US20110046076A1 - Pharmaceutical composition, methods for treating and uses thereof - Google Patents

Pharmaceutical composition, methods for treating and uses thereof Download PDF

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Publication number
US20110046076A1
US20110046076A1 US12/703,988 US70398810A US2011046076A1 US 20110046076 A1 US20110046076 A1 US 20110046076A1 US 70398810 A US70398810 A US 70398810A US 2011046076 A1 US2011046076 A1 US 2011046076A1
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Prior art keywords
inhibitor
obesity
antidiabetic agent
patient
glucose
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Abandoned
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US12/703,988
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Inventor
Peter Eickelmann
Michael Mark
Leo John Seman
Leo Thomas
Uli BROEDL
Rolf GREMPLER
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Boehringer Ingelheim International GmbH
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Boehringer Ingelheim International GmbH
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Application filed by Boehringer Ingelheim International GmbH filed Critical Boehringer Ingelheim International GmbH
Priority to US12/703,988 priority Critical patent/US20110046076A1/en
Assigned to BOEHRINGER INGELHEIM INTERNATIONAL GMBH reassignment BOEHRINGER INGELHEIM INTERNATIONAL GMBH ASSIGNMENT OF ASSIGNORS INTEREST (SEE DOCUMENT FOR DETAILS). Assignors: SEMAN, LEO JOHN, MARK, MICHAEL, GREMPLER, ROLF, BROEDL, ULI, THOMAS, LEO, EICKELMANN, PETER
Publication of US20110046076A1 publication Critical patent/US20110046076A1/en
Priority to US13/912,599 priority patent/US10406172B2/en
Priority to US16/452,719 priority patent/US20200085851A1/en
Priority to US17/176,450 priority patent/US20210346415A1/en
Priority to US18/320,462 priority patent/US20230285432A1/en
Abandoned legal-status Critical Current

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Definitions

  • the invention relates to a pharmaceutical composition
  • a pharmaceutical composition comprising an SGLT2-inhibitor, a DPPIV inhibitor and a third antidiabetic agent selected from the group G3 as described hereinafter which is suitable in the treatment or prevention of one or more conditions selected from type 1 diabetes mellitus, type 2 diabetes mellitus, impaired glucose tolerance, impaired fasting blood glucose and hyperglycemia inter alia.
  • the present invention relates to the use of an SGLT2 inhibitor for the manufacture of a medicament for use in a method as described hereinbefore and hereinafter.
  • the present invention relates to the use of a DPP IV inhibitor for the manufacture of a medicament for use in a method as described hereinbefore and hereinafter.
  • the present invention relates to the use of a third antidiabetic agent as defined hereinafter for the manufacture of a medicament for use in a method as described hereinbefore and hereinafter.
  • the invention also relates to a use of a pharmaceutical composition according to this invention for the manufacture of a medicament for use in a method as described hereinbefore and hereinafter.
  • Type 2 diabetes is an increasingly prevalent disease that due to a high frequency of complications leads to a significant reduction of life expectancy. Because of diabetes-associated microvascular complications, type 2 diabetes is currently the most frequent cause of adult-onset loss of vision, renal failure, and amputations in the industrialized world. In addition, the presence of type 2 diabetes is associated with a two to five fold increase in cardiovascular disease risk.
  • Oral antidiabetic drugs conventionally used in therapy include, without being restricted thereto, metformin, sulphonylureas, thiazolidinediones, glinides and ⁇ -glucosidase inhibitors.
  • the high incidence of therapeutic failure is a major contributor to the high rate of long-term hyperglycemia-associated complications or chronic damages (including micro- and macrovascular complications such as e.g. diabetic nephrophathy, retinopathy or neuropathy, or cardiovascular complications) in patients with type 2 diabetes.
  • chronic damages including micro- and macrovascular complications such as e.g. diabetic nephrophathy, retinopathy or neuropathy, or cardiovascular complications
  • SGLT2 inhibitors inhibitors represent a novel class of agents that are being developed for the treatment or improvement in glycemic control in patients with type 2 diabetes.
