Your $1/4 million hospital bill is for a cosmetic rubber case with a bunch of AA's in it or a pump which is required to enforce DRM. That's the absurdity of the medicare industrial complex.
Ben, Love the humor when you are taking stuff apart. It's one of the reasons I enjoy watching your videos. That is such a waste all that single use stuff. Lots of goodies inside for projects. Last time I went to a hospital i kept a few things. some tubing which I used to repair a bug zapper and that thing that tests your lung capacity which Is single use so I kept it and still have it.
The reason they throw away the pump is that the part that "connects" to the patient comes in contact with medical waste. It would have been better if they had a replaceable module that contains the pump and sensors and what not that then connects to the main board. The main part of the unit can be reused without any kind of medical issues and the pump and sensor unit can be tossed.
The model I had had a detachable canister in bulkhead. So the biologicals went into the canister and then they just detach the bulkhead and attach the new one for reuse. I've never seen a small one like Ben had. Mine was the size of a 1980s tape deck.
I'd love to see a dedicated video showing the process of getting a microcontroller like this putting it on a breakout board and getting it to do *something*, the kind of thing we can follow along at home with. Good to see you back.
If you knew what was involved with certifying, manufacturing and auditing a medical device all the complexity, over engineering, and disposability starts to make a lot more sense until you step back and realize it's actually so much worse than you could have ever imagined. In the U.S. the FDA regulates medical devices using a three-tiered classification system. So what exactly does the FDA consider a "medical device"? ❝Any instrument, apparatus, implement, machine, contrivance, implant, in vitro reagent, or other similar or related article, including a component part or accessory” that’s recognized as a pharmaceutical or any supplement to them, intended to diagnose, cure, mitigate, preventive, or treat a disease, disorder, illness, medical condition or with the intention to affect the structure or any function of a human or animal body which is not dependent upon being metabolized or other chemical action within or on the body of man or animal for the achievement of any of its primary intended purposes." That's a lot to unpack here are some examples. A bedpan: medical device, an aspirin: medical device, Apple Watch: a medical device, tongue depressors and that stick they poke in your nose when they test you for COVID: medical devices, a breast implant: medical device, a fish oil supplement: not a medical device, a slimfast diet shake: not a medical device, Honey: not... well it depends on the kind of honey and how it's marketed; Honey at the grocery store: not a medical device, Manuka Honey marketed as medical grade is a medical device. How a product is marketed can make all the difference. Early in the Nintendo Wii's heyday Nintendo leaned heavily into the health benefits and highlighted clinical trials and the Wii Fit "effectiveness" at mitigating obesity right up until the FDA came knocking; Nintendo said "it's just a toy we don't want to make it a medical device..." and they ultimately pulled back on the health and fitness claims, walking the same line as most fitness equipment. I trust you have seen 1,000s of commercials for exercise equipment, but none of them claimed it was effective at treating or preventing obesity "Buy our thing, use it 3 times and week in addition to other unspecified things and you will feel great and you can lose weight... Ok so what are the 3 tiers or classes? They are, simply, Class I, II, and III. What then, determines if your medical device is Class I, II, or III? The answer is risk. Each medical device is classified by the assessed risks associated with the device. The higher numbered class, the greater the assessed risk, the higher the regulatory control, which further defines the regulatory requirements for a general device type. Though the policy is straightforward enough, there are nuances. Classification is determined not only by what risk the device poses to the patient and/or the user, but also the intended use of the device along with any specialized indications for its use. For example, a scalpel may have the intended use to cut tissue of a patient, but a manufacturer may have a specialized scalpel specifically designed to make incisions in the cornea. Both may be Class III, and if so both will be required to implement safety and reporting programs that meet the same standards but what is required to meet those standards can be vastly, different. Beyond the classes the FDA currently has classified around 1,700 different device types. These are grouped into 16 medical "panels". Before you can sell your medical device, it has to be assessed, assigned to a panel for further assessment to then assigned to one of the three