any limitations in your knowledge.
As an example of this that seems counterfactual to me -- as a medically uninformed person -- BiPAP, which is commonly used for CF sufferers I gather, at least one critical care source suggests is not really useful for Covid19 (https://emcrit.org/ibcc/COVID19/#noninvasive_ventilation_(Bi... ) treatment.
The problem with suggesting treatments is that people may resort to self-treatment alone and not seek proper medical care; that could cost lives. So I think your analysis is wrong if you're suggesting 'giving advice can't be harmful'.
Consider this an anti-lump. Stored in the back of my mind is a shower based all-other-things-gone-to-hell-in-a-handbasket option. Thank you.
Keep sharing - medical best practise moves onward as well. Perhaps your experience is only effective for you, perhaps it's a viable alternative for millions. We'll science the shit out of it in the next few months no matter what :-)
With all the memes flying around, it is tough to sort out what is believable or not. But coughing is apparently part of recognized therapy for CF - see https://www.cff.org/Life-With-CF/Treatments-and-Therapies/Ai... - so if you have fluid in your lung from covid 19, perhaps airway clearance techniques could help?
> ...I'm still not thrilled because hospitals actively breed antibiotic resistant infections. They are a primary source.
A primary source sure, but likely nothing compared to unnecessarily dosing livestock with antibiotics, and well, large portions of India. [1] 67% of folks in India in an albeit small study exhibited antibiotic resistance.
> To be clear, I'm extremely not thrilled at the global acceptance that "we need a zillion ventilators" instead of "we need non invasive alternatives and we need to educate the world as to what they are."
Thank you for acknowledging I might have a valid point.
As for your comments about dosing livestock: That's kind of like saying "We don't need to combat rapes and robberies because murders still happen and murders are so much worse, so no point in even talking about what to do about rape and robbery until there are no more murders in the world."
>
Inflammation can be combated with commonly available non drug remedies, like caffeine, lettuce, avoiding pro inflammatory foods (avoid peanut oil like the devil himself made it for you, limit or avoid bacon as it is hard on the lungs).
This sounds like very suspicious folk advice, maybe based off a handful of data mined studies. I appreciate the tip about coughing up a lung though.
Many biologically active chemicals have been identified in nature.
Aspirin (or at least salicylic acid compounds) is in wintergreen and willow bark. Opioids are derived from poppy sap, and eating too many poppyseeds will make you test positive for opium metabolites. Digoxin for heart failure and atrial fibrillation comes from foxgloves.
Coffee, specifically, has tons of data pointing to it improving cardiovascular health including this massive meta-analysis covering 1,279,804 people [1]. This meta-analysis shows a reduction in inflammation from consuming coffee [2].
I'm not denying any of that. What I'm saying is that when you randomly give a person a weak cocktail of random alkaloids and then ask them if they feel better, you're going to get a very unscientific mix of placebo and outright false information.
When you repeat such an experiment on large sample sizes with no control over the other myriad of environmental influences on the subjects, even after attempting to control for confounding factors you're still going to end up with extremely noisy data made effectively useless by just as many contradicting studies which find no effect. You see it all over the place - eggs and cholesterol, coffee harm/benefit, wine harm/benefit. These studies are all intimately highly flawed because they are empirical soft sciences with very little control over the large number of chaotic interactions among and within their subjects.
So when people say things like "drink coffee and eat lettuce to control inflammation during COVID infection" without a disclaimer, they're being [unknowingly] irresponsible, to say the least. Especially considering the dose of active compound in something like lettuce is likely to be totally insignificant.
If you are taking care of someone who could die, the most legally defensible choice is to follow medically recommended procedures. But if the medical establishment is giving you an emoji shrug and you could die because of it, that's when it might make sense to take advice from internet strangers.
Please don't be silly. You cannot physically cough hard enough with dropped O2 sats like that, and even strong healthy people will be unable to fully evacuate matter from lungs, especially biofilms. Next time you propose an alternative, provide actual data supporting it.
