DE10326822A1 - Dietary supplement, e.g. for increasing general performance, concentration and endurance, comprises NADH, L-carnitine, coenzyme Q10, L-carnosine, succinic acid, ascorbic acid and bioflavonoids - Google Patents

Abstract

Dietary supplement comprises NADH, L-carnitine, coenzyme Q10, L-carnosine, succinic acid, ascorbic acid, bioflavonoids and/or their derivatives. An independent claim is also included for a pharmaceutical preparation comprising the dietary supplement and excipients. ACTIVITY : Antiarteriosclerotic; Antiasthmatic. MECHANISM OF ACTION : None given.

Description

The The present invention relates to a nutritional supplement pharmaceutical preparation and the use of the mammalian food supplement for the production of food. and luxury foods, to increase overall performance, the concentration strength and endurance in sports activities, for preventive use against cell aging and for the production of pharmaceutical or pharmaceutical preparations for support in the treatment of chronic diseases, especially in humans.

One From a biological point of view, living things are stricter Division of labor. So all vital functions are through Maintaining the basic metabolism while additional activities through the power metabolism must be covered, which accordingly more Energy needed. This energy is transmitted to the cells by adenosine triphosphate (ATP) disposal posed. ATP is the most important compound that makes up the cell Can gain energy. For energy release by ATP by a strong exergonic phosphoryl group transfer reaction a phosphate residue cleaved. In this case, from ATP ADP (adenosine diphosphate) + P (Phosphate) and energy. ATP acts as an energy broker between "energetic" phosphoryl donors and "low energy" phosphoryl acceptors.

ATP does not serve as energy storage. The supply of ATP in a cell depends on the type of cell and at normal load a few minutes, at Max. Load only a few seconds. For example, brain cells point generally only an ATP supply of a few seconds. All additionally required ATP quantities must therefore be rebuilt from the biological oxidation of nutrients, because ATP is not over The food can be absorbed, but synthesized by the body energetically consuming must become. The energy for this Synthesis processes can be obtained from various metabolic processes become. Starting materials are carbohydrates, fats and proteins.

ATP can be formed in different reaction processes. To the important reactions belong those of the oxidative metabolism. In principle, two ways are distinguished. During the aerobic energy metabolism (aerobic oxidation) the nutrients oxidized by formation of ATP, the nutrients in anaerobic energy metabolism (anaerobic oxidation) under oxygen deficiency and formation of ATP recycled. The second way is energetically not very effective and As a rule, this represents a way out in the event of an acute lack of energy. Here only about 10 percent of the energy is recovered from aerobic oxidation.

From a chemical point of view, the aerobic energy metabolism leads to a redox process between the individual nutrients and the oxygen, with the result that carbon dioxide, water and energy are formed. For oxidative utilization, the nutrients (carbohydrates, fats and proteins) must first be degraded in different degradation reactions to acetyl. This is supplied in the form of acetyl coenzyme A to another process, the citric acid cycle, which takes place in the mitochondria and is also involved in the overall process of energy production. Through the citric acid cycle, the carbon atoms of the acetyl group are oxidized to two molecules of carbon dioxide, which still produces no ATP. The electrons are not transferred directly from the carbon to the oxygen, but to the involved in the process coenzymes NAD + (nicotinamide adenine dinucleotide (oxidized)) and FAD + (flavin adenine dinucleotide (oxidized)). These reactions conserve free energy to form NADH (nicotinamide adenine dinucleotide (reduced)) and FADH ₂ (flavin adenine dinucleotide (reduced)). A direct transfer of free energy to form ATP is not possible due to the high amount, therefore, the free energy is cached to form NADH or FADH ₂ . These compounds are also oxidized in the mitochondria by various electron transfer processes of the respiratory chain then as the NAD + and FAD +, by three-step reactions of one molecule NADH three molecules ATP and one molecule FADH ₂ two molecules ATP are formed. Electron transfer and oxidative phosphorylation are tightly coupled.

Interferences during the electron transfer processes can lead to a degeneration of the electron flow during the mitochondrial oxidative phosphorylation, whereby highly reactive oxygen species (ROS), such as oxygen radicals, for example the superoxide radical ( ^· O ₂ ^- ) can arise. The appearance of this species is very dangerous for the cell, since the reactions of ROS can lead to oxidation and thus to harmful alteration of other compounds, eg fatty acids, proteins, nucleic acids. As a result, the function of the cell can be severely hampered or die off.