regulatory classes based on level of control necessary to assure the safety and effectiveness of the device. Also who will operate the device makes a big difference as well, patient or clinician? Note the difference in complexity between the two devices in the video: Both are nasty shit suckers, but the device intended for operation by the patient is far more complex, while the clinician's device was a simple as possible. This of course makes some sense on its surface, sure the patient needs training wheels to try to prevent dumb shit from happening, but what is more if there is an "adverse event" involving the device (which you must disclose to the FDA in your regular reporting) the clinician is qualified and capable of documenting what went wrong where as a patient may not be able to effectively do so (and in practice isn't acceptable) so patient operated devices have sophisticated event logging incase the data is ever needed. That's not to say clinician devices don't, they often do as well, but it's not alway needed. Wait, wait wait, what does all this have to do with ridiculously complex disposable wound suckers? Well before any of that other shit can even begin, you need a device, not a prototype a finished working UL listed (and/or whatever else you might require) ready to ship devices... well not just devices you also need manufacturing and quality control processes, the ones you are actually going to be using, and if your smart you have already started some kind of 3rd party clinical trials, if you've got a hot new bedpan your going to need to find some people and pay them to shit in it. So with this in mind and investment capital being what it is, if you can avoid starting from scratch, and avoid doing anything unecessarly novel there is s huge advantage to doing so, even if that means reworking the hardware architecture, internal safety controls & event logging, housing design, UI, ergonomics and manufacturing processes of an existing hand held implant scanner from another product line (half of which was probably licensed from someone else for that project) just to make your new little 7 day wound sucker. . . . And if you make it all disposable, your boss can get another bonus because you just avoided 6 chapters of additional regulations and saved $2 million dollars in development costs.
I've spent the past 20+ years in medical fields and dealt with both hardware and software and can tell you that most of the device vendors and very small companies that are just looking for a quick profit. Hardly any of them stay in business for very long because they either close doors or get sold to a bigger company that just relabels the products and cycle repeats. Aside from very large devices like CT and MRI scanners, which are regulated more, most of the smaller devices are very cheaply made. It is a very deep and interesting field to learn about though.
The wastefulness of these designs can be traced back to some disappointing realities. 1. Sr. Engineers are expensive. 2. Companies prioritize time to market 3. The chips were cheap. So you had/have Jr. Level engineers designing stuff on tight schedules, and their only choice to get everything done is to throw whatever is easier to implement at the problem. With the current chip shortage, I would expect Sr. Level engineers to be more in demand and a trend back to clever engineering instead of brute force solutions.
That puss pump having programmed death kinda makes sense to me. Not as a way to suck more money out of people but actually having a purpose. If the wound keeps putting the stuff out after a time the doctor told you to go get it checked and the pump still works, a lot of people may just keep using it to clean the wound even when it kinda should have stopped and if it's still oozing puss it really needs to get checked. And also so that people wouldn't just store and reuse it. They are single use for a reason. Even if you reuse it yourself in a few years after thorough cleaning, it may give you a hidden extra infection. The device looks cheaply made. Haven't seen those here, but possible that we use those in free healthcare countries too. I hope they don't cost too much in america either. It looks like it shouldn't cost too much.
It's supposed to provide a consistent pressure, the the pressure transducer is necessary to regulate the pump since vacuum mod ambient = pressure at the wound.
It always blows my mind when you take some disposable thing like this apart and find a processor that’s way more powerful than my first desktop, even if it’s just to turn something on and off. It’s like engineers nowadays have never heard of 555s or even PIC16s.
I’m glad I brought that stuff in now! I learned more about the wound VAC a.k.a. pus sucker than I had known before! I’m not surprised that they are so wasteful. Especially considering how much they charge the patients for those devices…
Ah yes, everything I needed on a holiday Monday in the great white north... Impressions, singing, tear downs, griping at the past, AND BUD. A perfect video.
