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    • 专利摘要:
    Prebiotic composition for the preventive treatment of intestinal infections in cattle, comprising three formulations that stimulate the intestinal microbiota. It is characterized because it comprises prebiotics extracted from beets, milk, Allium sativum and extracts of medicinal plants. These intestinal infections include clostridiosis, intestinal parasitosis, cryptosporidiosis, and coccidiosis, as well as infections caused by some types of E. coli and metabolic diseases such as gestational toxemia. The formulations object of the invention are administered in different stages of development of the animal, from its gestation to the end of its reproductive and productive life. (Machine-translation by Google Translate, not legally binding)
    公开号:ES2797999A1
    申请号:ES201930498
    申请日:2019-06-04
    公开日:2020-12-04
    发明作者:Tores Alberto Alejandro Garcia
    申请人:Tores Alberto Alejandro Garcia;
    IPC主号:
    专利说明:

    [0004] TECHNICAL SECTOR
    [0005] The present invention, as expressed in the wording of this specification, refers to three prebiotic formulations rich in their composition in fruit-oligosaccharides obtained from beets, galacto-oligosaccharides obtained from milk , Allium sativum and extracts of medicinal plants for the selective stimulation of the intestinal microbiota. Also an object of the invention is their preparation and use as stimulators of the intestinal microbiota, which are applied in different phases of gestation and rearing of the offspring of animal livestock.
    [0007] BACKGROUND OF THE INVENTION
    [0008] The main problem in the intestinal health of newborn animals is the appearance of a series of intestinal infections such as clostridiosis, intestinal parasitosis, cryptosporidiosis, coccidiosis, gestational toxemia as well as the infections caused by some types of E. Coli bacteria that cause diarrhea that in most cases causes the death of the animal due to dehydration. On the other hand, there are also other types of diseases that affect the development of livestock, such as gestation toxemia that generate many economic losses in the sector.
    [0010] These diseases have traditionally been treated with the use of antibiotics whose use is being restricted by the health authorities.
    [0012] For this reason, in the field of livestock there is beginning to be a trend in nutrition that is aimed at the substitution of antibiotics in livestock feed for natural products that can be healthier and at the same time safer for the use of livestock. for human food.
    [0014] In this line, the regulations that have been applied both at European and national level, are aimed at the gradual abolition of the use of antibiotics in animal feed. In fact, as early as November 2011 the European Commission pointed out that “bacterial resistance constitutes a growing health problem, since in the EU about 25,000 patients due to infections caused by drug-resistant bacteria, resulting in lost productivity and healthcare costs of more than 1.5 billion euros. Today, the eve of European Antibiotic Day, the European Commission presents a comprehensive action plan against bacterial resistance, which includes twelve concrete actions that will be implemented in close collaboration with the Member States ”.
    [0016] In the same vein, John Dalli European Commissioner for Health and Consumer Policy, stated: “We need to act quickly and decisively if we do not want antimicrobial medicines to cease to be an essential treatment for human and animal bacterial infections. The twelve concrete actions presented today can help limit the progression of bacterial resistance and develop new antibacterial treatments. For them to be successful, the joint effort of the EU, the Member States, health professionals, industry, farmers and many others is required ”.
    [0018] For her part, Máire Geoghegan Quinn, Commissioner for Research and Innovation, said: “ Finding the next generation of antibiotics is essential if we are to stay ahead of bacteria and other drug-resistant pathogens. Investing in research and innovation will mean better care for patients, and the Commission is working with industry and EU Member States to make this a priority. This commitment will continue with Horizon 2020, our future research and innovation funding program. "
    [0020] As a result of this European regulation, an action plan against bacterial resistance was established, which included seven priority measures:
    [0021] • Make sure that antimicrobials are used properly in medicine and in veterinary medicine.
    [0022] • Prevent microbial infections and their spread.
    [0023] • Design effective new antimicrobials or alternative treatments.
    [0024] • Cooperate with international partners to reduce the risks of bacterial resistance.
    [0025] • Improve monitoring and surveillance in medicine and veterinary medicine.
    [0026] • Research and innovation.
    [0027] • Communication, education and training.
    [0028] These measures were implemented through twelve specific actions, among which the following stand out:
    [0029] • Strengthen EU legislation on veterinary drugs and medicated feed.
    [0030] • Make recommendations on the responsible use of antimicrobials in veterinary medicine, including follow-up reports.
    [0031] • Introduce new legal instruments in the new EU animal health legislation in order to strengthen the prevention and control of animal infections.
    [0032] • Strengthen the surveillance systems for bacterial resistance and antimicrobial administration in veterinary medicine.