Normally every cell has a number of effective mechanisms, such as the enzyme superoxide dismutase, which "restores" and destroys the radicals in the mitochondria Components of a cell, eg enzymes or genetic material, are irreversibly damaged. For example, enzymes can be severely restricted in their activity by mutations in the genome or even become completely inactive. In the case of unsaturated fatty acids, for example, unstable organic perfatty acids can be radically formed, which in turn are the precursors of a variety of active compounds that can damage proteins and nucleic acids. The occurrence of radicals also leads to a process called cell aging, whereby, for example, enzymes are irreversibly changed, eg by cross-linking, and so their function can only be diminished or even eliminated. This process is particularly problematic for enzymes which are present only in low concentrations or are rarely reproduced by the cell.

On Reason for the high energy requirement of individual cells, e.g. Nervous or Muscle cells are these therefore to a high degree from a functioning energy metabolism to providing dependent on ATP.

Many studies have shown that disorders in the body's delivery of NADH can lead to a range of diseases and disease symptoms. By feeding NADH, the symptoms of the disease can be alleviated and controlled. For example, in US 5,712,259 A a treatment of patients suffering from chronic fatigue syndrome proposed with NADH.

In US 4,970,200 A and US 5,019,561 A Treatments of patients with NADH who suffer from the disease symptoms of Parkinson's disease are disclosed to be suitable.

In other publications, e.g. Beal et al., Trends Neurosci. (1993) 16 (4): 125-131, was the Connection between the development of neurodegenerative diseases and disorders demonstrated the mitochondrial functions of the cell. These disorders are including a defective or inefficient energy metabolism the cells back respectively.

On Reason of complexity in the interaction of the different processes and their countless ones Reactants which are involved in energy metabolism (e.g., oxidation, Phosphorylation) and the upstream reactions (e.g., fatty acid degradation, Citric acid cycle) are involved in the application of the compositions of the above Type, however, fundamental Problems arise. These problems are only one-off and often not appropriate supplementation of reaction partners the known metabolic processes.

at the feeder of a single supplement First and foremost, it tries because of the lack of this Reduce or eliminate substance-induced defect. A Increasing metabolic activity beyond normal in this case is also more accurate and individual for the patient adapted dosage often only to a small extent possible. That's because for one Increase in activity of an entire process or related processes the others on Process involved reactants are not provided to the same extent become so poor in their concentration. In this case, the supplied Connection unused in the body.

An overdose of individual links is about it in addition, because of the often only short half-life of these compounds in the body little sense. Through competing reactions, for example in the liver, can the supplied supplements be removed or rebuilt and then stand the originally intended Metabolism is no longer available. For example, it has been shown that an overdose of NADH although harmless is, but also no other advantage, because too large, unnatural amount at so-called reduction equivalents of NADH from the cell by running parallel to the respiratory chain Oxidation to NAD + is degraded.

in the unfavorable Case it is with an overdose even possible that an oversupply a reactant inhibiting and slowing the metabolism due to regulatory feedback can or that unwanted Metabolic by-products accumulate, which in contrast to a balanced metabolism can no longer be broken down.

In US 6,537,969 B1 describes a pharmaceutical composition for the treatment of diseases, eg Alzheimer's disease, which are associated with insufficient mitochondrial or cerebral function. For this purpose, a composition consisting essentially of glucose and lactic acid is proposed. In the event that a disturbance of partial reactions of the citric acid cycle is known in certain patients, the composition may inter alia also contain metabolic intermediates of the citric acid cycle, such as succinate. In addition, L-carnitine may also be included to aid mitochondrial function.

With this composition, partial processes of the energy metabolism for the production of NADH and FADH _{2 are} supported. For this purpose, small hydrocarbon units, the acetyl units, provided for the citric acid cycle, wherein the acetyl units from the upstream degradation process, the glycolysis, are formed by the addition of glucose. The addition of lactic acid is said to direct the degradation of glucose towards pyruvate formation since pyruvate is the precursor compound of the acetyl moiety. The disadvantage is that even with this composition intervenes only selectively in the energy metabolism, only just partial processes are supported. Moreover, it is possible that accumulation of acetyl moieties and the forming NADH may result in product inhibition of pyruvate dehydrogenase, which degrades pyruvate to acetyl. This would stop glycolysis and adjust energy production on this basis.

The Object of the present invention is therefore in the provision a nutritional supplement for increasing the general performance in mammals, especially in humans, that the disadvantages of the known means avoids. Also, cell aging is slowed down and intact Cell structures (mitochondria, membranes) as well as the blood supply to be protected.

The Task is solved through a nutritional supplement according to claim 1, a pharmaceutical preparation according to claim 12 and by the use of the agent in mammals according to claims 13 to 16 for the production of food and beverages, to increase the general performance, the concentration strength and endurance in sports activities, for preventive use against cell aging and for the production of pharmaceutical or pharmaceutical preparations for support in the treatment of chronic diseases, especially in humans, e.g. in the field of cardiovascular or respiratory diseases, here preferably arteriosclerosis or bronchial asthma. Preferred embodiments The invention are specified in the subclaims.