  • Glucopyranosyl-substituted benzene derivative are described in the prior art as SGLT2 inhibitors, for example in WO 01/27128, WO 03/099836, WO 2005/092877, WO 2006/034489, WO 2006/064033, WO 2006/117359, WO 2006/117360, WO 2007/025943, WO 2007/028814, WO 2007/031548, WO 2007/093610, WO 2007/128749, WO 2008/049923, WO 2008/055870, WO 2008/055940.
  • the glucopyranosyl-substituted benzene derivatives are proposed as inducers of urinary sugar excretion and as medicaments in the treatment of diabetes.
  • Renal filtration and reuptake of glucose contributes, among other mechanisms, to the steady state plasma glucose concentration and can therefore serve as an antidiabetic target.
  • Reuptake of filtered glucose across epithelial cells of the kidney proceeds via sodium-dependent glucose cotransporters (SGLTs) located in the brush-border membranes in the tubuli along the sodium gradient.
  • SGLTs sodium-dependent glucose cotransporters
  • SGLT2 is exclusively expressed in the kidney, whereas SGLT1 is expressed additionally in other tissues like intestine, colon, skeletal and cardiac muscle.
  • SGLT3 has been found to be a glucose sensor in interstitial cells of the intestine without any transport function.
  • DPP IV inhibitors represent another novel class of agents that are being developed for the treatment or improvement in glycemic control in patients with type 2 diabetes.
  • DPP IV inhibitors and their uses are disclosed in WO 2002/068420, WO 2004/018467, WO 2004/018468, WO 2004/018469, WO 2004/041820, WO 2004/046148, WO 2005/051950, WO 2005/082906, WO 2005/063750, WO 2005/085246, WO 2006/027204, WO 2006/029769, WO2007/014886; WO 2004/050658, WO 2004/111051, WO 2005/058901, WO 2005/097798; WO 2006/068163, WO 2007/071738, WO 2008/017670; WO 2007/054201, WO 2007/128721 or WO 2007/128761.
  • the aim of the present invention is to provide a pharmaceutical composition and method for preventing, slowing progression of, delaying or treating a metabolic disorder, in particular of type 2 diabetes mellitus.
  • a further aim of the present invention is to provide a pharmaceutical composition and method for improving glycemic control in a patient in need thereof, in particular in patients with type 2 diabetes mellitus.
  • Another aim of the present invention is to provide a pharmaceutical composition and method for improving glycemic control in a patient with insufficient glycemic control despite monotherapy with an antidiabetic drug, for example metformin, or despite combination therapy with two antidiabetic drugs.
  • an antidiabetic drug for example metformin
  • Another aim of the present invention is to provide a pharmaceutical composition and method for preventing, slowing or delaying progression from impaired glucose tolerance (IGT), impaired fasting blood glucose (IFG), insulin resistance and/or metabolic syndrome to type 2 diabetes mellitus.
  • ITT impaired glucose tolerance
  • IGF impaired fasting blood glucose
  • Yet another aim of the present invention is to provide a pharmaceutical composition and method for preventing, slowing progression of, delaying or treating of a condition or disorder from the group consisting of complications of diabetes mellitus.
  • a further aim of the present invention is to provide a pharmaceutical composition and method for reducing the weight or preventing an increase of the weight in a patient in need thereof.
  • Another aim of the present invention is to provide a new pharmaceutical composition with a high efficacy for the treatment of metabolic disorders, in particular of diabetes mellitus, impaired glucose tolerance (IGT), impaired fasting blood glucose (IFG), and/or hyperglycemia, which has good to very good pharmacological and/or pharmacokinetic and/or physicochemical properties.
  • metabolic disorders in particular of diabetes mellitus, impaired glucose tolerance (IGT), impaired fasting blood glucose (IFG), and/or hyperglycemia, which has good to very good pharmacological and/or pharmacokinetic and/or physicochemical properties.
  • a pharmaceutical composition comprising a SGLT2 inhibitor and a DPP IV inhibitor and a third antidiabetic agent selected from the group G3 as defined hereinafter can advantageously be used for preventing, slowing progression of, delaying or treating a metabolic disorder, in particular for improving glycemic control in patients.
