Tabitha W Mwangi1, Amanda Ross, Robert W Snow, Kevin Marsh. 1. Kenya Medical Research Institute, Centre for Geographic Medicine Research Coast/Wellcome Trust Collaborative Program, Kenya. tmwangi@kilifi.mimcom.net
Abstract
BACKGROUND: Clear case definitions of malaria are an essential means of evaluating the effectiveness of present and proposed interventions in malaria. The clinical signs of malaria are nonspecific, and parasitemia accompanied by a fever may not be sufficient to define an episode of clinical malaria in endemic areas. We defined and quantified cases of malaria in people of different age groups from 2 areas with different rates of transmission of malaria. METHODS: A total of 1602 people were followed up weekly for 2 years, and all the cases of fever accompanied by parasitemia were identified. Logistic regression methods were used to derive case definitions of malaria. RESULTS: Two case definitions of malaria were derived: 1 for children 1-14 years old and 1 for infants (<1 year old) and older children and adults (> or =15 years old). We also found a higher number of episodes of clinical malaria per person per year in people from an area of low transmission of malaria, compared with the number of episodes in those from an area of higher transmission (0.84 vs. 0.55 episodes/person/year; incidence rate ratio, 0.66 [95% confidence interval, 0.61-0.72]; P<.001). CONCLUSIONS: Case definitions of malaria are bound to be altered by factors that affect immunity, such as age and transmission. Case definitions may, however, be affected by other immunity-altering factors, such as HIV and vaccination status, and this needs to be borne in mind during vaccine trials.
BACKGROUND: Clear case definitions of malaria are an essential means of evaluating the effectiveness of present and proposed interventions in malaria. The clinical signs of malaria are nonspecific, and parasitemia accompanied by a fever may not be sufficient to define an episode of clinical malaria in endemic areas. We defined and quantified cases of malaria in people of different age groups from 2 areas with different rates of transmission of malaria. METHODS: A total of 1602 people were followed up weekly for 2 years, and all the cases of fever accompanied by parasitemia were identified. Logistic regression methods were used to derive case definitions of malaria. RESULTS: Two case definitions of malaria were derived: 1 for children 1-14 years old and 1 for infants (<1 year old) and older children and adults (> or =15 years old). We also found a higher number of episodes of clinical malaria per person per year in people from an area of low transmission of malaria, compared with the number of episodes in those from an area of higher transmission (0.84 vs. 0.55 episodes/person/year; incidence rate ratio, 0.66 [95% confidence interval, 0.61-0.72]; P<.001). CONCLUSIONS: Case definitions of malaria are bound to be altered by factors that affect immunity, such as age and transmission. Case definitions may, however, be affected by other immunity-altering factors, such as HIV and vaccination status, and this needs to be borne in mind during vaccine trials.
Authors: R W Snow; J A Omumbo; B Lowe; C S Molyneux; J O Obiero; A Palmer; M W Weber; M Pinder; B Nahlen; C Obonyo; C Newbold; S Gupta; K Marsh Journal: Lancet Date: 1997-06-07 Impact factor: 79.321
Authors: B M Greenwood; A K Bradley; A M Greenwood; P Byass; K Jammeh; K Marsh; S Tulloch; F S Oldfield; R Hayes Journal: Trans R Soc Trop Med Hyg Date: 1987 Impact factor: 2.184
Authors: P B Bloland; D A Boriga; T K Ruebush; J B McCormick; J M Roberts; A J Oloo; W Hawley; A Lal; B Nahlen; C C Campbell Journal: Am J Trop Med Hyg Date: 1999-04 Impact factor: 2.345
Authors: J Whitworth; D Morgan; M Quigley; A Smith; B Mayanja; H Eotu; N Omoding; M Okongo; S Malamba; A Ojwiya Journal: Lancet Date: 2000-09-23 Impact factor: 79.321
Authors: C N Mbogo; R W Snow; C P Khamala; E W Kabiru; J H Ouma; J I Githure; K Marsh; J C Beier Journal: Am J Trop Med Hyg Date: 1995-03 Impact factor: 2.345
Authors: Charles M Mbogo; Joseph M Mwangangi; Joseph Nzovu; Weidong Gu; Guiyan Yan; James T Gunter; Chris Swalm; Joseph Keating; James L Regens; Josephat I Shililu; John I Githure; John C Beier Journal: Am J Trop Med Hyg Date: 2003-06 Impact factor: 2.345
Authors: U D'Alessandro; A Leach; C J Drakeley; S Bennett; B O Olaleye; G W Fegan; M Jawara; P Langerock; M O George; G A Targett Journal: Lancet Date: 1995-08-19 Impact factor: 79.321
Authors: Charlotte F McAuley; Clare Webb; Julie Makani; Alexander Macharia; Sophie Uyoga; Daniel H Opi; Carolyne Ndila; Antony Ngatia; John Anthony G Scott; Kevin Marsh; Thomas N Williams Journal: Blood Date: 2010-06-08 Impact factor: 22.113
Authors: Wendy Prudhomme O'Meara; Shon Remich; Bernhards Ogutu; Martin Lucas; Ramadan Mtalib; Peter Obare; Frederick Oloo; Caroline Onoka; Joseph Osoga; Colin Ohrt; F Ellis McKenzie Journal: Parasitol Res Date: 2006-03-30 Impact factor: 2.289
Authors: Faith H A Osier; Gregory Fegan; Spencer D Polley; Linda Murungi; Federica Verra; Kevin K A Tetteh; Brett Lowe; Tabitha Mwangi; Peter C Bull; Alan W Thomas; David R Cavanagh; Jana S McBride; David E Lanar; Margaret J Mackinnon; David J Conway; Kevin Marsh Journal: Infect Immun Date: 2008-03-03 Impact factor: 3.441
Authors: Mateusz M Plucinski; Eric Rogier; Pedro Rafael Dimbu; Filomeno Fortes; Eric S Halsey; Michael Aidoo; Tom Smith Journal: J Clin Microbiol Date: 2019-02-27 Impact factor: 5.948
Authors: Thomas N Williams; Sophie Uyoga; Alex Macharia; Carolyne Ndila; Charlotte F McAuley; Daniel H Opi; Salim Mwarumba; Julie Makani; Albert Komba; Moses N Ndiritu; Shahnaaz K Sharif; Kevin Marsh; James A Berkley; J Anthony G Scott Journal: Lancet Date: 2009-09-09 Impact factor: 79.321