As a test, start doing it at say peak of a 2200 meter mountain. (That would be 90% with no acclimation.) See how far you can go.
Sleeping positions are irrelevant.
A positive pressure mask or cannula with O2 concentrator or supply is likely sufficient, not necessarily a full blown ventilator, and is much easier to sterilize. Still, it does carry risks. And it's the O2 concentrator part that's expensive.
Reduced efficiency and inability to evacuate matter fully (which you claim) does not seem to make the method useless. Severity of the condition is likely a spectrum too.
Not all cases are worst-case. Every person who can manage, through these techniques, a symptom that would otherwise need a ventilator, reduces the demand.
> You can do lung clearance easily on your own in the shower by standing with your feet shoulder-width apart or a bit wider, bending over as far as you can and coughing hard.
Adding to that -- as someone with a lifetime of lung issues: physiotherapists can help you cough up fluid/phlegm from your lungs. These are called "Airway Clearance Techniques" (ACTs). Depending on where the buildup is, we may be talking breathing techniques (e.g. deep inhale, hold, huff out), percussion etc. The goal is to bring up the gunk to the upper airway so it can be coughed out. Some of these techniques are easy to learn and perform on your own.
I don't know how useful or safe these are during viral infections, but I suspect "better out than in" applies equally well to all kinds of fluid in your lungs?
I originally brought up airway clearance because there's a ventilator shortage. I imagine "better out than in" is absolutely a very good rule of thumb for a condition causing the entire world to try to find ways to ramp up ventilator production. Doubly so for individuals who can't get access to a ventilator, so simply getting the phlegm and fluid out is their only real treatment option and it's one they may be wholly unaware of.
I get bronchitis once or twice a year. The method by which I clear it is to hang upside down until the s* just comes out of me by coughing as hard as I can. That sounds awfully similar.
Some random shower thoughts, having just returned myself from doing lung clearance, something I've been doing a lot since we cleaned up the mold issue we had:
If you think doing lung clearance might cause actual vomiting as well, don't do it in the shower.
Instead:
Get naked, stand over your toilet and cough into the toilet. Then shower before getting dressed again.
Don't skip showering. Store your clothes away from where you will be coughing/puking so they don't get blow back.
Don't assume once a day is sufficient. Doing lung clearance multiple times a day is not unreasonable during a life-threatening health crisis.
If you can't bring it up, drink something and eat something salty. This will help you cough it up.
If you roll over and it provoked a coughing fit, you probably have fluid sloshing around in your lungs. It's a good idea to attempt lung clearance at that time.
It's more or less free (though it could drive your water bill up). It just takes a few minutes. The only known side effect is breathing easier.
Okay, okay. I sometimes get dry skin from showering 500 million times. It's less annoying than not being able to breathe.
Try to not fall in the shower though. Getting bruised up would not be a good thing.
Anyone pitching in seems like they're doing a good thing, but isn't the problem one more of political organization and scaling production?
In other words, the US president (he is the only one authorized to do it) needs to activate the Defense Production Act, and get existing companies to mass produce existing designs. Something similar needs to happen elsewhere. This is a matter of days or weeks, not months.
My understanding is that the various open source ventilator projects are attempting to use readily-available COTS parts (by, for example, using a constant-speed blower and valves operated by RC hobby servos instead of a variable-speed blower). So that should, at least partially, solve the scaling problem.
As for political organization, I would think that almost takes care of itself if someone presents a turn-key, scalable solution.
Went over many comments. I see many people who are worried about an opensource project because its going to throw the apple cart of existing price gouging players in the market, but they are not open about it
This is an excellent foray of opensource into a space thats currently extorting people to live, i.e medical industry
> 15-20% of infected people require hospitalization for respiratory problems
This is wrong - it's 15-20% of identified, diagnosed and subsequently monitored infected people, isn't it?