  • This opens up new therapeutic possibilities in the treatment and prevention of type 2 diabetes mellitus, overweight, obesity, complications of diabetes mellitus and of neighboring disease states.
  • the present invention provides a pharmaceutical composition
  • a pharmaceutical composition comprising
  • a method for preventing, slowing the progression of, delaying or treating a metabolic disorder selected from the group consisting of type 1 diabetes mellitus, type 2 diabetes mellitus, impaired glucose tolerance (IGT), impaired fasting blood glucose (IFG), hyperglycemia, postprandial hyperglycemia, overweight, obesity, metabolic syndrome and gestational diabetes in a patient in need thereof characterized in that an SGLT2 inhibitor, a DPPIV inhibitor and optionally a third antidiabetic agent as defined hereinbefore and hereinafter are administered, for example in combination or alternation, to the patient.
  • a method for improving glycemic control and/or for reducing of fasting plasma glucose, of postprandial plasma glucose and/or of glycosylated hemoglobin HbA1c in a patient in need thereof characterized in that an SGLT2 inhibitor, a DPPIV inhibitor and optionally a third antidiabetic agent as defined hereinbefore and hereinafter are administered, for example in combination or alternation, to the patient.
  • the pharmaceutical composition according to this invention may also have valuable disease-modifying properties with respect to diseases or conditions related to impaired glucose tolerance (IGT), impaired fasting blood glucose (IFG), insulin resistance and/or metabolic syndrome.
  • ITT impaired glucose tolerance
  • IGF impaired fasting blood glucose
  • a method for preventing, slowing, delaying or reversing progression from impaired glucose tolerance (IGT), impaired fasting blood glucose (IFG), insulin resistance and/or from metabolic syndrome to type 2 diabetes mellitus in a patient in need thereof characterized in that an SGLT2 inhibitor, a DPPIV inhibitor and optionally a third antidiabetic agent as defined hereinbefore and hereinafter are administered, for example in combination or alternation, to the patient.
  • a pharmaceutical composition according to this invention an improvement of the glycemic control in patients in need thereof is obtainable, also those conditions and/or diseases related to or caused by an increased blood glucose level may be treated.
  • complications of diabetes mellitus such as cataracts and micro- and macrovascular diseases, such as nephropathy, retinopathy, neuropathy, tissue ischaemia, diabetic foot, arteriosclerosis, myocardial infarction,
  • tissue ischaemia particularly comprises diabetic macroangiopathy, diabetic microangiopathy, impaired wound healing and diabetic ulcer.
  • micro- and macrovascular diseases and “micro- and macrovascular complications” are used interchangeably in this application.
  • a method for reducing body weight and/or body fat or preventing an increase in body weight and/or body fat or facilitating a reduction in body weight and/or body fat in a patient in need thereof characterized in that an SGLT2 inhibitor, a DPPIV inhibitor and optionally a third antidiabetic agent as defined hereinbefore and hereinafter are administered, for example in combination or alternation, to the patient.
  • the pharmacological effect of the SGLT2 inhibitor in the pharmaceutical composition according to this invention is independent of insulin. Therefore, an improvement of the glycemic control is possible without an additional strain on the pancreatic beta cells.
  • a beta-cell degeneration and a decline of beta-cell functionality such as for example apoptosis or necrosis of pancreatic beta cells can be delayed or prevented.
  • the functionality of pancreatic cells can be improved or restored, and the number and size of pancreatic beta cells increased. It may be shown that the differentiation status and hyperplasia of pancreatic beta-cells disturbed by hyperglycemia can be normalized by treatment with a pharmaceutical composition according to this invention.
  • a method for preventing, slowing, delaying or treating the degeneration of pancreatic beta cells and/or the decline of the functionality of pancreatic beta cells and/or for improving and/or restoring the functionality of pancreatic beta cells and/or restoring the functionality of pancreatic insulin secretion in a patient in need thereof characterized in that an SGLT2 inhibitor, a DPPIV inhibitor and optionally a third antidiabetic agent as defined hereinbefore and hereinafter are administered, for example in combination or alternation, to the patient.
