BAM: Clostridium botulinum. January 2. 00. 1Bacteriological Analytical Manual. Chapter 1. 7Clostridium botulinum. Authors: Haim M. Solomon and Timothy Lilly, Jr. For additional information, contact Shashi Sharma. Clostridium botulinum is an anaerobic, rod- shaped sporeforming bacterium that produces a protein with characteristic neurotoxicity. Under certain conditions, these organisms may grow in foods producing toxin(s). Botulism, a severe form of food poisoning results when the toxin- containing foods are ingested. Although this food illness is rare, its mortality rate is high; the 9. United States from 1. In outbreaks in which the toxin type was determined, 3. A, 1. 06 by type B, 1. E, and 3 by type F. In two outbreaks, the foods implicated contained both types A and B toxins. Due to a limited number of reports, type C and D toxins have been questioned as the causative agent of human botulism. It is suspected that these toxins are not readily absorbed in the human intestine. However, all types except F and G, which have not been as studied thoroughly, are important causes of animal botulism. Cross- neutralization of a specific toxin by heterologous antitoxins does not occur or is minimal. There are seven recognized antigenic types: A through G. Cultures of five of these types apparently produce only one type of toxin but all are given type designations corresponding to their toxin production. Types C and D cross- react with antitoxins to each other because they each produce more than one toxin and have at least one common toxin component. Type C produces predominantly C1 toxin with lesser amounts of D and C2, or only C2, and type D produces predominantly type D toxin along with smaller amounts of C1 and C2. Mixed toxin production by a single strain of C. There is a slight reciprocal cross- neutralization with types E and F, and recently a strain of C. Cultures producing types C and D toxins are not proteolytic on coagulated egg white or meat and have a common metabolic pattern which sets them apart from the others. All cultures that produce type A toxin and some that produce B and F toxins are proteolytic. All type E strains and the remaining B and F strains are nonproteolytic, with carbohydrate metabolic patterns differing from the C and D nonproteolytic groups. Strains that produce type G toxin have not been studied in sufficient detail for effective and satisfactory characterization. C. The finding of type E in aquatic environments by many investigators correlates with cases of type E botulism that were traced to contaminated fish or other seafoods. Types A and B are most commonly encountered in foods associated with soil contamination. In the United States, home- canned vegetables are most commonly contaminated with types A and B, but in Europe, meat products have also been important vehicles of foodborne illness caused by these types. Measures to prevent botulism include reduction of the microbial contamination level, acidification, reduction of moisture level, and whenever possible, destruction of all botulinal spores in the food. Heat processing is the most common method of destruction. Properly processed canned foods will not contain viable C. Home- canned foods are more often a source of botulism than are commercially canned foods, which probably reflects the commercial canners' great awareness and better control of the required heat treatment. A food may contain viable C. If the organisms do not grow, no toxin is produced. Although many foods satisfy the nutritional requirements for the growth of C. Both nutritional and anaerobic requirements are supplied by many canned foods and by various meat and fish products. Growth in otherwise suitable foods can be prevented if the product, naturally or by design, is acidic (of low p. H), has low water activity, a high concentration of Na. Cl, an inhibitory concentration of Na. NO2 or other preservative, or two or more of these conditions in combination. Refrigeration will not prevent growth and toxin formation by nonproteolytic strains unless the temperature is precisely controlled and kept below 3. Foods processed to prevent spoilage but not usually refrigerated are the most common vehicles of botulism. Optimum temperature for growth and toxin production of proteolytic strains is close to 3. Nonproteolytic types B, E, and F can produce toxin at refrigeration temperatures (3- 4. Toxins of the nonproteolytics do not manifest maximum potential toxicity until they are activated with trypsin; toxins of the proteolytics generally occur in fully (or close to fully) activated form. These and other differences can be important in epidemiological and laboratory considerations of botulism outbreaks. Clinical diagnosis of botulism is most effectively confirmed by identifying botulinal toxin in the blood, feces, or vomitus of the patient. Specimens must be collected before botulinal antitoxin is administered to the patient. Identifying the causative food is most important in preventing additional cases of botulism. Health & Stress Newsletter. This publication is for AIS Members only. We opened the issues below so that you can view a sample of Health and Stress. See Examination of Canned Foods, Chapter 2. Botulism in infants 6 weeks to 1 year of age was first recognized as a distinct clinical entity in 1. This form of botulism results from growth and toxin production