I have frequent ectopic beats that I feel as a flutter / heavy beat on my chest. The doc says it won't kill me but it is extremely uncomfortable at times. This has been a great material to learn about the inner workings of heart cells.
If you happen to have these, just get checked out by a cardiologist. They are almost always benign but the frequency / daily amount are reasons for concern.
rdegges 16 hours ago [-]
I had something similar for many years (triggered by an episode of afib brought-on by triggering my vagus nerve). The one thing that has helped me fully get rid of these (after YEARS of trial-and-error) was getting onto beta blockers (Propranolol).
These have COMPLETELY gotten rid of my ectopic beats and also helped me deal with the health anxiety.
If you ever want to talk, feel free to hit me up (contact info in profile).
grumpy-de-sre 15 hours ago [-]
Propranolol is such an underrated drug, or at-least it was when I first started using it twenty years ago (initially for hand tremors but I found it did more than settle just my hands). Glad others have been discovering its usefulness over the years.
I think they've even recently found use in cancer therapy [1].
Sir James Black the pharmacologist who developed it is an absolute legend [2].
Yeah, I’ve been on propranolol and then metoprolol but they don’t seem to do much in terms of reducing ectopics. Currently on metoprolol though.
I’ve had an echo, stress ecg and then a ct angiogram. Everything is physically fine so at this point I mostly ignore them cause at least I know they are not an immediate danger.
Thanks!
UncleOxidant 13 hours ago [-]
> an episode of afib brought-on by triggering my vagus nerve
I get ectopic beats when I've got trapped gas in the stomach. Sounds weird, but generally when I get them I realize I need to stand up (because I've usually been sitting with bad posture which leads to the trapped gas) and have a large belch and then it calms down. I mentioned this to my doc and he said it was Roemheld syndrome ( https://en.wikipedia.org/wiki/Roemheld_syndrome ) which is vagus nerve-related.
12 hours ago [-]
throwaway7783 11 hours ago [-]
Daily dose of magnesium supplements has made it tolerable for me, when beta blockers (carvedilol) didn't help much.
0_____0 3 hours ago [-]
I used to get them occasionally. A few years back I started doing loads of cardio exercise and I noticed a while back that I hadn't had the flutter for a long time. I always wondered if it was due to increased cardiac fitness.
elric 16 hours ago [-]
Many (most?) people get ectopic beats, but the threshold for noticing them seems to differ. Being stressed/anxious makes them more noticeable. There's a self-reinforcing feedback loop: the more you notice them & worry about them, the easier you will notice them ...
The thing about arrhythmias is that they can only cause damage while they're happening, but ectopics are only a problem for a single beat, which is not going to impact your oxygenation or blood pressure or anything else. Even a bunch of them every day won't cause any damage.
UncleOxidant 15 hours ago [-]
> Many (most?) people get ectopic beats, but the threshold for noticing them seems to differ.
This. Some of us have very high levels of proprioception. I can feel my pulse just by sitting quietly - I don't need to put my finger on my wrist to take it. Same with ectopic beats, I definitely feel them. And I find that there's a cycle to it - as you say there's a feedback loop: feel ectopic beat, become anxious, more ectopic beats, more anxious, etc. Then I have to try to actively forget about them. During those feedback times I'll have many ectopic beats / day (many per hour, even), but then some days later I'll realize I haven't had any for a while and I might go for weeks without noticing any.
eknkc 14 hours ago [-]
Apparently everyone gets them but the burden (% of beats being screwed up) is important. A high burden for prolonged periods means damage accumulation.
I had 2 24 hour monitors and one caught 700 eptopic beats in a day. Another couple months later, 15.000 in a day. The second one was a concern for the cardiologist. She ordered a couple more tests, started beta blockers asked for diet changes.
I still have a high burden as I can feel them but whatever..
ggambetta 14 hours ago [-]
I had some of those, verified by ECG. Cut down on coffee a bit, they went away.
pscanf 19 hours ago [-]
Exciting simulations! :) And an excellent explanation.
From time to time I get episodes of sudden tachycardia¹. It's a very strange feeling: one second everything is fine, the next my heart jumps in my throat and starts beating at 230 bpm (not a typo). After a while, just as quickly as it came, the tachycardia goes away and I'm back at whatever HR I was before the trigger. If it doesn't go away by itself, breathing in deep and holding my breath typically does the trick. It's like a light switch! A bit scary, but also very fascinating.
Thanks for explaining so well what goes on "under the hood"!
With WPW you MUST NOT take beta blockers (AFAIR), it may kill you.