  • an abnormal accumulation of ectopic fat, in particular of the liver may be reduced or inhibited. Therefore, according to another aspect of the present invention, there is provided a method for preventing, slowing, delaying or treating diseases or conditions attributed to an abnormal accumulation of ectopic fat, in particular of the liver, in a patient in need thereof characterized in that an SGLT2 inhibitor, a DPPIV inhibitor and optionally a third antidiabetic agent as defined hereinbefore and hereinafter are administered, for example in combination or alternation, to the patient.
  • liver fat Diseases or conditions which are attributed to an abnormal accumulation of liver fat are particularly selected from the group consisting of general fatty liver, non-alcoholic fatty liver (NAFL), non-alcoholic steatohepatitis (NASH), hyperalimentation-induced fatty liver, diabetic fatty liver, alcoholic-induced fatty liver or toxic fatty liver.
  • NAFL non-alcoholic fatty liver
  • NASH non-alcoholic steatohepatitis
  • hyperalimentation-induced fatty liver diabetic fatty liver
  • alcoholic-induced fatty liver or toxic fatty liver.
  • another aspect of the invention provides a method for maintaining and/or improving the insulin sensitivity and/or for treating or preventing hyperinsulinemia and/or insulin resistance in a patient in need thereof characterized in that an SGLT2 inhibitor, a DPPIV inhibitor and optionally a third antidiabetic agent as defined hereinbefore and hereinafter are administered, for example in combination or alternation, to the patient.
  • a method for preventing, slowing progression of, delaying, or treating new onset diabetes after transplantation (NODAT) and/or post-transplant metabolic syndrome (PTMS) in a patient in need thereof characterized in that an SGLT2 inhibitor, a DPPIV inhibitor and optionally a third antidiabetic agent as defined hereinbefore and hereinafter are administered, for example in combination or alternation, to the patient.
  • NODAT new onset diabetes after transplantation
  • PTMS post-transplant metabolic syndrome
  • a method for preventing, delaying, or reducing NODAT and/or PTMS associated complications including micro- and macrovascular diseases and events, graft rejection, infection, and death in a patient in need thereof characterized in that an SGLT2 inhibitor, a DPPIV inhibitor and optionally a third antidiabetic agent as defined hereinbefore and hereinafter are administered, for example in combination or alternation, to the patient.
  • the pharmaceutical composition according to the invention is capable of facilitating the lowering of serum total urate levels in the patient. Therefore according to another aspect of the invention, there is provided a method for treating hyperuricemia and hyperuricemia-associated conditions, such as for example gout, hypertension and renal failure, in a patient in need thereof characterized in that an SGLT2 inhibitor, a DPPIV inhibitor and optionally a third antidiabetic agent as defined hereinbefore and hereinafter are administered, for example in combination or alternation, to the patient.
  • the patient may be a diabetic or non-diabetic patient.
  • a pharmaceutical composition increases the urine excretion of glucose. This increase in osmotic excretion and water release and the lowering of urate levels are beneficial as a treatment or prevention for kidney stones. Therefore in a further aspect of the invention, there is provided a method for treating or preventing kidney stones in a patient in need thereof characterized in that an SGLT2 inhibitor, a DPPIV inhibitor and optionally a third antidiabetic agent as defined hereinbefore and hereinafter are administered, for example in combination or alternation, to the patient.
  • a method for treating hyponatremia, water retention and water intoxication in a patient in need thereof characterized in that an SGLT2 inhibitor, a DPPIV inhibitor and optionally a third antidiabetic agent as defined hereinbefore and hereinafter are administered, for example in combination or alternation, to the patient.
  • an SGLT2 inhibitor, a DPPIV inhibitor and optionally a third antidiabetic agent as defined hereinbefore and hereinafter are administered, for example in combination or alternation, to the patient.
  • a pharmaceutical composition according to the present invention for the manufacture of a medicament for a therapeutic and preventive method as described hereinbefore and hereinafter.
  • active ingredient of a pharmaceutical composition according to the present invention means the SGLT2 inhibitor and/or the DPP IV inhibitor according to the present invention.