I thought there was a mass of unidentified infected people, and even basically diagnosed but told to just deal with it at home with no further contact as they're low risk and minimal symptoms, and (obviously) 0% of these groups are going into hospital? This is what Wikipedia says at the moment.
Yes - I think we should challenge misleading information wherever we see it in this situation. Fighting panic is part of the problem and bad numbers cause panic.
I mean, if we don't really care that the numbers aren't accurate because it's more important to emphasise why the project is important, we might as well go all the way and say 99% of people need a ventilator and really sell the project.
There was a news report recently implying a 50/50 survival rate, due to this same kind of assuming everyone realises that you're talking about some group that's already in a bad way, but not actually saying that in the text.
I don't think this project wants to create panic. To me it rather is trying to help and be prepared. I'd rather have too many than too few.
Plus, we don't know when the site was set up. Two weeks ago ? Four weeks ago ? Our collective knowlegde is changing every day. Could just be they have been busy and did not find the time to update it ?
And finally, blueprint for a cheap OSS FEV will always be useful. COVID or not.
They’re not arguing against having an open source spec, they’re just pointing out that you can do the open source ventilator thing while not spreading misinformation.
Please don’t confuse the two. It’s hard enough to fight the misinformation as is without well-intentioned people such as yourself introducing red herrings.
Again, your point is coming from a good place. But we need to be really careful about not accepting misinformation.
This is one line on a whole page. And if usually people should cross-reference at the very least 3 reputable sources before accepting an informations as true.
Maybe it is a good time to ingrain that message along the "wash your hands"
Yes, I’m sure lots of people in Italy, Paris and Madrid wishes they had spent more time/energy challenging the notion that ventilators are important as they are letting hundreds of people die every day because of the lack of ventilators.
/s
I can't understand this point of view. It's more important than ever to put out good, accurate data and to help the public understand what is going on.
Also - what happens if something changes and now literally 20% of people do require ventilation? You won't be able to get that message across now because that's what they already think and the message won't be any change to readers!
Actually, the biggest problem for a very long time has been people downplaying the risks and dangers of this pandemic, questioning the numbers, wondering whether it’s really that bad, and castigating any amount of preparation as “panic”, a word which has become meaningless in its overuse.
But we know we're creating more artificial problems for ourselves!
There was no actual food supply issue. But people have panicked due to unchecked bad information and now we do have a real food supply issue, at the very worst time to have one!
Maybe if someone had said to people 'hang on that's not quite right there's plenty of food being supplied' we'd have one less problem.
I don't get this idea that "panic buying" is necessarily bad. We are moving goods from communal locations to people's homes. We aren't destroying goods. Once/if the virus does arrive in a large volume at the location we would greatly rather that people stayed at home and ate food they had stockpiled than that they then went to the grocery store. Dealing with shipping extra products now (while a very small fraction of people are infected), or just having shelves in stores be slightly bare, seems like a worthwhile tradeoff.
There are some questionable cases, like people hording years worth of toilet paper (which can cause real temporary shortages and actually significantly inconvenience people), but everyone stockpiling a months worth of food seems like a good thing.
The Imperial study estimated a need for 100k ventilator intensive care beds at peak in the UK, currently there are 5k beds, and they’ve managed to find another 5k ventilators using spares and old models. The government is planning on using ventilator technicians (usually 1 per bed) to manage many beds, with newly trained junior staff managing each bed. So assuming no treatment breakthrough they will need something on the order of a ten fold increase in ventilators and a 20 fold increase in staff numbers, on current trajectories within a month or two, and with full suppression maybe in the Autumn.
A lot of ventilators and more importantly people to administer them. This project is not providing a ventilator, and it's not providing people the special training required to administer them. If we need ventilators, we can have ventilator companies produce them using emergency powers every developed country has.
Well, not everybody is The First World and have ventilators plants in their border. But some place will love to have access to free and unencumbered blueprints to be able to do something locally with what they have at hand ?
