The present invention relates to novel, stable and pharmacologically acceptable salts of L-carnitine and lower alkanoyl L-carnitines which favourably lend themselves to the preparation of orally, parenterally or sublingually administrable compositions which can be both solid or, thanks to the salt water solubility, liquid as well. The compositions are useful in the field of dietary and dietetic supplements, health foods, and nutraceutical in addition to the strict pharmaceutical field.[0001]
The invention also relates to the compositions thus obtained.[0002]
It has long since been known that L-carnitine and lower L-carnitines lend themselves to various therapeutic utilizations.[0003]
For instance, L-carnitine is used in the cardiovascular field as a support drug for the treatment of acute and chronic myocardial ischaemia, angina pectoris, heart failure and cardiac arrhythmias.[0004]
In the nephrological field, L-carnitine is administered to chronic uraemics undergoing regular haemodialytic treatment to combat myasthenia and the onset of muscular cramps.[0005]
Acetyl L-carnitine is used in the neurologic field for the treatment of both central nervous system disturbances and peripheral neuropathies, particularly diabetic peripherial neuropathy. Propionyl L-carnitine is used for the treatment of chronic arteriosclerosis obliterans, particularly in patients showing the symptom of severely disabling intermittent claudication.[0006]
Herehinbelow, reference shall be exclusively made, for semplicity's sake, to L-carnitine, it being understood, however, that all disclosures apply to the lower alkanoyl L-carnitines as well.[0007]
A widespread promotion of carnitine and derivatives thereof has rapidly been taking place towards utilizations other than those purely therapeutical, ever though allied to them.[0008]
It has, in fact, been widely recognized that in professional athletas as well as in any subject practising sport at amateur level, L-carnitine supplies energy to the skeletal musculature and increases the resistance to prolonged, intense stress, enhancing the performance capability of such individuals.[0009]
In addition, L(−)-carnitine or its lower alkanoyl derivatives constitute indispensable nutritional supplements for both vegetarians, whose diet have a low carnitine content as well as a low content of the two amino acids, lysine and methionine (the precursors of the biosynthesis of L(—)-carnitine in the kidneys and liver) and for those subjects who have to live on a diet poor in protein for prolonged periods of time.[0010]
Consequently, various compositions containing L-carnitine alone or in combination with other active ingredients (see e.g. the combination composition carnitine/coenzyme Q[0011]10) have recently reached the market of the health foods, dietary supplements, energy foods and similar products, i.e. those compositions which sold as OTCs are not addressed to purely therapeutic purposes, but are aimed to the well-being and at producing a general improvement in fitness and performances on the part of the consumer and which have recently termed “nutraceuticals”.
Of growing interest, moreover, is the use of L(−)-carnitine in the veterinary field and as animal feed supplements in the breeding of valuable animals such as racehorses and thoroughbreds.[0012]
In all the aforesaid both “ethical” and “non ethical” applications, L-carnitine is not generally used in the form of its inner salt, owing to the extremely high hygroscopicity thereof[0013]
Indeed, L-carnitine inner salt's hygroscopicity brings about complex problems of processing, stability and storage both of the raw materials and of the finished products. For example, L(−)-carnitine tablets have to be packaged in blisters to keep them out of contact with the air, since, otherwise, even in the presence of normal humidity conditions, they would undergo alterations, swelling up and becoming pasty and sticky. Moreover, owing to the inadequate stability, traces of trimethylamine are released which give the products as unpleasant fishy odour.[0014]
The problem of the hygroscopicity of L-carnitine inner salt has substantially been solved by converting it to salts of “pharmacologically acceptable acids” on the assumption that these salts maintain the same therapeutic/nutritional activities as those of the inner salt and do not present unwanted toxic or side effects.[0015]
There is now an extensive body of literature, particularly patents, disclosing the production of stable, non-hygroscopic salts of L(−)-carnitine.[0016]
