Fall fairytale: Lawsuit filed after crypto-in-apple-cider sickened more than 100 in 2015

In Oct. 2015, fall festival revellers flocked to the Pike Country Color Drive in Pike County, Illinois, and a bunch of them were soon barfing.

Unpasteurized apple cider – a staple of the northern U.S. and Canadian fall festival circuit was blamed for causing more than 100 people to fall ill with cryptosporidiosis.

Nick Draper of My Journal Courier reports a lawsuit has now been files against several groups, including the Pike County Chamber of Commerce and the Barry Business Association.

Melissa Kinman of Quincy filed the civil action against Steven and Linda Yoder of Yoder Brothers Dairy Farm, the Pike County Chamber of Commerce and the Barry Business Association. In it, she contends the Yoders were selling and offering free samples of unpasteurized cider that was tainted with Cryptosporidium.

The outbreak sickened people ranging in age from less than 1 year old to 89 years old.

Health workers from Pike and Adams counties, the state and the Centers for Disease Control and Prevention began investigating reports of profuse or bloody diarrhea, abdominal cramping and vomiting. Tests done in December 2015 by the CDC confirmed there was cider contaminated with Cryptosporidium.

Cider was not sold at last year’s drive after officials decided to pull the product.

A list of cider and juice-related outbreaks — 84 outbreaks leading to over 3,500 illnesses going back to 1924 – is available here.

https://barfblog.com/wp-content/uploads/2015/11/Juice-related-outbreaks-11-5-15.xlsx

Heaven on Earth rescue farm linked to crypto outbreak

Farm sanctuaries sound nice, former Daily Show host Jon Stewart and his partner run several.

But does Jon Stewart know microbiology?

Visitors to the popular Heaven on Earth animal rescue farm in Bethlehem Township, Pennsylvania (which Stewart is not affiliated with, that I know of), have come down with a variety of stomach illnesses linked to the farm, state health officials said Friday.

“At least five laboratory-confirmed cryptosporidium infections and at least six compatible illnesses have been associated with this farm,” the state Department of Health said Friday in a health advisory.

Hundreds of people may have been exposed to infected young goats and calves in the last four or five weeks since the public was invited to help feed the animals at the 3868 Bethman Road farm just east of Route 33, the advisory noted.

The Health Department is asking that all those who became ill after visiting the farm contact the department at 877-PA-HEALTH and consult their personal doctors.

Meanwhile, Heaven on Earth Farm owner Jahjah Melhem announced Friday the farm is no longer open to the public.

“In the past four years, Heaven on Earth Farm has had the pleasure of meeting so many of you. There has been a ton of love and support that visited the property at any given time,” Melhem says on the farm’s Facebook page. “We have decided that it is in our best interest to close the farm to the public so that we can focus on the well-being of the animals.”

He said he is working with the Health Department to determine the origin of the reported sicknesses. He said he isn’t sure anyone was infected at the farm, but it is possible.

“People come every day with their kids and we never had a problem,” Melhem said. “I’m fine. I’m here every day. Three or four women are here every day and none of them are sick.”

The farm has attracted 600 people since mid-February to help Melhem with 30 baby goats he rescued to avoid their slaughter. He asked for volunteers, he said, because the goats needed bottle-feeding four times a day.

On Thursday, a Health Department researcher told him she had three or four cases of people who visited the farm becoming sick later. Since then, the department has associated additional illnesses with the farm.

A table of petting zoo outbreaks is available at https://barfblog.com/wp-content/uploads/2014/04/Petting-Zoo-Outbreaks-Table-4-8-14.xlsx.

Best practices for planning events encouraging human-animal interactions

Zoonoses and Public Health 62:90-99, 2015

G. Erdozain , K. KuKanich , B. Chapman  and D. Powell

http://onlinelibrary.wiley.com/doi/10.1111/zph.12117/abstract?deniedAccess

Educational events encouraging human–animal interaction include the risk of zoonotic disease transmission. It is estimated that 14% of all disease in the US caused by Campylobacter spp., Cryptosporidium spp., Shiga toxin-producing Escherichia coli (STEC) O157, non-O157 STECs, Listeria monocytogenes, nontyphoidal Salmonella enterica and Yersinia enterocolitica were attributable to animal contact. This article reviews best practices for organizing events where human–animal interactions are encouraged, with the objective of lowering the risk of zoonotic disease transmission.