By Taking the remedy will be all important biochemical factors covered with a single intake. One single revenue is achieved the same effectiveness as taking several capsules with appropriate Ingredients from different suppliers and thus helps to maintain health and increase performance of the organism '. All substances have a slight and flexible availability through a slightly common Absorption, for example in the digestive tract, on, as it is the individual components of the agent to physiological substances is.

Furthermore the agent serves to protect against damage to intact cell structures, like mitochondria and membranes, by free radicals.

The inventive agent contains the following components: nicotinamide adenine dinucleotide in the reduced form (NADH), L-carnitine, co-enzyme Q10, L-carnosine, 1,2-ethanedicarboxylic acid, ascorbic acid and Bioflavonoids. Some of these components or all can too as derivatives of these compounds, in particular as their pharmaceutical compatible Salts used. Likewise, the individual components also mixed with their respective derivatives, in particular salts to be used on average.

The individual components which are used in the agent according to the invention, were considered important compounds of various single reactions identified.

For example, nicotinamide adenine dinucleotide in reduced form (NADH) and co-enzyme Q10 are components of the mitochondrial respiratory chain. Furthermore, FADH ₂ can also be added to the agent. Like NADH, FADH _{2 is formed} in the citric acid cycle. Both compounds form the starting points of the respiratory chain in parallel reactions.

The Co-enzyme Q 10 is a crucial electron transport molecule, the electron within the respiratory chain from one energy-transferring complex to one other transmits. A shortage Coenzyme Q 10 is associated with numerous pathological conditions in Associated with, for example, muscular dystrophy or cardiomyopathy, since e.g. the heart muscle cell because of their particularly high energy requirements is very mitochondrial.

1,2-Ethanedicarboxylic acid or the salt of the acid, the succinate, is involved, inter alia, in the formation of FADH ₂ in the citric acid cycle and has a stabilizing effect on the structure and functional activity of the mitochondria. For example, the supply of succinate can increase respiratory chain responses by about 30 percent, which is caused by the switch from NAD-dependent respiration to 1,2-ethanedicarboxylic acid-dependent respiration.

In addition, 1,2-ethanedicarboxylic acid reduces the side effects of using various chemotherapeutic agents, especially nausea, weakness and depression. It enhances the cell's resistance to radiation, eg sunbeams. she helps the body also in the regulation of sudden climatic and dietary changes as well as a travel-related time shift. The 1,2-ethanedicarboxylic acid promotes the use of essential nutrients such as proteins, fats, carbohydrates and some mineral compounds. It has a normalizing effect on the biological activity of living cells.

Farther can be strengthened by the 1,2-Ethandicarbonsäure the immune system of the body, especially with colds and in the cold season. The 1,2-ethanedicarboxylic acid contributes to the rapid Recovery after physical and mental exertion at, reduced Stress, helps to reduce after-effects of poisoning, reinforces the resistance against ionizing radiation, high-frequency electromagnetic waves and heat, activates mobility of spermatocytes with an increase in potency, reinforced the effectiveness of drugs and reduces their toxicity in the treatment of diseases, such as. from hypoacid gastritis.

The Importance of the effect of the 1,2-ethanedicarboxylic acid on other substances (e.g. NAD) shows, for example, in a hypoxic state, wherein the NAD dependent Electron transport is reduced. Here is also the endogenous production of Succinate increased. This phenomenon could be in Related to the observed protective effect of 1,2-ethanedicarboxylic acid myocardial ischemia and insufficiency of the cerebral vessels.

The 1,2-ethanedicarboxylic stimulates the synthesis of apoproteins, prosthetic groups (in particular Heme), the provision of acetyl coenzyme A (as "active Form of "succinate in the Citric acid cycle) the basis for the synthesis of porphyrins in the organism is. The rate of heme synthesis is directly dependent on the succinate concentration. The Stimulation of various proteins in this context has for education a multifactorial resistance of the organism (immune system) apparently an important meaning.

L-carnitine is one of the most important compounds in the fatty acid metabolism of the cell, where it is responsible for the transport of fatty acids from the cytosol into the mitochondria within the cell. There, long-chain fatty acids are oxidized to acetyl units, which, as acetyl coenzyme A, are in turn the starting material of the citric acid cycle. In fatty acid oxidation, reduction equivalents of NADH and FADH ₂ are also formed very effectively. Further support of the fatty acid metabolism could be achieved, for example, by addition of reactants of this metabolism, such as, for example, vitamin B ₁₂ or vitamin H (biotin). An improvement in fatty acid metabolism also causes increased fat burning, which can also lead to a weight reduction. This effect can also be improved, for example, by the addition of L-arginine or peridoxin.