    [0034] Based on this, the legislation is tending towards a more restricted use of antibiotics, avoiding the use of such drugs for palliative purposes, which was frequent in the livestock sector and restricting exclusively their use in the treatment of a bacterial infection. In fact, in response to the Communiqué of the European Commission that asked the Member States for an Action Plan on Antimicrobial Resistance, Spain approved in 2014 by the Interterritorial Council of the National Health System and by the Intersectoral Conference on Agriculture, the National Plan against Antibiotic Resistance (PRAN) in which six strategic lines were outlined, highlighting the corresponding “Identify alternative and / or complementary prevention and treatment measures”.
    [0036] This fact has given rise to the need to look for effective alternatives that guarantee the use of other compounds that prevent the spread of bacterial infections and improve not only the quality of life of cattle but also avoid excessive use of this type of drugs, which can be a risk, ultimately, for human consumption.
    [0038] The invention described in this document proposes as a solution to the existing problem in the livestock sector the use of prebiotics to promote the development of the intestinal probiota which contributes to the development and enhancement of the immune system, thus eliminating the usual use of antibiotics in the first stages of life of cattle.
    [0040] This fact is already known in the state of the art, as described in the following documents.
    [0041] The scientific article "Effect of Probiotics / Prebiotics on Cattle Healh and Productivity" Yutaka Uyeno, Suguru Shigemori and Takeshi Shimosato. Microbes Environ. Vol. 30. No. 2, 126-132, 2015, which describes the ability of probiotics and prebiotics to modulate the balance and activity of the resident microbiota in the intestine, and in particular, it deals with its benefits in ruminants both at a nutritional level and in general health.
    [0043] Patent application US2016120915 (A1), which describes the characterization of changes in the mammalian microbiota associated with antibiotic treatments and various immunological conditions and related therapeutic methods involving the use of probiotics, prebiotics, symbiotics and antibiotics. In this particular document, the administration of what is called bacterial analogs is proposed, such as recombinant DNA of bacteria, or heterologous bacterial genes, extract of dead bacteria ... etc.
    [0045] However, even with this knowledge, to date, formulations similar to that of the present invention have not been used nor have the surprising results that are described herein been observed.
    [0047] Therefore, the object of the present invention, unlike the methods and formulations of prebiotics described in the state of the art, are three new formulations for the selective stimulation of the intestinal microbiota through the symbiosis of prebiotics extracted from the beetroot, milk, Allium sativum and medicinal plants. With these formulations, the aim is to feed the cattle's own intestinal flora and without providing external probiotics.
    [0049] Based on this, a response to the need that currently exists in the livestock sector is proposed, thus avoiding the preventive treatment of animals using antibiotics, and providing a double solution. The first solution is the prevention of bacterial diseases in livestock and preventing possible economic losses. The second solution is to avoid the possible indirect consumption in humans of preventive antibiotics that have had to be administered to cattle for their treatment using biosecure products that are easily digested by animals. Likewise, the preventive treatment object of the invention supposes a saving of costs and a less invasive application by means of the use of natural remedies whose use is beneficial not only for the ovine species, but also extendable to the rest of livestock species such as goats, pigs. etc.
    [0050] DESCRIPTION OF THE INVENTION
    [0052] Thus, it is a first object of the invention are three prebiotic formulations for the selective stimulation of the intestinal microbiota of mammals and, preferably cattle, characterized in that it comprises prebiotics extracted from beets, milk, Allium sativum and extracts of medicinal plants.
    [0054] What characterizes the present invention with respect to other types of inventions is that three different formulations are proposed that are applied in different stages of development of an animal from its gestation to the end of its productive or reproductive life.
    [0056] Therefore, the object of the present invention is formulation 1 that is administered to the pregnant female during the gestation phase, which is also called the gestation formulation. Formulation 2 that is administered to the young during the nesting phase is also an object of the invention, which is also called the birth formulation. And finally, the formulation 3 administered in the lactation phase is also the object of the present invention, and which is also called the lactation formulation.
    [0058] The three formulations object of the invention share three common components that are prebiotics extracted from beets, from milk, from Allium sativum, better known by its common name, which is garlic.
    [0060] Fructooligosaccharides, also sometimes called oligofructans or oligofructans or abbreviated FOS, are a type of soluble fiber abundant in vegetables such as beets. A fructooligosaccharide is a linear oligosaccharide made up of between 10 and 20 fructose monomers, linked by (3 (1—> 2) bonds and which may contain an initial glucose molecule. Furthermore, the formulations object of the invention that are defined below They include galactooligosaccharides, known in abbreviated form as GOS, are ingredients of natural origin, used by the food industry as sweeteners, bulking agents are derived from lactose in milk.