 

We’re all hosts on a parasitic planet: Crypto edition

This is cool: the parasite seems to deliver RNA transcripts into infected hosts cells, which may then take over parts of transcription in the host.

crypto-mouse-epi-cellCryptosporidium parvum is an important opportunistic parasite pathogen for immunocompromised individuals and a common cause of diarrhea in young children. Previous studies have identified a panel of RNA transcripts of very low protein-coding potential in C. parvum.

Using an in vitro model of human intestinal cryptosporidiosis, we report here that some of these C. parvum RNA transcripts were selectively delivered into the nuclei of host epithelial cells during C. parvum infection. Nuclear delivery of several such parasitic RNAs, including Cdg7_FLc_0990, involved heat-shock protein 70-mediated nuclear importing mechanism. Overexpression of Cdg7_FLc_0990 in intestinal epithelial cells resulted in significant changes in expression levels of specific genes, with significant overlapping with alterations in gene expression profile detected in host cells following C. parvum infection.

Our data demonstrate that C. parvum transcripts of low protein-coding potential are selectively delivered into epithelial cells during infection and may modulate gene transcription in infected host cells.

Delivery of parasite RNA transcripts into infected epithelial cells during Cryptosporidium infection and its potential impact on host gene transcription

J Infect Dis. (2016) doi: 10.1093/infdis/jiw607

Yang Wang, Ai-Yu Gong, Shibin Ma, Xiqiang Chen, Yan Li, Chun-Jen Su, Dana Norall, Jing Chen, Juliane K. Strauss-Soukup, Xian-Ming Chen

http://jid.oxfordjournals.org/content/early/2016/12/21/infdis.jiw607.abstract

Crypto hits NSW pools

As we chill (sweat) in the sleepy haven of South Golden Beach in New South Wales for a brief Christmas break, health authorities report Cryptosporidium has sickened at least 200 people in December and are warning people with diarrhea to stay out of shared pools.

sorenne-south-golden-beach-16The Sydney Morning Herald reports almost half of the cases were in children under 10-years-old. 

Health authorities have issued the warning urging people to stay out of shared swimming pools and water parks.

The biggest outbreak of cryptosporidiois was recorded in Sydney in 1998, when there were more than 1,000 confirmed cases.

Sydney was forced to boil its drinking water because it was found to be infected with the pathogens cryptosporidium and giardia.

Crypto: My big barfing Greek wedding

Amanda Devlin of The Sun reports a  bride and groom who thought they were suffering from wedding day jitters had actually been struck down by a gastric illness – as well as half of their guests.

big-fat-greek-weddingGemma Tepper, 32, her partner, Lee, 36, say their big day was ruined by the outbreak of Cryptosporidium – a respiratory and gastic illness – at their hotel on the Greek island of Zante.

Now 60 holidaymakers have hired international personal injury lawyers, Irwin Mitchell, to investigate the outbreak.

Gemma, a transport administration clerk, who was staying at the Marelen Hotel with her husband-to-be and their daughter Sylvie said: “When we both started suffering illness on our wedding day we just put it down to being nervous, but we quickly realised it was a lot more than that when the symptoms continued for the next few days.”

The symptoms persisted and both Gemma and Lee, from Pontefract, West Yorks., were forced to time off work when they returned home.

Tests confirmed Gemma was suffering from Cryptosporidium.

Blame the media: Crypto reporting in England

During August 2015, a boil water notice (BWN) was issued across parts of North West England following the detection of Cryptosporidium oocysts in the public water supply.

les_nessmanUsing prospective syndromic surveillance, we detected statistically significant increases in the presentation of cases of gastroenteritis and diarrhea to general practitioner services and related calls to the national health telephone advice service in those areas affected by the BWN.

In the affected areas, average in-hours general practitioner consultations for gastroenteritis increased by 24.8% (from 13.49 to 16.84) during the BWN period; average diarrhea consultations increased by 28.5% (from 8.33 to 10.71). Local public health investigations revealed no laboratory reported cases confirmed as being associated with the water supply. These findings suggest that the increases reported by syndromic surveillance of cases of gastroenteritis and diarrhea likely resulted from changes in healthcare seeking behaviour driven by the intense local and national media coverage of the potential health risks during the event.

 This study has further highlighted the potential for media-driven bias in syndromic surveillance, and the challenges in disentangling true increases in community infection from those driven by media reporting.

