2020. What a year. We’ve been social distancing since late February and being very careful in terms of minimizing interactions even with family, for months. We haven’t traveled, we haven’t gone out to eat, and we basically only go out to get exercise (with a mask when it’s on hiking trails/around anyone) or Scott goes to the grocery store (n95 masked). We’ve been working on CoEpi (see CoEpi.org – an open source exposure notification app based on symptom reports) and staying on top of the scientific literature around COVID-19, regarding NPIs like distancing and masking; at-home diagnostics like temperature and pulse oximetry monitoring, prophylactics and treatments like zinc, quercetine, and even MMR vaccines; and the impact of ventilation and air quality on COVID-19 transmission and susceptibility.
And we live in Washington, so the focus on air quality got very real very quickly during this year’s wildfire season, where we had wildfires across the state of Washington, then got pummeled for over a week with hazardous levels of wildfire smoke coming up from Oregon and California to cover our existing smoke layer. But, one of our DIY air quality hacks for COVID-19 gave us a head start on air quality improvements for smoke-laden air, which I’ll describe below.
Here are various things we’ve gotten and have been using in our personal attempts to thwart COVID-19:
- Finger pulse oximeter.
- Just about any cheap pulse oximeter you can find is fine. The goal is to get an idea of your normal baseline oxygen rates. If you dip low, that might be a reason to go to urgent care or the ER or at least talk to your doctor about it. For me, I am typically 98-99% (mine doesn’t read higher than 99%), and my personal plan would be to talk to a healthcare provider if I was sick and started dropping below 94%.
- Thermometer
- Use any thermometer that you’ll actually use. I have previously used a no-touch thermometer that could read foreheads but found it varied widely and inconsistently, so I went back to an under the tongue thermometer and took my temperature for several months at different times to figure out my baselines. If sick or you have a suspected exposure, it’s good to be checking at different times of the day (people often have lower temps in the morning than in the evening, so knowing your daily differences may help you evaluate if you’re elevated for you or not).
- Note: women with menstrual cycles may have changes related to this; such as lower baseline temps at the start of the cycle and having a temperature upswing around or after the mid-point in their cycle. But not all do. Also, certain medications or birth controls can impact basal temperatures, so be aware of that.
- Originally, n95 masks with outlet valves.
- Note: n95 masks with valves cannot be used by medical professionals, because the valves make them less effective for protecting others. (So don’t freak out at people who had a box of valved n95 masks from previous wildfire smoke seasons, as we did. Ahem.)
- We had a box we bought after previous years’ wildfire smoke, and they work well for us (in low-risk non-medical settings) for repeated use. They’re Scott’s go-to choice. If you’re in a setting where the outlet valve matters (indoors in a doctor’s/medical setting, or on a plane), you can easily pop a surgical/procedure mask over the valve to block the valve to protect others from your exhaust, while still getting good n95-level protection for yourself.
- They were out of stock since February, but given the focus on n95 without valves for medical PPE, there have been a few boxes of n95 masks with outlet valves showing up online at silly prices ($7 per mask or so). But, kn95’s are a cheaper per mask option that are generally more available – see below.
- (June 2021 note – they are back to reasonable prices, in the $1-2 range per mask on Amazon, and available again.)
- kn95 masks.
- kn95 masks are a different standard than US-rated n95; but they both block 95% of tiny (0.3 micron) particles. For non-medical usage, we consider them equivalent. But like n95, the fit is key.
- We originally bought these kn95s, but the ear loops were quite big on me. (See below for options if this is the case on any you get.) They aren’t as hardy as the n95s with valves (above); the straps have broken off, tearing the mask, after about 4-5 long wears. That’s still worth it for them being $2-3 each (depending on how many you buy at a time) for me, but I’d always pack a spare mask (of any kind) just in case.
- Option one to adjust ear loops: I loop them over my ponytail, making them head loops. This has been my favorite kn95 option because I get a great fit and a tight seal with this method.
- Option two to adjust ear loops: tie knots in the ear loops
- Option three to adjust ear loops: use things like this to tighten the ear loops
- We also got a set of these kn95s. They don’t fit quite as well in terms of a tight face fit, but these actually work as ear loops (as designed), and I was able to wear this inside the house on the worst day of air quality.
- Box fan with a filter to reduce COVID-19 particles in the air:
- We read this story about using an existing AC air furnace filter on a box fan to help reduce the number of COVID-19 particles in the air. We already had a box fan, so we took one of our spare 20×20 filters and popped it on. I’m allergic to dust, cats (which we just got), trees, grass, etc, so I knew it would also help with regular allergens. There are different levels of filter – all the way up to HEPA filters – but we had MERV 12 so that’s what we used.
