Your search keyword '"Naegleria fowleri isolation & purification"' showing total 143 results

1. Naegleria fowleri infections in Kerala, India: a call for global surveillance and response.

Author

Mohapatra P, Rawat P, Sah S, and Satapathy P

Subjects

India epidemiology, Humans, Male, Female, Adult, Child, Amebiasis epidemiology, Adolescent, Naegleria fowleri isolation & purification, Central Nervous System Protozoal Infections epidemiology

Published

2024

2. Fatal Case of Naegleria fowleri Primary Amebic Meningoencephalitis from Indoor Surfing Center, Taiwan, 2023.

Author

Wei HY, Lai YW, Li SY, Lee YI, Hu MK, Ji DD, and Su CP

Subjects

Humans, Taiwan epidemiology, Fatal Outcome, Male, Meningoencephalitis parasitology, Meningoencephalitis diagnosis, Amebiasis diagnosis, Amebiasis parasitology, Adult, Naegleria fowleri isolation & purification, Naegleria fowleri genetics, Central Nervous System Protozoal Infections parasitology, Central Nervous System Protozoal Infections diagnosis, Central Nervous System Protozoal Infections epidemiology

Abstract

We investigated a fatal case of primary amoebic meningoencephalitis from an indoor surfing center in Taiwan. The case was detected through encephalitis syndromic surveillance. Of 56 environmental specimens, 1 was positive for Naegleria fowleri ameba. This report emphasizes the risk for N. fowleri infection from inadequately disinfected recreational waters, even indoors.

Published

2024

3. Multiplex Real-Time Polymerase Chain Reaction Assay To Detect Acanthamoeba spp., Vermamoeba vermiformis, Naegleria fowleri, and Balamuthia mandrillaris in Different Water Sources.

Author

Córdoba-Lanús E, Reyes-Batlle M, Domínguez-de-Barros A, Pérez-Pérez P, Rodríguez-Expósito RL, García-Ramos A, Sifaoui I, García-Pérez O, Aneiros-Giraldez G, Piñero JE, and Lorenzo-Morales J

Subjects

Multiplex Polymerase Chain Reaction methods, Sensitivity and Specificity, Water parasitology, DNA, Protozoan genetics, Humans, Lobosea genetics, Lobosea isolation & purification, Naegleria fowleri isolation & purification, Naegleria fowleri genetics, Balamuthia mandrillaris isolation & purification, Balamuthia mandrillaris genetics, Acanthamoeba isolation & purification, Acanthamoeba genetics, Acanthamoeba classification, Real-Time Polymerase Chain Reaction methods

Abstract

Free-living amoebae (FLA) are widely distributed in the environment. Among these, Acanthamoeba spp., Naegleria fowleri, Balamuthia mandrillaris, and Vermamoeba vermiformis have been reported as human pathogens with health effects ranging from lethal encephalitis to different epithelial disorders. Despite this, FLA still present many diagnostic challenges. The aim of this study was to develop a rapid and efficient multiplex real-time quantitative polymerase chain reaction (qPCR) to simultaneously detect Acanthamoeba spp., N. fowleri, B. mandrillaris, and V. vermiformis in different water sources. For the validation of the qPCR assay, 38 samples (19 tap water and 19 stagnant water sources) were analyzed. The qPCR assay accurately identified the four types of FLA with no cross-reactivity. Considering water samples with results subsequently confirmed by conventional PCR, the multiplex qPCR assay detected 18/38 (47.4%) positive samples (Acanthamoeba spp. in 44.7% and V. vermiformis in 31.6%) and growth in nonnutritive agar (NNA) cultures identified 7/38 (18.4%) positive samples. Of the tap water samples analyzed, 26.3% of samples positive for FLA were detected by growth in NNA culture whereas 31.6% were identified by qPCR. In addition, FLA were detected in 2/19 stagnant water samples (10.5%) by growth in NNA culture and in 12/19 stagnant water samples (63.2%) by qPCR. Neither N. fowleri nor B. mandrillaris was detected in the water samples analyzed. In conclusion, the qPCR developed showed its potential as a rapid tool for detection of Acanthamoeba spp., N. fowleri, B. mandrillaris, and V. vermiformis. Moreover, FLA species were detected in half of the water sources evaluated, suggesting the importance of the surveillance of these potential infectious agents.

Published

2024

4. Naegleria fowleri : Understanding the Amoeba's Threat in Recreational Waters.

Author

Ashraf H, Zaidi E, Rasheed A, Eman E, and Khan F

Subjects

Humans, Recreation, Naegleria fowleri isolation & purification, Central Nervous System Protozoal Infections

Abstract

Competing Interests: Declaration of Conflicting InterestsThe author(s) declared no potential conflicts of interest with respect to the research, authorship, and/or publication of this article.

Published

2024

5. Emergence of Naegleria fowleri as a fatal parasite in Pakistan.

Author

Ahmed S, Rahim S, Faraz M, and Hassan SM

Subjects

Humans, Pakistan epidemiology, Naegleria fowleri isolation & purification, Central Nervous System Protozoal Infections epidemiology, Central Nervous System Protozoal Infections diagnosis

Published

2024

6. A giant virus infecting the amoeboflagellate Naegleria.

Author

Arthofer P, Panhölzl F, Delafont V, Hay A, Reipert S, Cyran N, Wienkoop S, Willemsen A, Sifaoui I, Arberas-Jiménez I, Schulz F, Lorenzo-Morales J, and Horn M

Subjects

Naegleria fowleri genetics, Naegleria fowleri isolation & purification, Phylogeny, Humans, Genome, Viral genetics, Giant Viruses genetics, Giant Viruses classification, Giant Viruses ultrastructure, Giant Viruses isolation & purification, Giant Viruses physiology, Naegleria genetics, Naegleria virology

Abstract

Giant viruses (Nucleocytoviricota) are significant lethality agents of various eukaryotic hosts. Although metagenomics indicates their ubiquitous distribution, available giant virus isolates are restricted to a very small number of protist and algal hosts. Here we report on the first viral isolate that replicates in the amoeboflagellate Naegleria. This genus comprises the notorious human pathogen Naegleria fowleri, the causative agent of the rare but fatal primary amoebic meningoencephalitis. We have elucidated the structure and infection cycle of this giant virus, Catovirus naegleriensis (a.k.a. Naegleriavirus, NiV), and show its unique adaptations to its Naegleria host using fluorescence in situ hybridization, electron microscopy, genomics, and proteomics. Naegleriavirus is only the fourth isolate of the highly diverse subfamily Klosneuvirinae, and like its relatives the NiV genome contains a large number of translation genes, but lacks transfer RNAs (tRNAs). NiV has acquired genes from its Naegleria host, which code for heat shock proteins and apoptosis inhibiting factors, presumably for host interactions. Notably, NiV infection was lethal to all Naegleria species tested, including the human pathogen N. fowleri. This study expands our experimental framework for investigating giant viruses and may help to better understand the basic biology of the human pathogen N. fowleri., (© 2024. The Author(s).)

Published

2024

7. Differential Growth Rates and In Vitro Drug Susceptibility to Currently Used Drugs for Multiple Isolates of Naegleria fowleri.

Author

Russell AC and Kyle DE

Subjects

Central Nervous System Protozoal Infections drug therapy, Central Nervous System Protozoal Infections parasitology, Drug Discovery, Genotype, Humans, Inhibitory Concentration 50, Naegleria fowleri genetics, Naegleria fowleri isolation & purification, Antiprotozoal Agents pharmacology, Naegleria fowleri drug effects, Naegleria fowleri growth & development, Pharmaceutical Preparations

Abstract

The free-living amoeba Naegleria fowleri, which typically dwells within warm, freshwater environments, can opportunistically cause primary amoebic meningoencephalitis (PAM), a disease with a mortality rate of >97%. The lack of positive treatment outcomes for PAM has prompted the discovery and development of more effective therapeutics, yet most studies utilize only one or two clinical isolates. The inability to assess possible heterogenic responses to drugs among isolates from various geographical regions hinders progress in the discovery of more effective drugs. Here, we conducted drug efficacy and growth rate determinations for 11 different clinical isolates by applying a previously developed CellTiter-Glo 2.0 screening technique and flow cytometry. We found significant differences in the susceptibilities of these isolates to 7 of 8 drugs tested, all of which make up the cocktail that is recommended to physicians by the U.S. Centers for Disease Control and Prevention. We also discovered significant variances in growth rates among isolates, which draws attention to the differences among the amoeba isolates collected from different patients. Our results demonstrate the need for additional clinical isolates of various genotypes in drug assays and highlight the necessity for more targeted therapeutics with universal efficacy across N. fowleri isolates. Our data establish a needed baseline for drug susceptibility among clinical isolates and provide a segue for future combination therapy studies as well as research related to phenotypic or genetic differences that could shed light on mechanisms of action or predispositions to specific drugs. IMPORTANCE Naegleria fowleri, also known as the brain-eating amoeba, is ubiquitous in warm freshwater and is an opportunistic pathogen that causes primary amoebic meningoencephalitis. Although few cases are described each year, the disease has a case fatality rate of >97%. In most laboratory studies of this organism, only one or two well-adapted lab strains are used; therefore, there is a lack of data to discern if there are major differences in potency of currently used drugs for multiple strains and genotypes of the amoeba. In this study, we found significant differences in the susceptibilities of 11 N. fowleri isolates to 7 of the 8 drugs currently used to treat the disease. The data from this study provide a baseline of drug susceptibility among clinical isolates and suggest that new drugs should be tested on a larger number of isolates in the future.

