Bacterial strain, processed plant extracts, compositions...

Drug – bio-affecting and body treating compositions – Whole live micro-organism – cell – or virus containing – Intentional mixture of two or more micro-organisms – cells,...

Reexamination Certificate

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C424S725000, C424S736000, C424S747000, C424S754000, C424S755000, C424S757000, C424S774000, C424S773000, C424S777000, C424S779000

Reexamination Certificate

active

06503505

ABSTRACT:

FIELD AND BACKGROUND OF THE INVENTION
The present invention relates to (i) a non-pathogenic probiotic microorganism and its probiotic/therapeutic uses; (ii) a formulation comprising an aqueous solution of a volatile fraction (VF) prepared from the extract of at least one plant derived material and its therapeutic uses; (iii) a process of manufacturing the formulation from the plant derived material; (iv) a probiotic composition comprising the non-pathogenic probiotic microorganism of the invention and/or other probiotic microorganism(s) and the formulation of the invention, and its probiotic/therapeutic uses; (v) a composition for industrial applications comprising the formulation of the invention and microorganism(s) of industrial applicability; and (vi) industrial processes and apparatuses in which the latter composition is used.
Under normal conditions, the gastrointestinal (GI) tract microflora contributes significantly to the health and well being of an individual. It is well known that the microflora is a complex and diverse population of microorganisms, which may have both beneficial and harmful effects on the individual. Under normal gestation conditions, the fetus in utero is sterile, but on passage through the vagina during birth it acquires microorganisms resulting in the formation of a gut microflora. The final indigenous gut microflora which stabilizes in the gut is a very complex collection of over one thousand different types of microorganisms, consisting of about 400 different types of bacteria [Fuller R. J. Applied Bacteriology 66:365-378 (1989)]. The composition of the gut microflora is determined by both host and microbial factors, and although there are a lot of bacteria which can survive and grow in the GI tract, there are many which cannot. In addition, the surviving organisms have to avoid the effect of peristalsis which normally flushes out the bacteria with the food. This may be achieved by the bacteria immobilizing themselves by attachment to the gut wall, and/or by multiplying at a rate that exceeds the rate of removal by peristalsis.
In general, the presence of gut microflora is symbiotic as the microflora not only assists in disintegrating some undigestable foods, it also protects the individual from infections caused by pathogens. This latter phenomenon has been described under such names as ‘bacterial antagonism’, ‘bacterial interference’, ‘barrier effect’, ‘colonization resistance’, ‘competitive exclusion’ and many others.
The gut protective microflora is very stable. However, it is less effective in the young, elderly and the compromised patient. Further, it can be influenced by certain dietary and environmental factors, the three most important being excessive hygiene, antibiotic therapy and stress.
Under conditions where the balance of the gut microflora is adversely affected, probiotics become of potential value in restoring the gut microflora and enabling the individual host to return to normal.
Probiotics are a class of microorganisms defined as live microbial organisms that beneficially affect the animal and human hosts. The beneficial effects include improvement of the microbial balance of the intestinal microflora or improving the properties of the indigenous microflora. The beneficial effects of probiotics may be mediated by a direct antagonistic effect against specific groups of organisms, resulting in a decrease in numbers, by an effect on their metabolism or by stimulation of immunity. Probiotics may suppress viable counts of an undesired organism by producing antibacterial compounds, by competing for nutrients or for adhesion sites. Further, they may alter microbial metabolism by increasing or decreasing enzyme activity or they may stimulate the immune system by increasing antibody levels or increasing macrophage activity.
WO95/16461 describes a probiotic composition of anaerobic bacteria effective in controlling or inhibiting Salmonella colonization in domesticated animals. The probiotic composition includes populations or cultures of 29 substantially biologically pure bacteria, inter alia,
E. coli
. However, the suppression of the pathogen by the probiotic composition described in this PCT publication requires the combined action of a large number of bacterial strains.
WO97/35596 describes the administration of a freshly prepared probiotic mixture obtained by mixing a powder containing
Lactobacillus reuteri, Lactobacillus acidophilus
and
Bifidobacterium infantis
with a liquid. The mixture is described to be effective in preventing infectious diarrhea or diarrhea caused by antibiotic therapy in humans. The freeze-dried live bacteria are, however, in anabiotic state. The need to wet the microorganism before administration, in order to reinstate its vitality, is a disadvantage, since normally many bacteria do not survive the re-hydration. Moreover, the surviving organisms are not immediately metabolically active, and cannot survive the extreme, acidic conditions of the stomach. Furthermore, when administered to a recipient with diarrhea, the rate of their removal from the gut may exceed the rate of reinstation of viability, resulting in minimal or no beneficiary effect.
Preservation of viability and conservation of the activity of probiotic organisms by their formulation is the issue of numerous publications. WO98/26787 describes the enhancement of a resident population of lactic acid-producing microorganisms, preferably lactobaccillii, in the GI tract of an animal by providing the same with &bgr;-glucan, optionally in combination with prebiotic and/or probiotic microorganisms.
WO97/34591 also describes the enhancement of resident population of microorganisms, or the suppression of the undesired resident population at a selected site of the GI tract of an individual, by providing the individual with a selected modified or unmodified starch or mixtures thereof, which act as carrier for one or more probiotic microorganisms and as a growth or maintenance medium for the microorganisms. The probiotic elements are bound to the carrier in a manner so as to protect the microorganisms during passage to the large bowel or other regions of the GI tract.
Microorganisms are used in a variety of industrial processes. These processes can be divided into continuous processes and batch processes. In continuous processes, such as a continuous aerobic or anaerobic fermentation line, used for the production of a variety of fermentation products, including, for example, ethanol and methanol, a fermentable raw material is continuously fed into the line and the fermentive product is continuously collected from the line, in a controlled fashion, such that the microorganism population in the line is sustained throughout the process. In batch processes, such as, but not limited to, batch aerobic or anaerobic fermentation, biodegradation of oil in, for example, oil spills, and the like, a fermentable raw material is mixed with a population of microorganism(s) so as to instate fermentation. Both in continuous fermentation and in batch fermentation processes, it is desired, in some cases, to start or reinstate the process with a large and viable population of the relevant microorganism(s). For example, when biodegrading oil, it is advantageous to start the process with an as large as possible population of the microorganisms Pseudomonas spp. or Alcaligenes spp., for example, so as to minimize the time for complete biodegradation of the oil. When using filters enriched with microorganism(s) for biodegradation of organic fumes or volatiles, the result is a continuous process in which polluting compounds are degraded into harmless compounds. However, the microorganisms present in the filter depend for their survival on continuous supply of organic fumes or volatiles. Nevertheless, in some instances the supply of organic fumes or volatiles is discontinued and, as a result, the microorganism(s) are lost. Under such circumstances, reinstation of an effective viable amount of microorganism(s) in the filter is required in a short period of time, so as p

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