But you are also right that people are needed to administer those. No doubt about that. As is also true a person can administer several of those machines.
And, just because something tries to address A only (and not B and C), does not mean we should not do it because B and C.
Separate issues. Beside, to train people, you need spares to train on.
There's no evidence supporting the theory that large numbers of asymptomatic people offset the figure of 20% of patient being severe cases. Hospitalizations and death skyrocket in Covids infected areas, we know what this thing looks like at scale. Plus Who report, pattern of infection, China and Korea eliminated visible cases and haven't seen many more etc.
You are wrong according to the WHO investigation of the events in China.[1]
You are wrong according to the statistics that came out of Korea - if there was an invisible group of asymptomatic, Korea's infection rate couldn't have been controlled. [2]
This destructive belief has persisted for a while because it made sense for various flu epidemic and gave the comforting idea most infections would be harmless. But is now with us at scale and all the evidence points to a rough 20%, 1-in-5 hospitalization rate [3]. I wish actual authorities would spend more time debunking this (even get fully clear on it themselves).
[2] Look at covid19info.live and look at the South Korean statistics. There's reason to think Korea found most if not all infection. Similar reasoning also applies to China.
> There's reason to think Korea found most if not all infection.
This is beyond ridiculous and you have no basis for making that assertion. As of last Saturday, In South Korea, as of the weekend only 248,000 people out of a population of 50,000,000, with 8,086 +ve cases and 72 deaths.
There is significant evidence that not only are most cases mild, but often asymptomatic.
> According to Crisanti, the director of the virology lab of U Padua, as little as 10% of #COVID2019 carriers show any symptoms at all. He sampled repeatedly the entire 3k+ population of Vo ', one of the initial clusters.
> 700 have been tested. Kári says that about half of those who tested positive have shown no symptoms, and the other half show symptoms have having a regular cold.
> "The vast majority of people infected with Covid-19, between 50 and 75%, are completely asymptomatic but represent a formidable source of contagion". The Professor of Clinical Immunology of the University of Florence Sergio Romagnani writes
> But is now with us at scale and all the evidence points to a rough 20%, 1-in-5 hospitalization rate [3].
No. It doesn't. That link doesn't say why they were hospitalised. In America if your insurance is good enough you can be referred for little to no reason.
The one credible source among your links talks about surveying a population and seeing of those testing positive for Covid are asymptomatic or have cold symptoms.
But this finding is not extrapolated to mean that the vast majority won't require hospitalization. There's a reason. When the virus is growing exponentially, most people have just gotten the virus and haven't gone the 2-3 weeks typical for becoming so sick that you require hospitalization. Exponential growth means 3-week old cases are rare. A weekly doubling time 1/16 of the cases of the cases are three weeks old. If 1/5 of those cases require hospitalization eventually, you will wind-up with only 1/80 of those cases seeming to require hospitalization if you're just taking a survey.
Some of my references are extrapolating things (correctly) but others are citing recognized authorities. Your entire argument is basically incorrect extrapolation based on not taking into account exponential growth.
This article widely read article summarizes the quandary we're in and how to extrapolate the current data.
> If 1/5 of those cases require hospitalization eventually
They won't, they don't, and you have no basis for making that claim. I don't know what your agenda is here but it is entirely clear you have no desire to honestly engage regarding the facts. Certainly a complete misreading, at best, of data presented.
It clearly deals with the symptoms during the while life cycle of the disease.
What precisely is your goal with this misinformation?
They won't, they don't, and you have no basis for making that claim.
All the links in my original post are the basis of my claim - the WHO finding in China is very plausible and says exactly what I say - so saying I have "no basis" is clearly misrepresenting my above post.
I believe I'm characterizing your claim and their links as well as I can while vehemently disagreeing. As far as I can tell, you cite a survey finding many asymptomatic cases and think that proves things will stay that way but fail to consider the properties of a growing infected group. I'm entirely hostile to your position but I know only substantial arguments can help here.