L-carnitine promotes about that In addition, adherence to a stable blood sugar level and also shows a restorative Effect on the muscle fibers, especially during strength training. In Animal testing with L-carnitine has been shown to increase the blood supply the muscles (in which oxygen and nutrients are transported) elevated was.

The Combination of co-enzyme Q-10, L-carnitine and succinate strengthens how described the mitochondrial activity and thereby improves cell metabolism. At the same time, the synthesis of other substances is stimulated whose Concentrations in old age are known to decrease.

Next L-carnitine can also in addition acetyl-L-carnitine (ALC) or derivatives are used on average. ALC is an ester of the triple methylated L-carnitine and is available in different Cells formed. Acetyl-L-carnitine promotes during fatty acid oxidation the uptake of acetyl coenzyme A into the mitochondria. Furthermore It stimulates the synthesis of proteins and important membrane phospholipids.

Acetyl-L-carnitine improves the activity carnitine acyltransferase, a key enzyme in lipid metabolism, especially if this is due to radicals in its structure harmful changed has been. Acetyl-L-carnitine protects the protein, restoring enzyme activity. Acetyl-L-carnitine improves the activity the mitochondria and thus the cell metabolism.

By adding the compound L-carnosine, ascorbic acid and bioflavonoids or their derivatives, especially physiologically acceptable salts, unwanted radical-related side effects can be reduced, which means that the high level of energy production can be maintained or even increased. L-carnosine protects the genome from oxidation and eliminates free radicals. L-carnosine in this context inhibits the formation of carbonyl groups, for example as a result of the decomposition of organic perfatty acids, and thus reduces the formation of abnormal proteins resulting from the reaction of aldehydes, for example the highly-cytotoxic 4-hydroxy-2 (E) -nonally , arise with the amino groups of the proteins due to cross-linking. In addition, it inhibits glycolysis and reduces the formation of reactive sugar-oxygen compounds, wel also protein cross-links and thus cause cell aging. Studies also show that L-carnosine acts as a stabilizer of the cell membrane and as an intracellular buffer.

Ascorbic acid (vitamin C) is an important radical scavenger. Among many other known effects, such as an improvement the regeneration process and healing, formation of connective tissue, Participation in the production of hypothalamic and suprarenal Hormones, blocked ascorbic acid the formation of hydroxyl radicals in the mitochondria, which by The Fenton reaction is formed in the cells, and thus bows the injurious Influence of free radicals. Bioflavonoids eliminate superoxide radicals and also hydroxyl radicals and thus protect the lipoproteins of the cell membranes before lipoperoxidation. They regenerate the vitamins C and E, which after free reaction with superoxide also free, but less reactive radicals are. Bioflavonoids are also chelating agents for Fe (II) ions, while also inhibiting the Fenton reaction.

bioflavonoids continue to reduce the cytotoxic effects of high glutamate concentrations (Glutamate is considered the body's own potentially free radical) and help prevent the cytotoxic Effect of amyloid β-protein in association with Alzheimer's disease. Bioflavonoids increase capillary resistance, lower the capillary permeability and have an anti-oedematous effect and prevent a collagen destruction, e.g. by collagenase or elastase, or a collagen cross-linking in front. The latter may contribute to the development of AGE (Advanced Glycosylation Endproducts) lead. These are products that are damaged by injury Proteins by high blood glucose levels and / or free radicals have arisen.

bioflavonoids have an immunomodulating effect by increasing interleukin-2 secretion, Reduction of IL-6 and IL-10 (IL-interleukins) and increase the activity NK cells (NK - natural killer).

Farther to lead they inhibit adrenaline-induced platelet aggregation by raising the secretion of the endothelial relaxation factor, without losing the Extend bleeding time. The effect of 100 mg bioflavonoids is greater than the effect of 500 mg acetylsalicylic acid.

Also can Bioflavonoids the histamine production, the oxidation of LDL cholesterol (prevention against atherosclerosis) and the activity of the enzyme angiotensin converting Inhibit enzymes (ACE).