With specific reference to the two only salts which have been actually marketed to-date as nutritional supplements, U.S. Pat. No. 4,602,039 (Sigma-Tau) discloses L(−)-carnitine acid fumarate (1:1) as a non-hygroscopic, pharmacologically acceptable L(−)-carnitine salt. EP 0 434 088 (Lonza) discloses the use of L(−)-carnitine tartrate (2:1), the preparation and physico-chemical characterization of which were, on the other hand, already described by D. Müller and E. Strack in Hoppe Seyler's Z. Physiol. Chem. 353, 618-622, April 1972, for the preparation of solid forms suitable for the oral administration, such as tablets, capsules, powders or granulates, as said salts are capable of resisting at about 60% relative humidity.[0017]
The solution of the purely technological problem of hygroscopicity of L-carnitine inner salt has confined so far to the background the consideration of more substantial pharmacological aspects, such as the finding of L-carnitine salts, whose anion moiety itself be endowed with interesting pharmacological characteristics and, furthermore, be apt to enhance, if possible in a synergic way, the therapeutical and/or nutritional properties of L-carnitine inner salt.[0018]
The object of the present invention is to provide such novel, stable pharmacologically acceptable salts of L-carnitine and lower alkanoyl L-carnitines which not only possess an enhanced therapeutical and/or nutritional efficacy with respect to the corresponding inner salts, but also, owing to their water solubility, are more easily absorbable resulting in higher haematic concentration of L-carnitine in shorter times with respect to those achievable with L-carnitine inner salt or its pharmacologically acceptable salts known to-date.[0019]
According to the invention, the aforesaid object is achieved via the L-carnitine and lower alkanoyl L-carnitines alpha-ketoglutarates having the formula:
[0020]wherein:[0021]
A[0022]− is the alpha-ketoglutarate anion; and
R is hydrogen or a straight- or branched-chain lower alkanoyl having 2-5 carbon atoms.[0023]
When R is alkanoyl, it is preferably selected from the group consisting of acetyl, propionyl, valeryl and isovaleryl.[0024]
Particularly preferred alpha-ketoglutarates of the invention are the following:[0025]
L-carnitine alpha-ketoglutarate;[0026]
acetyl L-carnitine alpha-ketoglutarate;[0027]
propionyl L-carnitine alpha-ketoglutarate;[0028]
valeryl L-carnitine alpha-ketoglutarate; and[0029]
isovaleryl L-carnitine alpha-ketoglutarate.[0030]
The alpha-ketoglutarate of the invention present the favourable metabolic properties of both L-carnitine or alkanoyl L-carnitine and alpha-ketoglutaric acid with a synergistic effect.[0031]
As known, alpha-ketoglutaric acid plays an important metabolic role, which is correlated to that played by L-carnitine.[0032]
For instance, in phenylketokuria carnitine synthesis is hindered and the resulting decrease is correlated to the lowering of alpha-ketoglutaric acid concentration, whose presence is critical for restoring carnitine basal values insofar as it acts as coenzyme of butyrobetaine hydroxylase.[0033]
It is, furthermore, known the glutamine role in maintaining muscle functional capacity and that a glutamine decrease can be detected in several pathological conditions or muscular stress. Since alpha-ketoglutaric acid is a glutamine precursor, its administration was shown to improve a number of muscle pathologies such as those occurring in muscular injuries.[0034]
Alpha-ketoglutarate administration has been also successfully adopted in cardiac surgery owing to the important role played by alpha-ketoglutaric acid in the Krebs cycle and, hence, in myocardial metabolism. Consequently, its use as cardioprotective agent has been suggested. Since alpha-ketoglutaric acid can act as mitochondrial carrier, just as carnitine does, and can, therefore, similarly to carnitine, correct some so-called mitochondriocytopathies, its favourable metabolic effects not only at the cardiac level but also at the level of other organs such as the renal tract can be accounted for.[0035]
Moreover, in uremics undergoing regular haemodialytic treatment calcium ketoglutarate was shown to be effective in preventing hyperphosphataemia.[0036]
Example of Preparation of L-Carnitine Alpha-Ketoglutarate0.1 moles of L-carnitine inner salt (16.2 g) were dissolved in distilled water (200 mL). 0.1 moles of alpha-ketoglutaric acid (16.6 g) were added under stirring to the solution. The addition was carried out portionwise taking care that, when the addition was over, the solution remained clear.[0037]
The excess of water was evaporated under reduced pressure until a thick honey-like pasty mass was obtained composed of the hydrated form of L-carnitine alpha-ketoglutarate. The salt, whose molecular weight is 389, was completely water soluble at 25° C. Its IR spectrum was consistent with the salt structure of the compound.[0038]
Preparation of Solid Compositions