Faculty Opinions recommendation of Evaluation of an immunochromatographic dip-strip test for the detection of Cryptosporidium oocysts in stool specimens.

2002 ◽  
Author(s):  
David Lyerly
Keyword(s):  
Cryptosporidium Oocysts ◽  
Stool Specimens ◽  
Strip Test

Evaluation of an Immunochromatographic Dip-Strip Test for the Detection of Cryptosporidium Oocysts in Stool Specimens

2002 ◽  
Vol 21 (8) ◽  
pp. 624-625 ◽  
Author(s):  
M. Llorente ◽  
A. Clavel ◽  
M. Varea ◽  
S. Olivera ◽  
F. Castillo ◽  
...  
Keyword(s):  
Cryptosporidium Oocysts ◽  
Stool Specimens ◽  
Strip Test

scholarly journals Cryptosporidium spp. Infections in Livestock and Wild Animals in Azerbaijan Territory

2020 ◽  
Vol 2 (1) ◽  
pp. 44
Author(s):  
Simuzer Mamedova ◽  
Panagiotis Karanis
Keyword(s):  
Staining Method ◽  
Current Knowledge ◽  
Protozoan Parasite ◽  
Structural Features ◽  
Cryptosporidium Spp ◽  
Faecal Samples ◽  
Cryptosporidium Oocysts ◽  
Stool Specimens ◽  
Intracellular Protozoan Parasite ◽  
Acid Fast Staining

Cryptosporidium is an intracellular protozoan parasite and is increasingly gaining attention as a human and an animal pathogen, mainly due to its predominant involvement in worldwide waterborne outbreaks. This paper reviews the current knowledge and understanding of Cryptosporidium spp. in terrestrial and aquatic animals in Azerbaijan. The diagnosis of cryptosporidiosis relies on the identification of oocysts in faecal samples released by the infected host. Stool specimens were processed using the modified acid-fast staining method (Ziehl-Neelsen) and microscopically examined for Cryptosporidium oocysts. Thirteen species of Cryptosporidium (C. fragile, C. ducismarci, C. serpentis, C. varani, C. baileyi, C. meleagridis, C. muris, C. parvum, C. ubiquitum, C. andersoni, C. bovis, C. hominis, C. suis) from amphibians, reptiles, birds and mammals have been identified as a result of studies conducted between 1987 and 2019 on the structural features of Cryptosporidium oocysts in Azerbaijan territory.

scholarly journals Techniques for the recovery and identification of Cryptosporidium oocysts from stool specimens.

1983 ◽  
Vol 18 (1) ◽  
pp. 185-190 ◽  
Author(s):  
L S Garcia ◽  
D A Bruckner ◽  
T C Brewer ◽  
R Y Shimizu
Keyword(s):  
Cryptosporidium Oocysts ◽  
Stool Specimens

scholarly journals Improved Cryptosporidium case findings using immunofluorescent microscopy on concentrated stool

2021 ◽  
Vol 22 (2) ◽  
pp. 300-303
Author(s):  
D. Cox ◽  
F.J.L. Robberts
Keyword(s):  
Diagnostic Yield ◽  
Fluorescent Microscopy ◽  
Simultaneous Detection ◽  
Microbiological Analysis ◽  
Diagnostic Laboratory ◽  
Wet Mount ◽  
Cryptosporidium Oocysts ◽  
Stool Samples ◽  
Stool Specimens ◽  
Positive Results

