DE102013012494A1 - Use of β-hydroxybutyric acid and acetoacetic acid and their salts (β-hydroxybutyrate and acetoacetate) as agents for the treatment of acquired hypoglycorrhagia resulting from meningitis, encephalitis or bleeding into the CSF spaces - Google Patents

Abstract

Bacterial meningitis, meningoencephalitis or bleeding into the CSF spaces leads to reduced supply of glucose to the brain, resulting in hypoglycorrhagia and damage to the brain due to disruption of the energy metabolism, for which there is currently no therapy. Ketone bodies should be used therapeutically as an alternative substrate for the energy metabolism to prevent or reduce the damage to the brain. A pharmaceutical preparation of β-hydroxybutyric acid and acetoacetic acid and their salts (β-hydroxybutyrate and acetoacetate) for intravenous or oral administration to a patient with acquired hypoglycorrhagia for the rapid achievement of ketonemia. Therapeutic substances for the treatment of a disturbed energy metabolism of the brain caused by reduced supply of the brain with glucose.

Description

Technical area:

The invention belongs to the field of therapeutic substances for the treatment of conditions with disturbed energy metabolism of the brain caused by reduced supply of the brain with glucose.

Background and state of the art:

Under carbohydrate-rich normal diet, the brain almost exclusively covers its energy requirement with glucose. Glucose enters the brain via the blood-brain barrier through a special transport protein, glucose transporter type 1 (GLUT1). A reduced supply of glucose to the brain can be proven by a reduced content of glucose in the brain water, hypoglycorrhachia. Depending on the extent and duration of hypoglycorrhaging, damage to the brain may occur, ranging from transient dysfunctions (eg, cognitive disorders, impaired consciousness, coma, seizures) to permanent brain damage. (Cahill 2003, Edmond 1992, Klepper 2002, Stafstrom 1999, Volpe 2008, Wheless 2001)

If hypoglycorrhea is caused by decreased blood sugar (hypoglycaemia), effective treatment is provided by rapid administration of glucose since glucose transport across the blood-brain barrier (GLUT1) is not disturbed. With undisturbed transport of glucose across the blood-brain barrier, the CSF / serum quotient for glucose is not diminished and hypoglycorrhagia is the result of hypoglycaemia. (Volpe 2008)

In the congenital disorder of glucose transport across the blood-brain barrier, the GLUT1 defect, normal blood glucose levels lead to hypoglycorrhaging and the cerebrospinal fluid / glucose ratio is reduced (De Vivo 2002, Klepper 2002 and 2007, Wang 2005) Glucose is responsible for the symptoms of the GLUT1 defect, such as seizures, movement disorders and mental retardation. Successful treatment of the GLUT1 defect is by supplying the brain with ketone bodies, β-hydroxybutyrate and acetoacetate, as alternative substrates for energy metabolism via its own special transporter, the monocarboxylate transporter (MCT1), independent of glucose transport across the blood-brain barrier (Klepper 2007, Suls 2008, Wang 2005). Ketone bodies are currently not directly available for therapeutic use. The therapeutic use of ketone bodies therefore currently takes place indirectly, by inducing their formation in the liver from fatty acids by inducing a specific metabolic situation in the context of a special nutritional therapy, the ketogenic diet (Cahill 1970, Freeman 2000, Wkeless 2001). In contrast to carbohydrate-rich normal food, the ketogenic diet is extremely low in carbohydrates and high in fat. The carbohydrate reduction leads to the formation of fatty acid ketone bodies via the decrease in insulin levels, which occurs in the liver (Freeman 2000, Fukao 2004, Laffel 1999, Wkeless 2001). When using the ketogenic diet, it takes several days until a ketotic metabolic situation develops, which makes it unsuitable for the rapid treatment of acute diseases.

In addition to the congenital glucose transporter (GLUT1) defect, there are also acquired, acute illnesses that lead to hypoglycorrhaging in normal blood sugar. The hypoglycorrhagia can reach significant proportions in bacterial meningitis, meningoencephalitis as well as in bleeding into the CSF spaces, the subarachnoid hemorrhage, but especially in the ventricular bleeding of premature babies (Volpe 2008). These diseases lead to brain damage or have an unfavorable neurological prognosis (Volpe 2008).