I had just plain vanilla Afib and got ablation 2 years ago - best thing ever, cured instantly.
pscanf 15 hours ago [-]
Fortunately I don't think it's WPW in my case. Or at least, my cardiologist never mentioned it, so I assume it's some other condition that has similar symptoms.
I have the same bouts of tachycardia. They are very intermittent, no real cause. And the same breath holding technique works for me. Very interesting stuff!
TheJoeMan 17 hours ago [-]
Do you drink a lot of caffeine? A family member had this occasionally with no family history of issues, and the cardiologist had them wear a portable EKG for a few days that synced with an Android phone, with not much results. Finally the family member cut down from 4 espresso shots a day to just 1 cup of brewed, and the issue hasn't returned.
pscanf 15 hours ago [-]
Yeah, several cups of tea per day. I also recently had that test done, but nothing emerged as nothing occurred during the 24 hours I was monitored. Just like I expected, actually, as fortunately those episodes are very rare for me, not enough to warrant drastic lifestyle changes. (I can't give up my tea! :D )
dcminter 17 hours ago [-]
A couple of years ago I woke with a minor headache that I ignored for various reasons all day, then skipped lunch as I had an important meeting later and lots to do ahead of it, and the headache got progressively worse. Just before the meeting I felt nauseous, threw up, and then started having the feeling of palpitations in my chest. I've always had them from time to time - that feeling that ones heart has skipped a beat or taken a couple of extra ones - but this time it wasn't going away after a couple of beats.
To cut a long story short, I went to hospital (instead of that meeting) and it turned out that it was atrial fibrillation and that while it feels medium terrifying it's not necessarily that big a deal.
It went away after a couple of days (if it had lasted longer they'd have done "electroconversion" to try to get it back into the proper ryhythm artificially). Apparently the real danger of this is that it might cause a blood clot which in turn could cause a stroke, but it's unlikely to be an issue in the short term.
They did put me on blood thinners and beta blockers between the occurrence and getting a full check up a month later, so I was very calm when we rescheduled that meeting.
Top tip: don't ignore a terrible headache; go to bed.
Edit: PS I think my heart rate was just above 100bpm at rest (possibly 120?), which was unnerving enough, so I can imagine how much more scary 230bpm must feel! You definitely win.
PaulHoule 15 hours ago [-]
I fainted when I was an exercise class. I'd had too much to eat before then, my digestion was pretty slow then, also it was a crazy hot day in a building with a pool (high humidity) and an old HVAC system. Didn't help that I had a crush on the instructor and was trying even harder because of that.
Woke up on the ground feeling very relaxed. Got a medical workup that checked a lot of things, they had me wear a Holter monitor for a month. In the last 30 minutes of the study period they caught five bad heartbeats of A-Fib when I was sleeping. Funny one of my evil twin's schemes went south around then and I (we?) were feeling really bad about it. My cardiologist told me that the threshold was one bad heartbeat so I have A-Fib and have a risk of strokes, he recommended that I take a baby aspirin as it has a mild blood thinning effect.
Around the beginning of the next year I developed a deep vein thrombosis which got cleared up with Eliquis, a blood thinner. The emergency room referred me to my primary care doc who ran all sorts of tests and couldn't find a reason for the DVT so he decided to keep me on Eliquis indefinitely, the cardiologist figured that covered the A-Fib so I dropped the aspirin because the combination could cause excessive bleeding.
I have one of those credit card Kardia EKGs and haven't seen an A-Fib episode yet. For the decade before I got that workup I did crazy amounts of cardio (helped me stay sane under incredible pressure) and around the time my evil twin was out I was getting up in the morning before sunrise, hiking 6 miles, going to the gym during the day, going out in the evening and hiking another 6 miles. My cardiologist says I have "Athlete's heart" with an abnormally low resting heart rate (drops below 50 at night when I get a good night's rest) and I shouldn't do more than an hour of cardio a day, so I don't.
pscanf 15 hours ago [-]
Yeah, the first time it happened (about 15 years ago) I thought "that's it, I'm dead". Heart things are unnerving indeed! Best of luck with your AFib!
johannes_ne 14 hours ago [-]
Thank you for all the kind responses.
I also want to make a similar article, where I calculate an ECG for the simulation, and then make and explain the changes necessary to make the ECG look realistic. A main challenge will be that the depolarization has to happen very fast relative to the repolarization, which may be computationally difficult for a cell-based simulation.
fraserphysics 4 hours ago [-]
Also cool would be the inverse. Going from ECG to plausible simulated RD dynamics.