Background: Diarrhoea is a major cause of morbidity in Cape Town, South Africa, and mortality is attributed to a failure to recognize the severity of the condition. Cryptosporidium and Giardia are increasingly recognized as important causes of diarrhoea in Africa however, suboptimal diagnostic techniques may lead to underappreciation of their significance. Our objectives are to compare the diagnostic yield of direct immunofluorescent antigen (DFA) microscopy on concentrated stool samples for Cryptosporidium and Giardia, with the current approach of wet mount microscopy for Giardia and auramine fluorescent stain for Cryptosporidium on unconcentrated stool.Methodology: Stool specimens (n=104) received at our hospital laboratory for routine microbiological investigations were used for the study. Direct wet-mount auramine-phenol fluorescent microscopy (auramine) detection of Cryptosporidium oocysts and wet mount iodine microscopy for Giardia detection, were performed on unconcentrated stool samples, while DFA stain for simultaneous detection of Cryptosporidium and Giardia was performed on sodium-acetate formalin concentrated stool samples. The diagnostic yields of the tests were compared using the MEDCALC® version 18.0Results: Of the 104 stool specimens received for microbiological analysis, only 66 (63.5%) had specific Cryptosporidium requests while 38 (36.5%) had no Cryptosporidium specific requests. Of the 66 specimens, 9 (13.6%) were positive for Cryptosporidium oocysts with DFA while only 1 (1.5%) was positive with auramine staining (p=0.013). The one auramine-positive specimen was also positive by DFA. Auramine stain microscopy gave a sensitivity of 11.1% (95%CI: 0.28-48.25%) and specificity of 100% (95%CI: 93.7%-100%) when compared to DFA. Of the 38 stool specimens without specific Cryptosporidium request, DFA yielded 5 (13.2%) additional positive results. Taken together, Cryptosporidium was detected in 14/104 (13.5%; 95%CI: 8.36–21.7%) specimens and only 1 of 14 (7.1%) specimens with the current routine laboratory testing approach. Giardia was detected by DFA in 3/104 (0.9%) specimens, while direct iodine wet mount microscopy did not yield any positive results (0%). All 3 Giardia-positive specimens had Cryptosporidium oocysts detected by DFA.Conclusion: These data suggest that a large proportion of Cryptosporidium cases remain undetected by the laboratory due to suboptimal testing methods, and failure by clinicians to specifically request for Cryptosporidium detection. There is need to periodically assess the effectiveness of diagnostic microbiology laboratory approaches to diarrhoea, and access to improved diagnostic laboratory techniques will contribute to more accurate differential diagnosis and a broadened understanding of local aetiology of diarrhoea diseases in Africa. Keywords: Cryptosporidium, Giardia, diarrhoea, stool concentration, DFA, microscopy French Title: Amélioration des découvertes de cas de Cryptosporidium à l'aide de la microscopie immunofluorescente sur des selles concentrées Contexte: La diarrhée est une cause majeure de morbidité au Cap, en Afrique du Sud, et la mortalité est attribuée à l'incapacité de reconnaître la gravité de la maladie. Cryptosporidium et Giardia sont de plus en plus reconnus comme des causes importantes de diarrhée en Afrique, cependant, des techniques de diagnostic sous-optimales peuvent conduire à une sous-estimation de leur importance. Nos objectifs sont de comparer le rendement diagnostique de la microscopie à antigène immunofluorescent direct (DFA) sur des échantillons de selles concentrées pour Cryptosporidium et Giardia, avec l'approche actuelle de la microscopie à montage humide pour Giardia et la coloration fluorescente auramine pour Cryptosporidium sur des selles non concentrées.Méthodologie: Des échantillons de selles (n=104) reçus au laboratoire de notre hôpital pour des examens microbiologiques de routine ont été utilisés pour l'étude. La détection directe par microscopie fluorescente auramine-phénol à montage humide (auramine) des oocystes de Cryptosporidium et la microscopie à l'iode à montage humide pour la détection de Giardia, ont été effectuées sur des échantillons de selles non concentrées, tandis que la coloration DFA pour la détection simultanée de Cryptosporidium et de Giardia a été réalisée sur de l'acétate de sodium formaline concentré échantillons de selles. Les rendements diagnostiques des tests ont étécomparés à l'aide de MEDCALC® version 18.0Résultats: Sur les 104 échantillons de selles reçus pour l'analyse microbiologique, seuls 66 (63,5%) avaient des demandes spécifiques de Cryptosporidium tandis que 38 (36,5%) n'avaient pas de demandes spécifiques de Cryptosporidium. Sur les 66 échantillons, 9 (13,6%) étaient positifs pour les oocystes de Cryptosporidium avec DFA tandis que seulement 1 (1,5%) était positif avec coloration à l'auramine (p=0,013). Le seul échantillon positif à l'auramine était également positif au DFA. La microscopie à l'auramine a donné une sensibilité de 11,1% (IC 95%: 0,28-48,25%) et une spécificité de 100% (IC 95%: 93,7% -100%) par rapport au DFA. Sur les 38 échantillons de selles sans demande spécifique de Cryptosporidium, le DFA a donné 5 (13,2%) résultats positifs supplémentaires. Pris ensemble, Cryptosporidium a été détecté dans 14/104 (13,5%; IC à 95%: 8,36–21,7%) et seulement 1 des 14 échantillons (7,1%) avec l'approche actuelle des tests de routine en laboratoire. Giardia a été détecté par DFA dans 3/104 (0,9%) échantillons, tandis que la microscopie directe à l'iode sur monture humide n'a donné aucun résultat positif (0%). Les 3 échantillons positifs à Giardia avaient des oocystes deCryptosporidium détectés par DFA.Conclusion: Ces données suggèrent qu'une grande proportion des cas de Cryptosporidium ne sont pas détectés par le laboratoire en raison de méthodes de test sous-optimales et de l'échec des cliniciens à demander spécifiquement la détection de Cryptosporidium. Il est nécessaire d'évaluer périodiquement l'efficacité des approches de laboratoire de microbiologie diagnostique pour la diarrhée, et l'accès à des techniques de laboratoire de diagnostic améliorées contribuera à un diagnostic différentiel plus précis et à une compréhension élargie de l'étiologie locale des maladies diarrhéiques en Afrique. Mots clés: Cryptosporidium, Giardia, diarrhée, concentration des selles, DFA, microscopie