    [0062] The Allium sativum or garlic is a plant whose part most commonly is the bulb, and in particular, the garlic cloves. Its components include volatile oils (including allicin, allin and ajoin), enzymes, vitamins A, B, C and E, minerals (including selenium and germanium), flavonoids.
    [0064] Therefore, the object of the invention is the gestation formulation or formulation 1 that comprises the following components in proportion to the total weight of the composition:
    [0065] • Beet molasses between 77.5-98% by weight;
    [0066] • Allium sativum between 1-10% by weight;
    [0067] • Fructo-oligosaccharides between 0.30-4.80% by weight;
    [0068] • Galacto-oligosaccharides between 0.30-4.80% by weight;
    [0069] • Natural additives between 0 - 10% by weight;
    [0070] • Functional additives between 0.10-1.5% by weight;
    [0071] where the sum of all components is less than or equal to 100%.
    [0073] The gestation formulation or formulation 1 is suitable for administration to pregnant ewes 30 days before the birth of the calf.
    [0075] In a preferred embodiment of the present invention, the gestation formulation or formulation 1 comprising the following components in proportion to the total weight of the composition:
    [0076] • Beet molasses between 80-94% by weight;
    [0077] • Allium sativum between 3-8% by weight;
    [0078] • Fructo-oligosaccharides between 1.20-3.80% by weight;
    [0079] • Galacto-oligosaccharides between 1.20-3.80% by weight;
    [0080] • Natural additives: 0 - 8% by weight;
    [0081] • Functional additives between 0.40-1.20% by weight;
    [0082] where the sum of all components is less than or equal to 100%.
    [0084] In an even more preferred embodiment of the present invention, the gestation formulation or formulation 1 comprising the following components in proportion to the total weight of the composition:
    [0085] • Beet molasses between 82-92% by weight;
    [0086] • Allium sativum between 4-7.5% by weight;
    [0087] • Fructo-oligosaccharides between 1.60-3.20% by weight;
    [0088] • Galacto-oligosaccharides between 1.60-3.20% by weight;
    [0089] • Natural additives 0 - 7%
    [0090] • Functional additives between 0.70-1.10% by weight;
    [0091] where the sum of all components is less than or equal to 100%.
    [0093] Formulation 1 is rich in beet molasses, which is the concentrated liquid syrup that remains after repeated crystallizations during the refining process of sugar from sugar beet. Its appearance is a thick and opaque brown to dark brown liquid, with a peculiar smell of beet molasses, with a sweet taste and a bitter aftertaste. It has complete solubility in hot and cold water. Molasses is therefore used as a source of sugar, making its consumption attractive to livestock, and it is easily digestible.
    [0095] In a preferred embodiment, formulation 1 can comprise of a natural additive it can be milk thistle up to a maximum of 8% by weight with respect to the total weight of formulation 1, and in an even more preferred embodiment, formulation 1 can comprise of a natural additive can be milk thistle up to a maximum of 7% by weight with respect to the total weight of formulation 1.
    [0097] Another object of the present invention is the birth formulation or formulation 2 that comprises the following components in percentage by weight with respect to the total weight of the composition:
    [0098] • Allium sativum between 7-22% by weight;
    [0099] • Fructo-oligosaccharides between 19-38% by weight;
    [0100] • Galacto-oligosaccharides between 8-27% by weight;
    [0101] • Propylene glycol between 0-15% by weight;
    [0102] • Selenium between 9 - 30% by weight;
    [0103] • Natural additives 0 - 0.10%
    [0104] • Functional additives between 11.50-28.50% by weight;
    [0105] where the sum of all components is less than or equal to 100%.
    [0107] In a preferred embodiment of the present invention, the birth formulation or formulation 2 comprising the following components in percentage by weight with respect to the total weight of the composition:
    [0108] • Allium sativum between 10-18% by weight;
    [0109] • Fructo-oligosaccharides between 20-29% by weight;
    [0110] • Galacto-oligosaccharides between 12-24% by weight;
    [0111] • Propylene glycol between 2 - 10% by weight;
    [0112] • Selenium between 10 - 27% by weight;
    [0113] • Natural additives 0 - 0.09%
    [0114] • Functional additives between 14-26% by weight;
    [0115] where the sum of all components is less than or equal to 100%.
    [0117] In an even more preferred embodiment of the present invention, the birth formulation or formulation 2 comprising the following components in percentage by weight with respect to the total weight of the composition:
    [0118] • Allium sativum between 7.5 - 12.5% by weight;
    [0119] • Fructo-oligosaccharides between 15 - 25% by weight;
    [0120] • Galacto-oligosaccharides between 15-24% by weight;
    [0121] • Propylene glycol between 3 - 8% by weight;
    [0122] • Selenium between 15 - 25% by weight;
    [0123] • Natural additives 0 - 0.08%
    [0124] • Functional additives between 15-25% by weight;
    [0125] where the sum of all components is less than or equal to 100%.
