Multimodal Biosensing of Foodborne Pathogens.

Microbial foodborne pathogens present significant challenges to public health and the food industry, requiring rapid and accurate detection methods to prevent infections and ensure food safety. Conventional single biosensing techniques often exhibit limitations in terms of sensitivity, specificity, and rapidity. In response, there has been a growing interest in multimodal biosensing approaches that combine multiple sensing techniques to enhance the efficacy, accuracy, and precision in detecting these pathogens. This review investigates the current state of multimodal biosensing technologies and their potential applications within the food industry. Various multimodal biosensing platforms, such as opto-electrochemical, optical nanomaterial, multiple nanomaterial-based systems, hybrid biosensing microfluidics, and microfabrication techniques are discussed. The review provides an in-depth analysis of the advantages, challenges, and future prospects of multimodal biosensing for foodborne pathogens, emphasizing its transformative potential for food safety and public health. This comprehensive analysis aims to contribute to the development of innovative strategies for combating foodborne infections and ensuring the reliability of the global food supply chain.

[A fish-intoxication as a rare cause of chest pain]. / Eine Fischintoxikation als seltene Ätiologie des Thoraxschmerzes.

INTRODUCTION: We describe the case of a 58-year-old patient who developed chest pain and an anaphylaktoide reaction after ingestion of contamined fish containing histamin. Histamin intoxication from food poisoning (also known as scombroid intoxication) can be mistaken for an anaphylactic reaction and occasionaly lead to cardiac symptoms, even in patients without atherosclerotic changes. This condition is called Kounis syndrom and has to be recognized as a separate syndrom with specific clinical features.

CRISPR/Cas-based colorimetric biosensors: a promising tool for the diagnosis of bacterial foodborne pathogens in food products.

Some physical phenomena and various chemical substances newly introduced in nanotechnology have allowed scientists to develop valuable devices in the field of food sciences. Regarding such progress, the identification of foodborne pathogenic microorganisms is an imperative subject nowadays. These bacterial species have been found to cause severe health impacts after food ingestion and can result in high mortality in acute cases. The rapid detection of foodborne bacterial species at low concentrations is in high demand in recent diagnostics. CRISPR/Cas-mediated biosensors possess the potential to overcome several challenges in classical assays such as complex pretreatments, long turnaround time, and insensitivity. Among them, colorimetric nanoprobes based on the CRISPR strategy afford promising devices for POCT (point-of-care testing) since they can be visualized with the naked eye and do not require diagnostic apparatus. In this study, we briefly classify and discuss the working principles of the different CRISPR/Cas protein agents that have been employed in biosensors so far. We assess the current status of the CRISPR system, specifically focusing on colorimetric biosensing platforms. We discuss the utilization of each Cas effector in the detection of foodborne pathogens and examine the restrictions of the existing technology. The challenges and future opportunities are also indicated and addressed.

Research progress on the detection of foodborne pathogens based on aptamer recognition.

Foodborne diseases caused by bacterial contamination are a serious threat to food safety and human health. The classical plate culture method has the problems of long detection cycle, low sensitivity and specificity, and complicated operation, which cannot meet the growing demand for rapid quantitative detection of pathogenic bacteria. The frequent outbreak of foodborne diseases has put forward higher requirements for rapid and simple detection technology of foodborne pathogens. Aptamer is a kind of oligonucleotide fragment that can recognize targets with the advantages of high affinity and good specificity. The target can be range from proteins, small molecules, cells bacteria, and even viruses. Herein, the latest advances in sensitive and rapid detection of foodborne pathogens based on aptamer recognition was reviewed. Special attention has been paid to the obtained sequences of aptamers to various foodborne pathogens, the optimization of sequences, and the mechanism of aptamer recognition. Then, the research progress of biosensors for the detection of pathogenic bacteria based on aptamer recognition were summarized. Some challenges and prospects for the detection of foodborne pathogens based on aptamer recognition were prospected. In summary, with the further deepening of aptamer research and improvement of detection technology, aptamer-based recognition can meet the needs of rapid, sensitive, and accurate detection in practical applications.

Advances in DNA-based electrochemical biosensors for the detection of foodborne pathogenic bacteria.