The potential impact of media reporting in syndromic surveillance: An example using a possible Cryptosporidium exposure in north west England, August to September 2015

Euro Surveill. 2016;21(41):pii=30368. DOI: http://dx.doi.org/10.2807/1560-7917.ES.2016.21.41.30368

AJ Elliot, HE Hughes, J Astbury, G Nixon, K Brierley, R Vivancos, T Inns, V Decraene, K Platt, I Lake, SJ O’Brien, GE Smith

http://www.eurosurveillance.org/ViewArticle.aspx?ArticleId=22610

UK holidaymakers sue Thomas Cook after contracting crypto at hotel where staff were seen ‘fishing feces out of the pool’

Qin Xie of the Daily Mail reports a  group of holidaymakers are suing Thomas Cook after they suffered diarrhea and stomach cramps following a stay at a Greek island resort.

caddyshack-pool-poop-1One of the families, who stayed at Marelen Hotel on Zante in August, claimed that they saw staff fishing out fecal matter from the swimming pool before disinfecting it – all while the guests were still in the water.

Several of those filing the suit have allegedly been diagnosed as having contracted Cryptosporidium staying at the hotel.

A total of 17 people are currently involved in the lawsuit and are represented by personal injury lawyers Irwin Mitchell.

Wisconsin health officials report two cases of cryptosporidiosis

Waukesha County health officials said Thursday they’re investigating two confirmed cases of cryptosporidiosis.

diaper-poolThose affected recently swam at the Princeton Club in New Berlin, but the original source is unknown, a county spokeswoman said.

“Princeton Club has been very cooperative, have followed all Waukesha County Environmental Health requirements and have taken steps that go above and beyond the standards to ensure appropriate prevention steps are taken,” Julianne Davan said in a statement.

She said it’s not uncommon for annual reports of cryptosporidiosis, and the number of cases in Waukesha County this year is consistent with previous years.

Crypto is all around us

This report outlines the evidence and main conclusions presented at an expert workshop on Cryptosporidium genotyping held on 16 and 17 June 2016, hosted by the Robert Koch Institute, Berlin, and funded by EU COST Action FA1408 “A European Network for Foodborne Parasites: Euro-FBP” (http://www.euro-fbp.org).

erddig-hall-wales-lamb-cryptosproidiumThe consultation brought together 23 scientists and experts in public and animal health from 12 European countries and the United States (US) to discuss how Cryptosporidium spp. surveillance and outbreak investigations could benefit from a harmonised approach to intra-species differentiation of the two main human pathogens, C. parvum and C. hominis. These are major zoonotic and anthroponotic causes of gastroenteritis, respectively. There is currently no standardised genotyping scheme for these protozoan parasites.

The workshop was organised in two parts: firstly, specialists described the current state of knowledge and need, and secondly, four working groups considered different aspects of the development, implementation and maintenance of Cryptosporidium genotyping schemes.

An overview of genotyping Cryptosporidium for public health purposes

Laetitia Kortbeek (National Institute for Public Health and the Environment, the Netherlands) described the diagnosis of Cryptosporidium and the usefulness of genotyping for epidemiology. Although cryptosporidiosis cases are notifiable in some European Union (EU) countries, testing and diagnostic practices are variable. Improved understanding of the epidemiology, sources and transmission of cryptosporidiosis is needed, but surveillance is also highly variable and the quality of the data provided to the European Centre for Disease Prevention and Control (ECDC) hinders comparisons between countries [1]. Improved diagnosis and basic surveillance across the EU would provide the means to estimate and compare the prevalence of cryptosporidiosis and detect changing trends in transmission.

The complexity of Cryptosporidium transmission was highlighted using data from the Netherlands, where a proportion of Cryptosporidium-positive stools are genotyped to identify species. In the second half of 2012, an excess of cases, mainly due to C. hominis, triggered an alert to other EU countries via ECDC’s Epidemic Intelligence Information System for Food and Waterborne Diseases (EPIS); the United Kingdom (UK) and Germany also reported an increase [2]. An ongoing case–control study in the Netherlands failed to reveal an endemic source. In the following year, C. parvum predominated and risk factors for infection included the use of inland bathing waters and animal contact (not unexpected for C. parvum). More discriminatory genotyping of isolates could contribute to the identification of parasite sources and routes of transmission. As a first step, partial sequencing of a gene encoding a highly variable surface antigen (gp60) has shown that C. hominis allele IbA10G2 is highly prevalent throughout Europe, whereas C. parvum has greater diversity at this locus [3]. There is no specific licensed treatment in the EU for cryptosporidiosis, so understanding the epidemiology and improving the ability to identify sources through genotyping are important for the interruption of transmission routes and subsequent disease reduction.