My main goal is to make clear the urgency of this situation. There's a debate about whether the virus needs to be actively suppressed and I want to make it clear that this is indeed necessary. Basically, not seeing the American Health Care system collapse and hundreds of thousands of people die is my motivate. For that, we have to realize how many people will be coming in (though that's visible in Italy).
You talk of "engaging with the facts" but you don't present either facts or arguments in this post - plus alleging motives, etc.
Edit: Looking further at your link, you're describing the (important testing approach in the village of Vo). You can say "as 10%" were symptomatic but this is in the context of the virus being spread by them, again, not in the context of the people not getting sick later. There's really no reference to exactly what percentage of people go seriously sick.
The cruise liner and the 3000 pop Italian village are the well studied exposed populations so far I think and they indicate a big asymptomatic percentage.
The cruise ship showed a ~50% symptomatic rate, so any stats based on symptomatic patients are probably only off by a factor of 2.
Note that both South Korea and China outside Wuhan do extensive contact tracing and testing of people an infected individual can be determined to have interacted with, so they pick up a good deal of asymptomatic cases too.
Can you show me a link to what percentage of those exposed in the ocean linear needed hospitalization? I haven't seen any direct discussion of this and that the situation in question. Sure many can be asymptomatic but that doesn't imply the symptomatic group doesn't tend to get very ill.
Edit: I should have said "a large enough group of asymptomatic to push the fatality and sickness rate way".
Yes, there can a majority asymptomatic but that doesn't mean that 20% of the overall don't wind-up needing serious medical attention also.
Hopefully, you can read the comment I replied to and see the context
I've read several articles and none talk about the hospitalization rate. Two people died, which akin to the fatality with medical care seen elsewhere. That would seem to imply a similar rate of getting sick since the disease pattern is that with reasonable care, only small-ish portion of those getting sick die.
I mean, understand. Lots of people asymptomatic, a few quite ill, 1% die, sounds not terrible but it's very, very bad for it's health care overwhelm effect.
> But on Tuesday, a World Health Organization expert suggested that does not appear to be the case. Bruce Aylward, who led an international mission to China to learn about the virus and China’s response, said the specialists did not see evidence that a large number of mild cases of the novel disease called Covid-19 are evading detection.
> “So I know everybody’s been out there saying, ‘Whoa, this thing is spreading everywhere and we just can’t see it, tip of the iceberg.’ But the data that we do have don’t support that,” Aylward said during a briefing for journalists at WHO’s Geneva headquarters.
It's like saying 90% of basketball players require casts because, from the set who end up in ambulance, 90% of them have a broken arm. That doesn't mean 90% of basketball players require casts, and it certainly doesn't mean they need them all at once.
There was a study posted here recently that said as many at 86% of people were asymptomatic, then only some sliver of those with symptoms end up needing to go to hospital in the first place -- and 20% of that group that tests positive for the virus ends up needing a ventilator and 5% of them end up dead.
Net-net close to a 0% fatality rate under 29, 0.1% under 49.
Fine, but we absolutely do know for an absolute fact that -- it is not true 15-20% of people with nCoV-19 need a ventilator. We don't know what the number is but we 100% with absolute certainty know it is not 15-20%.
If we acquiesce to 70% of the US getting nCoV-19 as the epidemiologists are suggesting that would require 50 million ventilators. There are about 70,000 in the US. So we'd need almost 1000X as many ventilators as we have.
If that were true we've have the national guard locking people inside their houses, and the UK wouldn't be contemplating giving nCov-19 to everyone young to foster herd immunity.
Well in China they seem to have forced everyone to stay home?
The UK appears to have decided allowing 500,000 of us to die was a bad idea and we're now on "lockdown". At least everyone is _advised_ to socially distance, because - it seems - then businesses can still fire people for not turning up to work, and insurers can avoid paying out ("you chose to stop the event, you weren't obliged to").