Published

2022

8. Drug discovery for primary amebic meningoencephalitis: from screen to identification of leads.

Author

Debnath A

Subjects

Animals, Central Nervous System Protozoal Infections parasitology, Drug Development methods, Drug Discovery methods, High-Throughput Screening Assays, Humans, Naegleria fowleri isolation & purification, Rare Diseases drug therapy, Rare Diseases parasitology, Antiprotozoal Agents pharmacology, Central Nervous System Protozoal Infections drug therapy, Naegleria fowleri drug effects

Abstract

Introduction : Naegleria fowleri is responsible for primary amebic meningoencephalitis (PAM) which has a fatality rate of >97%. Because of the rarity of the disease, pharmaceutical companies do not pursue new drug discovery for PAM. Yet, it is possible that the infection is underreported and finding a better drug would have an impact on people suffering from this deadly infection. Areas covered : This paper reports the efforts undertaken by different academic groups over the last 20 years to test different compounds against N. fowleri . The drug discovery research encompassed synthesis of new compounds, development and use of high-throughput screening methods and attempts to repurpose clinically developed or FDA-approved compounds for the treatment of PAM. Expert opinion : In absence of economic investment to develop new drugs for PAM, repurposing the FDA-approved drugs has been the best strategy so far to identify new leads against N. fowleri . Increasing use of high-throughput phenotypic screening has the potential to accelerate the identification of new leads, either in monotherapy or in combination treatment. Since phase II clinical trial is not possible for PAM, it is critical to demonstrate in vivo efficacy of a clinically safe compound to translate the discovery from lab to the clinic.

Published

2021

9. Evaluation of molecular characterization and phylogeny for quantification of Acanthamoeba and Naegleria fowleri in various water sources, Turkey.

Author

Aykur M and Dagci H

Subjects

Acanthamoeba isolation & purification, Acanthamoeba pathogenicity, DNA, Protozoan genetics, Genotype, Linear Models, Naegleria fowleri isolation & purification, Plasmids genetics, RNA, Ribosomal, 5.8S genetics, Reference Standards, Statistics, Nonparametric, Trophozoites isolation & purification, Turkey, Acanthamoeba classification, Acanthamoeba genetics, Naegleria fowleri classification, Naegleria fowleri genetics, Phylogeny, Water parasitology

Abstract

Free-living amoeba (FLA) is widely distributed in the natural environment. Since these amoebae are widely found in various waters, they pose an important public health problem. The aim of this study was to detect the presence of Acanthamoeba, B. mandrillaris, and N. fowleri in various water resources by qPCR in Izmir, Turkey. A total of (n = 27) 18.24% Acanthamoeba and (n = 4) 2.7% N. fowleri positives were detected in six different water sources using qPCR with ITS regions (ITS1) specific primers. The resulting concentrations varied in various water samples for Acanthamoeba in the range of 3.2x105-1.4x102 plasmid copies/l and for N. fowleri in the range of 8x103-11x102 plasmid copies/l. The highest concentration of Acanthamoeba and N. fowleri was found in seawater and damp samples respectively. All 27 Acanthamoeba isolates were identified in genotype level based on the 18S rRNA gene as T4 (51.85%), T5 (22.22%), T2 (14.81%) and T15 (11.11%). The four positive N. fowleri isolate was confirmed by sequencing the ITS1, ITS2 and 5.8S rRNA regions using specific primers. Four N. fowleri isolates were genotyped (three isolate as type 2 and one isolate as type 5) and detected for the first time from water sources in Turkey. Acanthamoeba and N. fowleri genotypes found in many natural environments are straightly related to human populations to have pathogenic potentials that may pose a risk to human health. Public health professionals should raise awareness on this issue, and public awareness education should be provided by the assistance of civil authorities. To the best of our knowledge, this is the first study on the quantitative detection and distribution of Acanthamoeba and N. fowleri genotypes in various water sources in Turkey., Competing Interests: The authors have declared that no competing interests exist.

Published

2021

10. Comparative Genomic and Transcriptomic Analysis of Naegleria fowleri Clinical and Environmental Isolates.

Author

Joseph SJ, Park S, Kelley A, Roy S, Cope JR, and Ali IKM

Subjects

Environmental Microbiology, Gene Expression Profiling, Humans, Naegleria fowleri classification, Naegleria fowleri isolation & purification, Naegleria fowleri pathogenicity, Water parasitology, Central Nervous System Protozoal Infections parasitology, Genome, Protozoan, Genomics methods, Naegleria fowleri genetics, Phylogeny, Transcriptome

Abstract

Out of over 40 species of Naegleria , which are free-living thermophilic amebae found in freshwater and soil worldwide, only Naegleria fowleri infects humans, causing primary amebic meningoencephalitis (PAM), a typically fatal brain disease. To understand the population structure of Naegleria species and the genetic relationships between N. fowleri isolates and to detect pathogenic factors, we characterized 52 novel clinical and environmental N. fowleri genomes and a single Naegleria lovaniensis strain, along with transcriptomic data for a subset of 37 N. fowleri isolates. Whole-genome analysis of 56 isolates from three Naegleria species (N. fowleri, N. lovaniensis , and Naegleria gruberi) identified several genes unique to N. fowleri that have previously been linked to the pathogenicity of N. fowleri, while other unique genes could be associated with novel pathogenicity factors in this highly fatal pathogen. Population structure analysis estimated the presence of 10 populations within the three Naegleria species, of which 7 populations were within N. fowleri. The whole-nuclear-genome (WNG) phylogenetic analysis showed an overall geographical clustering of N. fowleri isolates, with few exceptions, and provided higher resolution in identifying potential clusters of isolates beyond that of the traditional locus typing. There were only 34 genes that showed significant differences in gene expression between the clinical and environmental isolates. Genomic data generated in this study can be used for developing rapid molecular assays and to conduct future population-based global genomic analysis and will also be a valuable addition to genomic reference databases, where shotgun metagenomics data from routine water samples could be searched for the presence of N. fowleri strains. IMPORTANCE N. fowleri, the only known Naegleria species to infect humans, causes fatal brain disease. PAM cases from 1965 to 2016 showed <20 cases per year globally. Out of approximately 150 cases in North America since 1962, only four PAM survivors are known, yielding a >97% case fatality rate, which is critically high. Although the pathogenesis of N. fowleri has been studied for the last 50 years, pathogenetic factors that lead to human infection and breaching the blood-brain barrier remain unknown. In addition, little is known regarding the genomic diversity both within N. fowleri isolates and among Naegleria species. In this study, we generated novel genome sequences and performed comparative genomic and transcriptomic analysis of a set of 52 N. fowleri draft genome sequences from clinical and environmental isolates derived from all over the world in the last 53 years, which will help shape future genome-wide studies and develop sensitive assays for routine surveillance.

Published

2021

11. Naegleria fowleri-associated meningoencephalitis in a cow in Southern Brazil-first molecular detection of N. fowleri in Brazil.

Author

Henker LC, Lorenzett MP, Dos Santos DL, Virginio VG, Driemeier D, Rott MB, and Pavarini SP

Subjects

Animals, Brazil, Cattle, Female, Amebiasis diagnosis, Amebiasis epidemiology, Amebiasis veterinary, Central Nervous System Protozoal Infections diagnosis, Central Nervous System Protozoal Infections epidemiology, Central Nervous System Protozoal Infections veterinary, Meningoencephalitis diagnosis, Meningoencephalitis veterinary, Naegleria fowleri isolation & purification

Abstract

Naegleria fowleri, a free-living and thermophilic ameba, is the etiological agent of primary amebic meningoencephalitis (PAM). PAM is a rare and highly fatal neurologic disease in humans, and has been rarely documented in animal species. This report describes the pathological and etiological findings of a fatal case of N. fowleri-associated meningoencephalitis in a cow in Southern Brazil. Microscopic findings were consistent with severe, multifocal, hemorrhagic, and necrosuppurative meningoencephalitis associated with a large number of amebic trophozoites compatible with N. fowleri. Brain samples subjected to molecular assays generated a 315 bp fragment, which presented 99% identity with a N. fowleri sequence previously deposited in GenBank. This is the first study reporting the molecular detection of N. fowleri in a case of cattle meningoencephalitis in Latin America, and the obtained sequence represents the first GenBank deposit of N. fowleri identified in Brazil to this day. Additionally, the case reported is the second occurrence of N. fowleri-associated disease in the same city, drawing attention to the local importance of infection by this ameba and potential risk for human infections., (© 2021. The Author(s), under exclusive licence to Springer-Verlag GmbH Germany, part of Springer Nature.)

Published

2021

12. Isolation, molecular characterization and phylogeny of Naegleria species in water bodies of North-Western Province, Sri Lanka.

Author

Gunarathna N, Amarasinghe A, Wijesundara S, Iddawela D, and Wickramasinghe S

Subjects

Sri Lanka, Fresh Water parasitology, Naegleria fowleri classification, Naegleria fowleri genetics, Naegleria fowleri isolation & purification, Phylogeny

Abstract

Background: The inland freshwater bodies in the North-Western Province of Sri Lanka have ideal environmental conditions for the Naegleria species. Therefore, the presence and prevalence of Naegleria species in the water bodies of North-Western Province were determined by molecular characterization and phylogenetic analysis in this study., Methods: A total of 104 water bodies were selected from Kurunegala and Puttalam districts in the North-Western Province of Sri Lanka. Mean turbidity, pH, and temperature were recorded in each water body from three selected site. Centrifuged samples were cultured on non-nutrient agar plates with Escherichia coli. Enflagellation test positive isolates were subjected to DNA extraction and polymerase chain reaction using genus and species-specific primers targeting the internal transcribed spacer region (ITS) and Mp2CL5 gene. Phylogenetic analysis was performed using Bayesian and maximum likelihood (ML) methods., Results: The prevalence of Naegleria species and N. fowleri in the study area were 23.07% and 1.92%. The prevalence of Naegleria species and the physicochemical parameters of the water bodies showed no significant correlation. Bayesian analysis of the ITS region revealed the Naegleria Sri Lankan (SL) isolates 1, 3, and 4 in a single clade separated from the 2 and 5. Furthermore, Bayesian analysis identified isolates 2 and 5 in the same clade with Naegleria sp. samples and N. Philippinensis forming a sister clade. However, in the ML tree, all isolates were in the same clade with Naegleria sp. samples and N. Philippinensis., Conclusions: The present study reports the first isolation of pathogenic N. fowleri from Sri Lanka. Based on Bayesian analysis, SL isolates 2 and 5 form a separate clade from 1, 3, and 4. However, in ML analysis, all isolates are grouped in one clade with Naegleria sp. samples and N. philippinensis. Further investigations are required to confirm these findings., Competing Interests: The authors have declared that no competing interests exist.