  • body mass index or “BMI” of a human patient is defined as the weight in kilograms divided by the square of the height in meters, such that BMI has units of kg/m 2 .
  • weight is defined as the condition wherein the individual has a BMI greater than or 25 kg/m 2 and less than 30 kg/m 2 .
  • overweight and “pre-obese” are used interchangeably.
  • the term “obesity” is defined as the condition wherein the individual has a BMI equal to or greater than 30 kg/m 2 .
  • the term obesity may be categorized as follows: the term “class I obesity” is the condition wherein the BMI is equal to or greater than 30 kg/m 2 but lower than 35 kg/m 2 ; the term “class II obesity” is the condition wherein the BMI is equal to or greater than 35 kg/m 2 but lower than 40 kg/m 2 ; the term “class III obesity” is the condition wherein the BMI is equal to or greater than 40 kg/m 2 .
  • visceral obesity is defined as the condition wherein a waist-to-hip ratio of greater than or equal to 1.0 in men and 0.8 in women is measured. It defines the risk for insulin resistance and the development of pre-diabetes.
  • abdominal obesity is usually defined as the condition wherein the waist circumference is >40 inches or 102 cm in men, and is >35 inches or 94 cm in women. With regard to a Japanese ethnicity or Japanese patients abdominal obesity may be defined as waist circumference ⁇ 85 cm in men and ⁇ 90 cm in women (see e.g. investigating committee for the diagnosis of metabolic syndrome in Japan).
  • euglycemia is defined as the condition in which a subject has a fasting blood glucose concentration within the normal range, greater than 70 mg/dL (3.89 mmol/L) and less than 100 mg/dL (5.6 mmol/L).
  • fasting has the usual meaning as a medical term.
  • hypoglycemia is defined as the condition in which a subject has a fasting blood glucose concentration above the normal range, greater than 100 mg/dL (5.6 mmol/L).
  • fasting has the usual meaning as a medical term.
  • hypoglycemia is defined as the condition in which a subject has a blood glucose concentration below the normal range, in particular below 70 mg/dL (3.89 mmol/L).
  • postprandial hyperglycemia is defined as the condition in which a subject has a 2 hour postprandial blood glucose or serum glucose concentration greater than 200 mg/dL (11.11 mmol/L).
  • IGF paired fasting blood glucose
  • a subject with “normal fasting glucose” has a fasting glucose concentration smaller than 100 mg/dl, i.e. smaller than 5.6 mmol/l.
  • ITT paired glucose tolerance
  • the abnormal glucose tolerance i.e. the 2 hour postprandial blood glucose or serum glucose concentration can be measured as the blood sugar level in mg of glucose per dL of plasma 2 hours after taking 75 g of glucose after a fast.
  • a subject with “normal glucose tolerance” has a 2 hour postprandial blood glucose or serum glucose concentration smaller than 140 mg/dl (7.78 mmol/L).
  • hyperinsulinemia is defined as the condition in which a subject with insulin resistance, with or without euglycemia, has fasting or postprandial serum or plasma insulin concentration elevated above that of normal, lean individuals without insulin resistance, having a waist-to-hip ratio ⁇ 1.0 (for men) or ⁇ 0.8 (for women).
  • Insulin-sensitizing As insulin-sensitizing, “insulin resistance-improving” or “insulin resistance-lowering” are synonymous and used interchangeably.
  • insulin resistance is defined as a state in which circulating insulin levels in excess of the normal response to a glucose load are required to maintain the euglycemic state (Ford ES, et al. JAMA . (2002) 287:356-9).
  • a method of determining insulin resistance is the euglycaemic-hyperinsulinaemic clamp test. The ratio of insulin to glucose is determined within the scope of a combined insulin-glucose infusion technique. There is found to be insulin resistance if the glucose absorption is below the 25th percentile of the background population investigated (WHO definition).
  • insulin resistance the response of a patient with insulin resistance to therapy, insulin sensitivity and hyperinsulinemia may be quantified by assessing the “homeostasis model assessment to insulin resistance (HOMA-IR)” score, a reliable indicator of insulin resistance (Katsuki A, et al. Diabetes Care 2001; 24: 362-5). Further reference is made to methods for the determination of the HOMA-index for insulin sensitivity (Matthews et al., Diabetologia 1985, 28:412-19), of the ratio of intact proinsulin to insulin (Forst et al., Diabetes 2003, 52(Suppl.1): A459) and to an euglycemic clamp study.