I'm not sure we can tell what the rates are, what's the testing false positive rate? UK gave up testing a while back (except emergency hospital admissions).
For the last week, at least, all new cases here are in theory emergency hospital admissions. 700 cases per day (and rising), 10% of our normal number of intensive care beds.
> Well in China they seem to have forced everyone to stay home?
Well, it's China.
> The UK appears to have decided allowing 500,000 of us to die was a bad idea and we're now on "lockdown".
500,000 people dying wasn't going to happen. Korea's death rate is closer to 0.4%, almost entirely the older folks who were to be quarantined at home during this process anyways. Korea's death rate for under-40's is 0-0.1%, so at worst, ignoring that vulnerable folks in those demographics would also be quarantined, the death toll would less than 50K -- probably much, much less, and not drastically out of line with a bad flu year.
> I'm not sure we can tell what the rates are, what's the testing false positive rate? UK gave up testing a while back (except emergency hospital admissions).
Supportive treatment is the only thing you can do anyways. Beyond that PCR tests will only tell you if you currently actively have the disease not if you had it before and recovered. We need antibody tests for that.
Got to love hackernews, in a discussion of tools to fight global pandemic, the top comment nitpicks an number that everyone knows is imprecise, and offers nothing constructive.
Please, stop with these. As experts have shared many times on here, once you need a ventilator, the ventilator is the least of your problems. Trying to apply a ventilator to a COVID-19 patient who needs one when you have no idea what you're doing can create the same lung injuries as COVID-19 itself.
Just treat it as harmless hobbyism, which is what it is. When engineers are nervous, they build things. That is natural!
Will these open source designs save many lives? I doubt it. Large scale manufacturers working with existing vent makers will do a much better job. But... if it gets thousands of people thinking about artificial ventilation, we might get a lot of interesting new ideas that we can use in the decades to come.
The set of people capable of building one of these machines and incapable of evaluating the risks of doing so is nearly empty. I don't think that's a real significant concern, to the extent it is it can be adequately mitigated by slapping some warnings on the blueprints instead of asking people not to try and design things.
This effort may well save no one in this crisis. It could still benefit by making future ventilators cheaper, serving as prior art on bullshit patents that people try to get on basic components of a ventilator in the future, and so on. This will very likely allow the health care system to funnel money into more effective life saving efforts in the future.
Think back to Wuhan. Imagine the hospitals have closed their doors because they are already backed up. Your grandparent is dying in the room next door because no doctor is available to treat them.
Who the hell cares if you build a ventilator and try it then? They're going to die anyways. You are doing nothing except increasing their chance of survival by acting instead of waiting.
Should you use this while hospital beds are still available? Obviously not. But any care is better than no care and being treated by a Wikipedia doctor is better than being treated by no doctor when you're already on your deathbed.
Doing something may well be worse than doing nothing.
Concrete example: you get impaled by something. Do you: (a) do absolutely nothing and leave it in, and seek help or (b) rip it out as you see in movies because doing something is better than doing nothing.
(b) will kill you and (a) will save your life.
By doing something you have no business doing, no understanding of the mechanics and consequences you may will make it worse.
If everyone in Wuhan hooked up their loved ones to leaf blowers, the death rate probably would have been massively higher.
Please, continue with these. As experts have shared many times on here, ventilator shortages will soon become commonplace, and medical professionals have been discussing ways to use a bag, facemask and manual labor to work as a ventilator. Trying to apply a ventilator to a COVID-19 patient when you're a medical professional isn't possible when you don't have any free ventilators. Every bit helps.
Not every bit helps. Sometimes trying to do something, badly, will cause more harm than not trying. I sympathize, it's frustrating, and it's difficult to sit on your hands sometimes feeling like you should be doing something.
In totality, however, furthering things like DIY ventilators (like DIY open-heart surgery) can cause more harm than good.
We've got governments, experts and professionals mobilizing to prepare for this, let's allow them to do their jobs. This is what they've trained for.
