EVALUATION OF CULTURE PROTOCOLS AND OXYRASETM SUPPLEMENTATION FOR ARCOBACTER SPP.

Growth of Arcobacter butzleri was evaluated in Brain Heart Infusion broth incubated aerobically, microaerobically, and with Oxyrase^TM supplementation (anaerobically). At initial concentrations of10¹ to 10³ cells/mL, A. butzleri populations reached 7.5 to 8.0 log CFU/ml in 48h at 37C in Oxyrase^TM -supplemented broth. The organism quickly declined in the other two systems to undetectable levels during the initial 24h of incubation. Only moderate population levels (ca. 3 log CFU/ml) could be detected in aerobic and microaerobic systems after 56h incubation. Growth of five Arcobacter spp. strains was evaluated at 30C in Brucella-blood broth, modified Cary and Blair Transport Medium, and a biphase cultural system. Strains were inoculated at a level of ca. 10³ cells/ml and incubated with and without Oxyrase^TM supplementation to the system for 36h. Both the Brucella-blood broth and the biphase system supported good growth of the strains, with counts reaching ca. 8 to 9 log CFU/ml. Modified Cary and Blair Transport Medium was the least effective cultural system. Oxyrase^TM provided slight to moderate stimulation of growth for most strains.     

Pre-Enrichment and Enrichment Methods for Isolating Small Number of Campylobacteria from Contaminating Flora

A method was developed to detect fewer than 100 CFU of campylobacteria from SIFF transport medium to which thawing drip from deep frozen broiler carcasses was added as a source of contamination and which was then stored at room temperature for 20 h. The method was made possible by using pre–enrichment in 1 % buffered peptone water under a microaerophilic atmosphere for 5 h at 43°C before selective enrichment either in brucella enrichment broth and on brucella blood selective agar supplemented with Skirrow antibiotics or in CCD enrichment broth and on blood free CCD selective agar. The other pre–enrichment broth studied was alkaline peptone water with reducing agents (RAPW) and the other enrichment broths and selective agars were Preston broth and agar, THAL broth and alkaline tryptose broth (ATB) and brucella agar with ATB antibiotics. Contaminating flora can be a problem when using enrichment broths and selective agars with limited antibiotic supplementation.     

Comparison of transport media for recovery of Aeromonas from clinical specimens

The efficacy of Amies, Stuart, and Cary and Blair transport media for the survival of the three Aeromonas species over 21 d was determined utilizing simulated clinical specimens of aeromonad-contaminated pus and faeces. Aeromonas sobria had the worst survival rate of the three Aeromonas species. Cary and Blair medium performed the best, as colony counts of all three Aeromonas species in simulated pus and faeces stored for 7 d were comparable to the colony counts at initial inoculation.     

Antimicrobial resistance transfer in transport media.

Five different transport media (buffered glycerol saline, Amies, Cary and Blair, Stuart, and modified Stuart) were tested to determine if antimicrobial resistance transfer could occur among bacteria in the media. Transfer of resistance occurred in all of the media, except buffered glycerol saline, within 2 h of holding both at room temperature and 4 degrees C.     

Retrospective study of a plague outbreak by multiplex-PCR

AIMS: To determine the effectiveness of multiplex-PCR in Yersinia pestis identification in samples preserved in Cary & Blair medium and to evaluate if this technique would uncover Y. pestis-positives among culture-negative samples. METHODS AND RESULTS: Multiplex-PCR was used to detect Y. pestis in Cary & Blair preserved bubo aspirates from experimentally infected guinea pigs and to re-analyze samples from a plague outbreak after prolonged storage in Cary & Blair. Variation in the target genes amplification was observed over time. CONCLUSIONS: Multiplex-PCR proved to be more effective than culture for plague diagnosis, both for old and recent samples. This technique would be a valuable tool for the plague control programme. SIGNIFICANCE AND IMPACT OF THE STUDY: The multiplex-PCR technique can be useful for the detection and characterization of Y. pestis even when the bacteria are no longer viable and when culture diagnosis has been hampered by the growth of contaminants.     