The confusing world of Cryptosporidium typing

Giovanni Widmer (Tufts University, US) described how consideration of the reproductive biology and genetics of the parasite and analysis of metadata from studies that used the same genotyping markers have provided further clarification of Cryptosporidium diversity, especially within C. parvum. The lifecycle involves asexual and sexual reproductive stages, requiring a multilocus scheme to account for sexual recombination within genetically diverse populations. Therefore, it is important to select markers that are sufficiently distant or located on different chromosomes, to ensure they are not in linkage. Excluding markers that provide redundant information reduces wastage and increases efficiency. As part of the marker selection process, ordination methods such as principal coordinates analysis and rank abundance plots can be used to estimate objectively how informative individual genetic markers and their combinations are. Because of the multivariate nature of multilocus data, ordination methods are ideal to visualise genetic similarity among isolates [4] and infer the likely source of an outbreak. In silico analysis of existing data can be used to improve and harmonise current genotyping approaches for surveillance and outbreak investigations.

Human epidemiology and food-borne outbreaks

Rachel Chalmers (National Cryptosporidium Reference Unit, UK) showed how supplementing epidemiological and environmental data with Cryptosporidium species and gp60 allele identification has strengthened the statistical evidence of association with food exposures in outbreaks. In May 2012, an excess of 300 cases of C. parvum was linked to the consumption of pre-cut mixed salad leaves, spinach and tomatoes [5]. The odds of association with eating pre-cut mixed salad leaves were increased when the case definition was restricted to those infected with gp60 allele IIaA15G2R1. In 2015, C. hominis infections exceeded expected numbers by more than 900 cases in late summer/early autumn, triggering an EPIS alert, with a similar increase reported by the Netherlands. Hypothesis-generating questionnaires revealed no sufficiently common exposures or risk factors to allow a case–control study. Isolates with the gp60 allele IbA10G2 predominated. Not only is this allele highly prevalent among C. hominis isolates from northern Europe, but there is also limited heterogeneity at other loci, highlighting the limitation of multilocus genotyping as an epidemiological tool for this species [3]. Suitable samples [6] with the IbA10G2 allele were further analysed by whole genome sequencing. Very few differences were seen in pairwise comparisons, with at most 50 single nucleotide polymorphisms (SNPs) observed in the ca 9.2 Mbp genome; the significance of these extremely small differences is currently unknown. In contrast, a C. parvum outbreak of more than 300 cases at the end of 2015 was defined by an unusual gp60 allele, IIdA24G1, recognised initially by the Scottish Parasite Diagnostic and Reference Laboratory, highlighting the value of genotyping routinely and including the data in national surveillance. A case–control study revealed food-linked exposures and the outbreak remains under investigation at the time of writing, demonstrating the difficulties in food chain investigations.

Zoonotic transmission

Karin Troell (National Veterinary Institute, Sweden) illustrated the importance of applying One Health approaches to the investigation of Cryptosporidium as a zoonosis. In Sweden, samples are tested from any likely host animal that is linked to a human cryptosporidiosis case, for example from household cats when C. felis has been detected in a patient [7]. This has led to collaborative studies on other, less common, species causing human infections. These findings reinforce the need for clinical diagnostics to detect not only C. parvum and C. hominis.

The most common zoonotic species in humans, C. parvum, has an unusual epidemiology in cattle in Sweden, where some studies have shown low prevalence even in young calves. This is in contrast to other countries where C. parvum is the main cause of cryptosporidiosis in pre-weaned calves [8]. Despite this, one of the most common C. parvum gp60 alleles in cattle, IIaA16G1R1, is also frequent in humans in Sweden. To support epidemiological investigations, a multilocus sequencing tool based on nine SNP markers across five chromosomes has been evaluated in a multiplex PCR on numerous samples; high discriminatory power and evidence of transmission between calves and humans in Sweden was shown.However, further studies of the population structure of C. parvum are needed across Europe to assess the broader applicability of this scheme.

How diversity relates to transmission to humans

Simone Cacciò (National Institute of Health, Italy) described the apparent geographic diversity of C. parvum in Ireland, Italy, and Scotland, as revealed by multilocus analyses. Studies so far indicate that in those countries, C. parvum populations from humans and livestock may have become isolated from each other, to the extent that the opportunity for genetic interchange appears limited [9]. To investigate the degree of genetic isolation, further studies are needed across Europe that include the major hosts for C. parvum. One study showed that in the UK, a high proportion of C. hominis isolates were indistinguishable at multiple loci, contrasting with those from Uganda, where a more diverse population structure was found [10]. Therefore, conclusions from one location may not be widely applicable and information is specific to host populations, whether these are defined geographically or demographically. A European-wide project (COMPARE; http://www.compare-europe.eu/) aims to increase the number of whole genome sequences for Cryptosporidium and to develop bioinformatic pipelines that would further the understanding of the population biology and determinants of virulence of the parasite. Information from COMPARE will undoubtedly benefit typing scheme development.