scholarly journals Evaluation of a Rapid Immunochromatography Strip Test for Detection of Astrovirus in Stool Specimens

2009 ◽  
Vol 56 (2) ◽  
pp. 129-131 ◽  
Author(s):  
P. Khamrin ◽  
S. K. Dey ◽  
W. Chan-it ◽  
A. Thongprachum ◽  
K. Satou ◽  
...  
Keyword(s):  
Stool Specimens ◽  
Strip Test

Efficacy of enzyme immunoassay for the detection of helicobacter pylori antigens in frozen stool specimens: Local validation

2001 ◽  
Vol 120 (5) ◽  
pp. A492-A492
Author(s):  
Y YEE ◽  
E YIP ◽  
T QUE ◽  
K LI ◽  
C LEE ◽  
...  
Keyword(s):  
Helicobacter Pylori ◽  
Enzyme Immunoassay ◽  
Stool Specimens

Tuberculosis: Diagnostic Challenges in Rural Africa

Praxis ◽  
2019 ◽  
Vol 108 (15) ◽  
pp. 991-996
Author(s):  
Ngisi Masawa ◽  
Farida Bani ◽  
Robert Ndege
Keyword(s):  
Extrapulmonary Tuberculosis ◽  
X Ray ◽  
Molecular Tests ◽  
Rural Settings ◽  
Chest X Ray ◽  
Screening Questions ◽  
Rural Africa ◽  
Tb Diagnostics ◽  
Strip Test ◽  
Urine Strip

Abstract. Tuberculosis (TB) remains among the top 10 infectious diseases with highest mortality globally since the 1990s despite effective chemotherapy. Among 10 million patients that fell ill with tuberculosis in the year 2017, 36 % were undiagnosed or detected and not reported; the number goes as high as 55 % in Tanzania, showing that the diagnosis of TB is a big challenge in the developing countries. There have been great advancements in TB diagnostics with introduction of the molecular tests such as Xpert MTB/RIF, loop-mediated isothermal amplification, lipoarabinomannan urine strip test, and molecular line-probe assays. However, most of the hospitals in Tanzania still rely on the TB score chart in children, the WHO screening questions in adults, acid-fast bacilli and chest x-ray for the diagnosis of TB. Xpert MTB/RIF has been rolled-out but remains a challenge in settings where the samples for testing must be transported over many kilometers. Imaging by sonography – nowadays widely available even in rural settings of Tanzania – has been shown to be a useful tool in the diagnosis of extrapulmonary tuberculosis. Despite all the efforts and new diagnostics, 30–50 % of patients in high-burden TB countries are still empirically treated for tuberculosis. More efforts need to be placed if we are to reduce the death toll by 90 % until 2030.

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