PaulHoule 15 hours ago [-]
I'm rarely intimidated by a textbook but I was intimidated by a set of cardiology books I saw at the vet school. The topological structure of waves in the heart is
because cardiac cells circle around a loop with phase from 0 to 2π, contrast that the usual oscillator which has position p and momentum q. An oscillation in that space can rotate around the center and look like a phase but it's also possible to go right through the center, whereas for cardiac excitations the p variable is on the unit circle. This astonishing book covers the topology of this kind of thing:
particularly the cases where you have just one phase (e.g. jet lag or cell division or plant phenology) but it applies as well to those spiral waves where every element in the medium has a phase.
randerson 15 hours ago [-]
I had a benign irregular heartbeat (Premature Ventricular Contractions) for half my life. During one checkup the cardiologist said my heart had become enlarged to compensate, and if I wanted an energy boost I should get an ablation surgery.
The ablation was quite the experience as I was kept conscious throughout (and I felt euphoric thanks to the painkillers). A team of students carefully threaded a wire in through my femoral artery, guided it up to the inside of the heart and zapped the problematic cells. I could actually feel the moment they fixed it. One moment my rhythm was irregular, the next it was regular. They then ran a series of stress tests that included injecting me with something that pushed my heart rate above 200 bpm. That was uncomfortable. I was back to my normal routine 24 hours later and I did indeed have more energy.
fraserphysics 16 hours ago [-]
I am reworking the analysis of ECGs from an old contest, and I want help from an expert.
In 2000 the Computers in Cardiology challenge (CINC2000) provided ECGs from sleep studies of 70 patients and asked contestants to identify obstructive sleep apnea based on those ECGs. I was on the team that won.
Excellent article! Well written and the animations make it so much easier to understand. However I was unable to get the loops to go.
samwho 19 hours ago [-]
I was able to do it by clicking in a few places in quick succession evenly spread out.
jcattle 19 hours ago [-]
Try clicking in one place repeatadly and adjust clicks slightly to always go next to the fastest refractory cell possible. This works like a charm to induce arrhytmia
leereeves 18 hours ago [-]
I was able to consistently start a loop in one click by clicking on the edge between grey and white (slow and fast refractory) cells ASAP after a normal beat.
If I'm fast enough, the wave can't spread to the grey cells so it only goes in direction around the red cells and starts a loop.
(But you can't do this on the first image with a Defibrillate! button because there are no slow cells.)
Kalabasa 20 hours ago [-]
Learned about the heart today! Thank you!
I wonder what other types of cells / tissues can be simulated by cellular automata?
danwills 7 hours ago [-]
I think many types can if you broaden the definition of automata to include 'reaction diffusion' you can even simulate things like the Schrödinger equation under a RD scheme! (there are some examples in gollygang/Ready).
RD was invented by Alan Turing as a way to model animal coat patterns too, and I think it's exceptionally good at that (I did a talk at Houdini Hive SiggraphAsia2019 about it: https://youtu.be/K_7TkoIkFhk?si=afhcjZ8TeysNJxRH)
owenpalmer 15 hours ago [-]
I was thinking the same thing. I need more simulations like this!
danwills 7 hours ago [-]
Definitely have a look at gollygang/Ready I reckon! There are some really fascinating things in the pattern library (including some that I contributed).
As someone who had their life upended last year upon discovering I had AVNRT, this article is much appreciated. I'm still trying to understand the root cause of my arrhythmia, because two ablations and one daily medication later and I still have regular episodes.
It's wild how many different types of arrhythmia there are, and how they can be connected to many other systems in the body. It seems like mine might be related to my nervous system.
samwho 21 hours ago [-]
Absolutely fantastic. Well done!
the_arun 16 hours ago [-]
Trying to understand Author’s education. Have they done both Medicine & Engineering? Looking at their articles & github, they are sound in electro physiology, Anaesthesiology & software. Great intersection of knowledge.
johannes_ne 15 hours ago [-]
Thank you all for the interest in the article and the kind feedback.
I'm a medical doctor with an interest in engineering and coding.
My PhD was quite focused on signal analysis and coding, and my supervisor is a medical engineer.
mjamesaustin 16 hours ago [-]
I don't know the author, but I will note that my cardiologist got an Electrical Engineering degree before going to medical school and views it as a huge advantage when dealing with the heart.
16 hours ago [-]
agumonkey 20 hours ago [-]
Anybody know similar article but about blood flow / hemorheology ?