Ability of Shiga Toxin-Producing Escherichia coli and Salmonella spp. To Survive in a Desiccation Model System and in Dry Foods

In order to determine desiccation tolerances of bacterial strains, the survival of 58 diarrheagenic strains (18 salmonellae, 35 Shiga toxin-producing Escherichia coli [STEC], and 5 shigellae) and of 15 nonpathogenic E. coli strains was determined after drying at 35°C for 24 h in paper disks. At an inoculum level of 10⁷ CFU/disk, most of the salmonellae (14/18) and the STEC strains (31/35) survived with a population of 10³ to 10⁴ CFU/disk, whereas all of the shigellae (5/5) and the majority of the nonpathogenic E. coli strains (9/15) did not survive (the population was decreased to less than the detection limit of 10² CFU/disk). After 22 to 24 months of subsequent storage at 4°C, all of the selected salmonellae (4/4) and most of the selected STEC strains (12/15) survived, keeping the original populations (10³ to 10⁴ CFU/disk). In contrast to the case for storage at 4°C, all of 15 selected strains (5 strains each of Salmonella spp., STEC O157, and STEC O26) died after 35 to 70 days of storage at 25°C and 35°C. The survival rates of all of these 15 strains in paper disks after the 24 h of drying were substantially increased (10 to 79 times) by the presence of sucrose (12% to 36%). All of these 15 desiccated strains in paper disks survived after exposure to 70°C for 5 h. The populations of these 15 strains inoculated in dried foods containing sucrose and/or fat (e.g., chocolate) were 100 times higher than those in the dried paper disks after drying for 24 h at 25°C.     

Comparative Survival Rates of Human-Derived Probiotic Lactobacillus paracasei and L. salivarius Strains during Heat Treatment and Spray Drying

Spray drying of skim milk was evaluated as a means of preserving Lactobacillus paracasei NFBC 338 and Lactobacillus salivarius UCC 118, which are human-derived strains with probiotic potential. Our initial experiments revealed that NFBC 338 is considerably more heat resistant in 20% (wt/vol) skim milk than UCC 118 is; the comparable decimal reduction times were 11.1 and 1.1 min, respectively, at 59°C. An air outlet temperature of 80 to 85°C was optimal for spray drying; these conditions resulted in powders with moisture contents of 4.1 to 4.2% and viable counts of 3.2 × 10⁹ CFU/g for NFBC 338 and 5.2 × 10⁷ CFU/g for UCC 118. Thus, L. paracasei NFBC 338 survived better than L. salivarius UCC 118 during spray drying; similar results were obtained when we used confocal scanning laser microscopy and LIVE/DEAD BacLight viability staining. In addition, confocal scanning laser microscopy revealed that the probiotic lactobacilli were located primarily in the powder particles. Although both spray-dried cultures appeared to be stressed, as shown by increased sensitivity to NaCl, bacteriocin production by UCC 118 was not affected by the process, nor was the activity of the bacteriocin peptide. The level of survival of NFBC 338 remained constant at ~1 × 10⁹ CFU/g during 2 months of powder storage at 4°C, while a decline in the level of survival of approximately 1 log (from 7.2 × 10⁷ to 9.5 × 10⁶ CFU/g) was observed for UCC 118 stored under the same conditions. However, survival of both Lactobacillus strains during powder storage was inversely related to the storage temperature. Our data demonstrate that spray drying may be a cost-effective way to produce large quantities of some probiotic cultures.     

Distribution, Population Dynamics, and Characteristics of Ice Nucleation-Active Bacteria in Deciduous Fruit Tree Orchards

Deciduous fruit tree orchards located in the Pacific Northwest were surveyed over a 3-year period for the presence of ice nucleation-active (INA) bacteria. In the Yakima Valley, only about 30% of the fruit tree orchards contained INA bacteria (median population ca. 3 × 10² CFU/g [fresh weight]) in contrast to nearly 75% of the orchards in the Hood River Valley (median population ca. 5 × 10³ CFU/g [fresh weight]). These INA populations ranged from less than 10 to over 10⁶ CFU/g (fresh weight) of blossoms and, in Hood River Valley orchards, generally comprised over 10% of the total bacterial population. Populations of INA bacteria fluctuated during the year with highest levels developing on buds and flowers during the cool, wet spring, followed by a drop in populations during the warmer, drier, summer months and finally a gradual increase in the autumn. The INA bacteria persisted on dormant buds from which they again colonized young developing vegetative tissues. All INA bacteria were identified as Pseudomonas syringae. The frequency of ice nucleation at −5°C for these strains ranged from nearly every cell being INA to less than 1 in 10⁷ cells. The median frequency of ice nucleation at −5°C was 10⁴ cells per ice nucleus. The INA P. syringae strains from individual orchards were diverse with respect to bacteriocin typing and in ice nucleation frequency. The consistent absence of detectable INA bacteria or presence of low populations in most of the orchards surveyed during periods when critical temperatures (i.e., −2 to −5°C) were common indicated a limited role for INA bacteria in frost susceptibility of most Pacific Northwest orchards.     