Do hobbyists rigging together servo motors to prepare for a worst-case scenario really interfere with the soon-to-be overwhelmed professional medical industry workers attempts to do their jobs? The only reason I can think of to be against this would be kind of like doing a trust fall, voicing against independent work to signal personal trust in the capacity of the medical system. Of course, that would be a purely social reason, not really helpful for saving lives or improving the system.
I mean, what if I posted a write-up on how to use a bellows from a forge in lieu of a ventilator. Wouldn't you agree that's downright negligent if not actively harmful? Distracting from the actual problem? Would you at least agree it's totally unhelpful?
Just because it's got firmware doesn't mean that description isn't apt.
Imagine a stadium filled with cots, where there are many doctors walking around telling people "you're going to be okay" while triaging equipment. (An extreme example but not impossible.) I think if you gave a nurse in that situation some forge bellows and realistic instructions for using them, they just might try it. When you're in a real sticky situation, plenty of medical professionals will be willing to shoot for remote chances. What would they rather do, push someone out of triage or try the servo contraption?
I like the effort and project. I tried looking at it and the techcrunch articles and was disappointed by this and the open source mask efforts. This is going to sound horrible but I think there is something that needs to be said. We shouldn't have to hack/make our way out of this shortage. I say this as a diehard hacker/maker. A factory can put together high quality and high volume versions of these two items. It is a national shame (I'm in Canada but lived in the US for years) that we don't have domestic capacity and ability to surge on these items. We can still surge. This is not bloody rocket science. If we start today, we can have factories in a month. We should be surging on this today. We should have been surging on this since January and not have to deal with a shortage of bloody test swabs. I know raw materials and equipment are in short supply. But if our economies are truly unable to find the necessary parts in our just-in-time inventory or storage, we as a generation should hold our heads in shame and leaders accountable.
The page isn’t loading so I’m not sure what they’ve got, but I’m still trying to get answers to a question I have. I did research Tuesday and it seems like ventilators are positive pressure only, and they cycle between a low pressure and a high pressure. If this is the case, could an air compressor with a regulator be used as the pressure source? If so, a small device with just two pressure regulators and an electronic valve could be used to cycle between high and low pressures for each patient. I keep seeing open source ventilators that use a fan and a motor, but those seem likely to fail. Air compressors are abundant and could literally be taken from construction sites to be used. You put a pressure regulator to go down to the (very low) pressures one might want as a maximum for any patient, then you can gang that up to a whole bunch of hoses. Finally a little box with a couple of regulators can adjust the per patient high and low levels.
This to me seems much simpler and more reliable than ventilators with their own fan. But I don’t have a good way of reaching anyone. I’ve created a thread on my website with my sources, thinking, and some questions. If anyone knows about this please reply here or there and let me know. Thanks.
I believe hospitals do use systems with a single, central supply of pressurised air.
However, I'm also getting the sense from reading about these efforts that creating pressurised air is the easiest part of the setup. You need to control that pressure with a precision unlike any other application of air pressure. Just alternating high and low pressure isn't going to work, for example: you need to slowly ramp up pressure, then slowly release, on a specific schedule. Every patient also has individual needs, to the point where even for two people of the same gender and similar age/weight, the settings ideal for one might kill the other, and vice versa.
If I understand it correctly, these machines use feedback loops with sensors for blood oxidisation, acidosis, the elasticity of the lung, and other factors. Without such mechanisms, you'd be constantly adjusting the settings––consider a heating system or AC where you can't set the desired temperature, but only flow rate and power of the heating/cooling instrument. You need constant attention to keep such a setup within a comfortable range. And that attention will also be in short supply when hospitals are overrun.