    [0127] The hatch formulation or formulation 2 is suitable for administration when the lambs have just been born and are supplied together with their usual feed during the first 48 hours of life.
    [0129] In a preferred embodiment, formulation 2 can comprise as natural additives propolis extract 0.01-0.07% by weight and echinacea 0.01-0.09% by weight with respect to the total weight of formulation 2, and in In an even more preferred embodiment, formulation 2 can comprise as natural additives propolis extract 0.01-0.06% by weight and echinacea 0.01-0.08% by weight relative to the total weight of formulation 2.
    [0131] Another object of the invention is the lactation formulation or formulation 3 that comprises the following components in percentage by weight with respect to the total weight of the composition:
    [0132] • Allium sativum between 19-35% by weight;
    [0133] • Fructo-oligosaccharides between 19-35% by weight;
    [0134] • Galacto-oligosaccharides between 19-35% by weight;
    [0135] • Apple cider vinegar between 8 - 40% by weight;
    [0136] • Functional additives between 7-24% by weight;
    [0137] where the sum of all components is less than or equal to 100%.
    [0139] In a more preferred embodiment of the invention, the lactation formulation or formulation 3 comprising the following components in percentage by weight with respect to the total weight of the composition:
    [0140] • Allium sativum between 21-32% by weight;
    [0141] • Fructo-oligosaccharides between 21-32% by weight;
    [0142] • Galacto-oligosaccharides between 21-32% by weight;
    [0143] • Apple cider vinegar between 10 - 36% by weight;
    [0144] • Functional additives between 10-21% by weight;
    [0145] where the sum of all components is less than or equal to 100%.
    [0147] In an even more preferred embodiment of the invention, the lactation formulation or formulation 3 comprising the following components in percentage by weight with respect to the total weight of the composition:
    [0148] • Allium sativum between 23-29% by weight;
    [0149] • Fructo-oligosaccharides between 23-29% by weight;
    [0150] • Galacto-oligosaccharides between 23-29% by weight;
    [0151] • Apple cider vinegar between 13 - 29% by weight;
    [0152] • Functional additives between 14-19% by weight;
    [0153] where the sum of all components is less than or equal to 100%.
    [0155] The lactation formulation or formulation 3 is suitable for administration when the lambs are between 40 and 50 hours old and until the end of their productive and reproductive cycle. Within the context of the present invention, the productive and reproductive cycle of an animal ranges from the first parturition to the discarding or death of the animal.
    [0157] The three formulations can comprise functional additives, which in the context of the present invention can be vitamins, provitamins, amino acids or their salts or their analogues and chemically defined substances of analogous effect. Said functional additives are selected from the group consisting of Vitamin A (3a672a), Vitamin D3 (E-671), Vitamin E (3a700), Vitamin B1 (3a820), Vitamin B2 (riboflavin), Vitamin B6 (3a831), Vitamin B12 (cyanocobalamin), Vitamin C (3a300), Vitamin K3 (3a710), Folic Acid (3a316), Nicotinic acid (3a314), Pantothenate of lime (3a841), D, L Methionine (3c301), L-Lysine (3.2.1), L-Tryptophan (3.4.1), L- Threonine (3.3.1), Glutamic Acid, Aspartic Acid, Serine, Proline, Glycin, Alanine, Cystine, Isoleucine, Leucine, Phenylalanine, Tyrosine , Histidine, Arginine, and a combination thereof.
    [0159] In addition, the formulations described herein may also comprise other and natural additives, which are to be referred to in the context of the present invention as natural additives. In a preferred embodiment, the additives that can comprise the three formulations object of the invention are selected from the group consisting of thyme, rosemary, milk thistle, marshmallow, mint, green anise, black tea, eucalyptus, flax, lemon balm, chamomile, lavender , angelica, yarrow, valerian, sage, blackthorn, boswellia, bramble, mugwort, tarragon, mallow, oregano, aloe vera, dandelion, ginger, pumpkin seed, chia, sesame, cumin, caraway, fennel, coriander, boldo, Cassia cinnamon, peppermint, wormwood, basil, horsetail, papaya, parsley, borage, guava, nopal, paletaria, marjoram, aloe, coriander, licorice, farfara, lobelia, helinium, mullein, pulmonaria, banana leaf, bay leaf, pollen, propolis, echinacea, and a combination thereof. Likewise, in an even more preferred embodiment, said additives are selected from the group consisting of thyme, rosemary, milk thistle, mint, green anise, eucalyptus, lavender, oregano, aloe vera, fennel, spearmint, marjoram, bay leaf, pollen, propolis, echinacea and a combination thereof
    [0161] The three formulations object of the invention, as defined in the present document, that is, their ingredients and their proportions, give rise to a very surprising technical effect in the selective stimulation of the intestinal microbiota in cattle, which makes them suitable for this purpose. This is therefore considered to be a preventive treatment for a number of conditions that are common in livestock. In the context of the present invention, the conditions for which the three formulations object of the invention are effective are infections caused by the following organisms:
    [0162] • E-Coli;
    [0163] • Bacteria of the genus Clostridium;
    [0164] • Intestinal parasites such as trematodes, tapeworms, tapeworms, nematodes;
    [0165] • Protozoa of the genus Cryptosporidium;
    [0166] • Coccidia of the genus Eimeria or Isospora;
    [0167] These infections cause severe diarrhea that in most cases cause death by dehydration mainly in newborn animals but also in animals in all their stages of development until the end of their life.