The detection of foodborne pathogenic bacteria is critical in preventing foodborne diseases. DNA-based electrochemical biosensors, with the merits of high sensitivity and short detection time, provide an effective detecting method for foodborne pathogens, attracting significant interest for the past few years. This review mainly describes the important research progress of DNA-based electrochemical biosensors for the detection of foodborne pathogenic bacteria through four perspectives: representative foodborne pathogens detection using electrochemical approaches, DNA immobilization strategies of aptamers, DNA-based signal amplification strategies used in electrochemical DNA sensors, and functional DNA used in electrochemical DNA sensors. Finally, perspectives and challenges are presented in this field. This review will contribute to DNA-based electrochemical biosensor in enhancing the nucleic acid signal amplification.

Usefulness and Limitations of PFGE Diagnosis and Nucleotide Sequencing Method in the Analysis of Food Poisoning Pathogens Found in Cooking Employees.

In the case of a food poisoning outbreak, it is essential to understand the relationship between cooking workers and food poisoning. Many biological diagnostic methods have recently been developed to detect food poisoning pathogens. Among these diagnostic tools, this study presents PCR-based pulsed-field gel electrophoresis and nucleotide sequencing diagnostic analysis results for diagnosing food poisoning outbreaks associated with cooking employees in Chungcheongnam-do, Republic of Korea. Pulsed-field gel electrophoresis was useful in identifying the food poisoning outbreaks caused by Staphylococcus aureus and Enteropathogenic Escherichia coli. In the case of Norovirus, nucleotide sequencing was used to identify the relationship between cooking workers and the food poisoning outbreak. However, it is difficult to determine whether cooking employees directly caused the food poisoning outbreaks based on these molecular biological diagnostic results alone. A system is needed to integrate epidemiological and diagnostic information to identify a direct correlation between the food poisoning outbreak and cooking employees.

Infecciones por helmintos intestinales en Chile: Análisis retrospectivo en Santiago, años 2015-2019 / Intestinal helminth infections in Chile: a retrospective analysis in Santiago, 2015-2019

INTRODUCCIÓN: Existe escasa evidencia epidemiológica actual sobre helmintos intestinales en Chile. OBJETIVO: Describir la prevalencia de infecciones por helmintos intestinales en un centro de salud en Santiago, Chile. MÉTODOS: Análisis retrospectivo de helmintos intestinales diagnosticados en muestras parasitológicas de rutina en el Laboratorio de Microbiología de Clínica Alemana de Santiago, entre los años 2015 y 2019. Las pruebas diagnósticas se seleccionaron según la solicitud médica. Los datos se obtuvieron de los sistemas informáticos del laboratorio y se analizaron de manera anonimizada. RESULTADOS: Se detectaron 127 infecciones por helmintos en 11.809 muestras estudiadas (1,1%). Estas infecciones fueron: 78 (61,4%) Enterobius vermicularis, 25 (19,6%) Dibothriocephalus/Adenocephalus spp., 9 (7,1%) Taenia spp., 6 (4,7%) Pseudoterranova spp., 5 (3,9%) Strongyloides stercoralis y 4 (3,1%) Ascaris lumbricoides. Enterobius vermicularis predominó en niños y adolescentes; Dibothriocephalus/ Adenocephalus spp. predominó en adultos. CONCLUSIÓN: El estudio proporciona información epidemiológica actual sobre la distribución de helmintos intestinales en muestras clínicas en Santiago, Chile. Enterobius vermicularis fue prevalente, seguido de helmintos transmitidos por alimentos mientras que los transmitidos por el suelo solo se detectaron ocasionalmente. El surgimiento de difilobotriasis y anisakidosis (pseudoterranoviasis), es relevante y posiblemente se relacione con cambios en las condiciones de vida y la cultura alimentaria en Chile.