Published

2021

13. Naegleria fowleri .

Author

Harris GR and Batra R

Subjects

Adult, Cerebrospinal Fluid chemistry, Cerebrospinal Fluid cytology, Fatal Outcome, Humans, Male, Central Nervous System Protozoal Infections, Cerebrospinal Fluid parasitology, Naegleria fowleri isolation & purification

Published

2020

14. Naegleria fowleri: Sources of infection, pathophysiology, diagnosis, and management; a review.

Author

Jahangeer M, Mahmood Z, Munir N, Waraich UE, Tahir IM, Akram M, Ali Shah SM, Zulfqar A, and Zainab R

Subjects

Animals, Anti-Infective Agents pharmacology, Anti-Infective Agents therapeutic use, Brain drug effects, Brain metabolism, Central Nervous System Protozoal Infections metabolism, Humans, Naegleria fowleri drug effects, Naegleria fowleri metabolism, Olfactory Mucosa drug effects, Olfactory Mucosa metabolism, Olfactory Mucosa parasitology, Brain parasitology, Central Nervous System Protozoal Infections drug therapy, Central Nervous System Protozoal Infections prevention & control, Disease Management, Naegleria fowleri isolation & purification

Abstract

Naegleria fowleri, a thermophilic flagellate amoeba known as a "brain-eating" amoeba, is the aetiological agent of a perilous and devastating waterborne disease known as primary amoebic meningoencephalitis (PAM), both in humans as well as in animals. PAM is a rare but fatal disease affecting young adults all around the world, particularly in the developed world but recently reported from developing countries, with 95%-99% mortality rate. Swimmers and divers are at high risk of PAM as the warm water is the most propitious environment adapted by N. fowleri to cause this infection. Infective amoeba in the trophozoite phase enter the victim's body through the nose, crossing the cribriform plate to reach the human brain and cause severe destruction of the central nervous system (CNS). The brain damage leads to brain haemorrhage and death occurs within 3-7 days in undiagnosed cases and maltreated cases. Though the exact pathogenesis of N. fowleri is still not known, it has exhibited two primary mechanisms, contact-independent (brain damage through different proteins) and contact-dependent (brain damage through surface structures food cups), that predominantly contribute to the pathogen invading the host CNS. For the management of this life-threatening infection different treatment regimens have been applied but still the survival rate is only 5% which is ascribed to its misdiagnosis, as the PAM symptoms closely resembled bacterial meningitis. The main objectives of this review article are to compile data to explore the sources and routes of N. fowleri infection, its association in causing PAM along with its pathophysiology; latest techniques used for accurate diagnosis, management options along with challenges for Pakistan to control this drastic disorder., (© 2019 John Wiley & Sons Australia, Ltd.)

Published

2020

15. A case of primary amebic meningoencephalitis caused by Naegleria fowleri in Bangladesh.

Author

Sazzad HMS, Luby SP, Sejvar J, Rahman M, Gurley ES, Hill V, Murphy JL, Roy S, Cope JR, and Ali IKM

Subjects

Adolescent, Animals, Bangladesh, Fatal Outcome, Fresh Water parasitology, Humans, Male, Central Nervous System Protozoal Infections parasitology, Naegleria fowleri isolation & purification

Abstract

We present the first recognized case of primary amebic meningoencephalitis (PAM) caused by Naegleria fowleri in a 15-year-old male from Bangladesh. He performed daily nasal rinsing with untreated ground water and bathed in untreated ground water or river water, which likely exposed him to N. fowleri.

Published

2020

16. Meningoencephalitis due to Naegleria fowleri in cattle in southern Brazil.

Author

Henker LC, Cruz RASD, Silva FSD, Driemeier D, Sonne L, Uzal FA, and Pavarini SP

Subjects

Animals, Cattle, Central Nervous System Protozoal Infections parasitology, Female, Cattle Diseases parasitology, Central Nervous System Protozoal Infections veterinary, Naegleria fowleri isolation & purification

Abstract

Naegleria fowleri is a free-living amoeba commonly found in the environment, mainly in fresh water and soil. This protozoon is occasionally involved in cases of fatal central nervous system disease in humans and other animal species. We describe here a case of meningoencephalitis due to Naegleria fowleri in cattle, in southern Brazil. A four-year-old Angus cow presented a clinical history of initial mild neurological signs that progressed to paddling movements, opisthotonus and lateral recumbency after five days. This animal had been kept in an irrigated rice stubble paddock. Grossly, the main lesions consisted of multiple areas of malacia in the right olfactory bulb, piriform lobes, hippocampus, frontal lobe cortex and fornix, along with severe thickening of the mesencephalon and rhombencephalon leptomeninges. Microscopically, severe multifocal necrosuppurative and hemorrhagic meningoencephalitis associated with a large quantity of amoebic trophozoites was present. The latter were confirmed to be Naegleria spp., through immunohistochemistry. Based on the strong congruence with the histopathological data of known cases reported in the literature, a probable association with Naegleria fowleri was established. To our knowledge, this is only the second report of Naegleria fowleri-associated meningoencephalitis in cattle in South America, and it is the first in southern Brazil.

Published

2019

17. Primary Amebic Meningoencephalitis: A Case Report.

Author

Chen M, Ruan W, Zhang L, Hu B, and Yang X

Subjects

Adult, Fatal Outcome, Fresh Water parasitology, Humans, Male, Meningoencephalitis diagnosis, Meningoencephalitis mortality, Naegleria fowleri genetics, Naegleria fowleri isolation & purification, Naegleria fowleri physiology, Meningoencephalitis parasitology

Abstract

Primary amebic encephalitis (PAM) is a devastating central nervous system infection caused by Naegleria fowleri, a free-living amoeba, which can survive in soil and warm fresh water. Here, a 43-year-old healthy male was exposed to warm freshwater 5 days before the symptom onset. He rapidly developed severe cerebral edema before the diagnosis of PAM and was treated with intravenous conventional amphotericin B while died of terminal cerebral hernia finally. Comparing the patients with PAM who has similar clinical symptoms to those with other common types of meningoencephalitis, this infection is probably curable if treated early and aggressively. PAM should be considered in the differential diagnosis of purulent meningoencephalitis, especially in patients with recent freshwater-related activities during the hot season.

Published

2019

18. Primary amoebic meningoencephalitis in an infant.

Author

Mittal N, Mahajan L, Hussain Z, Gupta P, and Khurana S

Subjects

Acyclovir therapeutic use, Amebiasis drug therapy, Amphotericin B therapeutic use, Ceftriaxone therapeutic use, Central Nervous System Protozoal Infections drug therapy, Central Nervous System Protozoal Infections parasitology, Cerebrospinal Fluid parasitology, Female, Humans, Infant, Meningoencephalitis diagnosis, Meningoencephalitis drug therapy, Naegleria fowleri genetics, Trophozoites isolation & purification, Vancomycin therapeutic use, Amebiasis diagnosis, Amebicides therapeutic use, Central Nervous System Protozoal Infections diagnosis, Meningoencephalitis parasitology, Naegleria fowleri isolation & purification

Abstract

Primary amoebic meningoencephalitis is rare but fatal disease encountered in immunocompetent individuals. Here, we present a case of a previously healthy 8-month-old female child, who presented with features of meningoencephalitis of 2 days' duration. Rapidly moving trophozoites of amoeba were observed in cerebrospinal fluid, which were confirmed to be Naegleria fowleri on polymerase chain reaction. Broad-spectrum antimicrobial therapy with ceftriaxone, vancomycin, amphotericin B and acyclovir was initiated. However, the patient deteriorated and left the hospital against medical advice. The isolation of N. fowleri in this case demands for increased awareness for prompt diagnosis and management in view of its high mortality., Competing Interests: None

Published

2019

19. Potentially pathogenic genera of free-living amoebae coexisting in a thermal spring.

Author

Lares-Jiménez LF, Borquez-Román MA, Lares-García C, Otero-Ruiz A, Gonzalez-Galaviz JR, Ibarra-Gámez JC, and Lares-Villa F

Subjects

Acanthamoeba classification, Acanthamoeba genetics, Acanthamoeba isolation & purification, Acanthamoeba pathogenicity, Amoeba classification, Amoeba genetics, Amoeba isolation & purification, Balamuthia mandrillaris classification, Balamuthia mandrillaris genetics, Balamuthia mandrillaris isolation & purification, Balamuthia mandrillaris pathogenicity, DNA, Protozoan chemistry, DNA, Protozoan isolation & purification, Genotype, Hot Springs chemistry, Hydrogen-Ion Concentration, Mexico, Naegleria fowleri classification, Naegleria fowleri genetics, Naegleria fowleri isolation & purification, Naegleria fowleri pathogenicity, Phylogeny, Polymerase Chain Reaction, Spectrophotometry, Temperature, Amoeba pathogenicity, Hot Springs parasitology

Abstract

Little is known about the prevalence of Balamuthia mandrillaris within the environment due to its difficult isolation, but once an axenic culture is established, it is relatively easy to maintain. As most of the time researchers are interested mainly in isolating B. mandrillaris from environmental samples, the flora that accompanies it becomes second in importance. Therefore, this study aimed to determine which potentially pathogenic free-living amoebae, in addition to B. mandrillaris, could be found co-inhabiting a source of natural thermal water called "Agua Caliente" (Mexico), where this amoeba has previously been detected twice by molecular methods. A third sampling from this same source was carried out to try to isolate B. mandrillaris and other free-living amoebae using 37 and 45 °C as isolation temperatures. For PCR techniques, specific primers were used for B. mandrillaris, Naegleria fowleri, and Acanthamoeba species, plus a universal primer set for the eukaryotic 18S SSU rRNA gene for other isolated amoebae. PCR products were sequenced for final identification. 42 strains of the primary isolate were obtained, but only 34 could be kept in culture. Of them, 23 strains were identified as Naegleria lovaniensis, eight strains as Acanthamoeba jacobsi, two strains as Stenamoeba sp. and only one was identified as Vermamoeba vermiformis. The isolation of B. mandrillaris was once again not successful, but the presence of potentially pathogenic and nonpathogenic free-living amoebae is reported for the first time in this type of water in Mexico thanks to molecular methodology., (Copyright © 2018. Published by Elsevier Inc.)