I've have experience with those wound vacs, technically they don't shut themselves off my model had a built-in cellular link but not like you would think from like a provider but some sort of other wireless network that they could remotely disable the unit.
from wikipaedia The adjective endian comes from the 1726 novel Gulliver's Travels by Jonathan Swift where characters known as Lilliputians are divided into those breaking the shell of a boiled egg from the big end (Big-Endians) or from the little end (Little-Endians)
I don't know about these specific medical devices, but I know some of these one time use devices are recycled back to the original company that basically throws out the housing and reuses the board then sanatizes it all to be sent back to the medical personnel
9:30 That entire device can be replaced with a plastic bulb. I had on attached to a tube that ran under my skin all the way across my stomach. The tube was about 5 inches under my skin, and they just stuck a plastic bulb on the end that has a check valve on the end of it. they squeeze the bulb down, which pushes air out of the check valve, then the bulb tries to spring back into its original shape creating a slight amount of pressure. as the wound seeps, the bulb draws the goo into itself. when the bulb is full, they take it off and replace with a new one (or they empty it, i can't quite remember if the bulb gets reused). The whole plastic bulb thing is called a Jackson-Pratt device. There is a paper about them titled "How Much Blood Could a JP Suck If a JP Could Suck Blood?" and yes that is the actual title of the paper lol
I've brought around for 2 weeks a really uncomfy plastic thing that sucked blood plasma or other gunk out of a fresh surgery I had a few years ago. it had zero electronics, it just was a pressurized plastic cylinder with a thin tube running up my wound. I had trouble sitting or sleeping for 2 weeks, but no MCUs were ever wasted in my convalescence.
9:30 its possible that it only works for 7 days cuz it doesnt have a replacable ooze disposer or so the machine doesnt get too dirty after prolonged use
It's amazing what you can get away with when you are the only manufacturer of a device for an industry that doesn't bill customers based on what things actually cost and is heavily subsidized by the government.
Ben, I wish I could send you one of the products we design at work. Mobility aids... Powered complex rehab wheelchairs... I was going to see if it was feasible to make custom controls based on PS / XB controllers some of the patients can only use a single finger> Imagine being able to swap out modules depending on the digit(s) they can use..
I was an R&D engineer in an FDA compliant medical device design company. The cost of the chips was minuscule in comparison to the waste spent in business development and marketing.
Classic barometry! Original barometer was a glass tube filled with mercury which had a known density, changes in atmospheric pressure caused a linear, proportional change in the height of the mercury in the tube! Hence, mm of mercury!
00:50 Yup, used in surgery. For example during a hip replacement to wash out the blood and bone swarf after drilling out the hip. Connected to a bag of saline and a vacuum.
I did some poking around and found one place charging $50, which means the hospital charges $8,000; and the insurance allowable is baked into the cost of the surgery, so it's a black hole.
I used to have a mason jar filled with Atmel AT89C4051s, I would program them once and then solder them into stuff as at the time they were the same price as a 20 pin socket... now they are $2+ a piece if you can find them :(
your Harrison is getting better, not bad. absolutely disgusted at the waste of all these petrochemical plastics and copper and electronic components in the medical field. there has to be a more sustainable way to design tools for sterilisation and reuse
Second (gun) device is a wound irrigator. I saw it used in knee replacement surgery. Used pretty much for a few seconds. Bonus was free batteries (this was before eneloop).
Interesting how you've got both ends of the spectrum there. The first one just using a split battery pack to provide some rudimentary motor speed control without any electronic components whatsoever, and the second being incredibly over-engineered but doing basically the same job.
reusing microcontrollers out of trash! gee, i try to do this but always fail to get verry basic things working on them, assuming i could get a working compiler
We have a kitchen chair with the same claw marks. Funnily enough our recently departed tomcat's favourite spot to 'request' treats. "Feed me or the furniture gets it!" (Sooty was 19 - you may be stuck with Bud a while yet!) PS - so that expensive but disposable device really sucks and blows, eh? Here in the UK we just use our mouths to suck up pus - yummy! PPS I nearly always eat my boiled eggs from the sharp end - shock, horror! Why? Because I've given up trying to work out where my wife squirrels things, including egg cups (and moves them if I find out). Take a boiled egg and whack it blunt end down, so turning the air pocket in to a stand... then eat - another of my wife's evil machinations defeated. Har, har! PPPS I generally eat my bananas from the non-stalk end - all the other apes and monkeys in the world can't be wrong! PPPPS What? The channel is about electronics..?
"64-128K A little on the low side"??? Back in my day...[insert monologue from middle-aged guy reminiscing about coding on 2K AVRs] Also that Rossmann impression was on point lol!
mm of Hg stands for millimeters of mercury, a measurement of pressure or vacuum. for instance your blood pressure 120/80 is in the units of mm Hg (aka Torr.)
