Growth In Bottles Research Articles

A dramatic increase in the positive blood culture rates of Helicobacter cinaedi: the evidence of differential detection abilities between the Bactec and BacT/Alert systems

In our hospital, positive blood culture rates of Helicobacter cinaedi dramatically increased after introducing the Bactec system. A simulated culture model of H. cinaedi bacteremia demonstrated no positive signals using the BacT/Alert system, despite efficient growth in bottles. Clinically suspected H. cinaedi bacteremia should be monitored more closely when using the BacT/Alert system, preferably with subcultivation after 7days of incubation.

In-situ microcosms, a tool for assessment of pesticide impacts on oyster spat (Crassostrea gigas)

Effects of the herbicide Basamaïs (bentazon) and the fungicide Opus (epoxiconazole) on oyster spat (Crassostrea gigas) were assessed using in-situ microcosms in a field experiment lasting 13 days. Six-week-old hatchery spat (mean size 1.1 mm), previously collected on PVC plates, was immersed in glass bottles filled with 200 mum filtered seawater. Bottles were maintained underwater at 6 m depth and their water content changed every other day. Growth, measured as shell area index increase, was 126 +/- 4% in the control bottles. While no growth differences were observed between control and individual pesticide treatments at 10 microg l(-1), oysters treated with a mix of 10 microg l(-1) Opus and 10 microg l(-1) Basamaïs showed a 50% growth reduction compared with the control (P < 0.0001), suggesting a synergistic effect of these contaminants. Laboratory controls in microcosms maintained in a water bath with filtered natural light, were not significantly different from in-situ microcosm controls in the field, for organic weight content or growth. This in-situ experiment in microcosms allowed us to conclude that: (1) oyster spat can achieve significant growth in bottles immersed in situ without supplementary food; (2) this microcosm system is reliable and easy to use for environmental toxicity tests with C. gigas spat; (3) such microcosm systems can also be run in a laboratory water bath instead of more technically difficult immersed field experiments; (4) the synergistic effect observed here, at a concentration simulating a peak agricultural runoff event, suggests that the impacts of pesticides could be a real threat for oysters in estuarine areas.

Growth of Pleurotus ostreatus on wheat straw and wheat-grain-based media: biochemical aspects and preparation of mushroom inoculum

Mycelial growth, intracellular activity of proteases, laccases and beta-1,3-glucanases, and cytoplasmic protein were evaluated in the vegetative phase of Pleurotus ostreatus grown on wheat straw and in wheat-grain-based media in Petri dishes and in bottles. The productivity of the wheat straw and wheat-grain-based spawn in cylindrical polyethylene bags containing 5 kg of chopped straw was also determined. We observed high activity of proteases and high content of intracellular protein in cultures grown on wheat straw. This suggests that the proteases are not secreted into the medium and that the protein is an important cellular reserve. On the contrary, cultures grown on wheat straw secreted laccases into the medium, which could be induced by this substrate. P. ostreatus grown on media prepared with a combination of wheat straw and wheat grain showed a high radial growth rate in Petri dishes and a high level of mycelial growth in bottles. The productivities of wheat straw and wheat-grain-based spawn were similar. Our results show that cheaper and more productive mushroom spawn can be prepared by developing the mycelium on wheat straw and wheat-grain-based substrates.

Isolator component responsible for inhibition of Mycobacterium avium-M. intracellulare in BACTEC 12B medium.

We previously reported an inhibitory effect on Mycobacterium avium-M. intracellulare (MAI) when blood collected and processed with the Isolator system was placed in BACTEC 12B bottles for radiometric monitoring. We sought to identify the specific component(s) of the Isolator lysis-anticoagulant reagent (LAR) responsible for the inhibitory effect. We added the three components of the LAR, saponin, polyanetholesulfonate, and polypropylene glycol (PPG), to triplicate sets of BACTEC bottles separately and in various combinations. These bottles were then seeded with 10(2) CFU of MAI. The growth index (GI) was observed over a 42-day period and was compared with the GI for a growth control bottle set with no reagents and with the GI for a bottle set containing an equivalent volume of LAR. Growth in all growth control bottles and those bottles containing no PPG reached the maximum GI (GI = 999) within 8 to 10 days. Growth in bottles containing PPG never reached the maximum GI before day 14. In addition, the GIs of one bottle containing all three reagent components as well as all of the bottles containing actual Isolator LAR failed to reach the maximum within 42 days. Our data suggest that PPG is the main cause of the inhibitory effect, but that a secondary synergistic interaction between all three of the reagents may also be present.

Étude de la toxinogénèse de Plectridium tetani

A comparative study has been made of the production of tetanus toxin according to two different methods: growth of the tetanus bacillus in jars, and growth in bottles. An important difference has been noted in the characteristics of the growth of Plectridium tetani when using one or the other of the two methods studied; in particular, the titer of the toxin produced in jars is much greater than that produced in bottles. Moreover, it has been noticed that the liberation into the surrounding medium of the toxin synthesized inside the bacterial cells during logarithmic growth is favored by a lysis of the cells which becomes manifest after 4–5 days of growth. This lysis occurs when the pH value of the culture reaches 7.5–7.6.