The unique combination of the components of the agent according to the invention, indirectly or directly to several different biochemical processes involved in the cell, in particular, causes an optimization the reactions of the citric acid cycle '(main Source of molecules, the active substances in the reactions of the respiratory chain as donors act), the fatty acid oxidation and oxidative phosphorylation within the respiratory chain (ATP formation). hereby the whole process of energy production in the cell is supported, whereby the resulting effect is synergistically increased, i. the Effect is greater than the sum of the effects of the sub-processes. Cause is that not just a sub-process is supported, but a targeted one Variety of different reactions is promoted, which directly or indirectly involved in energy production. The context of the individual Reactions are very complex, and the effects are well matched. Some Reactions merge into each other and / or cause each other. By connecting important sub-processes, for example an accumulation of intermediates and the associated Product inhibition avoided. Thus, in addition to the mentioned synergistic effect also one opposite prolonged known mixtures Achieved effect, since all essential sub-processes of the energy metabolism supported up to direct ATP formation.

in the same dimensions, how energy production in the mitochondria is stimulated, however, intensifies also the danger of excessive radical formation, which impair the function of the mitochondria to a considerable extent and lead to cell aging can. Likewise different cell membranes are damaged by radicals. The mitochondria are the weakest in the aging of the cell Link in the chain ". It has been shown that the destruction of mitochondria is an important Represents cause of aging. A significant cause of this destruction is the excessive accumulation reactive free radicals. The combination of energy supplying Compounds and compounds against cell aging in the composition according to the invention for nutritional supplements leads to a damage the mitochondria by the radicals while supporting the Energy production is avoided.

Preferably The components of the dietary supplement are ascorbic acid and bioflavonoids in the form of acerola powder as a natural blend on average. Acerola powder is made from the acerola cherry by drying and forms a natural one Source for Ascorbic acid and Bioflavonoids.

Use in the agent according to the invention The bioflavonoids are preferably selected from the group of anthocyanins and proanthocyanidins and derivatives thereof.

In a particular embodiment the invention, the bioflavonoids in the form of dried and powdered fruits, e.g. Cherry, blackcurrant, blackberry, cranberry, Blueberry, apricot, raspberry or grape, here grape seeds preferred and grape skins and citrus fruits, single or mixed uses.

The in the agent according to the invention contained components nicotinamide adenine dinucleotide in the reduced Form (NADH), L-carnitine, and L-carnosine can be both as pharmaceutical compatible Cation or anion salts are used. Preferably the anionic salts are selected from a group comprising chloride, sulfate, Phosphate, formate, acetate, lactate, malate, tartrate, citrate, Maleate, benzoate and ascorbate salts. The cation salts are preferred selected from a group, comprising sodium, potassium, magnesium, calcium and zinc salts.

The contained in the agent according to the invention Components 1,2-Ethanedicarboxylic acid, ascorbic acid, bioflavonoids and coenzyme Q10 are preferably as pharmaceutically acceptable Cation salts used, being selected from a group, comprising sodium, potassium, magnesium, calcium and zinc salts.

These enumeration The pharmaceutically acceptable salts which can be used are not limiting. All known pharmaceutically acceptable Salts can be used.

In a particular embodiment the agent according to the invention may be the 1,2-ethanedicarboxylic acid also as esters in the form of monomethyl ester succinate and / or dimethyl ester succinate be used.

The individual salts can in a known manner by adding appropriate acidic or basic substances, for example inorganic acids or Bases which are capable of forming salts can be produced. For example, by adding the inorganic base magnesium hydroxide, solved in water, for 1,2-ethanedicarboxylic acid the magnesium salt (cation salt) which are formed during drying out as magnesium succinate.

Preferably are the concentrations of the individual components of the agent according to the invention coordinated. It has been shown that the following is concentration related Composition of the agent particularly beneficial to the energy metabolism acts.

• – Nikotinamid-adenin-dinukleotid in der reduzierten Form (NADH) (Gew.-%): 1,17 bis 1,43
• – L-Carnitin (Gew.-%): 11,7 bis 14,3
• – Co-Enzym Q10 (Gew.-%): 6,93 bis 8,47
• – L-Carnosin (Gew.-%): 23,4 bis 28,6
• – 1,2-Ethandicarbonsäure (Gew.-%): 23,4 bis 28,6
• – Acerolapulver (Gew.-%): 23,4 bis 28,6.

In general, the agent containing the individual components or their derivatives, in particular their salts, has the following percentage composition, the concentration data relating to the non-derivatized, in particular non-salt, components:

• Nicotinamide adenine dinucleotide in the reduced form (NADH) (wt%): 1.17 to 1.43
• L-carnitine (wt%): 11.7 to 14.3
• Co-enzyme Q10 (wt%): 6.93 to 8.47
• L-carnosine (wt%): 23.4 to 28.6
• 1,2-Ethanedicarboxylic acid (wt%): 23.4 to 28.6
• Acerol powder (% by weight): 23.4 to 28.6.

In a preferred embodiment the invention is the 1,2-Ethandicarbonsäure in the form of Magnesium salt before.

