@Thoughtfulnz @MichaelPlankNZ Need to consider local factors when modelling local epidemics, but also - as you say - the introduction of new variants will depend on global evolutionary dynamics. Similar for flu: https://t.co/PTLNKBLzIe
@D_Breadboard @GillianMcKeith Epidemiology. Do you understand it? https://t.co/kcPQeJxvYe
RT @adamjkucharski: As with influenza, they find a 'ladder-like' phylogenetic tree, suggesting that new variants emerge, become dominant, t…
@MyTse2 @DrDOwens Hope Simpson's latency hypothesis is an interesting hypothesis, I wouldn't rule out it playing a role in some infections, but it's not so consistent with genetic analyses of samples from global influenza surveillance https://t.co/3kMh9ldi
Another part of the evidence comes from the observation that respiratory viruses such as influenza move from the Tropics to temperate zones more often than in the other direction⬇️(thats a figure from our paper) 7/n https://t.co/xu0nXkNNUV https://t.co/vMm
@JeremyFarrar @JuliaLBach8 Another part of the evidence comes from the observation that respiratory viruses such as influenza move from the Tropics to temperate zones more often than in the other direction⬇️(thats a figure from our paper) https://t.co/SysC
RT @AdamJKucharski: Reminder that we could play the lineage blame game for many other pathogens too (not that it's helpful), e.g. flu (http…
RT @AdamJKucharski: Reminder that we could play the lineage blame game for many other pathogens too (not that it's helpful), e.g. flu (http…
RT @AdamJKucharski: Reminder that we could play the lineage blame game for many other pathogens too (not that it's helpful), e.g. flu (http…
RT @AdamJKucharski: Reminder that we could play the lineage blame game for many other pathogens too (not that it's helpful), e.g. flu (http…
RT @AdamJKucharski: Reminder that we could play the lineage blame game for many other pathogens too (not that it's helpful), e.g. flu (http…
RT @AdamJKucharski: Reminder that we could play the lineage blame game for many other pathogens too (not that it's helpful), e.g. flu (http…
RT @AdamJKucharski: Reminder that we could play the lineage blame game for many other pathogens too (not that it's helpful), e.g. flu (http…
RT @AdamJKucharski: Reminder that we could play the lineage blame game for many other pathogens too (not that it's helpful), e.g. flu (http…
Reminder that we could play the lineage blame game for many other pathogens too (not that it's helpful), e.g. flu (https://t.co/PTLNKBLzIe), Zika (https://t.co/1bv8mqVyK1) and cholera (https://t.co/ZcD6hqCOBU)
@leveragetrading @drdavidsamadi Why are people with bitcoin in their bios always stupid. https://t.co/Av3RSMYQyq https://t.co/njboGQGUg9 https://t.co/DZO7M5MFrF https://t.co/D0JXhmJhiW
@TwainWas He have zero knowledge about this. https://t.co/Av3RSMYQyq https://t.co/njboGQGUg9 https://t.co/DZO7M5MFrF https://t.co/D0JXhmJhiW
@Cozz4ever @drdavidsamadi Did you write this tweet while looking in the mirror, idiot? Educate yourself. https://t.co/Av3RSMYQyq https://t.co/njboGQGUg9 https://t.co/DZO7M5MFrF https://t.co/D0JXhmJhiW
@pcos6 @drdavidsamadi You are right. I'm tired of the stupidity of these conspiracy theorists. https://t.co/Av3RSMYQyq https://t.co/njboGQGUg9 https://t.co/DZO7M5MFrF https://t.co/D0JXhmJhiW
@ttufan4ever @drdavidsamadi Educate yourself, dumb conspiracy lover American https://t.co/Av3RSMYQyq https://t.co/njboGQGUg9 https://t.co/DZO7M5MFrF https://t.co/D0JXhmJhiW
@AndreasShrugged Both SE Asia and N. America are likely reseed sources for yearly patterns seen with Influenza. If normal cycling from these reservoirs are cut off or severely limited its hard for Flu to take off given its R is just above 1. https://t.co
En hypotes att det är bristen på resor från Asien som tryckt ned influensan. Fast vi ser ju också att andra smittsamma sjukdomar gått ned, så jag undrar…
RT @ExoExplorer3: @geenlid @federicolois @NahasNewman Global circulation of influenza A recedes after winter and get reseeded from SE-Asia…