BACKGROUND: Epidemiological information on the current prevalence of intestinal helminths in Chile is scarce. AIM: To describe the prevalence of different intestinal helminth infections in a healthcare center in Santiago, Chile. METHODS: We performed a retrospective analysis of intestinal helminths diagnosed in routine parasitological samples in the microbiological laboratory of Clínica Alemana Santiago, Chile, between 2015 and 2019. Diagnostic tests were applied according to the sender's request. Data were obtained from laboratory information systems and analyzed in an anonymized manner. RESULTS: Among 11,809 samples, 127 (1.1%) helminth infections were detected, of those, 78 (61.4%) were Enterobius vermicularis, 25 (19.6%) Dibothriocephalus/Adenocephalus spp., 9 (7.1%) Taenia spp., 6 (4.7%) Pseudoterranova spp., 5 (3.9%) Strongyloides stercoralis, and 4 (3.1%) Ascaris lumbricoides. Enterobius vermicularis was predominant among children and adolescents, while Dibothriocephalus/Adenocephalus spp. was the most frequent helminth in adults. CONCLUSION: The study provides updated epidemiological information on distribution of helminth infections in clinical samples in Santiago, Chile. After E. vermicularis, food-borne helminths were second most prevalent, while soiltransmitted helminths were very rarely detected. The emergence of diphyllobothriasis and anisakidosis (pseudoterranoviasis) is noteworthy and possibly related to changes in living conditions and food culture in Chile.

From Foodborne Disease Outbreak (FBDO) to Investigation: The Plant Toxin Trap, Brittany, France, 2018.

On 6 July 2018, the Center for Epidemiology and Public Health of the French Armed Forces was informed of an outbreak of acute gastroenteritis among customers of a dining facility at a military base in Brittany, France. A total of 200 patients were reported out of a population of 1700 (attack rate: 12%). The symptoms were mainly lower digestive tract disorders and occurred rapidly after lunch on 5 July (median incubation period: 3.3 h), suggesting a toxin-like pathogenic process. A case-control survey was carried out (92 cases and 113 controls). Statistical analysis pointed to the chili con carne served at lunch on 5 July as the very likely source of poisoning. Phytohaemagglutinin, a plant lectin, was found in the chili con carne at a concentration above the potentially toxic dose (400 HAU/gram). The raw kidney beans incorporated in the chili con carne presented a high haemagglutination activity (66,667 HAU/gram). They were undercooked, and the phytohaemagglutinin was not completely destroyed. FBDOs due to PHA are poorly documented. This study highlights the need to develop methods for routine testing of plant toxins in food matrices. Improved diagnostic capabilities would likely lead to better documentation, epidemiology, and prevention of food-borne illnesses caused by plant toxins.

"Lock-and-key" recognizer-encoded lateral flow assays toward foodborne pathogen detection: An overview of their fundamentals and recent advances.

In light of severe health risks of foodborne pathogenic bacterial diseases, the potential utility of point-of-care (POC) sensors is recognized for pathogens detection. In this regard, lateral flow assay (LFA) is a promising and user-friendly option for such application among various technological approaches. This article presents a comprehensive review of "lock-and-key" recognizer-encoded LFAs with respect to their working principles and detection performance against foodborne pathogenic bacteria. For this purpose, we describe various strategies for bacteria recognition including the antibody-based antigen-antibody interactions, nucleic acid aptamer-based recognition, and phage-mediated targeting of bacterial cells. In addition, we also outline the technological challenges along with the prospects for the future development of LFA in food analysis. The LFA devices built based upon many recognition strategies are found to have great potential for rapid, convenient, and effective POC detection of pathogens in complex food matrixes. Future developments in this field should emphasize the development of high-quality bio-probes, multiplex sensors, and intelligent portable readers.

Molecular detection and genotype analysis of Kudoa septempunctata from food poisoning outbreaks in Korea.

Concerns about foodborne illnesses caused by Kudoa septempunctata are steadily growing, but reports of K. septempunctata in clinical and food specimens related to food poisoning in Korea are limited. This study aimed to genetically identify K. septempunctata in patients with acute diarrhea and in clinical and food samples related to food poisoning caused by sashimi consumption. Both real-time and nested polymerase chain reaction assays were performed to detect K. septempunctata 18S and 28S rDNA genes in the stools of 348 patients with acute diarrhea, 11 samples (6 stool and 5 rectal swab samples) from patients with food poisoning, and 2 raw Paralichthys olivaceus samples collected from a restaurant where a food poisoning incident occurred. K. septempunctata was identified in 5 clinical specimens (4 stools and 1 rectal swab) and 1 P. olivaceus sashimi sample. All detected K. septempunctata were of genotype ST3. This is the first study to identify K. septempunctata in both patients and food samples with epidemiological relevance in Korea, providing evidence that it is a pathogen that causes food poisoning. Also, this is the first study to confirm the presence of K. septempunctata genes in rectal swabs. Despite continuing suspected occurrences of Kudoa foodborne outbreaks, the rate of identification of K. septempunctata is very low. One reason for this is the limitation in obtaining stool and vomit samples for the diagnosis of Kudoa infection. We strongly suggest the inclusion of rectal swabs among the diagnostic specimens for Kudoa food poisoning.