Enjoy your content. Understand that youtube burnout is real. I'm ashamed of the number of half finished projects I have. I'm amazed at your output. Oh, and I would like to be the 100th person to say mmHg is millimeters of mercury.
Hey man, screw you im subscribing out of spite. This is like my 5th sub on YT ever. But for real this was pretty awesome to learn and listen while I work on a car. Although, stumbled upon your channel for a reason. Would you mind if I pick your brain about some tech sometime?
Would you consider making videos with an overdub explaining your thought process for some of the more technical things? I have an interest in your channel, but will never have the amount of experience you do in things like "an I squared CE prom".
@4:12 … maybe I’m just clueless but what did he mean about the battery disconnect and Raytheon probably making it ? I’m assuming it was a joke but I’m not getting the connection (no pun intended) but I’m really curious now lol 🤔
...yes, of course? the devices should be designed for sterilisation to reduce the insane amount of waste of valuable or non-renewable resources. they're currently not because the people who make and the people who buy this equipment aren't held democratically accountable for the wasting they do; they get to externalise the cost
How do you have time for videos when you're also acting in the new season of "Love on the Spectrum"? (I'm kidding but man that dude looks like you doing a sketch.)
You would think there are other types of gauzes which could be used to abosorb wound puss without the need of this horrific amount of single use waste...
Your $1/4 million hospital bill is for a cosmetic rubber case with a bunch of AA's in it or a pump which is required to enforce DRM. That's the absurdity of the medicare industrial complex.
Ben, Love the humor when you are taking stuff apart. It's one of the reasons I enjoy watching your videos.
That is such a waste all that single use stuff. Lots of goodies inside for projects. Last time I went to a hospital i kept a few things. some tubing which I used to repair a bug zapper and that thing that tests your lung capacity which Is single use so I kept it and still have it.
The reason they throw away the pump is that the part that "connects" to the patient comes in contact with medical waste. It would have been better if they had a replaceable module that contains the pump and sensors and what not that then connects to the main board. The main part of the unit can be reused without any kind of medical issues and the pump and sensor unit can be tossed.
The model I had had a detachable canister in bulkhead. So the biologicals went into the canister and then they just detach the bulkhead and attach the new one for reuse. I've never seen a small one like Ben had. Mine was the size of a 1980s tape deck.
So the cost savings of not having any voltage control for speed makes sense?
@@erik365365365 why spend the money if it's just going to be tossed?
That Rossman imitation is spot on 😂
Friggin love the impressions, Ben. The scope thing had me scratching my head for a minute, but it's all good.
I watched the video and now RUclips is hammering me with all kinds of medical device ads. Thanks a lot Ben.
"Hey everybody, I have a real estate channel that sometimes fixes Apple products" lol
6:47
That is a name I have not seen in years! For real tho glad to see you are still around. I remember spending hours on your website back in the day.
I remember all the shortcuts and compromises you had to make to get the episodes done fast rather than good.
This is better.
Thank you for dissecting where my healthcare funds go to. Junior.
I'd love to see a dedicated video showing the process of getting a microcontroller like this putting it on a breakout board and getting it to do *something*, the kind of thing we can follow along at home with.
Good to see you back.
I like what Bud has done with the chair . He has a real flair for interior decorating .
“Geysers of Blood” could even be the name of your next movie.
If you knew what was involved with certifying, manufacturing and auditing a medical device all the complexity, over engineering, and disposability starts to make a lot more sense until you step back and realize it's actually so much worse than you could have ever imagined.
In the U.S. the FDA regulates medical devices using a three-tiered classification system.
So what exactly does the FDA consider a "medical device"?
❝Any instrument, apparatus, implement, machine, contrivance, implant, in vitro reagent, or other similar or related article, including a component part or accessory” that’s recognized as a pharmaceutical or any supplement to them, intended to diagnose, cure, mitigate, preventive, or treat a disease, disorder, illness, medical condition or with the intention to affect the structure or any function of a human or animal body which is not dependent upon being metabolized or other chemical action within or on the body of man or animal for the achievement of any of its primary intended purposes."