    [0169] Likewise, the three formulations object of the invention, and in particular formulation 1, are suitable for the preventive treatment of gestational toxemia, which is a metabolic disorder characterized by hypoglycemia, which is an abnormally low level of sugar in the blood. , and hyperketonemia, which is an abnormally increased level of ketone bodies in the blood, as a consequence of a negative energy balance. It appears in the last six weeks of gestation when the nutritional needs are high and the ability to ingest food is reduced mainly by the increase in the volume of the uterus.
    [0171] It should be noted at this point that the three formulations described in this document always have a highly surprising effect, selectively stimulating the intestinal microbiota of cattle, as can be seen in figure 3 of this document, and when said formulations are administered consecutively at a certain stage of animal development. For this reason, each of the formulations object of the invention are administered in the following terms:
    [0172] • Formulation 1: It is administered to the pregnant mother 30 days before delivery.
    [0173] • Formulation 2: 0 hours to 48 hours of the animal's life.
    [0174] • Formulation 3: From the first 48 hours of life until the end of the productive and reproductive period of the animal.
    [0176] It is intended to indicate that the novel effect observed when administering the three formulations described in this document together with the stages of development of the animal in which they are administered, is to avoid the preventive use of antibiotics, which is established as a common practice in the state of the art, and also obtain really surprising results in the growth and development of the animals to which the formulations have been administered together with their usual diet.
    [0178] The formulations object of the invention are suitable for use in any type of animals, since it can be applied to domestic animals, such as dogs, cats or horses, to mention a few. But in addition, in a preferred embodiment of the present invention, the three formulations are administered to cattle, and more preferably in sheep, cattle, pigs or goats and can be used safely by employees in this sector, without the need for the intervention of a veterinarian or health specialist, since the components of the present formulations object of the invention are composed entirely of natural components.
    [0180] Another object of the invention is a dilution comprising any one of formulations 1, 2 or 3, as described herein. Said dilution comprises the desired formulation diluted in water at a concentration of between 0.1% and 20% (v / v) and in a more preferred embodiment between 0.5% and 10% (v / v).
    [0182] Likewise, the object of the invention is the manufacturing method of any of formulations 1, 2 or 3, object of the invention, which comprises mixing each of the components that comprise each of the formulations as described in this document. and stir gently, stirring between 100 to 200 rpm, for 5 to 8 minutes. Said production method is carried out at room temperature. Taking into account that this method is carried out in the facilities where livestock are cared for and said conditions may vary during the seasons of the year, without affecting in any way the preparation of any of the formulations or their conservation.
    [0184] In the context of the present invention, the ambient temperature can be comprised between 10 to 30 ° C degrees taking into account the variation in temperature during the seasons of the year.
    [0186] Furthermore, the components of the formulations described in this document can be presented in both solid and liquid states, thus giving rise to a solid or liquid formulation, once the manufacturing process is finished. In this regard, it should be noted that the final presentation of the 3 formulations object of the invention does not affect in any way the technical effect that said formulations exert on livestock.
    [0188] The use of the claimed formulations for the preventive treatment of intestinal infections such as clostridiosis, intestinal parasitosis, cryptosporidiosis, coccidiosis, as well as infections caused by some types of E. Coli bacteria, which cause diarrhea in Most cases cause death from dehydration in newborn animals, and particularly in livestock. Furthermore, the three formulations object of the invention, and in particular, formulation 1, are used for the preventive treatment of gestational toxemia.
    [0189] It is therefore object of the invention, the three formulations for the preventive treatment of intestinal infections in cattle that are selected from the group consisting of clostridiosis, intestinal parasitosis, cryptosporidiosis, coccidiosis, infections caused by some types of E. Coli bacteria and combinations of the same. Formulation 1 for the preventive treatment of gestational toxemia is also an object of the invention.