- Phone/object UV sanitizer
- We got a PhoneSoap Pro (in lavender, but there are other colors). Phones are germy, and being able to pop the phone in (plus keys or any other objects like credit cards or insurance cards that might have been handled by another human) to disinfect has been nice to have.
- The Pro is done sanitizing in 5 minutes, vs the regular one takes 10 minutes. It’s not quite 2x the price as the non-pro, but I’ve found it to be worthwhile because otherwise, I would be impatient to get my phone back out. I usually pop my phone in it when I get home from my walk, and by the time I’m done washing my hands and all the steps of getting home, the phone is about or already done being sanitized.
- Bonus (but not as useful to everyone as the above, and pricey): Oura ring
- Scott and I also both got Oura rings. They are pricey, but every morning when we wake up we can see our lowest resting heart rate (RHR), heart rate variability (HRV), temperature deviations, and respiratory rate (RR). There have been studies showing that HRV, RHR, overnight temperature, and RR changes happen early in COVID-19 and other infections, which can give an early warning sign that you might be getting sick with something. That can be a good early warning sign (before you get to the point of being symptomatic and highly infectious) that you need to mask up and work from home/social distance/not interact with other people if you can help it. I find the data soothing, as I am used to using a lot of diabetes data on a daily and real-time basis (see also: invented an open source artificial pancreas). Due to price and level of interest in self-tracking data, this may not be a great tool for everyone.
- Note this doesn’t tell you your temperature in real time, or present absolute values, but it’s helpful to see, and get warnings about, any concerning trends in your body temperature data. I’ve seen several anecdotal reports of this being used for early detection of COVID-19 infection and various types of relapses experienced by long-haulers.
And here are some things we’ve added to battle air quality during wildfire smoke season:
- We were already running a box fan with a filter (see above for more details) for COVID-19 and allergen reduction; so we kept running it on high speed for smoke reduction.
- Basic steps: get box fan, get a filter, and duct tape or strap it on. Doesn’t have to be cute, but it will help.
- I run this on high speed during the day in my bedroom, and then on low speed overnight or sleep with earplugs in.
- We already had a small air purifier for allergens, which we also kept running on high. This one hangs out in our guest bedroom/my office.
- We caved and got a new, bigger air purifier, since we expect future years to be equally and unfortunately as smoky. This is the new air purifier we got. (Scott chose the 280i version that claims to cover 279 sq. ft.). It’s expensive, but given how miserable I was even inside the house with decent air quality thanks to my box fan and filter, little purifier, and our A/C filtered air… I consider it to be worth the investment.
- We plugged it in and validated that with our A/C-filtered air combined with my little air purifier and the box fan with filter running on high, we already had ‘good’ air quality (but not excellent). We also stuck it out in the hallway to see what the hallway air quality was running – around 125 ug/m^3 – yikes. Turns out that was almost as high as the outside air, which is I’ve had to wear a kn95 mask even to walk hallway laps, and why my eyes are irritated.
- We plugged it in and validated that with our A/C-filtered air combined with my little air purifier and the box fan with filter running on high, we already had ‘good’ air quality (but not excellent). We also stuck it out in the hallway to see what the hallway air quality was running – around 125 ug/m^3 – yikes. Turns out that was almost as high as the outside air, which is I’ve had to wear a kn95 mask even to walk hallway laps, and why my eyes are irritated.
- Check your other filters while you’re on air quality monitoring alert. We found our A/C intake duct vent had not had the air filter changed since we moved in over a year ago… and turns out it’s a non-standard size and had a hand-cut stuffed in there, so we ordered a correctly sized one for the vent, and taped a different one over the outside in the interim.
- The other thing to fight the smoke is having n95 with valves or kn95 masks to wear when we have to go outside, or if it gets particularly bad inside. Our previous strategy was to have several on hand for wildfire season, and we’ll continue to do this. (See above in the COVID-19 section for descriptions in more detail about different kinds of masks we’ve tried.)
- 2022 update: I got a mini personal air purifier to try for travel (to help reduce risk of COVID-19 in addition to all other precautions like staying masked on planes and indoor spaces), but it also turned out to be beneficial inside during the worst of our 2022 wildfire smoke season. I had a slightly scratchy throat even with two box fans and two different air purifiers inside; but keeping this individual one plugged in and pointed at my face overnight eliminated me waking up with a scratchy throat. That’s great for wildfire smoke, and also shows that there is some efficacy to this fan for it’s intended purpose, which is improving air around my face during travel in inside spaces for COVID-19 and other disease prevention.
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Wildfires, their smoke, and COVID-19 combined is a bit of a mess for our health. Stay inside when you can, wear masks when you’re around other people outside your household that you have to share air with, wash your hands, and good luck.
