RT @NAChristakis: The latent period is partly related to disease dynamics (incl social network interactions & even diurnal rhythms, since t…
RT @NAChristakis: @schichmax @DirkBrockmann @VinkoZlatic @CT_Bergstrom @alexvespi @florian_krammer Cloud this be a partial explanation: htt…
@schichmax @DirkBrockmann @VinkoZlatic @CT_Bergstrom @alexvespi @florian_krammer Cloud this be a partial explanation: https://t.co/MezVKOiizL
RT @NAChristakis: The latent period is partly related to disease dynamics (incl social network interactions & even diurnal rhythms, since t…
RT @NAChristakis: The latent period is partly related to disease dynamics (incl social network interactions & even diurnal rhythms, since t…
RT @NAChristakis: The latent period is partly related to disease dynamics (incl social network interactions & even diurnal rhythms, since t…
RT @NAChristakis: The latent period is partly related to disease dynamics (incl social network interactions & even diurnal rhythms, since t…
RT @NAChristakis: The latent period is partly related to disease dynamics (incl social network interactions & even diurnal rhythms, since t…
RT @NAChristakis: The latent period is partly related to disease dynamics (incl social network interactions & even diurnal rhythms, since t…
RT @NAChristakis: The latent period is partly related to disease dynamics (incl social network interactions & even diurnal rhythms, since t…
RT @NAChristakis: The latent period is partly related to disease dynamics (incl social network interactions & even diurnal rhythms, since t…
RT @NAChristakis: The latent period is partly related to disease dynamics (incl social network interactions & even diurnal rhythms, since t…
RT @NAChristakis: The latent period is partly related to disease dynamics (incl social network interactions & even diurnal rhythms, since t…
RT @NAChristakis: The latent period is partly related to disease dynamics (incl social network interactions & even diurnal rhythms, since t…
RT @NAChristakis: The latent period is partly related to disease dynamics (incl social network interactions & even diurnal rhythms, since t…
RT @NAChristakis: The latent period is partly related to disease dynamics (incl social network interactions & even diurnal rhythms, since t…
RT @NAChristakis: The latent period is partly related to disease dynamics (incl social network interactions & even diurnal rhythms, since t…
@JariSaramaki Indeed! This reminds me of great work by @ewancolman that studies the impact of synchrony in transmission and contact. Powered by @sociopatterns data! https://t.co/p8dcmoK6Dp
RT @NAChristakis: The latent period is partly related to disease dynamics (incl social network interactions & even diurnal rhythms, since t…
RT @NAChristakis: The latent period is partly related to disease dynamics (incl social network interactions & even diurnal rhythms, since t…
RT @NAChristakis: The latent period is partly related to disease dynamics (incl social network interactions & even diurnal rhythms, since t…
RT @NAChristakis: The latent period is partly related to disease dynamics (incl social network interactions & even diurnal rhythms, since t…
RT @NAChristakis: The latent period is partly related to disease dynamics (incl social network interactions & even diurnal rhythms, since t…
RT @NAChristakis: The latent period is partly related to disease dynamics (incl social network interactions & even diurnal rhythms, since t…
RT @NAChristakis: The latent period is partly related to disease dynamics (incl social network interactions & even diurnal rhythms, since t…
RT @NAChristakis: The latent period is partly related to disease dynamics (incl social network interactions & even diurnal rhythms, since t…
RT @NAChristakis: The latent period is partly related to disease dynamics (incl social network interactions & even diurnal rhythms, since t…
RT @NAChristakis: The latent period is partly related to disease dynamics (incl social network interactions & even diurnal rhythms, since t…
RT @NAChristakis: The latent period is partly related to disease dynamics (incl social network interactions & even diurnal rhythms, since t…
RT @NAChristakis: The latent period is partly related to disease dynamics (incl social network interactions & even diurnal rhythms, since t…
RT @NAChristakis: The latent period is partly related to disease dynamics (incl social network interactions & even diurnal rhythms, since t…
RT @NAChristakis: The latent period is partly related to disease dynamics (incl social network interactions & even diurnal rhythms, since t…
RT @NAChristakis: The latent period is partly related to disease dynamics (incl social network interactions & even diurnal rhythms, since t…
RT @NAChristakis: The latent period is partly related to disease dynamics (incl social network interactions & even diurnal rhythms, since t…