In a further preferred embodiment contains the nutritional supplement additionally Lecithin. Lecithin heard to the phospholipids and is an ester-like compound from one mole of glycerol, phosphoric acid, Choline and two molecules Fatty acid, For example, phosphatidylcholine, phosphatidylserine or phosphatidylinositol. Support these phospholipids the emulsification of fats and are a basic component of all cell membranes, keeping them flexible and functional. This will do this flexible and functional hold. This also strengthens the structure of the mitochondria. lecithin supports about that In addition, the absorption fat-soluble Vitamins, such as vitamins D and E, and promotes the reduction of Plasma cholesterol levels. The intake of Lecithin supports the Improvement of long and short term memory.

• – Nikotinamid-adenin-dinukleotid in der reduzierten Form (NADH): 5 mg
• – L-Carnitin: 50 mg
• – Co-Enzym Q10: 30 mg
• – L-Carnosin: 100 mg
• – Magnesiumsuccinat: 100 mg
• – Acerolapulver: 100 mg,

wobei sich die Mengenangaben wiederum auf die nicht derivatisierten, insbesondere nicht in Salze umgewandelten, Komponenten beziehen.In a particular embodiment, the nutritional supplement is provided in the form of an application dose, for example a tablet or ampoule which is suitable for oral use in mammals, for example. A preferred application dose contains:

• Nicotinamide adenine dinucleotide in reduced form (NADH): 5 mg
• - L-carnitine: 50 mg
• - Coenzyme Q10: 30 mg
• - L-carnosine: 100 mg
• - Magnesium succinate: 100 mg
• - acerola powder: 100 mg,

wherein the quantities again refer to the non-derivatized, in particular not converted to salts, components.

In a particularly preferred embodiment In addition, the application dose contains an additional 100 mg of lecithin.

One Another object of the invention is a pharmaceutical preparation which as active ingredient the agent according to the invention, optionally further active ingredients and at least one pharmaceutical Contains adjuvant.

One Another object of the invention is the use of the agent to supplement with mammals for the production of food or beverages. For example, can the means in the preparation of a chocolate bar or a soft drink in suitable dosage, e.g. an application dose may be added.

One Another object of the invention is the use of the agent for nutritional supplements in mammals to increase the general efficiency, the concentration strength and the stamina.

A Further use of the agent relates to preventive use the agent for reducing cell aging in mammals, in particular for the reduction of cell damage caused by free Radicals are evoked.

Farther can the agent of the invention for Production of medicines or pharmaceutical preparations for support in the therapy / treatment of various diseases in mammals, especially chronic diseases in different areas, For example, respiratory or hepatic diseases become.

Preferably are the mammals around people.

To the chronic diseases, which are preferred in connection with the use of the remedy may include respiratory diseases: in particular chronic bronchitis, fibrosing alveolitis, asthma bronchial, smoker's bronchitis, adult respiratory distress syndrome (ARDS), chronic obstructive pulmonary disease, asbestosis and one in this regard Steady ingestion of some cytotoxic drugs (e.g., bleomycin).

Farther can according to the use of the agent preferred diseases and Disease symptoms of the cardiovascular are treated supportive: in particular Arteriosclerosis, hypercholesterolemia, a related Ingestion of some cytotoxic drugs (e.g., adriamycin), hypertension, cardiac arrhythmias, Cardiomyopathies of various origins, myocardial infarction, coronary Heart disease and high blood pressure.

Further preferred is the supportive Treatment of diseases and symptoms of the gastrointestinal tract according to the use of the agent: in particular hypoacid Gastritis, hyperuricemia, Ulcerative colitis, Crohn's disease, treatment of inflammatory reactions after ingestion non-steroidal Antirheumatics, infection with Helicobacter pylori and for the prevention of Cancerogenesis in the gastrointestinal tract.

Furthermore The agent may preferably be adjunctive in treating diseases and Disease symptoms of the liver and pancreas used especially cirrhosis, chronic hepatitis, fatty liver disease, Alcohol abuse, hepatotoxic damage, hemochromatosis and acute and chronic pancreatitis.

Also preferred is the supportive treatment of the two types of diabetes mellitus and the associated complications: especially of vasculopathies, retinopathy, nephropathy, neuropathy, Polyneuropathy, gangrene, Renal insufficiency, arteriosclerosis and blindness.

Farther the agent according to the invention is preferred for the treatment of diseases and disease symptoms of the kidney suitable: in particular of glomerulonephritis, differentiated nephropathies Genesis, renal failure, kidney transplant, one in this regard Ingestion of some cytostatics (Cyclosporine) and renal Hypertension.