  • HOMA-IR homeostasis model assessment to insulin resistance
  • HOMA-IR score is calculated with the formula (Galvin P, et al. Diabet Med 1992; 9:921-8):
  • HOMA-IR [fasting serum insulin( ⁇ U/mL)] ⁇ [fasting plasma glucose(mmol/L)/22.5]
  • the patient's triglyceride concentration is used, for example, as increased triglyceride levels correlate significantly with the presence of insulin resistance.
  • Patients with a predisposition for the development of IGT or IFG or type 2 diabetes are those having euglycemia with hyperinsulinemia and are by definition, insulin resistant.
  • a typical patient with insulin resistance is usually overweight or obese. If insulin resistance can be detected, this is a particularly strong indication of the presence of pre-diabetes. Thus, it may be that in order to maintain glucose homoeostasis a person needs 2-3 times as much insulin as a healthy person, without this resulting in any clinical symptoms.
  • beta-cell function can be measured for example by determining a HOMA-index for beta-cell function (Matthews et al., Diabetologia 1985, 28:412-19), the ratio of intact proinsulin to insulin (Forst et al., Diabetes 2003, 52(Suppl.1): A459), the insulin/C-peptide secretion after an oral glucose tolerance test or a meal tolerance test, or by employing a hyperglycemic clamp study and/or minimal modeling after a frequently sampled intravenous glucose tolerance test (Stumvoll et al., Eur J Clin Invest 2001, 31: 380-81).
  • pre-diabetes is the condition wherein an individual is pre-disposed to the development of type 2 diabetes.
  • Pre-diabetes extends the definition of impaired glucose tolerance to include individuals with a fasting blood glucose within the high normal range 100 mg/dL (J. B. Meigs, et al. Diabetes 2003; 52:1475-1484) and fasting hyperinsulinemia (elevated plasma insulin concentration).
  • the scientific and medical basis for identifying pre-diabetes as a serious health threat is laid out in a Position Statement entitled “The Prevention or Delay of Type 2 Diabetes” issued jointly by the American Diabetes Association and the National Institute of Diabetes and Digestive and Kidney Diseases (Diabetes Care 2002; 25:742-749).
  • insulin resistance is defined as the clinical condition in which an individual has a HOMA-IR score>4.0 or a HOMA-IR score above the upper limit of normal as defined for the laboratory performing the glucose and insulin assays.
  • type 2 diabetes is defined as the condition in which a subject has a fasting blood glucose or serum glucose concentration greater than 125 mg/dL (6.94 mmol/L).
  • the measurement of blood glucose values is a standard procedure in routine medical analysis. If a glucose tolerance test is carried out, the blood sugar level of a diabetic will be in excess of 200 mg of glucose per dL (11.1 mmol/l) of plasma 2 hours after 75 g of glucose have been taken on an empty stomach. In a glucose tolerance test 75 g of glucose are administered orally to the patient being tested after 10-12 hours of fasting and the blood sugar level is recorded immediately before taking the glucose and 1 and 2 hours after taking it.
  • the blood sugar level before taking the glucose will be between 60 and 110 mg per dL of plasma, less than 200 mg per dL 1 hour after taking the glucose and less than 140 mg per dL after 2 hours. If after 2 hours the value is between 140 and 200 mg, this is regarded as abnormal glucose tolerance.
  • late stage type 2 diabetes mellitus includes patients with a secondary drug failure, indication for insulin therapy and progression to micro- and macrovascular complications e.g. diabetic nephropathy, or coronary heart disease (CHD).