Scombroid Poisoning: An Overview for the Emergency Nurse Practitioner.

Scombroid poisoning is a common fish-borne disease in clinical settings. Fish that has not been adequately stored after catching can allow bacteria to proliferate, which causes the conversion of histidine to histamine. Once histamine has formed, freezing or cooking the fish will not remove the histamine content. Once the fish is consumed, histamine is released, causing toxicity to the patient with symptoms including cutaneous, gastrointestinal, and anaphylactoid. Emergency nurse practitioners should identify, appropriately diagnose, and treat individuals with scombroid poisoning and avoid misdiagnosing it as fish allergy.

Molecular Mechanisms of Scombroid Food Poisoning.

Scombroid food poisoning (SFP) is a foodborne disease that develops after consumption of fresh fish and, rarely, seafood that has fine organoleptic characteristics but contains a large amount of exogenous histamine. SFP, like other food pseudo-allergic reactions (FPA), is a disorder that is clinically identical to allergic reactions type I, but there are many differences in their pathogenesis. To date, SFP has been widespread throughout the world and is an urgent problem, although exact epidemiological data on incidence varies greatly. The need to distinguish SFP from true IgE-associated allergy to fish and seafood is one of the most difficult examples of the differential diagnosis of allergic conditions. The most important difference is the absence of an IgE response in SFP. The pathogenesis of SFP includes a complex system of interactions between the body and chemical triggers such as exogenous histamine, other biogenic amines, cis-urocanic acid, salicylates, and other histamine liberators. Because of the wide range of molecular pathways involved in this process, it is critical to understand their differences. This may help predict and prevent poor outcomes in patients and contribute to the development of adequate hygienic rules and regulations for seafood product safety. Despite the vast and lengthy history of research on SFP mechanisms, there are still many blank spots in our understanding of this condition. The goals of this review are to differentiate various molecular mechanisms of SFP and describe methods of hygienic regulation of some biogenic amines that influence the concentration of histamine in the human body and play an important role in the mechanism of SFP.

One-step immunoassay based on filtration for detection of food poisoning-related bacteria.

A one-step immunoassay based on filtration was presented, which used microbeads for target analyte detection and filters with appropriate pore sizes to distinguish the complexity of target analyte and microbeads. For effective bacterial detection, the microbead size and the filter's pore size must be optimized. The optimal concentrations of the enzyme (urease) and antibody were determined at the maximum absorbance change, that is, the maximum pH change. The pH change was measured using a field-effect transistor (FET). The correlation between pH change and threshold voltage was estimated to be 21.7 mV/pH, and the correlation between pH change and the source-drain current was estimated to be -379 nA/pH. For the one-step immunoassay, antibodies against target bacteria were isolated from horse serum by filtration, and these antibodies were estimated to have a sufficiently high specificity to overcome cross-reactivity among five types of food poisoning-related bacteria: Escherichia coli O157, Salmonella typhimurium, Listeria monocytogenes, Bacillus cereus, and Staphylococcus aureus. Finally, the FET-based one-step immunoassay was demonstrated for five types of food poisoning-related bacteria in human serum.

An allergist's approach to food poisoning.

Foodborne illnesses represent a significant global health concern. These preventable diseases lead to substantial mortality and morbidity worldwide. Substantial overlap with food allergy exists with similar clinical presentations and symptom onset. Knowledge of the typically implicated microorganisms and toxins can help properly identify these diseases. A thorough history is essential to differentiate between these 2 disorders. The types of food implicated may be similar including milk, egg, fish, and shellfish. The timing of symptom onset may overlap and lead to misdiagnosis of disorders such as food protein-induced enterocolitis syndrome. Classically, histamine-related food poisoning is also typically confused with true food allergy and may be seen as related to fish and cheese. Knowledge of epidemiology, patterns, and etiology of allergic conditions and foodborne illness may help the allergist differentiate among these common diseases.