That's a lot to unpack here are some examples. A bedpan: medical device, an aspirin: medical device, Apple Watch: a medical device, tongue depressors and that stick they poke in your nose when they test you for COVID: medical devices, a breast implant: medical device, a fish oil supplement: not a medical device, a slimfast diet shake: not a medical device, Honey: not... well it depends on the kind of honey and how it's marketed; Honey at the grocery store: not a medical device, Manuka Honey marketed as medical grade is a medical device.
How a product is marketed can make all the difference. Early in the Nintendo Wii's heyday Nintendo leaned heavily into the health benefits and highlighted clinical trials and the Wii Fit "effectiveness" at mitigating obesity right up until the FDA came knocking; Nintendo said "it's just a toy we don't want to make it a medical device..." and they ultimately pulled back on the health and fitness claims, walking the same line as most fitness equipment. I trust you have seen 1,000s of commercials for exercise equipment, but none of them claimed it was effective at treating or preventing obesity "Buy our thing, use it 3 times and week in addition to other unspecified things and you will feel great and you can lose weight...
Ok so what are the 3 tiers or classes?
They are, simply, Class I, II, and III. What then, determines if your medical device is Class I, II, or III? The answer is risk. Each medical device is classified by the assessed risks associated with the device. The higher numbered class, the greater the assessed risk, the higher the regulatory control, which further defines the regulatory requirements for a general device type. Though the policy is straightforward enough, there are nuances. Classification is determined not only by what risk the device poses to the patient and/or the user, but also the intended use of the device along with any specialized indications for its use. For example, a scalpel may have the intended use to cut tissue of a patient, but a manufacturer may have a specialized scalpel specifically designed to make incisions in the cornea. Both may be Class III, and if so both will be required to implement safety and reporting programs that meet the same standards but what is required to meet those standards can be vastly, different.
Beyond the classes the FDA currently has classified around 1,700 different device types. These are grouped into 16 medical "panels". Before you can sell your medical device, it has to be assessed, assigned to a panel for further assessment to then assigned to one of the three regulatory classes based on level of control necessary to assure the safety and effectiveness of the device.
Also who will operate the device makes a big difference as well, patient or clinician?
Note the difference in complexity between the two devices in the video: Both are nasty shit suckers, but the device intended for operation by the patient is far more complex, while the clinician's device was a simple as possible. This of course makes some sense on its surface, sure the patient needs training wheels to try to prevent dumb shit from happening, but what is more if there is an "adverse event" involving the device (which you must disclose to the FDA in your regular reporting) the clinician is qualified and capable of documenting what went wrong where as a patient may not be able to effectively do so (and in practice isn't acceptable) so patient operated devices have sophisticated event logging incase the data is ever needed. That's not to say clinician devices don't, they often do as well, but it's not alway needed.
Wait, wait wait, what does all this have to do with ridiculously complex disposable wound suckers?
Well before any of that other shit can even begin, you need a device, not a prototype a finished working UL listed (and/or whatever else you might require) ready to ship devices... well not just devices you also need manufacturing and quality control processes, the ones you are actually going to be using, and if your smart you have already started some kind of 3rd party clinical trials, if you've got a hot new bedpan your going to need to find some people and pay them to shit in it.
So with this in mind and investment capital being what it is, if you can avoid starting from scratch, and avoid doing anything unecessarly novel there is s huge advantage to doing so, even if that means reworking the hardware architecture, internal safety controls & event logging, housing design, UI, ergonomics and manufacturing processes of an existing hand held implant scanner from another product line (half of which was probably licensed from someone else for that project) just to make your new little 7 day wound sucker. . . . And if you make it all disposable, your boss can get another bonus because you just avoided 6 chapters of additional regulations and saved $2 million dollars in development costs.
So, money, greed, and enough red tape to hide their true intentions.
I've spent the past 20+ years in medical fields and dealt with both hardware and software and can tell you that most of the device vendors and very small companies that are just looking for a quick profit. Hardly any of them stay in business for very long because they either close doors or get sold to a bigger company that just relabels the products and cycle repeats. Aside from very large devices like CT and MRI scanners, which are regulated more, most of the smaller devices are very cheaply made. It is a very deep and interesting field to learn about though.