In addition, preferably treated neurological degenerative diseases and disease symptoms supportive in particular: Parkinson's disease and Alzheimer's disease, amyotrophs Lateral sclerosis, Huntington's disease, hereditary ataxia (and others Forms of ataxia), brain trauma, sleep and memory disorders, epilepsy, encephalitis, Multiple sclerosis, schizophrenia and depression, bleeding in the Subarachnoid space, stress syndrome, chronic fatigue syndrome and diseases and disease symptoms of the skin: in particular photochemical oxidative Stress diseases caused by UV and solar radiation, Dermatitis solaris, skin aging, prevention of cancerogenesis, Psoriasis, acne, burns.

Furthermore, a use of the agent for the treatment of diseases of the eye and for the prevention of eye diseases is preferred: in particular cataract, inflammation by UV radiation, corneal ulceration, retinopathy, glaucoma, macular degeneration and Retinaeinblutungen and supportive in the field of oncology in particular in the reduction of side effects caused by cytotoxic drugs, cardiotoxic, nephrotoxic and pneumotoxic drugs.

Also can with the agent of the invention the healing process after injuries and surgeries, in particular after transplants, to be improved.

Inventive pharmaceutical preparations be from the agent of the invention and pharmaceutically acceptable Auxiliaries, in particular carrier materials, solvents Fillers, diluents, Dyes and / or binders, prepared in a conventional manner or manufactured. The choice of solid or liquid auxiliaries used and their quantities depend depending on how the drug is administered.

preferred Preparations consist of a dosage form that is oral or intravenous (i.v.) Application is suitable. Such dosage forms are for example Tablets, film-coated tablets, dragees, pills, capsules, powders, liquids, such as syrups, gels, injectable fluids, for intravenous injection etc. For example These dosage forms the agent of the invention in the form of or several application boxes included. Preferably contains one Dosage form e.g. one tablet, film-coated tablet, dragee, pill or capsule, each representing an application dose. Also could a certain amount of a powder, which is an application dose represents individually packaged and, for example, for oral Application of a soft drink be added.

to oral administration Capsules, pills, tablets, dragees and liquids or other known oral dosage forms are used as pharmaceutical preparations. In this case can The medicines are formulated to be the active ingredients either release in a short time and deliver to the body or a depot effect exhibit, so that a longer sustained, slow supply of active ingredient to the body is achieved. The dosage forms can in addition to the agent one or more pharmaceutically acceptable excipients contain, for example, substances for adjusting the rheology of Drug, surface-active Substances, solubilizers, Microcapsules, microparticles, granules, thinners, binders such as starch, sugar, Sorbitol and gelatine, also fillers, like silica and talc, lubricants, dyes, perfumes and other substances. Preferably solve those enveloping the means Substances, for example, the capsule-forming substances, only in small intestine Completely on.

Appropriate Tablets can for example, by mixing the active ingredient with known excipients, for example, inert diluents such as dextrose, sugar, sorbitol, mannitol, polyvinylpyrrolidone, disintegrants, like cornstarch or alginic acid, Binders, such as starch or gelatin, lubricants such as carboxypolymethylene, carboxymethylcellulose, Cellulose acetate phthalate or polyvinyl acetate. The Tablets can also consist of several layers.

Corresponding can Dragees by coating from cores produced analogously to the tablets with usually used in dragee coatings Agents, for example polyvinylpyrrolidone or shellac, gum arabic, Talc, titanium oxide or sugar. It can also the dragee envelope consist of several layers, the top of the tablets mentioned Excipients can be used.

drugs containing capsules can For example, be prepared by adding the active ingredient with a inert carrier How to mix milk sugar or sorbitol and encapsulate in gelatine capsules.

The inventive agent can also be used in suitable solutions, as for example physiological saline, as an infusion or injection solution for Application come. For parenteral administration may be the agent of the invention in at least one physiologically acceptable diluent solved or be suspended. To increase the solubility can solubilizers be added.

to Formulation of an injectable preparation may be any liquid carrier be used, in which the agent according to the invention solved or is emulsified. These liquids contain frequently also substances for the regulation of the viscosity, surface-active substances, preservatives, Solubilizers, thinner and other additives that make the solution isotonic becomes. Other agents may be used with the composition of the invention Active ingredients are administered.

The Dosage of the agent according to the invention hangs down other from the weight and age of the patient, the type of application and / or the severity of the disease. The daily dose is preferably 1 to 2 doses, where the dose is to be administered once Single dose or divided into two or more daily doses can be.