So there are four main ways for breathing machines to be powered:
1) By compressed air from a wall port (majority of ICU machines)
2) With bellows (anesthesia machines)
3) Turbine, either dynamic or constant speed with a proportional valve (home use or patient transport)
4) Piston
Let's assume that we use a pneumatic device driven by centrally purified air as that is simplest. The parts then are:
-Gas blending to mix O2 and HP air. In many designs this is done using two solenoid valves.
-A fast, precise, and accurate proportional solenoid valve. This turns the constant pressure into the desired waveform
-another valve for controlling exhalation pressure. Can be another proportional solenoid, alternatively a manually adjustable valve to ensure constant minimum end exhalation pressure (PEEP)
-Flow sensor (range of options, typically variable orifice or hot wire anemometer but other type exist)
-Pressure sensor (silicon waver transducer)
-Overpressure valve
-O2 sensor (highly desirable, arguably you can estimate from O2 blending settings but that will work better on a very well characterised design which this would not be. Anyway O2 sensors are widely used so this will never be a constraint.
-Piping to connect it all together
-A control and alarm system to drive desired waveform based on user settings and sensors
-Patient circuit: Humidifier / heat exchanger, patient valve (one time use), viral filters for intake and exhalation air (one time use), ET tubes (one time use)
Probably the limiting factor as far as parts go are the valves since this is a niche application.
Here's the problem: as a civilisation, if we had to make a hundred million vents by the end of the year it would be easy. Expensive, sure, but not that hard in an emergency.
It is much harder to make an extra 50,000 in a few weeks because it just takes time to turn the machinery of mass production in a different direction.
Let me know if you want me to send my list of ventilator reading. I'm not an expert either, just trying to soothe my Corona-madness by thinking about building things.
Thank you! I will copy your comment to the thread on my website and link back to your comment here. Feel free to share your reading, but the stress of feeling like I can help is a bit much. I’m going to collect information but for now I’m hoping the major manufacturers committed to ventilator manufacturing are going to pull through.
Has anyone looked at Cuirass ventilators? The (seemingly only) manufacturer says they are great for clearing lungs and breathing. They even seem to indicate them for use with Covid. They are basically iron lungs revamped. They look easier to amateur build than invasive ventilators and with no intubation, anyone could apply one.
I am 90% sure there will be a useful antiviral therapy available soon, whether it is remdesivir, favipiravir or even chloroquine. This will change the game in humanity's favour. Antivirals are also the only solution which can actually scale to the problem, unlike these ventilator projects or even vaccines (at least not for a very long time, bear in mind that under ideal conditions the supply of seasonal flu vaccines is often dicey). The first use for antivirals will be to reduce the number of patients with severe infection requiring ventilatory support.
Making these antivirals as useful as possible is of great importance, and that means going all in on mass producing a quick and reliable and broadly applicable diagnostic test.
I would much rather see open source projects targeting diagnostic tests or manufacturing nasopharyngeal swabs. Admittedly, this is much harder to achieve for people not involved in life science research or without access to virological specimens.
There are a few other open-source and crowd-source projects like this that I've seen. It's interesting to see so much volunteer response to the crisis.
OSV Ireland was formed by Colin Keogh, Conall Laverty & David Pollard, with the goal of building a focused team in Ireland to begin development of a Field Emergency Ventilator (FEV) in partnership with the Irish Health Service. To date we have formed a team of engineers, designers and medical practitioners to develop new, low resource interventions, all working collaboratively online. Bag Valve Masks (BVM), 3D printed and traditionally manufactured components are being considered to maximise potential manufacturing capabilities. We will also include other challenges and problems as they arise from frontline healthcare workers, which we will encourage our volunteers to tackle.
We have a core developer team publishing open source designs with ongoing communication with medical professionals regarding needs requirements, testing and validation processes. The developer team is led by OpenLung in Canada in collaboration with an Irish based engineering and operations team. The developer team is led by Trevor Smale, Dr. Andrew Finkle, and David O’Reilly from OpenLung as well as Conall Laverty and Dr. Keith Kennedy from Ireland. Work is well underway with hundreds of worldwide contributors.