The problem underlying the invention:

sHypoglycorrhachia is the evidence of a disturbed glucose supply to the brain and indicates a disruption of the energy metabolism. Despite the long-known knowledge of the negative consequences of hypoglycorrhaging, for example caused by hypoglycemia or congenital GLUT1 defect and despite the long-known knowledge of the beneficial effect of rapid treatment of hypoglycorrhaging in these diseases, hypoglycorrheacia is currently untreatable in other diseases , These are in particular the hypoglycoorhachia as a result of bacterial meningitis, meningoencephalitis or bleeding into the CSF spaces. It is not current medical standard to treat hypoglycorrhagia by these acute diseases, although treating or preventing a hypoglycorrhagia can prevent or reduce neurological damage. The therapeutic neglect of hypoglycorrhagia in these acute, severe diseases (bacterial meningitis, meningoencephalitis, or bleeding into the CSF spaces) is due to the current lack of rapid hypoglycaemia therapy as would a pharmaceutical preparation of ketone bodies.

Invention:

The novel of this invention is to use a pharmaceutical preparation of β-hydroxybutyric acid and acetoacetic acid and their salts (β-hydroxybutyrate and acetoacetate) as immediately available intravenous or oral therapy for the treatment of acquired hypoglycorrhea due to meningitis, encephalitis or bleeding into the CSF spaces. The aim of the treatment is to prevent or reduce brain damage in these acute diseases.

Commercial application of the invention:

Since pharmaceutical preparations with β-hydroxybutyric acid and acetoacetic acid and their salts (β-hydroxybutyrate and acetoacetate) must meet high hygiene and biocompatibility requirements for therapeutic use, pharmaceutical manufacturers are the first choice.

Advantageous effect of the invention with reference to the prior art:

The availability of pharmaceutical preparations with β-hydroxybutyric acid and acetoacetic acid and their salts (β-hydroxybutyrate and acetoacetate) for intravenous or oral use would allow a rapid therapy of acquired hypoglycaemia in acute diseases. This could prevent or reduce the damage caused by hypoglycorrhachia brain damage in bacterial meningitis, meningoencephalitis and bleeding into the CSF spaces, the subarachnoid hemorrhage, but especially in the ventricular bleeding of premature babies.

Way to carry out the claimed invention in detail:

Use of an effective amount of β-hydroxybutyric acid and / or acetoacetic acid and its salts (β-hydroxybutyrate and acetoacetate) in a sterile, biocompatible pharmaceutical composition to induce ketonemia by intravenous or oral administration to a patient with proven hypoglycorrhagia. The aim is blood levels of β-hydroxybutyrate of 1-6 mM and / or urinary excretion of acetoacetate by 5-160 mg / dl.

Claims (1)

Therapeutic pharmaceutical preparation of β-hydroxybutyric acid and acetoacetic acid and their salts (β-hydroxybutyrate and acetoacetate) as agents for the treatment of acquired hypoglycorrhagia resulting from meningitis, encephalitis or bleeding into the CSF spaces. Bacterial meningitis, meningoencephalitis or bleeding into the CSF spaces leads to a reduced supply of glucose to the brain, to hypoglycorrhachia and damage to the brain due to disruption of the energy metabolism, for which there is currently no therapeutic option. Ketone bodies should be used therapeutically as an alternative substrate for the energy metabolism to prevent or reduce the damage to the brain. Use of a sterile, biocompatible, pharmaceutical preparation of β-hydroxybutyric acid and acetoacetic acid and their salts (β-hydroxybutyrate and acetoacetate) for intravenous or oral administration to a patient with acquired hypoglycorrhagia for the rapid achievement of ketonemia. The aim is by the rapid administration of an effective amount of β-hydroxybutyric acid and / or acetoacetic acid and their salts (β-hydroxybutyrate and acetoacetate) therapeutic blood levels of β-hydroxybutyrate by 1-6 mM and / or a urine excretion of acetoacetate by 5 -160 mg / dl to prevent or reduce damage to the brain.