Four working groups considered how the evidence presented could be used to develop, implement and maintain suitable genotyping resources for Cryptosporidium.

Are the genetic and population structures of Cryptosporidium amenable to developing a genotyping scheme?

One working group considered whether reliable predictions of transmission can be made by combining genotyping with epidemiological and clinical data, considering that genetic diversity and population structures differ for C. parvum and C. hominis. It concluded that data are currently unavailable for much of Europe and are often not comparable because of lack of standardisation, indicating the need for further studies. Sampling frames need to follow the One Health concept, including both human and animal samples. Comparative analysis of increasingly available genome sequence data can provide a solid basis for marker selection. An evaluation process should be defined and applied to those markers already used.

What needs to be done to develop a standardised, multilocus genotyping scheme?

Another working group considered the development of separate multilocus schemes for C. parvum and C. hominis to provide robust, cost-effective assays, suitable for specialist and reference laboratories. Fragment sizing of regions containing tandem nucleotide repeats was considered alongside in-house sequencing. The decision whether to choose fragment sizing or sequencing will depend on the best workflow for individual laboratories, but markers that provide the same results with either method would be desirable. Sequence data from gp60 remains important. The most suitable markers need to be identified through a structured and objective process, ideally starting from whole-genome comparisons. Well-defined panels of samples are needed for biological and statistical evaluation of individual markers and their combinations, before progressing to inter-laboratory trials. DNA standards should be available. A web-based database needs be developed to contextualise metadata and genetic identification of isolates.

A multilocus genotyping scheme as a component of epidemic preparedness and response

A third working group considered multilocus genotyping as a component of a resilient response for health protection, highlighting that any scheme should be informative for epidemiological investigations and the detection and management of outbreaks, and that genotyping results should be incorporated into the collection of high quality epidemiological data. Differentiating between what is ‘nice to know’ and ‘essential to know’ is important: at present, there is more to be gained from genotyping C. parvum, as a high proportion of C. hominis cases in Europe have the gp60 allele IbA10G2, which is associated with low diversity at other markers. If genotyping all cases cannot be justified, selection will depend on outbreak size and available information and is probably best delivered as a test done in specialist or reference laboratories. Simulated outbreak exercises should be undertaken.

Sustainability of a standardised, multilocus genotyping scheme

The final working group discussed the elements needed to sustain a standardised scheme, including validation, external quality control (EQA), and inclusion of future developments, for example identification of new informative markers. A good mechanism for EQA should be established using an independent provider, also providing training modules and DNA standards. Central, ongoing collection of a minimum set of metadata are needed to facilitate surveillance of genotypes and meaningful comparisons and interpretation; this may be possible through the Cryptosporidium database at http://CryptoDB.org. Nomenclature for multilocus genotypes needs to be adopted for effective interdisciplinary communication.

Conclusions

Increased standardisation of diagnostic practices for Cryptosporidium is fundamental to the meaningful interpretation of surveillance data and distribution of species and genotypes. A robust, standardised, multilocus genotyping scheme should be developed, using a defined process to replace or supplement the multitude of genotyping methods used. Although further genotyping of C. parvum would be highly informative, this procedure may not always be warranted for the genetically more conserved C. hominis in Europe. A web-based database, enabling interpretation of genotype occurrence and distribution trends in an epidemiological context, is required. Genotype data should be incorporated into national surveillance programmes, and a standardised nomenclature provided for effective communication with public health professionals.

Towards a consensus on genotyping schemes for surveillance and outbreak investigations of Cryptosporidium, Berlin, June 2016

Eurosurveillance, Volume 21, Issue 37, 15 September 2016, DOI: http://dx.doi.org/10.2807/1560-7917.ES.2016.21.37.30338

R Chalmers, S Cacciò

http://www.eurosurveillance.org/ViewArticle.aspx?ArticleId=22578

6 confirmed sick: Crypto linked to raw milk in New Mexico

Officials with the New Mexico Department of Health are investigating cases of cryptosporidiosis among state residents.

napoleon-raw-milkThey say there have been six confirmed cases of “crypto” — a diarrheal disease caused by microscopic parasites — since Aug. 31.

Each reported consuming raw milk products.

The affected individuals are from Bernalillo County.

Epidemiologists, laboratory staff and inspectors are working to confirm the source of the outbreak.

The state Department of Agriculture and New Mexico Environmental Department also are involved in the investigation.

Health Department officials recommend that anyone in New Mexico who has raw milk products discard the product to prevent infection.