@geenlid @federicolois @NahasNewman Global circulation of influenza A recedes after winter and get reseeded from SE-Asia over fall. So it's quite likely that not the NPIs reduced flu cases, but the annual seeding from Asia was stopped once for all, so we d
RT @AdamJKucharski: As with influenza, they find a 'ladder-like' phylogenetic tree, suggesting that new variants emerge, become dominant, t…
RT @AdamJKucharski: As with influenza, they find a 'ladder-like' phylogenetic tree, suggesting that new variants emerge, become dominant, t…
RT @AdamJKucharski: As with influenza, they find a 'ladder-like' phylogenetic tree, suggesting that new variants emerge, become dominant, t…
RT @AdamJKucharski: As with influenza, they find a 'ladder-like' phylogenetic tree, suggesting that new variants emerge, become dominant, t…
Like influenza, #COVID19 seems to behave in this way. 🤔
RT @AdamJKucharski: As with influenza, they find a 'ladder-like' phylogenetic tree, suggesting that new variants emerge, become dominant, t…
RT @AdamJKucharski: As with influenza, they find a 'ladder-like' phylogenetic tree, suggesting that new variants emerge, become dominant, t…
RT @AdamJKucharski: As with influenza, they find a 'ladder-like' phylogenetic tree, suggesting that new variants emerge, become dominant, t…
RT @AdamJKucharski: As with influenza, they find a 'ladder-like' phylogenetic tree, suggesting that new variants emerge, become dominant, t…
RT @AdamJKucharski: As with influenza, they find a 'ladder-like' phylogenetic tree, suggesting that new variants emerge, become dominant, t…
RT @AdamJKucharski: As with influenza, they find a 'ladder-like' phylogenetic tree, suggesting that new variants emerge, become dominant, t…
RT @AdamJKucharski: As with influenza, they find a 'ladder-like' phylogenetic tree, suggesting that new variants emerge, become dominant, t…
RT @AdamJKucharski: As with influenza, they find a 'ladder-like' phylogenetic tree, suggesting that new variants emerge, become dominant, t…
RT @AdamJKucharski: As with influenza, they find a 'ladder-like' phylogenetic tree, suggesting that new variants emerge, become dominant, t…
RT @AdamJKucharski: As with influenza, they find a 'ladder-like' phylogenetic tree, suggesting that new variants emerge, become dominant, t…
RT @AdamJKucharski: As with influenza, they find a 'ladder-like' phylogenetic tree, suggesting that new variants emerge, become dominant, t…
RT @AdamJKucharski: As with influenza, they find a 'ladder-like' phylogenetic tree, suggesting that new variants emerge, become dominant, t…
As with influenza, they find a 'ladder-like' phylogenetic tree, suggesting that new variants emerge, become dominant, then are gradually replaced by subsequent new variants. (Influenza A/H3N2 below right from: https://t.co/PTLNKBLzIe) 3/ https://t.co/AZ52t
Great work by T Bedford et al. on flu movement throughout the world by antigenic shift. Line thickness between regions indicates ave# of migration events/lineage/year. Arrow size indicates strength of direction of migration. Could help w/#SARSCoV2 #COVID19
Pertinent paper from a few years back: Global circulation patterns of seasonal influenza viruses vary with antigenic drift https://t.co/9Ylnb1S4cF
Global circulation patterns of seasonal influenza viruses vary with antigenic drift https://t.co/0llAlFJ6As
.@trvr @arambaut etal u all r everso dreamy - Global circulation patterns #flu vary w/antigenic drift https://t.co/sjxT7H1nto #scigroupie
RT @NatureJapan: Nature ハイライト:季節性インフルエンザウイルスの地球規模の広がり http://t.co/diYWxBEC4j #感染症
RT @nature: Global circulation patterns of seasonal influenza viruses vary with antigenic drift: http://t.co/vRve8g3vCp
Complex global migration of seasonal influenza | age of infection as probable driver | @nature http://t.co/I0W0RWfxnp http://t.co/1njMjfV8Hw
AMD methods help track global circulation patterns of seasonal #influenza. See the research published in @nature http://t.co/ECN7nWAI98.
