Journal Article > ResearchFull Text
PLOS One. 2009 January 29; Volume 4 (Issue 1); e4313.; DOI:10.1371/journal.pone.0004313
Lapidus N, Minetti A, Djibo A, Guerin JP, Hustache S, et al.
PLOS One. 2009 January 29; Volume 4 (Issue 1); e4313.; DOI:10.1371/journal.pone.0004313
BACKGROUND
In 2006, the Médecins sans Frontières nutritional program in the region of Maradi (Niger) included 68,001 children 6-59 months of age with either moderate or severe malnutrition, according to the NCHS reference (weight-for-height<80% of the NCHS median, and/or mid-upper arm circumference<110 mm for children taller than 65 cm and/or presence of bipedal edema). Our objective was to identify baseline risk factors for death among children diagnosed with severe malnutrition using the newly introduced WHO growth standards. As the release of WHO growth standards changed the definition of severe malnutrition, which now includes many children formerly identified as moderately malnourished with the NCHS reference, studying this new category of children is crucial.
METHODOLOGY
Program monitoring data were collected from the medical records of all children admitted in the program. Data included age, sex, height, weight, MUAC, clinical signs on admission including edema, and type of discharge (recovery, death, and default/loss to follow up). Additional data included results of a malaria rapid diagnostic test due to Plasmodium falciparum (Paracheck) and whether the child was a resident of the region of Maradi or came from bordering Nigeria to seek treatment. Multivariate logistic regression was performed on a subset of 27,687 children meeting the new WHO growth standards criteria for severe malnutrition (weight-for-height<-3 Z score, mid-upper arm circumference<110 mm for children taller than 65 cm or presence of bipedal edema). We explored two different models: one with only basic anthropometric data and a second model that included perfunctory clinical signs.
PRINCIPAL FINDINGS
In the first model including only weight, height, sex and presence of edema, the risk factors retained were the weight/height(1.84) ratio (OR: 5,774; 95% CI: [2,284; 14,594]) and presence of edema (7.51 [5.12; 11.0]). A second model, taking into account supplementary data from perfunctory clinical examination, identified other risk factors for death: apathy (9.71 [6.92; 13.6]), pallor (2.25 [1.25; 4.05]), anorexia (1.89 [1.35; 2.66]), fever>38.5 degrees C (1.83 [1.25; 2.69]), and age below 1 year (1.42 [1.01; 1.99]).
CONCLUSIONS
Although clinicians will continue to perform screening using clinical signs and anthropometry, these risk indicators may provide additional criteria for the assessment of absolute and relative risk of death. Better appraisal of the child's risk of death may help orientate the child towards either hospitalization or ambulatory care. As the transition from the NCHS growth reference to the WHO standards will increase the number of children classified as severely malnourished, further studies should explore means to identify children at highest risk of death within this group using simple and standardized indicators.
In 2006, the Médecins sans Frontières nutritional program in the region of Maradi (Niger) included 68,001 children 6-59 months of age with either moderate or severe malnutrition, according to the NCHS reference (weight-for-height<80% of the NCHS median, and/or mid-upper arm circumference<110 mm for children taller than 65 cm and/or presence of bipedal edema). Our objective was to identify baseline risk factors for death among children diagnosed with severe malnutrition using the newly introduced WHO growth standards. As the release of WHO growth standards changed the definition of severe malnutrition, which now includes many children formerly identified as moderately malnourished with the NCHS reference, studying this new category of children is crucial.
METHODOLOGY
Program monitoring data were collected from the medical records of all children admitted in the program. Data included age, sex, height, weight, MUAC, clinical signs on admission including edema, and type of discharge (recovery, death, and default/loss to follow up). Additional data included results of a malaria rapid diagnostic test due to Plasmodium falciparum (Paracheck) and whether the child was a resident of the region of Maradi or came from bordering Nigeria to seek treatment. Multivariate logistic regression was performed on a subset of 27,687 children meeting the new WHO growth standards criteria for severe malnutrition (weight-for-height<-3 Z score, mid-upper arm circumference<110 mm for children taller than 65 cm or presence of bipedal edema). We explored two different models: one with only basic anthropometric data and a second model that included perfunctory clinical signs.
PRINCIPAL FINDINGS
In the first model including only weight, height, sex and presence of edema, the risk factors retained were the weight/height(1.84) ratio (OR: 5,774; 95% CI: [2,284; 14,594]) and presence of edema (7.51 [5.12; 11.0]). A second model, taking into account supplementary data from perfunctory clinical examination, identified other risk factors for death: apathy (9.71 [6.92; 13.6]), pallor (2.25 [1.25; 4.05]), anorexia (1.89 [1.35; 2.66]), fever>38.5 degrees C (1.83 [1.25; 2.69]), and age below 1 year (1.42 [1.01; 1.99]).