The wastefulness of these designs can be traced back to some disappointing realities.
1. Sr. Engineers are expensive.
2. Companies prioritize time to market
3. The chips were cheap.
So you had/have Jr. Level engineers designing stuff on tight schedules, and their only choice to get everything done is to throw whatever is easier to implement at the problem.
With the current chip shortage, I would expect Sr. Level engineers to be more in demand and a trend back to clever engineering instead of brute force solutions.
That puss pump having programmed death kinda makes sense to me. Not as a way to suck more money out of people but actually having a purpose. If the wound keeps putting the stuff out after a time the doctor told you to go get it checked and the pump still works, a lot of people may just keep using it to clean the wound even when it kinda should have stopped and if it's still oozing puss it really needs to get checked.
And also so that people wouldn't just store and reuse it. They are single use for a reason. Even if you reuse it yourself in a few years after thorough cleaning, it may give you a hidden extra infection.
The device looks cheaply made. Haven't seen those here, but possible that we use those in free healthcare countries too. I hope they don't cost too much in america either. It looks like it shouldn't cost too much.
In the US, that thing is probably several hundred dollars. Healthcare here is a fucking joke.
Edit: Found one place that says it is $495.
It's supposed to provide a consistent pressure, the the pressure transducer is necessary to regulate the pump since vacuum mod ambient = pressure at the wound.
It always blows my mind when you take some disposable thing like this apart and find a processor that’s way more powerful than my first desktop, even if it’s just to turn something on and off. It’s like engineers nowadays have never heard of 555s or even PIC16s.
I’m glad I brought that stuff in now! I learned more about the wound VAC a.k.a. pus sucker than I had known before! I’m not surprised that they are so wasteful. Especially considering how much they charge the patients for those devices…
All they need to do is hand out turkey basters. Maybe throw in a ziploc baggie if they want to monitor the results?
@@1pcfred Haha! It is a little more involved than that! I was surprised they didn’t use a microcontroller for the water gun at the start of the video!
Ah yes, everything I needed on a holiday Monday in the great white north... Impressions, singing, tear downs, griping at the past, AND BUD. A perfect video.
I've have experience with those wound vacs, technically they don't shut themselves off my model had a built-in cellular link but not like you would think from like a provider but some sort of other wireless network that they could remotely disable the unit.
mmHg is "Millimeters of Mercury," a unit of pressure ;D
Got here to write it. In usa they have inch hg
@@snik2pl In Europe we use pascals, mmHg is some weird non-standard measurement
from wikipaedia
The adjective endian comes from the 1726 novel Gulliver's Travels by Jonathan Swift where characters known as Lilliputians are divided into those breaking the shell of a boiled egg from the big end (Big-Endians) or from the little end (Little-Endians)
I don't know about these specific medical devices, but I know some of these one time use devices are recycled back to the original company that basically throws out the housing and reuses the board then sanatizes it all to be sent back to the medical personnel
9:30 That entire device can be replaced with a plastic bulb. I had on attached to a tube that ran under my skin all the way across my stomach. The tube was about 5 inches under my skin, and they just stuck a plastic bulb on the end that has a check valve on the end of it. they squeeze the bulb down, which pushes air out of the check valve, then the bulb tries to spring back into its original shape creating a slight amount of pressure. as the wound seeps, the bulb draws the goo into itself. when the bulb is full, they take it off and replace with a new one (or they empty it, i can't quite remember if the bulb gets reused). The whole plastic bulb thing is called a Jackson-Pratt device. There is a paper about them titled "How Much Blood Could a JP Suck If a JP Could Suck Blood?" and yes that is the actual title of the paper lol
I've brought around for 2 weeks a really uncomfy plastic thing that sucked blood plasma or other gunk out of a fresh surgery I had a few years ago. it had zero electronics, it just was a pressurized plastic cylinder with a thin tube running up my wound. I had trouble sitting or sleeping for 2 weeks, but no MCUs were ever wasted in my convalescence.
9:30 its possible that it only works for 7 days cuz it doesnt have a replacable ooze disposer or so the machine doesnt get too dirty after prolonged use
I swear Ben recycles more than my local municipal recycling collection.
I personally enjoy all your deviceive shenanigans.