    [0191] In addition, it is also an object of the invention, the dilution described in the present document for the preventive treatment of intestinal infections in cattle that are selected from the group consisting of clostridiosis, intestinal parasitosis, cryptosporidiosis, coccidiosis, infections caused by some types of bacteria E. Coli and combinations thereof. Another object of the invention is the dilution of formulation 1 for the preventive treatment of gestational toxemia.
    [0193] Therefore, in view of the present document, it can be verified that the three formulations are used for the same purpose, that is, the object of the present invention that comprises the use of the three formulations in the different stages of development of the animal they give rise to the technical effect that is the preventive treatment of the pathologies described in the previous paragraph, thus avoiding the prophylactic use of antibiotics.
    [0195] Likewise, the main advantages derived from the technical characteristics of the claimed formulations are the following:
    [0196] • firstly, the use of antibiotics prophylactically is avoided, which is in accordance with the European regulations of 2011 and the PRAN that was approved in Spain in 2014;
    [0197] • likewise, the animals that have been subjected to this prophylactive treatment have presented a higher growth rate than the animals that have not received this treatment, as shown by the experimental results collected in this document;
    [0198] • On the other hand, it is also a great economic advantage, because it prevents the loss of animals that can suffer intestinal infections such as clostridiosis, intestinal parasitosis, cryptosporidiosis, coccidiosis, as well as infections caused by some types of E. Coli bacteria,
    [0199] • It is also a great economic advantage, because the loss of animals that can suffer gestational toxemia is avoided;
    [0200] • additionally, the preventive treatment based on the administration of the claimed formulations has a much lower cost compared to the cost of antibiotics, which represents a substantial economic advantage;
    [0201] • In addition, as they are natural products, the personnel who administer the claimed formulations do not have to have any type of sanitary qualification, either sanitary or veterinary assistant for their administration, also avoiding contact with materials that may be harmful to the operators that they apply it, that they can suppose a source of infection and eliminating the animal health residues that the treatment with antibiotics generates; and
    [0202] • Finally, a much safer product for human consumption is obtained, by eliminating antibiotics supplied for prophylaxis from the cattle's diet.
    [0204] BRIEF DESCRIPTION OF THE FIGURES
    [0205] To complement the description and help a better understanding of the invention, a set of figures is attached as an integral part of said description in which, with an illustrative and non-limiting nature, the following has been represented:
    [0206] Figure 1.- Explanatory graph of the sample groups where the formulations object of the invention that the individuals have received during the study described in the preferred embodiment are indicated.
    [0207] Figure 2.- Average daily gain of the lambs, expressed in grams, divided according to the intake of the formulations object of the invention during bedding and lactation.
    [0208] Figure 3.- Graph showing the abundance of the 16 most abundant bacterial genera in lamb feces.
    [0210] PREFERRED EMBODIMENT OF THE INVENTION
    [0211] In order to contribute to a better understanding of the invention, and in accordance with a practical embodiment thereof, an experiment is included as an integral part of this description in which the 3 formulations are administered to a sample group of a flock of sheep.
    [0212] PREPARATION OF THE SAMPLE GROUP
    [0213] The project was developed in a farrowing pen of the AGM Sheep Development Farm through the differentiated application to a group of animals divided according to the food and product supplied.
    [0214] Starting from the formula created, the amounts of each of the components that have generated products have been adapted, being different for each phase of the feeding of the animals.
    [0216] Thus, for the present preferred embodiment of the invention, formulation 1 was administered to the pregnant female during the gestation phase. Formulation 2 was administered to the brood during the bedding phase. And finally, formulation 3 was administered in the lactation phase.
    [0218] In figure 1 you can see a diagram of the organization of the groups of animals depending on the use or not of the formulations in each stage of development of the animals.
    [0220] The project began by forming two groups of mothers that were divided into:
    [0221] • Control: pregnant sheep to which formulation 1 was not administered. • Formulation 1: pregnant sheep to which formulation 1 was administered.
    [0223] The lambs born from each group were in turn divided according to the colostrum received in their first 48 hours of life together with formulation 2. In the column "Colostrum" of figure 1 there are four divisions that are explained below:
    [0224] • C1-Control: Group with lambs born to mothers of the control group were fed with colostrum without formulation 2.
    [0225] • C1-Form. 2: Group with lambs born to control group mothers fed with colostrum and took formulation 2.
    [0226] • F1-Control: Group of lambs born to mothers in group formulation 1, were fed with colostrum without formulation 2.
    [0227] • F1-Form. 2: Group of lambs born to mothers of group formulation 1, fed with colostrum and took formulation 2.