CONCLUSIONS
Although clinicians will continue to perform screening using clinical signs and anthropometry, these risk indicators may provide additional criteria for the assessment of absolute and relative risk of death. Better appraisal of the child's risk of death may help orientate the child towards either hospitalization or ambulatory care. As the transition from the NCHS growth reference to the WHO standards will increase the number of children classified as severely malnourished, further studies should explore means to identify children at highest risk of death within this group using simple and standardized indicators.
Journal Article > ResearchFull Text
J Med Virol. 2005 December 1; Volume 77 (Issue 4); DOI:10.1002/jmv.20487
Nicand E, Armstrong GL, Enouf V, Guthmann JP, Guerin JP, et al.
J Med Virol. 2005 December 1; Volume 77 (Issue 4); DOI:10.1002/jmv.20487
The within-outbreak diversity of hepatitis E virus (HEV) was studied during the outbreak of hepatitis E that occurred in Sudan in 2004. Specimens were collected from internally displaced persons living in a Sudanese refugee camp and two camps implanted in Chad. A comparison of the sequences in the ORF2 region of 23 Sudanese isolates and five HEV samples from the two Chadian camps displayed a high similarity (>99.7%) to strains belonging to Genotype 1. But four isolates collected in one of the Chadian camps were close to Genotype 2. Circulation of divergent strains argues for possible multiple sources of infection.
Journal Article > ResearchFull Text
Int J Tuberc Lung Dis. 2009 September 1; Volume 13 (Issue 9); 1112-1118.
Bonnet MMB, Gagnidze L, Varaine FFV, Ramsay AR, Githui W, et al.
Int J Tuberc Lung Dis. 2009 September 1; Volume 13 (Issue 9); 1112-1118.
OBJECTIVE
To evaluate the performance and feasibility of FASTPlaqueTB in smear-negative tuberculosis (TB) suspects in a peripheral clinic after laboratory upgrading.
DESIGN
Patients with cough > or=2 weeks, two sputum smear-negative results, no response to 1 week of amoxicillin and abnormal chest X-ray were defined as smear-negative suspects. One sputum sample was collected, decontaminated and divided into two: half was tested with FASTPlaqueTB in the clinic laboratory and the other half was cultured on Löwenstein-Jensen medium in the Kenyan Medical Research Institute. Test sensitivity and specificity were evaluated in all patients and in human immunodeficiency virus (HIV) infected patients. Feasibility was assessed by the contamination rate and the resources required to upgrade the laboratory.
RESULTS
Of 208 patients included in the study, 56.2% were HIV-infected. Of 203 FASTPlaqueTB tests, 95 (46.8%) were contaminated, which interfered with result interpretation and led to the interruption of the study. Sensitivity and specificity were respectively 31.2% (95%CI 12.1-58.5) and 94.9% (95%CI 86.8-98.4) in all patients and 33.3% (95%CI 9.9-65.1) and 93.9% (95%CI 83.1-98.7) in HIV-infected patients. Upgrading the laboratory cost euro 20,000.
CONCLUSION
FASTPlaqueTB did not perform satisfactorily in this setting. If contamination can be reduced, in addition to laboratory upgrading, its introduction in peripheral clinics would require further assessment in smear-negative and HIV co-infected patients and test adaptation for friendlier use.
To evaluate the performance and feasibility of FASTPlaqueTB in smear-negative tuberculosis (TB) suspects in a peripheral clinic after laboratory upgrading.
DESIGN
Patients with cough > or=2 weeks, two sputum smear-negative results, no response to 1 week of amoxicillin and abnormal chest X-ray were defined as smear-negative suspects. One sputum sample was collected, decontaminated and divided into two: half was tested with FASTPlaqueTB in the clinic laboratory and the other half was cultured on Löwenstein-Jensen medium in the Kenyan Medical Research Institute. Test sensitivity and specificity were evaluated in all patients and in human immunodeficiency virus (HIV) infected patients. Feasibility was assessed by the contamination rate and the resources required to upgrade the laboratory.
RESULTS
Of 208 patients included in the study, 56.2% were HIV-infected. Of 203 FASTPlaqueTB tests, 95 (46.8%) were contaminated, which interfered with result interpretation and led to the interruption of the study. Sensitivity and specificity were respectively 31.2% (95%CI 12.1-58.5) and 94.9% (95%CI 86.8-98.4) in all patients and 33.3% (95%CI 9.9-65.1) and 93.9% (95%CI 83.1-98.7) in HIV-infected patients. Upgrading the laboratory cost euro 20,000.
CONCLUSION
FASTPlaqueTB did not perform satisfactorily in this setting. If contamination can be reduced, in addition to laboratory upgrading, its introduction in peripheral clinics would require further assessment in smear-negative and HIV co-infected patients and test adaptation for friendlier use.