The following examples serve to illustrate the invention and show the positive effects tions of the composition according to the invention for supplementation with the organism. However, they do not limit the general concept of the invention, in particular not the use of various substances that supplement the agent.

example 1

One Commercial traveler in the fashion business at the age of 52 years complained about fatigue and lack of concentration. To increase the physical Performance and concentration ability he received daily an application dose with the following composition: 5 mg nicotinamide adenine dinucleotide in the reduced form (NADH), 50 mg L-carnitine, 30 mg coenzyme Q10, 100 mg L-carnosine, 100 mg magnesium succinate, 100 mg acerola powder and 100 mg of lecithin in tablet form. After a week, one became increased Attention, especially during long car rides, perceived which was no longer felt after discontinuation of the agent according to the invention.

Example 2

A 26-year-old Long-distance runner received 2 times 1 application dose daily to increase endurance with the composition given in Example 1 in one liter each Soft drink. To One week put a significant increase in performance over the previous state. In particular, the runner felt long running tracks quickly recovered and fit.

Example 3

One young entrepreneurs aged 34 years often felt tired and exhausted. moreover He suffered from lack of concentration during long negotiations. After several days Taking an application dose with the composition given in Example 1 his physical fitness improved every day and mental fitness. There was an increased alertness and attention even in stress situations. After settling the agent according to the invention After a short time, the old state of exhaustion returned.

Claims (17)

Nutritional supplement containing the following components: Nicotinamide adenine dinucleotide in the reduced form (NADH) and / or at least one derivative of NADH and - L-carnitine and / or at least one derivative of L-carnitine and - Co-enzyme Q10 and / or at least one derivative of co-enzyme Q10 and - L-carnosine and / or at least one derivative of L-carnosine and 1,2-ethanedicarboxylic acid and / or at least one derivative of 1,2-ethanedicarboxylic acid and Ascorbic acid and / or at least one derivative of ascorbic acid and - bioflavonoids and / or at least one derivative of the bioflavonoids. Nutritional supplement according to claim 1, characterized characterized in that the ascorbic acid and the bioflavonoids as natural Mixture in the form of acerola powder are included on average. Nutritional supplement according to claim 1, characterized characterized in that the bioflavonoids in the form of dried fruits are contained on average, the fruits being selected from a group, comprising cherry, blackcurrant, blackberry, cranberry, Blueberry, apricot, raspberry, citrus and grape. Nutritional supplement according to claim 1, characterized characterized in that the bioflavonoids are selected from the group comprising Anthocyanins, proanthocyanidins and their derivatives. Nutritional supplement according to any one of claims 1-4, characterized in that the derivatives are pharmaceutically acceptable salts are and the salts selected are from a group comprising chloride, sulphate, phosphate, formate, Acetate, lactate, malate, tartrate, citrate, maleate, benzoate, ascorbate, Sodium, potassium, magnesium, calcium and zinc salts. Nutritional supplement according to any one of claims 1-4, characterized in that the 1,2-ethanedicarboxylic acid is monomethyl ester succinate and / or dimethyl ester succinate is used. Nutritional supplement according to any one of claims 2-6, comprising the components and / or their derivatives in the following composition, based on the non-derivatized components: Nicotinamide adenine dinucleotide in the reduced form (NADH) (wt%): 1.17 to 1.43 - L-carnitine (Wt%): 11.7 to 14.3 - Co-enzyme Q10 (wt%): 6.93 to 8.47 L-carnosine (wt%): 23.4 to 28.6 1,2-Ethanedicarboxylic acid (wt%): 23.4 to 28.6 - Acerola powder (Wt%): 23.4 to 28.6. Nutritional supplement according to claim 7, characterized characterized in that 1,2-ethanedicarboxylic acid in the form of the magnesium salt is present. Nutritional supplement according to one of the preceding Claims, characterized in that additionally Lecithin is included. Nutritional supplement according to any one of claims 2-9 in the form an application dose containing: Nicotinamide adenine dinucleotide in the reduced form (NADH): 5 mg - L-carnitine: 50 mg - Co-enzyme Q10: 30mg - L-carnosine: 100 mg - magnesium succinate: 100 mg - Acerola Powder: 100 mg, where the amounts are on the underivatized components Respectively. Nutritional supplement according to claim 10, characterized in that the application dose additionally contains 100 mg of lecithin. Pharmaceutical preparation containing the agent for nutritional supplements according to any one of the preceding claims and at least one pharmaceutical acceptable Excipient. Use of the nutritional supplement one of the claims 1-11 at mammals for the production of food and beverages. Use of the nutritional supplement one of the claims 1-11 at mammals to increase the general efficiency, the concentration strength and Endurance in sports activities. Use of the nutritional supplement one of the claims 1-11 at mammals for preventive use against cell aging. Use of the nutritional supplement one of the claims 1-11 at mammals for the manufacture of medicaments or pharmaceutical preparations for support in the treatment of chronic diseases. Use according to any one of claims 13-16, characterized that the mammal is a Is human.