I think mmHg is millimetres of mercury
It's amazing what you can get away with when you are the only manufacturer of a device for an industry that doesn't bill customers based on what things actually cost and is heavily subsidized by the government.
mmhg is millimeters of mercury. Hey, my degree in medical lab science finally pays off!
Ben, I wish I could send you one of the products we design at work. Mobility aids... Powered complex rehab wheelchairs... I was going to see if it was feasible to make custom controls based on PS / XB controllers some of the patients can only use a single finger> Imagine being able to swap out modules depending on the digit(s) they can use..
"I could use this for geysers of blood!" Sam Raimi would be proud.
Cool video! I never considered how many chips are thrown away in medical waste
When you're on your last legs most don't want to hear about conservation then. Whatever it takes!
@@1pcfred for sure! I just had a few medical procedures done and conservation was the least of my worries 😂
@@Skulldude69420 priorities can shift. Outlooks can change too.
I was an R&D engineer in an FDA compliant medical device design company. The cost of the chips was minuscule in comparison to the waste spent in business development and marketing.
mmhg means millimeters mercury most things that bring things down in a vacuum are measured in mercury in a vacuum.
MmHg is millimeters of mercury which is a way to measure pressure. 1psi is 51.7149 mmHg
Classic barometry!
Original barometer was a glass tube filled with mercury which had a known density, changes in atmospheric pressure caused a linear, proportional change in the height of the mercury in the tube!
Hence, mm of mercury!
00:50 Yup, used in surgery. For example during a hip replacement to wash out the blood and bone swarf after drilling out the hip. Connected to a bag of saline and a vacuum.
i set my NSA pringles can to respond to "ziggy" instead of its default name, since then i haven't accidentally set it off once.
I did some poking around and found one place charging $50, which means the hospital charges $8,000; and the insurance allowable is baked into the cost of the surgery, so it's a black hole.
II2C is Martian tech? ACK ACK ACK ACK?!
I used to have a mason jar filled with Atmel AT89C4051s, I would program them once and then solder them into stuff as at the time they were the same price as a 20 pin socket... now they are $2+ a piece if you can find them :(
Medical devices are awesome to scrap! Saw a video where one had a entire z80 complete inside.
Where's the sound?
No audio. I can only imagine the singing and impressions.
No sound for me. Using a Pixel 6 Pro - Android 13 Beta 2.
no sounds
your Harrison is getting better, not bad. absolutely disgusted at the waste of all these petrochemical plastics and copper and electronic components in the medical field. there has to be a more sustainable way to design tools for sterilisation and reuse
That's your opinion now but we'll see how you feel when it's you that needs care.
Second (gun) device is a wound irrigator. I saw it used in knee replacement surgery. Used pretty much for a few seconds. Bonus was free batteries (this was before eneloop).
why no audio?
So great!I have one of these in my to disect pile in the shop
Interesting how you've got both ends of the spectrum there. The first one just using a split battery pack to provide some rudimentary motor speed control without any electronic components whatsoever, and the second being incredibly over-engineered but doing basically the same job.
"I'm OOooOOoOoold!"
Always cracks me up :)
Going to be at this years MRRF?
reusing microcontrollers out of trash! gee, i try to do this but always fail to get verry basic things working on them, assuming i could get a working compiler
Even I know MM/Hg is millimeters of mercury.
Must be a good time for scavengers.
I hope you will do something with this chip in the near future. Maybe do an arduino that stops working after time up for example code.
mmHg represents millimeters of mercury pillar
17:55 this random hair flying by (above 100ms/s center frame)
Really cool video I like that i2c sniffing bit
God, just cables with proprietary connectors in the medical field could cost up towards $280 for a cable that's less than half a meter long.
Are all geniuses "mad"?
No, but it helps apparently lol
Being a genius is not normal in and of itself. So geniuses often come off as a bit odd.
We watch because we love yah bud!
I could supply you with all *sorts* medical care horror stories. Better hurry, tho- I'm headed to that great big DMV line in the sky soon...
No audio?
This is scary stuff! I though they cared for me! Better get an another beer to forget all this! Cheers fellas!
What do you mean "in the PAST"? It's probably still in production...