Published

2018

20. Comparison of next-generation droplet digital PCR with quantitative PCR for enumeration of Naegleria fowleri in environmental water and clinical samples.

Author

Xue J, Caton K, and Sherchan SP

Subjects

Humans, Limit of Detection, Parks, Recreational, Saline Waters, Sensitivity and Specificity, Water parasitology, DNA, Protozoan analysis, Lakes parasitology, Naegleria fowleri genetics, Naegleria fowleri isolation & purification, Real-Time Polymerase Chain Reaction methods

Abstract

Naegleria fowleri in recreational waters is a serious health threat. A rapid and accurate method to determine this pathogen in water is vital to develop effective control strategies. In this study, we compared two molecular methods: droplet digital polymerase chain reaction (ddPCR) and quantitative PCR (qPCR) assays in identifying N. fowleri from clinical and environmental samples. Strong agreement between ddPCR and qPCR methods over clinical DNA samples was observed. The limit of detection (LOD) for ddPCR and qPCR assays were 2·5 and 25 N. fowleri per reaction respectively. In the comparative analysis using N. fowleri genomic DNA, quantitative results obtained from ddPCR and qPCR assays showed no significant difference. The assay specificity for ddPCR and qPCR assays were 100 and 86% respectively. Results from both PCR assays indicated N. fowleri was present in surface water samples from Lake Pontchartrain during our study period. In general, the ddPCR performance demonstrated in this study on clinical and environmental samples lead to greater confidence of ddPCR technology on field application. For precise quantification using qPCR, we recommend using ddPCR to quantify the standard materials before qPCR application., Significance and Impact of the Study: This study explored the application of ddPCR and qPCR methods in identifying Naegleria fowleri from both clinical and environmental water samples. Strong agreement between ddPCR and qPCR methods over clinical DNA samples was observed. Naegleria fowleri was present in surface water samples from Lake Pontchartrain during our study period. The ability of N. fowleri to survive in brackish water is therefore a potential risk factor for people who engage in water-related recreational activities. The ddPCR performance demonstrated in this study on clinical and environmental samples lead to greater confidence of ddPCR technology on field application., (© 2018 The Society for Applied Microbiology.)

Published

2018

21. Preferential feeding in Naegleria fowleri; intracellular bacteria isolated from amoebae in operational drinking water distribution systems.

Author

Miller HC, Morgan MJ, Walsh T, Wylie JT, Kaksonen AH, and Puzon GJ

Subjects

Biofilms, Deinococcus genetics, Deinococcus physiology, Environmental Monitoring, Naegleria fowleri isolation & purification, RNA, Ribosomal, 16S, Water Pollutants isolation & purification, Deinococcus isolation & purification, Drinking Water microbiology, Naegleria fowleri microbiology

Abstract

The amoeba Naegleria fowleri is the causative agent of the highly fatal disease, primary amoebic meningoencephalitis, and estimated to cause 16 deaths per year in the United States alone. Colonisation of drinking water distribution systems (DWDSs) by the N. fowleri is a significant public health issue. Understanding the factors which enable this pathogen to colonise and thrive in DWDSs is critical for proper management. The microbial ecology within DWDSs may influence the ability of N. fowleri to colonise DWDSs by facilitating the availability of an appropriate food source. Using biofilm samples obtained from operational DWDSs, 16S rRNA amplicon metabarcoding was combined with genus-specific PCR and Sanger sequencing of intracellular associated bacteria from isolated amoeba and their parental biofilms to identify Meiothermus chliarophilus as a potential food source for N. fowleri. Meiothermus was confirmed as a food source for N. fowleri following successful serial culturing of axenic N. fowleri with M. chliarophilus or M. ruber as the sole food source. The ability to identify environmental and ecological conditions favourable to N. fowleri colonisation, including the detection of appropriate food sources such as Meiothermus, could provide water utilities with a predictive tool for managing N. fowleri colonisation within the DWDS., (Copyright © 2018 Elsevier Ltd. All rights reserved.)

Published

2018

22. A case of Naegleria fowleri related primary amoebic meningoencephalitis in China diagnosed by next-generation sequencing.

Author

Wang Q, Li J, Ji J, Yang L, Chen L, Zhou R, Yang Y, Zheng H, Yuan J, Li L, Bi Y, Gao GF, Ma J, and Liu Y

Subjects

Adult, Central Nervous System Protozoal Infections parasitology, China, Coma diagnosis, Coma parasitology, Fatal Outcome, Humans, Male, Naegleria fowleri isolation & purification, Naegleria fowleri pathogenicity, Central Nervous System Protozoal Infections diagnosis, High-Throughput Nucleotide Sequencing, Naegleria fowleri genetics

Abstract

Background: Primary amoebic meningoencephalitis (PAM), caused by Naegleria fowleri, is a rare protozoan infectious disease in China. A fatality rate of over 95% had been reported due to extremely rapid disease progression in the USA and other countries. Rapid and precise identification of the causative agent is very important to clinicians for guiding their choices for administering countermeasures in the clinic. In this report, we applied the next-generation sequencing (NGS) method to rapidly show that N. fowleri was the causative agent of a fatal case involving a 42-year-old man with severe PAM disease, the first reported in mainland China., Case Presentation: A 42-year old male in a deep coma was admitted to Shenzhen Third People's Hospital, a special medical care unit with expertise in infectious diseases. Increased intracranial pressure was detected. The cerebrospinal fluid (CSF) sample was found to be red and cloudy with increased leukocyte and protein levels. While bacterial cultures with CSF were negative, N. fowleri was determined to be the causative agent with NGS. Amphotericin B (AmB), a drug with anti-amoeba activity, was used immediately, but the treatment came too late and the patient died 2 days after the NGS confirmation., Conclusion: In this paper, we reported a case of PAM disease for the first time in mainland China. NGS was used for rapid diagnosis and provided guidance for prescribing medications. However, the patient died due to a late admission amid advanced PAM disease. Early detection of N. fowleri is necessary in order to select effective drug treatments and control the disease progression. Despite the negative survival outcome, NGS was shown to be a promising method of rapid and precise identification of N. fowleri.

Published

2018

23. Identification and molecular typing of Naegleria fowleri from a patient with primary amebic meningoencephalitis in China.

Author

Zhang LL, Wu M, Hu BC, Chen HL, Pan JR, Ruan W, and Yao LN

Subjects

Adult, Animals, Central Nervous System Protozoal Infections cerebrospinal fluid, Central Nervous System Protozoal Infections physiopathology, China, Coma, Fatal Outcome, Fever, Humans, Leisure Activities, Male, Molecular Typing, Naegleria fowleri pathogenicity, Phylogeny, Polymerase Chain Reaction, Rare Diseases, Sequence Alignment, Central Nervous System Protozoal Infections diagnosis, Central Nervous System Protozoal Infections parasitology, Headache Disorders parasitology, Naegleria fowleri genetics, Naegleria fowleri isolation & purification, Water parasitology

Abstract

Naegleria fowleri is the only Naegleria spp. known to cause an acute, fulminant, and rapidly fatal central nervous system infection in humans called primary amebic meningoencephalitis (PAM). In 2016, a patient with suspected PAM was found in Zhejiang Province of China. The pathogen was identified by microscopic examination and PCR. The positive PCR products were sequenced and the sequences were aligned using the NCBI BLAST program. The homologous and phylogenetic analysis was conducted using MEGA 6 program. On microscopy of direct smears, motile cells with pseudopodia were observed, and the motion characteristics of the pseudopodia as well as the cell morphology suggested that the pathogens were amoeba trophozoites. Wright-Giemsa-stained smears showed amoeba trophozoites of various shapes, which measured 10-25μm in size; these were characterized by a prominent, centrally placed nucleolus and a vacuolated cytoplasm. PCR was negative for Entamoeba histolytica and Entamoeba dispar, but positive for Naegleria spp. and N. fowleri. The nucleotide sequences acquired in this study have been submitted to GenBank with accession numbers KX909928 and KX909927, respectively. The BLAST analysis revealed that the sequences of KX909928 and KX909927 had 100% similarity with the sequence of the N. fowleri gene (KT375442.1). Sequence alignment and the phylogenetic tree revealed that the N. fowleri collected in this study was classified as genotype 2 and was most closely related to Naegleria lovaniensis. This study confirmed N. fowleri as the agent responsible for the infection in this patient. PAM normally progresses rapidly and is generally universally fatal within a week. Unfortunately this patient died at 2 weeks after the onset of symptoms., (Copyright © 2018 The Authors. Published by Elsevier Ltd.. All rights reserved.)

