@article{fdi:010066811,
  title = {{A}verting a malaria disaster : will insecticide resistance derail malaria control ?},
  author = {{H}emingway, {J}. and {R}anson, {H}. and {M}agill, {A}. and {K}olaczinski, {J}. and {F}ornadel, {C}. and {G}imnig, {J}. and {C}oetzee, {M}. and {S}imard, {F}r{\'e}d{\'e}ric and {R}och, {D}. {K}. and {H}inzoumbe, {C}. {K}. and {P}ickett, {J}. and {S}chellenberg, {D}. and {G}ething, {P}. and {H}oppe, {M}. and {H}amon, {N}.},
  editor = {},
  language = {{ENG}},
  abstract = {{W}orld {M}alaria {D}ay 2015 highlighted the progress made in the development of new methods of prevention (vaccines and insecticides) and treatment (single dose drugs) of the disease. {H}owever, increasing drug and insecticide resistance threatens the successes made with existing methods. {I}nsecticide resistance has decreased the efficacy of the most commonly used insecticide class of pyrethroids. {T}his decreased efficacy has increased mosquito survival, which is a prelude to rising incidence of malaria and fatalities. {D}espite intensive research efforts, new insecticides will not reach the market for at least 5 years. {E}limination of malaria is not possible without effective mosquito control. {T}herefore, to combat the threat of resistance, key stakeholders need to rapidly embrace a multifaceted approach including a reduction in the cost of bringing new resistance management methods to market and the streamlining of associated development, policy, and implementation pathways to counter this looming public health catastrophe.},
  keywords = {{AFRIQUE} {SUBSAHARIENNE}},
  booktitle = {},
  journal = {{L}ancet},
  volume = {387},
  numero = {10029},
  pages = {1785--1788},
  ISSN = {0140-6736},
  year = {2016},
  DOI = {10.1016/s0140-6736(15)00417-1},
  URL = {https://www.documentation.ird.fr/hor/fdi:010066811},
}