We have a kitchen chair with the same claw marks.
Funnily enough our recently departed tomcat's favourite spot to 'request' treats. "Feed me or the furniture gets it!"
(Sooty was 19 - you may be stuck with Bud a while yet!)
PS - so that expensive but disposable device really sucks and blows, eh? Here in the UK we just use our mouths to suck up pus - yummy!
PPS I nearly always eat my boiled eggs from the sharp end - shock, horror!
Why?
Because I've given up trying to work out where my wife squirrels things, including egg cups (and moves them if I find out). Take a boiled egg and whack it blunt end down, so turning the air pocket in to a stand... then eat - another of my wife's evil machinations defeated. Har, har!
PPPS I generally eat my bananas from the non-stalk end - all the other apes and monkeys in the world can't be wrong!
PPPPS What? The channel is about electronics..?
I should send you one of my wireless disposable insulin pumps to see what you find in there.
"64-128K A little on the low side"??? Back in my day...[insert monologue from middle-aged guy reminiscing about coding on 2K AVRs]
Also that Rossmann impression was on point lol!
You've taught me a few things here Ben!
Can microcontrollers really take heat that long and still work?
Yes.
Ben's a content beast! I dig it all! Thanks Ben ( :
mmhg millimetres of mercury...
For further clarity, mmHg is a unit of pressure. 760 mmHg is equivalent to one atmosphere.
mmHg is millimeters of mercury
To answer your question about how much it cost the big version of these is about $600 per day.
Bummer, no audio for me on any resolution on my phone
mm of Hg stands for millimeters of mercury, a measurement of pressure or vacuum. for instance your blood pressure 120/80 is in the units of mm Hg (aka Torr.)
mmHg means millimeters of mercury ben
Two voltages for two speeds, wouldn't that consume the batteries at different rates?
Depends on how it's wired
But it's thrown away after a few minutes use so the batteries never go flat. Also it costs $200
Enjoy your content. Understand that youtube burnout is real. I'm ashamed of the number of half finished projects I have. I'm amazed at your output.
Oh, and I would like to be the 100th person to say mmHg is millimeters of mercury.
I may not be the first to say this...mmHg=millimeters of mercury.
Metric people would know that instantly.
i only get 360 option but no audio in 360 either
It takes RUclips some time to convert videos.
mmHg = millimeters of mercury. Tiny vacuum measurement
mm\hg is a measurement of vacuum it stands for millimeters of mercury i only know that from working on cars lol
I got audio on my laptop but it's only 360p
Hey man, screw you im subscribing out of spite. This is like my 5th sub on YT ever.
But for real this was pretty awesome to learn and listen while I work on a car.
Although, stumbled upon your channel for a reason. Would you mind if I pick your brain about some tech sometime?
instructions unclear... to turn off - pull batterys out
lol
Would you consider making videos with an overdub explaining your thought process for some of the more technical things? I have an interest in your channel, but will never have the amount of experience you do in things like "an I squared CE prom".
You should make Bud the first ARM-powered cat using this chip. Better, stronger, faster...
"Stop Sucking" -Ben Heck, 2022
@4:12 … maybe I’m just clueless but what did he mean about the battery disconnect and Raytheon probably making it ? I’m assuming it was a joke but I’m not getting the connection (no pun intended) but I’m really curious now lol 🤔
I was thinking how a device that is supposed to be thrown away is ridiculously expensive
@7:18 missed opportunity: BUT IT STILL CHECKS OUT! :D
do you really want them to reuse a medical device?
...yes, of course? the devices should be designed for sterilisation to reduce the insane amount of waste of valuable or non-renewable resources. they're currently not because the people who make and the people who buy this equipment aren't held democratically accountable for the wasting they do; they get to externalise the cost
How do you have time for videos when you're also acting in the new season of "Love on the Spectrum"? (I'm kidding but man that dude looks like you doing a sketch.)
You would think there are other types of gauzes which could be used to abosorb wound puss without the need of this horrific amount of single use waste...
It's called someone willing to dress it. With no medical background, no training...
25:13 - you made C-3PO sound like Derek Nimmo
Your comment on Endian, made me think of the song by Antrax - Indians
Audio on desktop but only 360p.