by C. It is usually caused by C. Infant botulism has been diagnosed in most U. S. Illnesses have a broad range of severity. Some infants show only mild weakness, lethargy, and reduced feeding and do not require hospitalization. Many have shown more severe symptoms such as weakened suck, swallowing, and cry; generalized muscle weakness; and diminished gag reflex with a pooling of oral secretions. Generalized muscle weakness and loss of head control in some infants reaches such a degree of severity that the patient appears . As a result, the case- fatality rate (2%) for this form of botulism is low. Recovery usually requires at least several weeks of hospitalization (1). Honey, a known source of C. The English version offers selected articles from. Intercare is a leading health care provider. Summer means lots of succulent fruit. If you have diabetes, however, you have to consider how these seasonal treats. Total knee replacement (TKR) and total hip replacement (THR) surgery offer a multitude of challenges for the anesthesiologist and perioperative physician. Positive Law; Citation. This title has been enacted into positive law by section 1 of act Aug. 1, which provided in part that: "Title 10. In studies of honey, up to 1. C. For this reason, the FDA, the Centers for Disease Control and Prevention (CDC), and the American Academy of Pediatrics recommend not feeding honey to infants under one year old. The mouse bioassay is a functional assay that detects biologically active toxin. The assay requires a three part approach: toxin screening, toxin titer, and finally toxin neutralization using monovalent antitoxins. The process requires two days of analysis at each step. Recently, rapid, alternative, in- vitro procedures have been developed for the detection of types A, B, E, and F botulinal toxin producing organisms and their toxins. The toxins generated in culture media can be detected using ELISA techniques such as the DIG- ELISA and the amp- ELISA. Biologically active and non- active toxins are detected since the assay detects the toxin antigen. The ELISA assays require one day of analysis. The toxin genes of viable organisms can be detected using the polymerase chain reaction technique and require one days of analysis after overnight incubation of botulinal spores or vegetative cells. In- vitro assays that are positive are confirmed using the mouse bioassay. Mouse Bioassay for Clostridium botulinum Toxin. Equipment and Materials. Refrigerator. Clean dry towels. Bunsen burner. Sterile can opener (bacteriological or puncture type)Sterile mortar and pestle. Sterile forceps. Sterile cotton- plugged pipets. Mechanical pipetting device (NEVER pipet by mouth)Sterile culture tubes (at least a few should be screw- cap tubes)Anaerobic jars (Gas. Pak or Case- nitrogen replacement)Transfer loops. Incubators, 3. 5 and 2. Refrigerate samples until testing, except unopened canned foods, which need not be refrigerated unless badly swollen and in danger of bursting. Before testing, record product designation, manufacturer's name or home canner, source of sample, type of container and size, labeling, manufacturer's batch, lot or production code, and condition of container. Clean and mark container with laboratory identification codes. Solid and liquid foods. Aseptically transfer foods with little or no free liquid to sterile mortar. Add equal amount of gel- phosphate buffer solution and grind with sterile pestle before inoculation. Alternatively, inoculate small pieces of product directly into enrichment broth with sterile forceps. Inoculate liquid foods directly into enrichment broth with sterile pipets. Reserve sample; after culturing, aseptically remove reserve portion to sterile sample jar for tests which may be needed later. Refrigerate reserve sample. Opening of canned foods (see Chapter 2. Examine product for appearance and odor. Note any evidence of decomposition. DO NOT TASTE the product under any circumstances. Record the findings. Detection of viable C. Remove dissolved oxygen from enrichment media by steaming 1. Inoculate 2 tubes of cooked meat medium with 1- 2 g solid or 1- 2 ml liquid food per 1. Use TPGYT as alternative only when organism involved is strongly suspected of being a nonproteolytic strain of types B, E, or F. Introduce inoculum slowly beneath surface of broth to bottom of tube. After 5 days of incubation, examine enrichment cultures. Check for turbidity, gas production, and digestion of meat particles. Note the odor. Examine cultures microscopically by wet mount under high- power phase contrast, or a smear stained by Gram reagent, crystal violet, or methylene blue under bright- field illumination. Observe morphology of organisms and note existence of typical clostridial cells, occurrence and relative extent of sporulation, and location of spores within cells. A typical clostridial cell resembles a tennis racket. At this time test each enrichment culture for toxin, and if present, determine toxin type according to procedure in F, below. Usually, a 5- day incubation is the period of active growth giving the highest concentration of botulinal toxin. If enrichment culture shows no growth at 5 days, incubate an additional 1. For pure culture isolation save enrichment culture at peak sporulation and keep under refrigeration. Isolation of pure cultures.
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