Published

2018

24. Development of nanoparticle-assisted PCR assay in the rapid detection of brain-eating amoebae.

Author

Gabriel S, Rasheed AK, Siddiqui R, Appaturi JN, Fen LB, and Khan NA

Subjects

Acanthamoeba isolation & purification, Animals, Balamuthia mandrillaris isolation & purification, Biological Assay, Brain parasitology, Cell Line, Tumor, Early Diagnosis, HeLa Cells, Humans, Naegleria fowleri isolation & purification, Protozoan Infections diagnosis, Protozoan Infections parasitology, Acanthamoeba genetics, Aluminum Oxide chemistry, Balamuthia mandrillaris genetics, Copper chemistry, Graphite chemistry, Metal Nanoparticles chemistry, Naegleria fowleri genetics, Polymerase Chain Reaction methods

Abstract

Brain-eating amoebae (Acanthamoeba spp., Balamuthia mandrillaris, Naegleria fowleri) have gained increasing attention owing to their capacity to produce severe human and animal infections involving the brain. Early detection is a pre-requisite in successful prognosis. Here, we developed a nanoPCR assay for the rapid detection of brain-eating amoebae using various nanoparticles. Graphene oxide, copper and alumina nanoparticles used in this study were characterized using Raman spectroscopy measurements through excitation with a He-Ne laser, while powder X-ray diffraction patterns were taken on a PANanalytical, X'Pert HighScore diffractometer and the morphology of the materials was confirmed using high-resolution transmission electron microscopy (HRTEM). Using nanoparticle-assisted PCR, the results revealed that graphene oxide, copper oxide and alumina nanoparticles significantly enhanced PCR efficiency in the detection of pathogenic free-living amoebae using genus-specific probes. The optimal concentration of graphene oxide, copper oxide and alumina nanoparticles for Acanthamoeba spp. was determined at 0.4, 0.04 and 0.4 μg per mL respectively. For B. mandrillaris, the optimal concentration was determined at 0.4 μg per mL for graphene oxide, copper oxide and alumina nanoparticles, and for Naegleria, the optimal concentration was 0.04, 4.0 and 0.04 μg per mL respectively. Moreover, combinations of these nanoparticles proved to further enhance PCR efficiency. The addition of metal oxide nanoparticles leads to excellent surface effect, while thermal conductivity property of the nanoparticles enhances PCR productivity. These findings suggest that nanoPCR assay has tremendous potential in the clinical diagnosis of parasitic infections as well as for studying epidemiology and pathology and environmental monitoring of other microbes.

Published

2018

25. Quantitative assessment of Naegleria fowleri and fecal indicator bacteria in brackish water of Lake Pontchartrain, Louisiana.

Author

Xue J, Lamar FG, Zhang B, Lin S, Lamori JG, and Sherchan SP

Subjects

Louisiana, Polymerase Chain Reaction, Saline Waters, Enterococcus isolation & purification, Environmental Monitoring, Escherichia coli isolation & purification, Feces microbiology, Lakes microbiology, Naegleria fowleri isolation & purification

Abstract

Brackish water samples from Lake Pontchartrain in Louisiana were assessed for the presence of pathogenic amoeba Naegleria fowleri, which causes primary amoebic meningoencephalitis (PAM). In our study, quantitative polymerase chain reaction (qPCR) methods were used to determine N. fowleri, E. coli, and enterococci in water collected from Lake Pontchartrain. N. fowleri target sequence was detected in 35.4% (56/158) of the water samples from ten sites around the lake. Statistically significant positive correlations between N. fowleri concentration and water temperature as well as E. coli (qPCR) were observed. Multiple linear regression (MLR) model shows seasonal factor (summer or winter) has significant effect on the concentration of N. fowleri, E. coli and enterococci (qPCR) concentration. Significant positive relationships between E. coli and enterococci was observed from both qPCR (r=0.25) and culture based method (r=0.54). Meanwhile, significant positive correlation between qPCR and culture based methods for enterococci concentration was observed (r=0.33). In our study, water temperature and E. coli concentration were indicative of N. fowleri concentrations in brackish water environment. Future research is needed to determine whether sediment is a source of N. fowleri found in the water column., (Copyright © 2017 Elsevier B.V. All rights reserved.)

Published

2018

26. Monitoring of Noxious Protozoa for Management of Natural Water Resources.

Author

Bahk YY, Cho PY, Ahn SK, Park S, Jheong WH, Park YK, Shin HJ, Lee SS, Rhee O, and Kim TS

Subjects

Animals, Republic of Korea, Seasons, Time Factors, Cryptosporidium parvum isolation & purification, Environmental Monitoring, Giardia lamblia isolation & purification, Naegleria fowleri isolation & purification, Water parasitology, Water Resources

Abstract

Waterborne parasitic protozoa, particularly Giardia lamblia and Cryptosporidium spp., are common causes of diarrhea and gastroenteritis worldwide. The most frequently identified source of infestation is water, and exposure involves either drinking water or recreation in swimming pools or natural bodies of water. In practice, studies on Cryptosporidium oocysts and Giardia cysts in surface water are challenging owing to the low concentrations of these microorganisms because of dilution. In this study, a 3-year monitoring of Cryptosporidium parvum, Giardia lamblia , and Naegleria fowleri was conducted from August 2014 to June 2016 at 5 surface water sites including 2 lakes, 1 river, and 2 water intake plants. A total of 50 water samples of 40 L were examined. Cryptosporidium oocysts were detected in 22% of samples and Giardia cysts in 32%. Water at the 5 sampling sites was all contaminated with Cryptosporidium oocysts (0-36/L), Giardia cysts (0-39/L), or both. The geometric mean concentrations of Cryptosporidium and Giardia were 1.14 oocysts/L and 4.62 cysts/L, respectively. Thus, effective monitoring plans must take into account the spatial and temporal parameters of contamination because they affect the prevalence and distribution of these protozoan cysts in local water resources.

Published

2018

27. Primary Amebic Meningoencephalitis Associated With Rafting on an Artificial Whitewater River: Case Report and Environmental Investigation.

Author

Cope JR, Murphy J, Kahler A, Gorbett DG, Ali I, Taylor B, Corbitt L, Roy S, Lee N, Roellig D, Brewer S, and Hill VR

Subjects

Acanthamoeba genetics, Acanthamoeba isolation & purification, Adolescent, Amoeba genetics, Balamuthia mandrillaris genetics, Balamuthia mandrillaris isolation & purification, Central Nervous System Protozoal Infections etiology, Environment, Fatal Outcome, Female, Humans, Meningoencephalitis parasitology, Naegleria fowleri genetics, Naegleria fowleri isolation & purification, North Carolina, Parks, Recreational, Polymerase Chain Reaction, Amoeba isolation & purification, Brain parasitology, Central Nervous System Protozoal Infections diagnosis, Meningoencephalitis diagnosis, Meningoencephalitis etiology, Rivers parasitology

Abstract

Background: Naegleria fowleri is a thermophilic ameba found in freshwater that causes primary amebic meningoencephalitis (PAM) when it enters the nose and migrates to the brain. Patient exposure to water containing the ameba typically occurs in warm freshwater lakes and ponds during recreational water activities. In June 2016, an 18-year-old woman died of PAM after traveling to North Carolina, where she participated in rafting on an artificial whitewater river., Methods: We conducted an epidemiologic and environmental investigation to determine the water exposure that led to the death of this patient., Results: The case patient's most probable water exposure occurred while rafting on an artificial whitewater river during which she was thrown out of the raft and submerged underwater. The approximately 11.5 million gallons of water in the whitewater facility were partially filtered, subjected to ultraviolet light treatment, and occasionally chlorinated. Heavy algal growth was noted. Eleven water-related samples were collected from the facility; all were positive for N. fowleri. Of 5 samples collected from the nearby natural river, 1 sediment sample was positive for N. fowleri., Conclusions: This investigation documents a novel exposure to an artificial whitewater river as the likely exposure causing PAM in this case. Conditions in the whitewater facility (warm, turbid water with little chlorine and heavy algal growth) rendered the water treatment ineffective and provided an ideal environment for N. fowleri to thrive. The combination of natural and engineered elements at the whitewater facility created a challenging environment to control the growth of N. fowleri., (Published by Oxford University Press for the Infectious Diseases Society of America 2017. This work is written by (a) US Government employee(s) and is in the public domain in the US.)

Published

2018

28. Abundance of Naegleria fowleri in roof-harvested rainwater tank samples from two continents.

Author

Waso M, Dobrowsky PH, Hamilton KA, Puzon G, Miller H, Khan W, and Ahmed W

Subjects

Enterococcus isolation & purification, Escherichia coli isolation & purification, Feces microbiology, Naegleria fowleri isolation & purification, Queensland, Rain microbiology, South Africa, Environmental Monitoring methods, Naegleria fowleri growth & development, Rain parasitology, Water Microbiology standards

Abstract

Roof-harvested rainwater (RHRW) has been used as an alternative source of water in water scarce regions of many countries. The microbiological and chemical quality of RHRW has been questioned due to the presence of bacterial and protozoan pathogens. However, information on the occurrence of pathogenic amoeba in RHRW tank samples is needed due to their health risk potential and known associations with opportunistic pathogens. Therefore, this study aims to determine the quantitative occurrence of Naegleria fowleri in RHRW tank samples from Southeast Queensland (SEQ), Australia (AU), and the Kleinmond Housing Scheme located in Kleinmond, South Africa (SA). In all, 134 and 80 RHRW tank samples were collected from SEQ, and the Kleinmond Housing Scheme, Western Cape, SA, respectively. Quantitative PCR (qPCR) assays were used to measure the concentrations of N. fowleri, and culture-based methods were used to measure fecal indicator bacteria (FIB) Escherichia coli (E. coli) and Enterococcus spp. Of the 134 tank water samples tested from AU, 69 and 62.7% were positive for E. coli, and Enterococcus spp., respectively. For the SA tank water samples, FIB analysis was conducted for samples SA-T41 to SA-T80 (n = 40). Of the 40 samples analyzed from SA, 95 and 35% were positive for E. coli and Enterococcus spp., respectively. Of the 134 water samples tested in AU, 15 (11.2%) water samples were positive for N. fowleri, and the concentrations ranged from 1.7 × 10 2 to 3.6 × 10 4 gene copies per 100 mL of water. Of the 80 SA tank water samples screened for N. fowleri, 15 (18.8%) tank water samples were positive for N. fowleri and the concentrations ranged from 2.1 × 10 1 to 7.8 × 10 4 gene copies per 100 mL of tank water. The prevalence of N. fowleri in RHRW tank samples from AU and SA thus warrants further development of dose-response models for N. fowleri and a quantitative microbial risk assessment (QMRA) to inform and prioritize strategies for reducing associated public health risks.