    [0229] Finally, the "lactation" column is made up of 8 groups that were fed with formulation 3, after 48 hours, as follows:
    [0230] • Control - Control: Lambs that have not received any formulation at any stage of their life and neither have their mothers.
    [0231] • Control - Formulation 3: Lambs that have received formulation 3 only in the last feeding phase.
    [0232] • Formulation 2 - Control: Lambs whose mothers have not received formulation 1, in the colostrum stage they have received formulation 2 and in the lactation stage they do not receive formulation 3.
    [0233] • Formulation 2 - Formulation 3: Lambs whose mothers are from the control group, in the colostrum stage they have received formulation 2 and in the lactation stage they also receive formulation 3.
    [0234] • Control - Control: Lambs whose mothers received formulation 1, in the colostrum stage they did not receive formulation 2 and in the lactation stage they did not receive formulation 3 either.
    [0235] • Control - Formulation 3: Lambs whose mothers received formulation 1, in the colostrum stage they did not receive formulation 2 and in the lactation stage they received formulation 3.
    [0236] • Formulation 2 - Control: Lambs whose mothers received formulation 1, in the colostrum stage they received formulation 2 and in the lactation stage they did not receive formulation 3.
    [0237] • Formulation 2 - Formulation 3: Lambs that have received all three formulations at all stages of their life and their mothers as well.
    [0239] Figure 2 shows the increase in daily weight gain observed in those lambs that have taken the formulations for the longest time in their life. In addition, the milk consumption was similar between the lambs that received the formulations object of the invention and those of the control group, so it has been concluded that the weight gain is not due to an increase in intake, but rather to the administration of the formulations object of the invention.
    [0241] ANALYSIS OF THE MICROBIOTA OF LAMBS
    [0242] The first weeks of life are crucial for the establishment of the gut microbiota of ruminants and certain studies show that alterations in the gut microbiota due to diets during the first weeks of life have long-term effects.
    [0244] Figure 3 shows the 16 most abundant genera in the lamb samples. These genera account for more than 75% of the abundance and differences can be observed that have subsequently been confirmed as significant after the statistical study.
    [0245] Bacteria of the genera Akkermansia, Bifidobacterium, Lactbacillus and Veillonella ”were all significantly more abundant in those lambs that took formulation 3 with milk in the lactating or nursing phase. The presence of these 4 bacterial genera is considered crucial in the literature to be able to determine the good development of the lamb.
    [0247] Especially Bifidobacterium, closely related to health benefits of lambs: regulation of homeostasis, inhibition of pathogens, modulation of immune responses both locally and systemically, production of vitamins and conversion of components of the diet into bioactive ingredients.
    [0249] The lambs in the control-control group had greater abundances of Clostridiales, a common part of the intestinal microbiota, but generators of methane, which is an effect not entirely desired since, although it favors the accumulation of carbon dioxide in the tract gastrointestinal, methane is a greenhouse gas and is also related to a loss of energy / mass in ruminants.
    [0251] For this reason, the present invention is presented as an effective alternative for the prevention of bacterial infections in cattle, and it is also a response to what is requested by the European regulations established since 2011.
    权利要求:
    Claims (15)
    [1]
    1. A formulation 1 for the selective stimulation of the intestinal microbiota in cattle characterized by comprising, in percentage by weight:
    • Beet molasses between 77.5-98% by weight;
    • Allium sativum between 1-10% by weight;
    • Fructo-oligosaccharides between 0.30-4.80% by weight;
    • Galacto-oligosaccharides between 0.30-4.80% by weight;
    • Natural additives between 0 - 10% by weight;
    • Functional additives between 0.10-1.5% by weight;
    where the sum of all components is less than or equal to 100%.
    [2]
    2. A formulation 2 for the selective stimulation of the intestinal microbiota in cattle characterized by comprising, in percentage by weight:
    • Allium sativum between 7-22% by weight;
    • Fructo-oligosaccharides between 19-38% by weight;
    • Galacto-oligosaccharides between 8-27% by weight;
    • Propylene glycol between 0-15% by weight;
    • Selenium between 9 - 30% by weight;
    • Natural additives 0 - 0.10%
    • Functional additives between 11.50-28.50% by weight;
    where the sum of all components is less than or equal to 100%.
    [3]
    3. A formulation 3 for the selective stimulation of the intestinal microbiota in cattle characterized by comprising, in percentage by weight:
    • Allium sativum between 19-35% by weight;
    • Fructo-oligosaccharides between 19-35% by weight;
    • Galacto-oligosaccharides between 19-35% by weight;
    • Apple cider vinegar between 8 - 40% by weight;
    • Functional additives between 7-24% by weight;
    where the sum of all components is less than or equal to 100%.