Selective medium for Pseudomonas aeruginosa that uses 1,10-phenanthroline as the selective agent.

The MIC of 1,10-phenanthroline for 35 Pseudomonas aeruginosa strains was 128 micrograms/ml, whereas 32 micrograms or less per ml inhibited all other microorganisms tested. On the basis of these results, a selective agar for P. aeruginosa which contained 15 g of Trypticase soy broth (BBL Microbiology Systems), 15 g of agar, and 0.1 g of phenanthroline per liter was formulated. Forty-four P. aeruginosa strains yielded a mean efficiency of plating on this medium of 79% of the counts obtained on Trypticase soy agar, which was significantly higher than that obtained with pseudomonas isolation agar or Pseudosel agar. Pseudomonas cepacia, Pseudomonas fluorescens, Pseudomonas putida, Pseudomonas stutzeri, representatives of 13 other genera (including gram-negative rods, gram-positive rods, and cocci), and a yeast were not recovered within 48 h at 35 degrees C when approximately 10(7) CFU were plated on this medium. Only small colonies from one strain each of P. fluorescens and P. putida could be seen at 3 and 7 days, respectively, and they had an efficiency of plating of only less than 0.001%. When 10(7) CFU of either of these strains was plated with 10(2) CFU of P. aeruginosa, it did not interfere with the quantitative recovery of P. aeruginosa.     

Selective medium for Pseudomonas aeruginosa that uses 1,10-phenanthroline as the selective agent

The MIC of 1,10-phenanthroline for 35 Pseudomonas aeruginosa strains was 128 micrograms/ml, whereas 32 micrograms or less per ml inhibited all other microorganisms tested. On the basis of these results, a selective agar for P. aeruginosa which contained 15 g of Trypticase soy broth (BBL Microbiology Systems), 15 g of agar, and 0.1 g of phenanthroline per liter was formulated. Forty-four P. aeruginosa strains yielded a mean efficiency of plating on this medium of 79% of the counts obtained on Trypticase soy agar, which was significantly higher than that obtained with pseudomonas isolation agar or Pseudosel agar. Pseudomonas cepacia, Pseudomonas fluorescens, Pseudomonas putida, Pseudomonas stutzeri, representatives of 13 other genera (including gram-negative rods, gram-positive rods, and cocci), and a yeast were not recovered within 48 h at 35 degrees C when approximately 10(7) CFU were plated on this medium. Only small colonies from one strain each of P. fluorescens and P. putida could be seen at 3 and 7 days, respectively, and they had an efficiency of plating of only less than 0.001%. When 10(7) CFU of either of these strains was plated with 10(2) CFU of P. aeruginosa, it did not interfere with the quantitative recovery of P. aeruginosa.     

绒毛白蜡体胚诱导和植株再生

该文探讨了基本培养基、外植体、培养条件以及植物生长调节剂配比对绒毛白蜡(Fraxinus velutina)体胚诱导的影响。结果表明,胚根是诱导体胚发生的最佳外植体;体胚诱导的最适培养基为改良MS+2 mg·L~(–1) 6-BA+0.1 mg·L~(–1) NAA、30g·L~(–1)蔗糖、5.0 g·L~(–1)琼脂;暗培养20天后进行光照培养(14小时光照/10小时黑暗),光密度为100~(–1)20μmol·m~(–2)·s~(–1),昼温度(25±2)°C,夜温度(18±2)°C;成功诱导出体细胞胚并获得再生植株,体胚诱导率可达59.8%,体胚萌发率达81.2%。壮苗最适培养基为改良WPM+0.5 mg·L~(–1) 6-BA+0.2 mg·L~(–1) ZT+0.01 mg·L~(–1) NAA。生根最适培养基为改良1/2MS+1.0 mg·L~(–1)IBA+0.05 mg·L~(–1) NAA+20 g·L~(–1)蔗糖,生根率高达97.3%,试管苗移栽成活率达97.8%。     

Ability of Shiga toxin-producing Escherichia coli and Salmonella spp. to survive in a desiccation model system and in dry foods