RT @NAChristakis: The latent period is partly related to disease dynamics (incl social network interactions & even diurnal rhythms, since t…
RT @NAChristakis: The latent period is partly related to disease dynamics (incl social network interactions & even diurnal rhythms, since t…
RT @NAChristakis: The latent period is partly related to disease dynamics (incl social network interactions & even diurnal rhythms, since t…
RT @NAChristakis: The latent period is partly related to disease dynamics (incl social network interactions & even diurnal rhythms, since t…
RT @NAChristakis: The latent period is partly related to disease dynamics (incl social network interactions & even diurnal rhythms, since t…
RT @NAChristakis: The latent period is partly related to disease dynamics (incl social network interactions & even diurnal rhythms, since t…
The latent period is partly related to disease dynamics (incl social network interactions & even diurnal rhythms, since they determine the time point from which the pathogen can be transmitted from infected to healthy hosts). Regarding diurnal rhythms:
Interesting stuff. Lymphatic filariasis has a circadian rhythm - transmissible stages only in the blood when the mosquitoes are biting and usually we are asleep and vulnerable - parasites rule! Manson 1899 BMJ https://t.co/UVd95ABWXo https://t.co/hLaxxJS0N
RT @vtraag: The reachability of contagion in temporal contact networks: how disease latency can exploit the rhythm of human behavior https:…
RT @vtraag: The reachability of contagion in temporal contact networks: how disease latency can exploit the rhythm of human behavior https:…
RT @vtraag: The reachability of contagion in temporal contact networks: how disease latency can exploit the rhythm of human behavior https:…
RT @vtraag: The reachability of contagion in temporal contact networks: how disease latency can exploit the rhythm of human behavior https:…
RT @vtraag: The reachability of contagion in temporal contact networks: how disease latency can exploit the rhythm of human behavior https:…
The reachability of contagion in temporal contact networks: how disease latency can exploit the rhythm of human behavior https://t.co/ge2EdngmIb
The reachability of contagion in temporal contact networks: how disease latency can exploit the rhythm of human behavior https://t.co/3oJX06R0PF #bmcinfectdis
RT @BMC_series: How #disease latency can exploit the rhythm of human behaviors. Research from @Georgetown in #BMCInfectiousDiseases https:/…
How circadian rhythms in human social behaviour facilitates contagion of infectious disease: https://t.co/vGidodXjp3
How #disease latency can exploit the rhythm of human behaviors. Research from @Georgetown in #BMCInfectiousDiseases https://t.co/mJs3UCBabj https://t.co/KUlAdsqbY7
RT @GUBiology: What happens when a pathogen synchronizes with the rhythm of human behavior? New work out by @bansallab postdoc @ewancolman…
RT @ewancolman: New paper published! Synchronization between infectious diseases and human behaviour! This was a particularly fun project a…
RT @GUBiology: What happens when a pathogen synchronizes with the rhythm of human behavior? New work out by @bansallab postdoc @ewancolman…
RT @alexvespi: How disease latency can exploit the rhythm of human behavior https://t.co/nSS90dhiKc https://t.co/x9J1JyPegM
RT @alexvespi: How disease latency can exploit the rhythm of human behavior https://t.co/nSS90dhiKc https://t.co/x9J1JyPegM
RT @alexvespi: How disease latency can exploit the rhythm of human behavior https://t.co/nSS90dhiKc https://t.co/x9J1JyPegM
How disease latency can exploit the rhythm of human behavior https://t.co/nSS90dhiKc https://t.co/x9J1JyPegM
RT @bansallab: What happens when pathogens synchronize to the rhythm of human behavior? Check out cool new work led by @ewancolman: https:/…
RT @bansallab: What happens when pathogens synchronize to the rhythm of human behavior? Check out cool new work led by @ewancolman: https:/…
RT @bansallab: What happens when pathogens synchronize to the rhythm of human behavior? Check out cool new work led by @ewancolman: https:/…
Fascinating stuff on infectious disease spread here from the @bansallab team (including a College alumna!) ⬇️ https://t.co/fAQlOTvpof
RT @bansallab: What happens when pathogens synchronize to the rhythm of human behavior? Check out cool new work led by @ewancolman: https:/…
New paper published! Synchronization between infectious diseases and human behaviour! This was a particularly fun project as it started life as an undergrad research project (thanks Kristen Spies) - https://t.co/duDop3t5Q3 . Thanks @bansallab for adding al
What happens when a pathogen synchronizes with the rhythm of human behavior? New work out by @bansallab postdoc @ewancolman and @GeorgetownColl alum Kristen Spies '17: https://t.co/JsyvZY2vhS
What happens when pathogens synchronize to the rhythm of human behavior? Check out cool new work led by @ewancolman: https://t.co/rLUHe2J0c5