Blood glucose and insulin exhibit coupled biological rhythms at multiple timescales, including hours (ultradian, UR) and the day (circadian, CR) in individuals without diabetes. The presence and stability of these rhythms are associated with healthy glucose control in individuals without diabetes. (See right, adapted from 
A) Circadian (blue) and 3-6 hour ultradian (maroon) coherence of glucose and insulin in HCL (solid) and SAP (dotted) users. Transparent shading indicates standard deviation. Although both HCL and SAP individuals have lower coherence than would be expected in a non-T1D individual, HCL CR and UR coherence are significantly greater than SAP CR and UR coherence (paired t-test p= 1.51*10-7 t=-5.77 and p= 5.01*10-14 t=-9.19, respectively). This brings HCL users’ glucose and insulin closer to the canonical non-T1D phenotype than SAP users’.
1 – A parent of a child using Control-IQ (off-label), with 30% increase in TIR with no increased hypoglycemia. They spend less time correcting than before; less time thinking about diabetes; and “get solid uninterrupted sleep for the first time since diagnosis”. They wish they had remote bolusing, more system information available in remote monitoring on phones. They miss using the system during the 2 hour CGM warmup, and found the system dealt well with growth spurt hormones but not as well with underestimated meals.
2 – An adult male with T1D who previously used DIYAPS saw 5-10% decrease in TIR (but it’s on par with other participants’ TIR) with Control-IQ, and is very pleased by the all-in-one convenience of his commercial system.He misses autosensitivity (a short-term learning feature of how insulin needs may very from base settings) from DIYAPS and has stopped eating breakfast, since he found it couldn’t manage that well. He is doing more manual corrections than he was before.
5 – An adult female with LADA started, stopped, and started using Control-IQ, getting the same TIR that she had before on Basal-IQ. It took artificially inflating settings to achieve these similar results. She likes peace of mind to sleep while the system prevents hypoglycemia. She is frustrated by ‘too high’ target; not having low prevention if she disables Control-IQ; and how much she had to inflate settings to achieve her outcomes. It’s hard to know how much insulin the system gives each hour (she still produces some of own insulin).
7 – An adult female with T1D who frequently has to take steroids for other reasons, causing increased BGs. With Control-IQ, she sees 70% increase in TIR overall and increased TIR overnight, and found it does a ‘decent job keeping up’ with steroid-induced highs. She also wants to run ‘tighter’ and have an adjustable target, and does not ever run in sleep mode so that she can always get the bolus corrections that are more likely to bring her closer to target.
3 – An adult male with T1D using 670G for 3 years didn’t observe any changes to A1c or TIR, but is pleased with his outcomes, especially with the ability to handle his activity levels by using the higher activity target. He is frustrated by the CGM and is woken up 1-2x a week to calibrate overnight. He wishes he could still have low glucose suspend even if he’s kicked out of automode due to calibration issues. He also commented on post-meal highs and more manual interventions.
6 – Another adult male user with 670G was originally diagnosed with T2 (now considered T1) with a very high total daily insulin use that was able to decrease significantly when switching to AID. He’s happy with increased TIR and less hypo, plus decreased TDD. Due to #COVID19, he did virtually training but would have preferred in-person. He has 4-5 alerts/day and is woken up every other night due to BG alarms or calibration. He does not like the time it takes to charge CGM transmitter, in addition to sensor warmup.
4 – The last participant is an adult male with T1 who previously used DIYAPS but was able to test-drive the CamAPS FX. He saw no TIR change to DIYAPS (which pleased him) and thought the learning curve was easy – but he had to learn the system and let it learn him. He experienced ‘too much’ hypoglycemia (~7% <70mg/dL, 2x his previous), and found it challenging to not have visibility of IOB. He also found the in-app CGM alarms annoying. He noted the system may work better for people with regular routines.
Looking at results for #OpenAPS data donors post-looping initiation, CV was 35.5±5.9, while eA1c was 6.4±0.7. TIR (3.9-10mmol/L) was 77.5%. Time spent >10 was 18.2%; time <3.9 was 4.3%.
We selected a subcohort of n=34 who had data available from before DIY closed looping initiation (6.5 years combined of CGM records), as well as data from after (12.5 years of CGM records).
Time in a range significantly increased for both wider (3.9-10 mmol/L) and tighter (3.9-7.8 mmol/L) ranges.
Time spent out of range decreased. % time spent >10 mmol/L decreased -8.3±8.6 (p<0.001); >13 mmol/L decreased -3.3±5.0 (p<0.001). Change in % time spent <3.9 mmol/L (-1.1±3.8 (p=0.153)), and <3.0 mmol/L (-0.7±2.2 (p=0.017)) was not significant.
There were less CGM records in the hypoglycemic range after initiating DIYAPS.
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