In order to determine desiccation tolerances of bacterial strains, the survival of 58 diarrheagenic strains (18 salmonellae, 35 Shiga toxin-producing Escherichia coli [STEC], and 5 shigellae) and of 15 nonpathogenic E. coli strains was determined after drying at 35 degrees C for 24 h in paper disks. At an inoculum level of 10(7) CFU/disk, most of the salmonellae (14/18) and the STEC strains (31/35) survived with a population of 10(3) to 10(4) CFU/disk, whereas all of the shigellae (5/5) and the majority of the nonpathogenic E. coli strains (9/15) did not survive (the population was decreased to less than the detection limit of 10(2) CFU/disk). After 22 to 24 months of subsequent storage at 4 degrees C, all of the selected salmonellae (4/4) and most of the selected STEC strains (12/15) survived, keeping the original populations (10(3) to 10(4) CFU/disk). In contrast to the case for storage at 4 degrees C, all of 15 selected strains (5 strains each of Salmonella spp., STEC O157, and STEC O26) died after 35 to 70 days of storage at 25 degrees C and 35 degrees C. The survival rates of all of these 15 strains in paper disks after the 24 h of drying were substantially increased (10 to 79 times) by the presence of sucrose (12% to 36%). All of these 15 desiccated strains in paper disks survived after exposure to 70 degrees C for 5 h. The populations of these 15 strains inoculated in dried foods containing sucrose and/or fat (e.g., chocolate) were 100 times higher than those in the dried paper disks after drying for 24 h at 25 degrees C.     

α<Superscript>5</Superscript>β<Subscript>1</Subscript> integrins and fibronectin are involved in adherence of the<Emphasis Type="Italic">Pseudomonas aeruginosa</Emphasis> ER97314 clinical strain to A549 cells

The role of fibronectin (Fn) and its natural receptors alpha5beta1 integrins in the interaction of P. aeruginosa with A549 epithelial cells was compared in the clinical isolate ER97314 and the reference PAK strain. Both strains expressed functional type IV pili, as shown by the results of the twitching motility assay. The ER97314 strain was highly adherent to immobilized Fn (640 000+/-20 000 CFU per well) while the PAK strain adhered less efficiently (70 000+/-10 000 CFU per well). Both strains adhered to A549 cells (33 400+/-1200 and 1200+/-100 CFU per well, for PAK and ER97314, respectively), only the PAK strain being significantly internalized (9430+/-2020 CFU per well). Cytochalasin D and genistein significantly decreased bacterial adherence of the 2 strains and caused also a significant decrease in PAK internalization. This inhibitory activity was not related to changes in the expression of alpha5beta1 integrins. Antibodies to Fn and alpha5beta1 integrins inhibited the adherence of the ER97314 strain but had no significant effect on PAK interaction with human cells. These findings suggest that only some P. aeruginosa strains can target Fn and their natural receptors alpha5beta1 integrins for adherence to A549 cells.     

Occurrence of Shewanella algae in Danish Coastal Water and Effects of Water Temperature and Culture Conditions on Its Survival

The marine bacterium Shewanella algae, which was identified as the cause of human cases of bacteremia and ear infections in Denmark in the summers of 1994 and 1995, was detected in seawater only during the months (July, August, September, and October) when the water temperature was above 13°C. The bacterium is a typical mesophilic organism, and model experiments were conducted to elucidate the fate of the organism under cold and nutrient-limited conditions. The culturable count of S. algae decreased rapidly from 10⁷ CFU/ml to 10¹ CFU/ml in approximately 1 month when cells grown at 20 to 37°C were exposed to cold (2°C) seawater. In contrast, the culturable count of cells exposed to warmer seawater (10 to 25°C) remained constant. Allowing the bacterium a transition period in seawater at 20°C before exposure to the 2°C seawater resulted in 100% survival over a period of 1 to 2 months. The cold protection offered by this transition (starvation) probably explains the ability of the organism to persist in Danish seawater despite very low (0 to 1°C) winter water temperatures. The culturable counts of samples kept at 2°C increased to 10⁵ to 10⁷ CFU/ml at room temperature. Most probable number analysis showed this result to be due to regrowth rather than resuscitation. It was hypothesized that S. algae would survive cold exposure better if in the biofilm state; however, culturable counts from S. algae biofilms decreased as rapidly as did counts of planktonic cells.     