EncomLab 20 hours ago [-]
As someone who lives with this reality moment to moment (thanks to a deeply bridged LAD coronary artery) it is interesting to see a visual representation of these effects.
BenFranklin100 7 hours ago [-]
Off topic, but I’v always wanted to download web pages like this that contain interactive plots for self-study or later reference. Solutions like SingleFile or Zotero never work though.
Any suggestions?
dheera 16 hours ago [-]
Oh this is interesting. Thanks!
I've survived ventricular fibrillation 3 times and have an implanted ICD. I never really understood why delivering high voltage shocks is that effective, and always have anxiety about "the time it won't work"
leereeves 18 hours ago [-]
I love this article. I had already learned all the facts in the article, but even so, the interactive animations helped me understand it better. Thank you.
Rendered at 07:49:24 GMT+0000 (Coordinated Universal Time) with Vercel.
BTW Here's an ECG from my Apple Watch showing 3 such beats (you can't miss them): https://link.ekin.dev/l1Vc3Gdf
If you happen to have these, just get checked out by a cardiologist. They are almost always benign but the frequency / daily amount are reasons for concern.
These have COMPLETELY gotten rid of my ectopic beats and also helped me deal with the health anxiety.
If you ever want to talk, feel free to hit me up (contact info in profile).
I think they've even recently found use in cancer therapy [1].
Sir James Black the pharmacologist who developed it is an absolute legend [2].
1. https://www.tandfonline.com/doi/full/10.1080/2162402X.2023.2...
2. https://www.youtube.com/watch?v=ZPe0sLghRBQ&list=PLVV0r6CmEs...
I’ve had an echo, stress ecg and then a ct angiogram. Everything is physically fine so at this point I mostly ignore them cause at least I know they are not an immediate danger.
Thanks!
I get ectopic beats when I've got trapped gas in the stomach. Sounds weird, but generally when I get them I realize I need to stand up (because I've usually been sitting with bad posture which leads to the trapped gas) and have a large belch and then it calms down. I mentioned this to my doc and he said it was Roemheld syndrome ( https://en.wikipedia.org/wiki/Roemheld_syndrome ) which is vagus nerve-related.
The thing about arrhythmias is that they can only cause damage while they're happening, but ectopics are only a problem for a single beat, which is not going to impact your oxygenation or blood pressure or anything else. Even a bunch of them every day won't cause any damage.
This. Some of us have very high levels of proprioception. I can feel my pulse just by sitting quietly - I don't need to put my finger on my wrist to take it. Same with ectopic beats, I definitely feel them. And I find that there's a cycle to it - as you say there's a feedback loop: feel ectopic beat, become anxious, more ectopic beats, more anxious, etc. Then I have to try to actively forget about them. During those feedback times I'll have many ectopic beats / day (many per hour, even), but then some days later I'll realize I haven't had any for a while and I might go for weeks without noticing any.
I had 2 24 hour monitors and one caught 700 eptopic beats in a day. Another couple months later, 15.000 in a day. The second one was a concern for the cardiologist. She ordered a couple more tests, started beta blockers asked for diet changes.
I still have a high burden as I can feel them but whatever..
From time to time I get episodes of sudden tachycardia¹. It's a very strange feeling: one second everything is fine, the next my heart jumps in my throat and starts beating at 230 bpm (not a typo). After a while, just as quickly as it came, the tachycardia goes away and I'm back at whatever HR I was before the trigger. If it doesn't go away by itself, breathing in deep and holding my breath typically does the trick. It's like a light switch! A bit scary, but also very fascinating.
Thanks for explaining so well what goes on "under the hood"!
¹ https://en.wikipedia.org/wiki/Paroxysmal_supraventricular_ta..., I believe.
https://www.mayoclinic.org/diseases-conditions/wolff-parkins...
I had just plain vanilla Afib and got ablation 2 years ago - best thing ever, cured instantly.
https://www.mayoclinic.org/diseases-conditions/wolff-parkins...
I have the same bouts of tachycardia. They are very intermittent, no real cause. And the same breath holding technique works for me. Very interesting stuff!
To cut a long story short, I went to hospital (instead of that meeting) and it turned out that it was atrial fibrillation and that while it feels medium terrifying it's not necessarily that big a deal.
It went away after a couple of days (if it had lasted longer they'd have done "electroconversion" to try to get it back into the proper ryhythm artificially). Apparently the real danger of this is that it might cause a blood clot which in turn could cause a stroke, but it's unlikely to be an issue in the short term.