Published

2018

29. Case Series of Naegleria fowleri Primary Ameobic Meningoencephalitis from Karachi, Pakistan.

Author

Ghanchi NK, Jamil B, Khan E, Ansar Z, Samreen A, Zafar A, and Hasan Z

Subjects

Adolescent, Adult, Aged, Aged, 80 and over, Child, Drinking Water parasitology, Female, Humans, Male, Meningoencephalitis cerebrospinal fluid, Meningoencephalitis diagnosis, Middle Aged, Pakistan, Polymerase Chain Reaction, Retrospective Studies, Trophozoites isolation & purification, Water Supply, Young Adult, Meningoencephalitis parasitology, Naegleria fowleri isolation & purification

Abstract

Naegleria fowleri causes primary amoebic meningoencephalitis (PAM) which is almost always fatal. Naegleria fowleri is waterborne, and its infections are usually associated with aquatic activities but it can also be transmitted via the domestic water supply. An increasing number of N. fowleri cases have been reported from Pakistan. Improved methods for diagnosis are required. We report the utility of polymerase chain reaction (PCR) for the diagnosis of N. fowleri in patients suspected of PAM. One hundred and sixteen cases suspected of having PAM were examined. Cerebrospinal fluid (CSF) specimens were tested at the Aga Khan University Hospital, Karachi. Nineteen CSF specimens were positive for N. fowleri using PCR. Naegleria fowleri positive patients had a median age of 28 years and were 84% male and 16% female. Overall, CSF wet preparation microscopy was performed in 85 (73%) cases and identified that seven specimens were positive for motile trophozoites. The CSF wet preparation results were available for 15 of the 19 N. fowleri PCR positive CSF samples; seven (40%) wet preparations were positive. Our data highlight the threat of N. fowleri infection as a cause of PAM. It also emphasizes the utility of the PCR-based diagnosis of the amoeba for early diagnosis and management of the disease.

Published

2017

30. A case report: primary amoebic meningoencephalitis in a young Zambian adult.

Author

Chomba M, Mucheleng'anga LA, Fwoloshi S, Ngulube J, and Mutengo MM

Subjects

Amphotericin B therapeutic use, Animals, Anti-Bacterial Agents therapeutic use, Cefuroxime therapeutic use, Central Nervous System Protozoal Infections complications, Central Nervous System Protozoal Infections drug therapy, Central Nervous System Protozoal Infections parasitology, Fatal Outcome, Fever drug therapy, Humans, Male, Naegleria fowleri genetics, Sepsis complications, Sepsis drug therapy, Young Adult, Zambia, Central Nervous System Protozoal Infections diagnosis, Naegleria fowleri isolation & purification

Abstract

Background: Primary amoebic meningoencephalitis (PAM) is a fulminant disease of the brain caused by Naegleria fowleri. Although the disease is rare, the case fatality rate is very high. In this report, we describe the first case of PAM in Zambia., Case Presentation: The patient presented with sudden onset of seizures and fever on admission. On physical examination he was febrile, comatose and with a stiff neck. Cerebral spinal fluid (CSF) collected on admission did not reveal any organism on microscopy or culture but showed elevated white cell count. A working diagnosis of severe septicemia with acute meningoencephalitis was then made and the patient was started on IV Cephtriaxone (2 g) twice daily. Despite receiving treatment, his condition deteriorated. A second CSF sample collected on day 3 was also negative for bacteria and other organisms. However, a repeat CSF sample collected on day 8 revealed numerous motile organisms that were identified as Naegleria on microscopy and confirmed to be N. fowleri on polymerase chain reaction. The patient died on day 8 of hospital admission after having received one dose of Amphotericin B (50 mg). Features consistent with PAM were detected on autopsy., Conclusion: The isolation of N. fowleri in this patient calls for increased awareness among clinical and laboratory staff on suspected PAM cases to promptly diagnose and effectively manage the disease.

Published

2017

31. Brain-Eating Amoebae: Predilection Sites in the Brain and Disease Outcome.

Author

Ong TYY, Khan NA, and Siddiqui R

Subjects

Diagnostic Tests, Routine methods, Humans, Treatment Outcome, Amebiasis pathology, Balamuthia mandrillaris isolation & purification, Brain parasitology, Brain pathology, Central Nervous System Infections parasitology, Central Nervous System Infections pathology, Naegleria fowleri isolation & purification

Abstract

Acanthamoeba spp. and Balamuthia mandrillaris are causative agents of granulomatous amoebic encephalitis (GAE), while Naegleria fowleri causes primary amoebic meningoencephalitis (PAM). PAM is an acute infection that lasts a few days, while GAE is a chronic to subacute infection that can last up to several months. Here, we present a literature review of 86 case reports from 1968 to 2016, in order to explore the affinity of these amoebae for particular sites of the brain, diagnostic modalities, treatment options, and disease outcomes in a comparative manner., (Copyright © 2017 American Society for Microbiology.)

Published

2017

32. Molecular detection of Acanthamoeba spp., Naegleria fowleri and Vermamoeba (Hartmannella) vermiformis as vectors for Legionella spp. in untreated and solar pasteurized harvested rainwater.

Author

Dobrowsky PH, Khan S, Cloete TE, and Khan W

Subjects

Acanthamoeba isolation & purification, Animals, DNA, Bacterial genetics, Hartmannella isolation & purification, Hot Temperature, Legionella genetics, Naegleria fowleri isolation & purification, Pasteurization, Real-Time Polymerase Chain Reaction, Acanthamoeba microbiology, DNA, Bacterial analysis, Disease Vectors, Hartmannella microbiology, Legionella isolation & purification, Naegleria fowleri microbiology, Water Microbiology

Abstract

Background: Legionella spp. employ multiple strategies to adapt to stressful environments including the proliferation in protective biofilms and the ability to form associations with free-living amoeba (FLA). The aim of the current study was to identify Legionella spp., Acanthamoeba spp., Vermamoeba (Hartmannella) vermiformis and Naegleria fowleri that persist in a harvested rainwater and solar pasteurization treatment system., Methods: Pasteurized (45 °C, 65 °C, 68 °C, 74 °C, 84 °C and 93 °C) and unpasteurized tank water samples were screened for Legionella spp. and the heterotrophic plate count was enumerated. Additionally, ethidium monoazide quantitative polymerase chain reaction (EMA-qPCR) was utilized for the quantification of viable Legionella spp., Acanthamoeba spp., V. vermiformis and N. fowleri in pasteurized (68 °C, 74 °C, 84 °C and 93 °C) and unpasteurized tank water samples, respectively., Results: Of the 82 Legionella spp. isolated from unpasteurized tank water samples, Legionella longbeachae (35 %) was the most frequently isolated, followed by Legionella norrlandica (27 %) and Legionella rowbothamii (4 %). Additionally, a positive correlation was recorded between the heterotrophic plate count vs. the number of Legionella spp. detected (ρ = 0.710, P = 0.048) and the heterotrophic plate count vs. the number of Legionella spp. isolated (ρ = 0.779, P = 0.0028) from the tank water samples collected. Solar pasteurization was effective in reducing the gene copies of viable V. vermiformis (3-log) and N. fowleri (5-log) to below the lower limit of detection at temperatures of 68-93 °C and 74-93 °C, respectively. Conversely, while the gene copies of viable Legionella and Acanthamoeba were significantly reduced by 2-logs (P = 0.0024) and 1-log (P = 0.0015) overall, respectively, both organisms were still detected after pasteurization at 93 °C., Conclusions: Results from this study indicate that Acanthamoeba spp. primarily acts as the vector and aids in the survival of Legionella spp. in the solar pasteurized rainwater as both organisms were detected and were viable at high temperatures (68-93 °C).

Published

2016

33. Primary amoebic meningoencephalitis in North Queensland: the paediatric experience.

Author

Nicholls CL, Parsonson F, Gray LE, Heyer A, Donohue S, Wiseman G, and Norton R

Subjects

Humans, Public Health, Queensland, Amphotericin B therapeutic use, Antiprotozoal Agents therapeutic use, Central Nervous System Protozoal Infections drug therapy, Central Nervous System Protozoal Infections epidemiology, Naegleria fowleri isolation & purification

Abstract

Primary amoebic meningoencephalitis (PAM) is a fulminant, diffuse haemorrhagic meningoencephalitis caused by Naegleria fowleri, with an almost invariably fatal outcome. In Australia and the developed world, PAM remains a rare disease, although it is very likely that large numbers of cases go undetected in developing countries. N. fowleri is a thermophilic, free-living amoeba with a worldwide distribution. It is acquired when contaminated fresh water is flushed into the nose and penetrates the central nervous system via the cribriform plate. Clinical features are similar to those of bacterial meningitis, but it does not respond to standard therapy and rapid progression to death occurs in most cases. Some survivors have been reported; these patients received early treatment with amphotericin B in combination with a variety of other medications. Our review describes the local and worldwide experience of this disease and its clinical features, and discusses the associated diagnostic challenges. We hope that by detailing the local response to a recent case, and the outcomes of our public health campaign, we can improve the knowledge of this rare disease for doctors working in rural and remote Australia.