Botulismo alimentar: relato de caso de uma doença rara, grave e de relevância para a saúde pública / Foodborne botulism: case report of a rare, serious disease of public health relevance

Este resumo apresenta o relato de um caso de Botulismo ocorrido em maio de 2021 no Hospital do Servidor Público Municipal (HSPM) em São Paulo. O objetivo principal é sensibilizar os profissionais de saúde para considerar o Botulismo como uma possível causa de síndrome neuroparalítica aguda, apesar de sua raridade. Destaca-se a importância do diagnóstico precoce e do tratamento com antitoxina, juntamente com cuidados intensivos, para reduzir a mortalidade. O estudo é observacional e descritivo, relatando o caso de uma paciente hospitalizada com Botulismo de origem alimentar entre maio e agosto de 2021. Diante de uma síndrome neuroparalítica aguda, a suspeita de Botulismo e uma revisão da epidemiologia da doença são cruciais. Destaca-se a importância da antitoxina e dos cuidados intensivos no tratamento para reduzir a mortalidade. Complicações pós-infecção, como sequelas motoras, são comuns em pacientes de Botulismo, tornando essencial uma abordagem multidisciplinar de reabilitação física para uma recuperação eficaz. A Vigilância Epidemiológica e Sanitária desempenham um papel vital na prevenção e controle do Botulismo, incluindo a coleta e transporte oportunos de amostras, busca ativa de casos suspeitos e orientação à população sobre medidas preventivas. A qualidade dos dados notificados é fundamental para a eficácia dessas ações. Em vista da alta letalidade do Botulismo, destaca-se a importância de alertar os profissionais de saúde para identificar casos suspeitos, bem como treiná-los na integração com as unidades de Vigilância Sanitária e Epidemiológica. Isso permite uma identificação precoce e tratamento oportuno de casos suspeitos, contribuindo para a saúde pública. Palavras-chave: Botulismo. Neurotoxina botulínica. Intoxicação alimentar.

[Color Reaction Identification of Omphalotus guepiniformis Causing Food Poisoning].

Simple identification using a color reaction was applied to investigate poisoning, putatively caused by Omphalotus guepiniformis. Some leftover uncooked mushrooms had turned turquoise green when a beam reagent (5 w/v% potassium hydroxide ethanolic solution) was dripped onto the mushroom pileus. Furthermore, ethanol extract of the mushrooms exhibited the same color reaction. Then, illudin S, a toxic compound contained in O. guepiniformis, was detected in uncooked leftover mushrooms using LC-MS/MS analysis. Therefore, this case was inferred as caused by O. guepiniformis. These results indicate the identification method described above as useful for screening tests for investigating food poisoning caused by O. guepiniformis.

Molecular Methods for Identification and Quantification of Foodborne Pathogens.

Foodborne pathogens that enter the human food chain are a significant threat worldwide to human health. Timely and cost-effective detection of them became challenging for many countries that want to improve their detection and control of foodborne illness. We summarize simple, rapid, specific, and highly effective molecular technology that is used to detect and identify foodborne pathogens, including polymerase chain reaction, isothermal amplification, loop-mediated isothermal amplification, nucleic acid sequence-based amplification, as well as gene chip and gene probe technology. The principles of their operation, the research supporting their application, and the advantages and disadvantages of each technology are summarized.

Bacteriophage-Based Biosensors: A Platform for Detection of Foodborne Bacterial Pathogens from Food and Environment.

Foodborne microorganisms are an important cause of human illness worldwide. Two-thirds of human foodborne diseases are caused by bacterial pathogens throughout the globe, especially in developing nations. Despite enormous developments in conventional foodborne pathogen detection methods, progress is limited by the assay complexity and a prolonged time-to-result. The specificity and sensitivity of assays for live pathogen detection may also depend on the nature of the samples being analyzed and the immunological or molecular reagents used. Bacteriophage-based biosensors offer several benefits, including specificity to their host organism, the detection of only live pathogens, and resistance to extreme environmental factors such as organic solvents, high temperatures, and a wide pH range. Phage-based biosensors are receiving increasing attention owing to their high degree of accuracy, specificity, and reduced assay times. These characteristics, coupled with their abundant supply, make phages a novel bio-recognition molecule in assay development, including biosensors for the detection of foodborne bacterial pathogens to ensure food safety. This review provides comprehensive information about the different types of phage-based biosensor platforms, such as magnetoelastic sensors, quartz crystal microbalance, and electrochemical and surface plasmon resonance for the detection of several foodborne bacterial pathogens from various representative food matrices and environmental samples.