They did put me on blood thinners and beta blockers between the occurrence and getting a full check up a month later, so I was very calm when we rescheduled that meeting.
Top tip: don't ignore a terrible headache; go to bed.
Edit: PS I think my heart rate was just above 100bpm at rest (possibly 120?), which was unnerving enough, so I can imagine how much more scary 230bpm must feel! You definitely win.
Woke up on the ground feeling very relaxed. Got a medical workup that checked a lot of things, they had me wear a Holter monitor for a month. In the last 30 minutes of the study period they caught five bad heartbeats of A-Fib when I was sleeping. Funny one of my evil twin's schemes went south around then and I (we?) were feeling really bad about it. My cardiologist told me that the threshold was one bad heartbeat so I have A-Fib and have a risk of strokes, he recommended that I take a baby aspirin as it has a mild blood thinning effect.
Around the beginning of the next year I developed a deep vein thrombosis which got cleared up with Eliquis, a blood thinner. The emergency room referred me to my primary care doc who ran all sorts of tests and couldn't find a reason for the DVT so he decided to keep me on Eliquis indefinitely, the cardiologist figured that covered the A-Fib so I dropped the aspirin because the combination could cause excessive bleeding.
I have one of those credit card Kardia EKGs and haven't seen an A-Fib episode yet. For the decade before I got that workup I did crazy amounts of cardio (helped me stay sane under incredible pressure) and around the time my evil twin was out I was getting up in the morning before sunrise, hiking 6 miles, going to the gym during the day, going out in the evening and hiking another 6 miles. My cardiologist says I have "Athlete's heart" with an abnormally low resting heart rate (drops below 50 at night when I get a good night's rest) and I shouldn't do more than an hour of cardio a day, so I don't.
I also want to make a similar article, where I calculate an ECG for the simulation, and then make and explain the changes necessary to make the ECG look realistic. A main challenge will be that the depolarization has to happen very fast relative to the repolarization, which may be computationally difficult for a cell-based simulation.
https://en.wikipedia.org/wiki/Spiral_wave
because cardiac cells circle around a loop with phase from 0 to 2π, contrast that the usual oscillator which has position p and momentum q. An oscillation in that space can rotate around the center and look like a phase but it's also possible to go right through the center, whereas for cardiac excitations the p variable is on the unit circle. This astonishing book covers the topology of this kind of thing:
https://archive.org/details/geometryofbiolog0000winf/page/n9...
particularly the cases where you have just one phase (e.g. jet lag or cell division or plant phenology) but it applies as well to those spiral waves where every element in the medium has a phase.
The ablation was quite the experience as I was kept conscious throughout (and I felt euphoric thanks to the painkillers). A team of students carefully threaded a wire in through my femoral artery, guided it up to the inside of the heart and zapped the problematic cells. I could actually feel the moment they fixed it. One moment my rhythm was irregular, the next it was regular. They then ran a series of stress tests that included injecting me with something that pushed my heart rate above 200 bpm. That was uncomfortable. I was back to my normal routine 24 hours later and I did indeed have more energy.
In 2000 the Computers in Cardiology challenge (CINC2000) provided ECGs from sleep studies of 70 patients and asked contestants to identify obstructive sleep apnea based on those ECGs. I was on the team that won.
Now I am reworking the problem for the second edition of a book (see https://www.fraserphysics.com/book.pdf), and I see great variety in those ECGs (see https://www.fraserphysics.com/all_ecgs.pdf). I suspect that some of that variety is due to lead placement, and some is due to pathology, but I'm not sure.
Is anyone here willing to help me out?
If I'm fast enough, the wave can't spread to the grey cells so it only goes in direction around the red cells and starts a loop.
(But you can't do this on the first image with a Defibrillate! button because there are no slow cells.)
I wonder what other types of cells / tissues can be simulated by cellular automata?
RD was invented by Alan Turing as a way to model animal coat patterns too, and I think it's exceptionally good at that (I did a talk at Houdini Hive SiggraphAsia2019 about it: https://youtu.be/K_7TkoIkFhk?si=afhcjZ8TeysNJxRH)
https://github.com/GollyGang/ready
It's wild how many different types of arrhythmia there are, and how they can be connected to many other systems in the body. It seems like mine might be related to my nervous system.
I'm a medical doctor with an interest in engineering and coding. My PhD was quite focused on signal analysis and coding, and my supervisor is a medical engineer.
Any suggestions?
I've survived ventricular fibrillation 3 times and have an implanted ICD. I never really understood why delivering high voltage shocks is that effective, and always have anxiety about "the time it won't work"