Published

2016

34. Naegleria fowleri Meningoencephalitis Associated with Public Water Supply, Pakistan, 2014.

Author

Ghanchi NK, Khan E, Khan A, Muhammad W, Malik FR, and Zafar A

Subjects

Central Nervous System Protozoal Infections epidemiology, Central Nervous System Protozoal Infections history, Environmental Monitoring, History, 21st Century, Humans, Meningoencephalitis epidemiology, Meningoencephalitis history, Pakistan epidemiology, Population Surveillance, Central Nervous System Protozoal Infections microbiology, Central Nervous System Protozoal Infections transmission, Meningoencephalitis parasitology, Meningoencephalitis transmission, Naegleria fowleri isolation & purification, Waterborne Diseases epidemiology, Waterborne Diseases parasitology

Published

2016

35. Answer to June 2016 Photo Quiz.

Author

Dallas SD, Greebon LJ, Qiao JC, and Arora K

Subjects

Cerebrospinal Fluid cytology, Child, Humans, Male, Central Nervous System Protozoal Infections diagnosis, Central Nervous System Protozoal Infections pathology, Meningoencephalitis etiology, Meningoencephalitis pathology, Naegleria fowleri isolation & purification

Published

2016

36. Photo Quiz: An 8-Year-Old Boy with Meningoencephalitis.

Author

Dallas SD, Greebon LJ, Qiao JC, and Arora K

Subjects

Cerebrospinal Fluid cytology, Child, Humans, Male, Central Nervous System Protozoal Infections diagnosis, Central Nervous System Protozoal Infections pathology, Meningoencephalitis etiology, Meningoencephalitis pathology, Naegleria fowleri isolation & purification

Published

2016

37. Notes from the Field: Primary Amebic Meningoencephalitis Associated with Exposure to Swimming Pool Water Supplied by an Overland Pipe - Inyo County, California, 2015.

Author

Johnson RO, Cope JR, Moskowitz M, Kahler A, Hill V, Behrendt K, Molina L, Fullerton KE, and Beach MJ

Subjects

California epidemiology, Central Nervous System Protozoal Infections epidemiology, Female, Humans, Young Adult, Central Nervous System Protozoal Infections diagnosis, Environmental Exposure adverse effects, Naegleria fowleri isolation & purification, Swimming Pools, Water Supply

Abstract

On June 17, 2015, a previously healthy woman aged 21 years went to an emergency department after onset of headache, nausea, and vomiting during the preceding 24 hours. Upon evaluation, she was vomiting profusely and had photophobia and nuchal rigidity. Analysis of cerebrospinal fluid was consistent with meningitis.* She was empirically treated for bacterial and viral meningoencephalitis. Her condition continued to decline, and she was transferred to a higher level of care in another facility on June 19, but died shortly thereafter. Cultures of cerebrospinal fluid and multiple blood specimens were negative, and tests for West Nile, herpes simplex, and influenza viruses were negative. No organisms were seen in the cerebrospinal fluid; however, real-time polymerase chain reaction testing by CDC was positive for Naegleria fowleri, a free-living thermophilic ameba found in warm freshwater that causes primary amebic meningoencephalitis, an almost universally fatal infection.

Published

2016

38. Use of the Novel Therapeutic Agent Miltefosine for the Treatment of Primary Amebic Meningoencephalitis: Report of 1 Fatal and 1 Surviving Case.

Author

Cope JR, Conrad DA, Cohen N, Cotilla M, DaSilva A, Jackson J, and Visvesvara GS

Subjects

Central Nervous System Protozoal Infections diagnostic imaging, Central Nervous System Protozoal Infections mortality, Child, Fatal Outcome, Humans, Male, Phosphorylcholine adverse effects, Phosphorylcholine therapeutic use, Treatment Outcome, Antiprotozoal Agents adverse effects, Antiprotozoal Agents therapeutic use, Central Nervous System Protozoal Infections drug therapy, Central Nervous System Protozoal Infections parasitology, Naegleria fowleri drug effects, Naegleria fowleri isolation & purification, Phosphorylcholine analogs & derivatives

Abstract

Primary amebic meningoencephalitis (PAM) is a fulminant central nervous system infection caused by the thermophilic free-living ameba Naegleria fowleri. Few survivals have been documented and adequate treatment is lacking. We report 2 PAM cases, 1 fatal and 1 surviving, treated with the novel antiparasitic agent miltefosine., (Published by Oxford University Press for the Infectious Diseases Society of America 2015. This work is written by (a) US Government employee(s) and is in the public domain in the US.)

Published

2016

39. Characterization of a Drinking Water Distribution Pipeline Terminally Colonized by Naegleria fowleri.

Author

Morgan MJ, Halstrom S, Wylie JT, Walsh T, Kaksonen AH, Sutton D, Braun K, and Puzon GJ

Subjects

Humans, Time Factors, Water Purification methods, Western Australia, Drinking Water parasitology, Naegleria fowleri isolation & purification, Sanitary Engineering methods

Abstract

Free-living amoebae, such as Naegleria fowleri, Acanthamoeba spp., and Vermamoeba spp., have been identified as organisms of concern due to their role as hosts for pathogenic bacteria and as agents of human disease. In particular, N. fowleri is known to cause the disease primary amoebic meningoencephalitis (PAM) and can be found in drinking water systems in many countries. Understanding the temporal dynamics in relation to environmental and biological factors is vital for developing management tools for mitigating the risks of PAM. Characterizing drinking water systems in Western Australia with a combination of physical, chemical and biological measurements over the course of a year showed a close association of N. fowleri with free chlorine and distance from treatment over the course of a year. This information can be used to help design optimal management strategies for the control of N. fowleri in drinking-water-distribution systems.

Published

2016

40. Detection of the free living amoeba Naegleria fowleri by using conventional and real-time PCR based on a single copy DNA sequence.

Author

Régoudis E and Pélandakis M

Subjects

DNA, Protozoan chemistry, Naegleria fowleri genetics, Reproducibility of Results, Sensitivity and Specificity, Amebiasis parasitology, Central Nervous System Protozoal Infections parasitology, DNA, Protozoan isolation & purification, Naegleria fowleri isolation & purification, Real-Time Polymerase Chain Reaction standards

Abstract

The amoeba-flagellate Naegleria fowleri is a causative agent of primary amoebic meningoencephalitis (PAM). This thermophilic species occurs worldwide and tends to proliferate in warm aquatic environment. The PAM cases remain rare but this infection is mostly fatal. Here, we describe a single copy region which has been cloned and sequenced, and was used for both conventional and real-time PCR. Targeting a single-copy DNA sequence allows to directly quantify the N. fowleri cells. The real-time PCR results give a detection limit of 1 copy per reaction with high reproducibility without the need of a Taqman probe. This procedure is of interest as compared to other procedures which are mostly based on the detection of multi-copy DNA associated with a Taqman probe., (Copyright © 2015 Elsevier Inc. All rights reserved.)

Published

2016

41. Meningoencephalitis due to the amoeboflagellate Naegleria fowleri in ruminants in Algeria.

Author

Benterki MS, Ayachi A, Bennoune O, Régoudis E, and Pélandakis M

Subjects

Algeria epidemiology, Amebiasis epidemiology, Amebiasis parasitology, Amebiasis transmission, Animals, Cattle, Cattle Diseases epidemiology, Cattle Diseases transmission, Central Nervous System Protozoal Infections epidemiology, Central Nervous System Protozoal Infections parasitology, Central Nervous System Protozoal Infections transmission, Cerebrospinal Fluid parasitology, Climate, DNA, Protozoan genetics, Disease Reservoirs, Female, Pregnancy, Pregnancy Complications, Infectious parasitology, Pregnancy Complications, Infectious veterinary, Seasons, Sheep, Sheep Diseases epidemiology, Sheep Diseases transmission, Water parasitology, Water Supply, Amebiasis veterinary, Cattle Diseases parasitology, Central Nervous System Protozoal Infections veterinary, Naegleria fowleri isolation & purification, Sheep Diseases parasitology

Abstract

Primary amoebic meningoencephalitis (PAM) is a fatal infection in most cases, caused by the amoeba flagellate Naegleria fowleri. This report describes the first cases of PAM in Algeria, in a cow and a ewe from Batna, north-eastern Algeria. The death of both ruminants occurred a week after the first clinical manifestations. The cerebrospinal fluid, after staining with May-Grünwald-Giemsa, showed the presence of amoebae cells. Histological sections revealed numerous amoebae in all parts of the brain. The presence of N. fowleri was confirmed using a species-specific real-time PCR in histological tissue sections. The two PAM cases were reported during the hot season, and the source of infection is very likely the water where the cattle came to drink. Particular attention should be focused on this type of infection in aquatic environments when the temperature is high and preventive measures must be taken to avoid the proliferation of N. fowleri., (© M. Benterki et al., published by EDP Sciences, 2016.)

Published

2016

42. Isolation and molecular identification of Naegleria fowleri from Nile river, Egypt.

Author

Al-Herrawy AZ and Gad MA

Subjects

Amebiasis parasitology, Central Nervous System Protozoal Infections parasitology, Egypt, Polymerase Chain Reaction, Prevalence, Naegleria fowleri genetics, Naegleria fowleri isolation & purification, Rivers

Abstract

Background: Members of the genus Naegleria are free-living amoebae distributed in various aquatic environments. Naegleria fowleri is the only species that can cause fatal primary amoebic meningoencephalitis in humans., Materials and Methods: A total of 48 Nile water samples were collected from the water stream passing though Cairo. The samples were processed for the detection of Naegleria spp. using non-nutrient agar at 45°C. The isolates of Naegleria spp. were identified based on the morphologic criteria of trophozoite, flagellated and cyst stages. Molecular characterization of the isolates was performed using PCR., Results: The obtained results showed that Naegleria spp. were found in 45.8% of Nile water samples by means of microscopic examination. Seasonally, the highest prevalence of Naegleria spp. was recorded in summer (66.7%). Moreover, the highest prevalence of N. fowleri was recorded in summer (25%)., Conclusion: The occurrence of heat-tolerant Naegleria spp., especially N. fowleri, in Nile water should be considered as a potential health threat.

Published

2015

43. Primary Amebic Meningoencephalitis Associated with Hot Spring Exposure During International Travel - Seminole County, Florida, July 2014.