.@trvrb and others massive study of Influenza subtypes and different global migration patterns: http://t.co/aJoZezsdPP
Nature ハイライト:季節性インフルエンザウイルスの地球規模の広がり | Nature | Nature Publishing Group: http://t.co/aftgUev2i6
Nature ハイライト:季節性インフルエンザウイルスの地球規模の広がり | Nature | Nature Publishing Group: http://t.co/aftgUev2i6
Nature ハイライト:季節性インフルエンザウイルスの地球規模の広がり | Nature | Nature Publishing Group: http://t.co/aftgUev2i6
Nature ハイライト:季節性インフルエンザウイルスの地球規模の広がり | Nature | Nature Publishing Group: http://t.co/aftgUev2i6
Nature ハイライト:季節性インフルエンザウイルスの地球規模の広がり | Nature | Nature Publishing Group: http://t.co/aftgUev2i6
温室効果ガス排出量を減らすロボットタクシー(Nature Climate Change) http://t.co/zOMlOC6arH
Nature ハイライト:季節性インフルエンザウイルスの地球規模の広がり http://t.co/diYWxBEC4j #感染症
温室効果ガス排出量を減らすロボットタクシー http://t.co/mNicYcqpgk "理論上、利用回数の増加、最も効率的なルートの計画、完全電気自動車に組み込むことによって" "従来の燃料を用いて人間が運転する自動車と比較して、1マイル当たり最大94%削減できると推算"
Nature ハイライト:季節性インフルエンザウイルスの地球規模の広がり | Nature | Nature Publishing Group: http://t.co/IHqOSgQuzY
Nature ハイライト:季節性インフルエンザウイルスの地球規模の広がり | Nature | Nature Publishing Group: http://t.co/sck8OhFyBe
Global circulation patterns of seasonal influenza viruses vary with antigenic drift http://t.co/efVhBLFiqV
Global circulation patterns of seasonal influenza viruses vary with antigenic drift http://t.co/Ym2jOaDRve
Nature ハイライト:季節性インフルエンザウイルスの地球規模の広がり | Nature | Nature Publishing Group: http://t.co/1G7zHkZckl
Nature ハイライト:季節性インフルエンザウイルスの地球規模の広がり http://t.co/diYWxBEC4j #感染症
Nature ハイライト:季節性インフルエンザウイルスの地球規模の広がり | Nature | Nature Publishing Group: http://t.co/8B1MobqnV7
Global circulation patterns of seasonal influenza viruses vary with antigenic drift http://t.co/lRJ9n67H29
Global circulation patterns of seasonal influenza viruses vary with antigenic drift http://t.co/qSaqOzE2rV
Article in Nature describes spatiotemporal patterns of emergence and circulation of human seasonal #influenza viruses http://t.co/77qj7NMVZP
Article in Nature describes spatiotemporal patterns of emergence and circulation of human seasonal #influenza viruses http://t.co/77qj7NMVZP
Article in Nature describes spatiotemporal patterns of emergence and circulation of human seasonal #influenza viruses http://t.co/77qj7NMVZP
Article in Nature describes spatiotemporal patterns of emergence and circulation of human seasonal #influenza viruses http://t.co/77qj7NMVZP
Article in Nature describes spatiotemporal patterns of emergence and circulation of human seasonal #influenza viruses http://t.co/77qj7NMVZP
Article in Nature describes spatiotemporal patterns of emergence and circulation of human seasonal #influenza viruses http://t.co/77qj7NMVZP
Global circulation patterns of seasonal influenza viruses vary with antigenic drift http://t.co/Qss0pUcjMG
Global circulation patterns of seasonal influenza viruses vary with antigenic drift: http://t.co/vRve8g3vCp
Global circulation dynamics of influenza H1N1 and B viruses differ hugely from those of H3N2: @trvrb @nature http://t.co/0pFVf6by5I
Tracking sneeze that started seasonal flu http://t.co/uTj6BKiBgt Nature paper http://t.co/ObuKTUE0ol #Bioinformatics http://t.co/9ZYExABpeH
[Nature] Research Article http://t.co/uM4UnGorbU
Complex global migration of seasonal influenza | age of infection as probable driver | @nature http://t.co/I0W0RWfxnp http://t.co/1njMjfV8Hw
Complex global migration of seasonal influenza | age of infection as probable driver | @nature http://t.co/I0W0RWfxnp http://t.co/1njMjfV8Hw
Complex global migration of seasonal influenza | age of infection as probable driver | @nature http://t.co/I0W0RWfxnp http://t.co/1njMjfV8Hw
Complex global migration of seasonal influenza | age of infection as probable driver | @nature http://t.co/I0W0RWfxnp http://t.co/1njMjfV8Hw
Global circulation patterns of seasonal influenza viruses vary with antigenic drift: http://t.co/vRve8g3vCp
India rivals China for evolution and global spread of seasonal influenza viruses: @trvrb @nature http://t.co/0pFVf6by5I
New study with @trvrb in @nature uncovers the global dynamics of influenza B - http://t.co/0pFVf6by5I
New study with @trvrb in @nature uncovers the global dynamics of influenza B - http://t.co/0pFVf6by5I
Global circulation patterns of seasonal influenza viruses vary with antigenic drift. - PubMed - NCBI http://t.co/WZJjEkx1gj
Global circulation dynamics of influenza H1N1 and B viruses differ hugely from those of H3N2: @trvrb @nature http://t.co/0pFVf6by5I
Global circulation patterns of seasonal influenza viruses vary with antigenic drift: http://t.co/vRve8g3vCp
Global circulation dynamics of influenza H1N1 and B viruses differ hugely from those of H3N2: @trvrb @nature http://t.co/0pFVf6by5I
Global circulation patterns of seasonal influenza viruses vary with antigenic drift http://t.co/3P4AoyvlLF
Global circulation patterns of seasonal influenza viruses vary with antigenic drift: http://t.co/vRve8g3vCp
Global circulation patterns of seasonal influenza viruses vary with antigenic drift: http://t.co/vRve8g3vCp