    [4]
    4. A formulation 1 for the selective stimulation of the intestinal microbiota in cattle according to claim 1, characterized in that it is administered to pregnant ewes during the last 30 days of the gestation period.
    [5]
    5. A formulation 2 for the selective stimulation of the intestinal microbiota in cattle according to claim 2, characterized in that formulation 2 is administered to newborn lambs and up to the first 48 hours of life.
    [6]
    6. A formulation 3 for the selective stimulation of the intestinal microbiota in cattle according to claim 3, characterized in that formulation 3 is administered to lambs that are between 40 to 50 hours old and until the end of their productive life and reproductive.
    [7]
    7. The formulation for the selective stimulation of the intestinal microbiota in cattle according to claims 1 to 6, where the natural additive is selected from the group consisting of thyme, rosemary, milk thistle, marshmallow, mint, green anise, black tea , eucalyptus, flax, lemon balm, chamomile, lavender, angelica, yarrow, valerian, sage, blackthorn, boswellia, bramble, mugwort, tarragon, mallow, oregano, aloe vera, dandelion, ginger, pumpkin seed, chia, sesame, cumin, caraway, fennel, coriander, boldo, cassia cinnamon, spearmint, absinthe, basil, horsetail, papaya, parsley, borage, guava, nopal, paletaria, marjoram, aloe, coriander, licorice, farfara, lobelia, helinium, mullein, lungwort, banana leaf, bay leaf, pollen, propolis, echinacea, and a combination thereof.
    [8]
    8. The formulation for the selective stimulation of the intestinal microbiota in cattle according to claims 1 to 7, wherein the functional additive is selected from the group consisting of functional ones selected from the group consisting of vitamin A (3a672a), Vitamin D3 (E-671), Vitamin E (3a700), Vitamin B1 (3a820), Vitamin B2 (riboflavin), Vitamin B6 (3a831), Vitamin B12 (cyanocobalamin), Vitamin C (3a300), Vitamin K3 (3a710), Folic acid (3a316), Nicotinic acid (3a314), Pantothenate of lime (3a841), D, L Methionine (3c301), L-Lysine (3.2.1), L-Tryptophan (3.4.1), L- Threonine (3.3.1 ) Glutamic Acid, Aspartic Acid, Serine, Proline, Glycin, Alanine, Cystine, Isoleucine, Leucine, Phenylalanine, Tyrosine, Histidine, Arginine, and a combination thereof.
    [9]
    9. A formulation according to any one of claims 1 to 8, for the preventive treatment of intestinal infections in cattle selected from the group consisting of clostridiosis, intestinal parasitosis, cryptosporidiosis, coccidiosis, infections caused by some types of E. Coli bacteria, and combinations thereof.
    [10]
    10. A formulation according to claims 1, 4, 7 or 8, for the preventive treatment of gestational toxemia.
    [11]
    11. A dilution comprising a formulation according to claims 1 to 8, wherein said formulation is diluted in water at a concentration between 0.1% and 20% (v / v).
    [12]
    12. A dilution according to claim 11, for the preventive treatment of intestinal infections in cattle selected from the group consisting of clostridiosis, intestinal parasitosis, cryptosporidiosis, coccidiosis, infections caused by some types of E. Coli bacteria and combinations of the same.
    [13]
    13. A dilution according to claim 11, for the preventive treatment of gestational toxemia.
    [14]
    The method of manufacturing a formulation according to claims 1, 2 or 3, characterized in that it comprises:
    a) mixing the components of a formulation according to claim 1 or claim 2 or claim 3,
    b) stir between 100 to 200 rpm, for 5 to 8 minutes and at a temperature between 10 to 30 ° C.
    [15]
    15. The method of manufacturing a formulation according to claims 10 to 12, wherein the components can be in solid or liquid state.
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    同族专利:
    公开号 | 公开日
    ES2797999B2|2021-05-21|
    WO2020245479A1|2020-12-10|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    GB2526242A|2014-01-08|2015-11-25|Leander Internat Pet Foods Ltd|Nutritional composition|
    CN105901305A|2014-05-19|2016-08-31|张兴龙|Antibiotic substitute feed additive, its formula, feed with antibiotic substitute feed additive and production method of feed with antibiotic substitute feed additive|
    WO2017219106A1|2016-06-24|2017-12-28|Yessinergy Holding S/A|Immunomodulating and growth-promoting composition controlling the population of undesirable bacteria in the intestinal microbiota, and use thereof|
    WO2014201037A2|2013-06-10|2014-12-18|New York University|Methods for manipulating immune responses by altering microbiota|
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    PCT/ES2020/070304| WO2020245479A1|2019-06-04|2020-05-12|Prebiotic composition for the preventative treatment of intestinal infections in livestock|
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