Author

Booth PJ, Bodager D, Slade TA, and Jett S

Subjects

Cerebrospinal Fluid parasitology, Child, Costa Rica, Fatal Outcome, Florida, Humans, Male, Travel, Amebiasis diagnosis, Amebiasis etiology, Central Nervous System Protozoal Infections diagnosis, Central Nervous System Protozoal Infections etiology, Environmental Exposure adverse effects, Hot Springs parasitology, Naegleria fowleri isolation & purification

Published

2015

44. Prevalence of Naegleria fowleri in Environmental Samples from Northern Part of India.

Author

Panda A, Khalil S, Mirdha BR, Singh Y, and Kaushik S

Subjects

Amebiasis parasitology, Central Nervous System Protozoal Infections parasitology, India, Environment, Naegleria fowleri isolation & purification, Water Supply

Abstract

Naegleria fowleri the causative agent of Primary Amoebic Meningoencephalitis, is ubiquitously distributed worldwide in various warm aquatic environments and soil habitats. The present study reports on the presence of Naegleria spp. in various water bodies present in Rohtak and Jhajjar district, of state Haryana, India. A total of 107 water reservoirs were screened from summer till autumn (2012 and 2013). In order to isolate Naegleria spp. from the collected water samples, the water samples were filtered and the trapped debris after processing were transferred to non-nutrient agar plates already seeded with lawn culture of Escherichia coli. Out of total 107 water samples, 43 (40%) samples were positive by culture for free living amoeba after incubation for 14 days at 37°C. To identify the isolates, the ITS1, 5.8SrDNA and ITS2 regions were targeted for PCR assay. Out of total 43 positive samples, 37 isolates were positive for Naegleria spp. using genus specific primers and the most frequently isolated species was Naegleria australiensis. Out of 37 Naegleria spp. positive isolates, 1 isolate was positive for Naegleria fowleri. The sequence analysis revealed that the Naegleria fowleri strain belonged to Type 2.

Published

2015

45. NAEGLARIA FOWLERI: THE BRAIN EATING AMOEBA OR AN ENIGMA?

Author

Mukhtar F and Wazir MS

Subjects

Humans, Incidence, Pakistan epidemiology, Amebiasis diagnosis, Amebiasis epidemiology, Amebiasis parasitology, Brain parasitology, Central Nervous System Protozoal Infections diagnosis, Central Nervous System Protozoal Infections epidemiology, Central Nervous System Protozoal Infections parasitology, Naegleria fowleri isolation & purification

Abstract

Naeglaria fowleri (N. fowleri), popularly known as the brain eating amoeba is the causative agent of the fulminant disease, primary amoebic meningoencephalitis (PAM). Although a rare disease, it is a threat to human health with a case fatality rate ranging from 95-99%. PAM cases have been reported from the United States of America, Australia, Europe and Asia. From 1962 to 2014, 133 people have been infected by N. fowleri in the USA, out of which only three have survived. None of the PAM cases reported in Pakistan so far has survived. This underscores the importance to identify factors, which have led to the failure in decreasing case fatality associated with N. fowleri despite major advances in medical technology, health care; and prevention and control strategies since the first reported case in 1965. We need to focus on eliciting risk factors of the disease prevalent in our part of the world, which are at variance with the developed world. A predominant number. of PAM cases in the West are reported in young males who had participated in recreational activities. However, majority of cases reported in Pakistan are also among young males but they were linked with the religious practice of ablution. What is required to better understand and hence manage this enigma is further research. Further research is to be conducted to discover potent antimicrobials, to test the effectiveness of the new transcribial device in managing PAM, and to identify host factors, which make an individual susceptible to N. fowleri. Investigation of environmental factors related to N. fowleri also needs to be done. Doing so is of paramount importance, as it will help identify the preventive strategies to be employed against N. fowleri.

Published

2015

46. The dangerous turn of "brain eating amoeba" in Sindh, Pakistan.

Author

Ul Islam MY, Rahim SA, and Salim A

Subjects

Disinfection methods, Humans, Pakistan epidemiology, Risk Factors, Central Nervous System Protozoal Infections epidemiology, Central Nervous System Protozoal Infections prevention & control, Naegleria fowleri isolation & purification, Water Microbiology

Published

2015

47. Comparison of real-time PCR methods for the detection of Naegleria fowleri in surface water and sediment.

Author

Streby A, Mull BJ, Levy K, and Hill VR

Subjects

Genotype, Humans, Sensitivity and Specificity, DNA, Protozoan genetics, Naegleria fowleri genetics, Naegleria fowleri isolation & purification, Real-Time Polymerase Chain Reaction methods, Water parasitology

Abstract

Naegleria fowleri is a thermophilic free-living ameba found in freshwater environments worldwide. It is the cause of a rare but potentially fatal disease in humans known as primary amebic meningoencephalitis. Established N. fowleri detection methods rely on conventional culture techniques and morphological examination followed by molecular testing. Multiple alternative real-time PCR assays have been published for rapid detection of Naegleria spp. and N. fowleri. Foursuch assays were evaluated for the detection of N. fowleri from surface water and sediment. The assays were compared for thermodynamic stability, analytical sensitivity and specificity, detection limits, humic acid inhibition effects, and performance with seeded environmental matrices. Twenty-one ameba isolates were included in the DNA panel used for analytical sensitivity and specificity analyses. N. fowleri genotypes I and III were used for method performance testing. Two of the real-time PCR assays were determined to yield similar performance data for specificity and sensitivity for detecting N. fowleri in environmental matrices.

Published

2015

48. The first association of a primary amebic meningoencephalitis death with culturable Naegleria fowleri in tap water from a US treated public drinking water system.

Author

Cope JR, Ratard RC, Hill VR, Sokol T, Causey JJ, Yoder JS, Mirani G, Mull B, Mukerjee KA, Narayanan J, Doucet M, Qvarnstrom Y, Poole CN, Akingbola OA, Ritter JM, Xiong Z, da Silva AJ, Roellig D, Van Dyke RB, Stern H, Xiao L, and Beach MJ

Subjects

Brain parasitology, Cerebrospinal Fluid parasitology, Child, Preschool, Fatal Outcome, Humans, Louisiana, Male, Oligopeptides, Amebiasis diagnosis, Amebiasis parasitology, Central Nervous System Protozoal Infections diagnosis, Central Nervous System Protozoal Infections parasitology, Drinking Water parasitology, Naegleria fowleri isolation & purification

Abstract

Background: Naegleria fowleri is a climate-sensitive, thermophilic ameba found in warm, freshwater lakes and rivers. Primary amebic meningoencephalitis (PAM), which is almost universally fatal, occurs when N. fowleri-containing water enters the nose, typically during swimming, and migrates to the brain via the olfactory nerve. In August 2013, a 4-year-old boy died of meningoencephalitis of unknown etiology in a Louisiana hospital., Methods: Clinical and environmental testing and a case investigation were initiated to determine the cause of death and to identify potential exposures., Results: Based on testing of cerebrospinal fluid and brain specimens, the child was diagnosed with PAM. His only reported water exposure was tap water; in particular, tap water that was used to supply water to a lawn water slide on which the child had played extensively prior to becoming ill. Water samples were collected from both the home and the water distribution system that supplied the home and tested; N. fowleri was identified in water samples from both the home and the water distribution system., Conclusions: This case is the first reported PAM death associated with culturable N. fowleri in tap water from a US treated drinking water system. This case occurred in the context of an expanding geographic range for PAM beyond southern states, with recent case reports from Minnesota, Kansas, and Indiana. This case also highlights the role of adequate disinfection throughout drinking water distribution systems and the importance of maintaining vigilance when operating drinking water systems using source waters with elevated temperatures., (Published by Oxford University Press on behalf of the Infectious Diseases Society of America 2015. This work is written by (a) US Government employee(s) and is in the public domain in the US.)

Published

2015

49. Primary Amoebic Meningoencephalitis.

Author

Gupta R, Parashar MK, and Kale A

Subjects

Adult, Amebiasis complications, Amebiasis immunology, Antiretroviral Therapy, Highly Active, Brain pathology, Central Nervous System Protozoal Infections complications, Central Nervous System Protozoal Infections immunology, Humans, Magnetic Resonance Imaging, Male, Retroviridae Infections complications, Retroviridae Infections drug therapy, Tomography, X-Ray Computed, Amebiasis diagnosis, Brain diagnostic imaging, Central Nervous System Protozoal Infections diagnosis, Immunocompromised Host, Naegleria fowleri isolation & purification, Retroviridae Infections immunology

Abstract

Primary amoebic meningoencephalitis due to free living amoeba, also called 'brain eating amoeba', Naegleria fowleri, was detected in retroviral disease patient of 40 years who has history of using well water. Patient was admitted with severe headache, fever intermittent, nausea, vomiting and slurring of speech. CT scan and MRI scan findings were normal. CSF examination showed increased protein, low sugar and predominant lymphocytes. CSF was negative for cryptococcal antigen but wet mount preparation showed highly motile free living amoeba Naegleria fowleri. Patient was put on Amphotericin B, Metronidazole, Rifampicin in addition to ART and ATT and other supportive medications. His headache was relieved and patient improved and was discharged on request. Earlier eight cases have been reported from India of which four cases survived the acute episode.

Published

2015

50. Naegleria fowleri in Pakistan - an emerging catastrophe.

Author

Mahmood K

Subjects

Amebiasis parasitology, Animals, Central Nervous System Protozoal Infections parasitology, Communicable Diseases, Emerging parasitology, DNA, Protozoan analysis, DNA, Protozoan genetics, DNA, Protozoan isolation & purification, Humans, Naegleria fowleri genetics, Naegleria fowleri isolation & purification, Pakistan epidemiology, Polymerase Chain Reaction, Amebiasis epidemiology, Central Nervous System Protozoal Infections epidemiology, Communicable Diseases, Emerging epidemiology, Gene Amplification, Naegleria fowleri pathogenicity

Published

2015