Influence of Cold Stress on the Preliminary Enrichment Time Needed for Detection of Enterohemorrhagic Escherichia coli in Ground Beef by PCR

The influence of cold stress at 4 and 0°C on the detection time as assessed by impedance technology (Bactometer; Biomérieux, Marcy l’Etoile, France) of different enterohemorrhagic Escherichia coli (EHEC) strains was determined. Although there is some variation in susceptibility among EHEC strains, prolonged exposure of EHEC to cold stress, i.e., 4 and 5 days at 4 and 0°C, respectively, in general significantly increased their detection time. This reflects an increase of the lag-phase time caused by cold stress. Two EHEC strains were selected to determine the minimum preliminary enrichment time that would ensure a positive PCR detection of low numbers of verotoxin-producing E. coli (VTEC; 2 to 2 × 10⁵ CFU/25 g) inoculated into ground beef (25 g) and stored at 4 or −20°C for 8 and 14 days, respectively. Incubation times of 6 and 9 h of 1 to 10 CFU/g and 1 to 10 CFU/25 g, respectively, were sufficient for PCR detection of VTEC in ground beef when analysis was performed immediately after inoculation (no cold stress). When cells are exposed to cold stress (4 or −20°C) a 24-h enrichment period is recommended. Restriction of enrichment time to 9 h under these circumstances decreases the sensitivity of PCR detection to 80 CFU/g. Hence, to obtain maximum sensitivity, PCR detection of VTEC in naturally contaminated ground beef should be performed after 24 h of enrichment.     

Efficacy of sodium hypochlorite and peracetic acid in sanitizing green coconuts

Aims:  To evaluate the efficacy of sanitizing green coconuts ( Cocos nucifera L.) through the treatment applied by juice industries using sodium hypochlorite and peracetic acid.
Methods and Results:  The surface of the fruits was inoculated with a mixture of five Listeria monocytogenes strains. The treatments consisted in immersing the fruits for 2 min at room temperature in sodium hypochlorite solution containing 200 mg l⁻¹ residual chlorine at pH 6·5, and 80 mg l⁻¹ solution of peracetic acid or sterile water. Bacterial populations were quantified by culturing on trypticase soy agar supplemented with yeast extract and Oxford selective culture medium; however, recovery was higher on the nonselective medium. Immersion in water produced a reduction in the L. monocytogenes population of 1·7 log₁₀ CFU per fruit, while immersion in sodium hypochlorite and peracetic acid solutions resulted in population reductions of 2·7 and 4·7  log₁₀ CFU per fruit respectively.
Conclusions:  The treatments studied are efficient to green coconuts.
Significance and Impact of the Study:  Sanitation of green coconut is one of the most important control measures to prevent the contamination of coconut water. This article provides information that shows the adequacy of sanitizing treatments applied by the juice industries.     

Death of enterohemorrhagic Escherichia coli O157:H7 in real mayonnaise and reduced-calorie mayonnaise dressing as influenced by initial population and storage temperature.

This study was undertaken to determine the survivability of low-density populations (10(0) and 10(2) CFU/g) of enterohemorrhagic Escherichia coli O157:H7 inoculated into real mayonnaise and reduced-calorie mayonnaise dressing and stored at 20 and 30 degrees C, temperatures within the range used for normal commercial mayonnaise distribution and storage. Inactivation patterns at 5 degrees C and inactivation of high-inoculum populations (10(6) CFU/g) were also determined. The pathogen did not grow in either mayonnaise formulation, regardless of the inoculum level or storage temperature. Increases in storage temperature from 5 to 20 degrees C and from 20 to 30 degrees C resulted in dramatic increases in the rate of inactivation. Populations of E. coli O157:H7 in the reduced-calorie and real formulations inoculated with a population of 0.23 to 0.29 log10 CFU/g and held at 30 degrees C were reduced to undetectable levels within 1 and 2 days, respectively; viable cells were not detected after 1 day at 20 degrees C. In mayonnaise containing an initial population of 2.23 log10 CFU/g, viable cells were not detected after 4 days at 30 degrees C or 7 days at 20 degrees C; tolerance was greater in real mayonnaise than in reduced-calorie mayonnaise dressing stored at 5 degrees C. The tolerance of E. coli O157:H7 inoculated at the highest population density (6.23 log 10 CFU/g) was less in reduced-calorie mayonnaise dressing than in real mayonnaise at all storage temperatures. In reduced-calorie mayonnaise dressing and real mayonnaise initially containing 2.23 log10 CFU/g, levels were undetectable after 28 and 58 days at 5 degrees C, respectively.(ABSTRACT TRUNCATED AT 250 WORDS)     

Quantitative Analysis of Cereulide, the Emetic Toxin of Bacillus cereus, Produced under Various Conditions

This paper describes a quantitative and sensitive chemical assay for cereulide, the heat-stable emetic toxin produced by Bacillus cereus. The methods previously available for measuring cereulide are bioassays that give a toxicity titer, but not an accurate concentration. The dose of cereulide causing illness in humans is therefore not known, and thus safety limits for cereulide cannot be indicated. We developed a quantitative and sensitive chemical assay for cereulide based on high-performance liquid chromatography (HPLC) connected to ion trap mass spectrometry. This chemical assay and a bioassay based on boar sperm motility inhibition were calibrated with purified cereulide and with valinomycin, a structurally similar cyclic depsipeptide. The boar spermatozoan motility assay and chemical assay gave uniform results over a wide range of cereulide concentrations, ranging from 0.02 to 230 μg ml⁻¹. The detection limit for cereulide and valinomycin by HPLC-mass spectrometry was 10 pg per injection. The combined chemical and biological assays were used to define conditions and concentrations of cereulide formation by B. cereus strains F4810/72, NC7401, and F5881. Cereulide production commenced at the end of logarithmic growth, but was independent of sporulation. Production of cereulide was enhanced by incubation with shaking compared to static conditions. The three emetic B. cereus strains accumulated 80 to 166 μg of cereulide g⁻¹ (wet weight) when grown on solid medium. Strain NC7401 accumulated up to 25 μg of cereulide ml⁻¹ in liquid medium at room temperature (21 ± 1°C) in 1 to 3 days, during the stationary growth phase when cell density was 2 × 10⁸ to 6 × 10⁸ CFU ml⁻¹. Cereulide production at temperatures at and below 8°C or at 40°C was minimal.     

Study of adhesion and survival of lactobacilli and bifidobacteria on table olives with the aim of formulating a new probiotic food

With the aim of developing new functional foods, a traditional product, the table olive, was used as a vehicle for incorporating probiotic bacterial species. Survival on table olives of Lactobacillus rhamnosus (three strains), Lactobacillus paracasei (two strains), Bifidobacterium bifidum (one strain), and Bifidobacterium longum (one strain) at room temperature was investigated. The results obtained using a selected olive sample demonstrated that bifidobacteria and one strain of L. rhamnosus (Lactobacillus GG) showed a good survival rate, with a recovery of about 10(6) CFU g(-1) after 30 days. The Lactobacillus GG population remained unvaried until the end of the experiment, while a slight decline (to about 10(5) CFU g(-1)) was observed for bifidobacteria. High viability, with more than 10(7) CFU g(-1), was observed throughout the 3-month experiment for L. paracasei IMPC2.1. This strain, selected for its potential probiotic characteristics and for its lengthy survival on olives, was used to validate table olives as a carrier for transporting bacterial cells into the human gastrointestinal tract. L. paracasei IMPC2.1 was recovered from fecal samples in four out of five volunteers fed 10 to 15 olives per day carrying about 10(9) to 10(10) viable cells for 10 days.     

Attachment of and Biofilm Formation by Enterobacter sakazakii on Stainless Steel and Enteral Feeding Tubes

Enterobacter sakazakii has been reported to form biofilms, but environmental conditions affecting attachment to and biofilm formation on abiotic surfaces have not been described. We did a study to determine the effects of temperature and nutrient availability on attachment and biofilm formation by E. sakazakii on stainless steel and enteral feeding tubes. Five strains grown to stationary phase in tryptic soy broth (TSB), infant formula broth (IFB), or lettuce juice broth (LJB) at 12 and 25°C were examined for the extent to which they attach to these materials. Higher populations attached at 25°C than at 12°C. Stainless steel coupons and enteral feeding tubes were immersed for 24 h at 4°C in phosphate-buffered saline suspensions (7 log CFU/ml) to facilitate the attachment of 5.33 to 5.51 and 5.03 to 5.12 log CFU/cm², respectively, before they were immersed in TSB, IFB, or LJB, followed by incubation at 12 or 25°C for up to 10 days. Biofilms were not produced at 12°C. The number of cells of test strains increased by 1.42 to 1.67 log CFU/cm² and 1.16 to 1.31 log CFU/cm² in biofilms formed on stainless steel and feeding tubes, respectively, immersed in IFB at 25°C; biofilms were not formed on TSB and LJB at 25°C, indicating that nutrient availability plays a major role in processes leading to biofilm formation on the surfaces of these inert materials. These observations emphasize the importance of temperature control in reconstituted infant formula preparation and storage areas in preventing attachment and biofilm formation by E. sakazakii.