  • CHD coronary heart disease
  • HbA1c refers to the product of a non-enzymatic glycation of the haemoglobin B chain. Its determination is well known to one skilled in the art. In monitoring the treatment of diabetes mellitus the HbA1c value is of exceptional importance. As its production depends essentially on the blood sugar level and the life of the erythrocytes, the HbA1c in the sense of a “blood sugar memory” reflects the average blood sugar levels of the preceding 4-6 weeks. Diabetic patients whose HbA1c value is consistently well adjusted by intensive diabetes treatment (i.e. ⁇ 6.5% of the total haemoglobin in the sample), are significantly better protected against diabetic microangiopathy.
  • metformin on its own achieves an average improvement in the HbA1c value in the diabetic of the order of 1.0-1.5%.
  • This reduction of the HbA1C value is not sufficient in all diabetics to achieve the desired target range of ⁇ 6.5% and preferably ⁇ 6% HbA1c.
  • insufficient glycemic control” or “inadequate glycemic control” in the scope of the present invention means a condition wherein patients show HbA1c values above 6.5%, in particular above 7.0%, even more preferably above 7.5%, especially above 8%.
  • the “metabolic syndrome”, also called “syndrome X” (when used in the context of a metabolic disorder), also called the “dysmetabolic syndrome” is a syndrome complex with the cardinal feature being insulin resistance (Laaksonen D E, et al. Am J Epidemiol 2002; 156:1070-7).
  • diagnosis of the metabolic syndrome is made when three or more of the following risk factors are present:
  • Triglycerides and HDL cholesterol in the blood can also be determined by standard methods in medical analysis and are described for example in Thomas L (Editor): “Labor and Diagnose”, TH-Books Verlagsgesellschaft mbH, Frankfurt/Main, 2000.
  • hypertension is diagnosed if the systolic blood pressure (SBP) exceeds a value of 140 mm Hg and diastolic blood pressure (DBP) exceeds a value of 90 mm Hg. If a patient is suffering from manifest diabetes it is currently recommended that the systolic blood pressure be reduced to a level below 130 mm Hg and the diastolic blood pressure be lowered to below 80 mm Hg.
  • SBP systolic blood pressure
  • DBP diastolic blood pressure
  • NODAT new onset diabetes after transplantation
  • PTMS post-transplant metabolic syndrome
  • IDF International Diabetes Federation
  • PTMS post-transplant metabolic syndrome
  • NODAT and/or PTMS are associated with an increased risk of micro- and macrovascular disease and events, graft rejection, infection, and death.
  • a number of predictors have been identified as potential risk factors related to NODAT and/or PTMS including a higher age at transplant, male gender, the pre-transplant body mass index, pre-transplant diabetes, and immunosuppression.
  • gestational diabetes denotes a form of the diabetes which develops during pregnancy and usually ceases again immediately after the birth.
  • Gestational diabetes is diagnosed by a screening test which is carried out between the 24th and 28th weeks of pregnancy. It is usually a simple test in which the blood sugar level is measured one hour after the administration of 50 g of glucose solution. If this 1 h level is above 140 mg/dl, gestational diabetes is suspected. Final confirmation may be obtained by a standard glucose tolerance test, for example with 75 g of glucose.
  • hyperuricemia denotes a condition of high serum total urate levels.
  • uric acid concentrations between 3.6 mg/dL (ca. 214 ⁇ mol/L) and 8.3 mg/dL (ca. 494 ⁇ mol/L) are considered normal by the American Medical Association.
  • High serum total urate levels, or hyperuricemia are often associated with several maladies. For example, high serum total urate levels can lead to a type of arthritis in the joints known as gout. Gout is a condition created by a build up of monosodium urate or uric acid crystals on the articular cartilage of joints, tendons and surrounding tissues due to elevated concentrations of total urate levels in the blood stream.
  • uric acid The build up of urate or uric acid on these tissues provokes an inflammatory reaction of these tissues. Saturation levels of uric acid in urine may result in kidney stone formation when the uric acid or urate crystallizes in the kidney. Additionally, high serum total urate levels are often associated with the so-called metabolic syndrome, including cardiovascular disease and hypertension.
  • hyponatremia denotes a condition of a positive balance of water with or without a deficit of sodium, which is recognized when the plasma sodium falls below the level of 135 mml/L.
  • Hyponatremia is a condition which can occur in isolation in individuals that over-consume water; however, more often hyponatremia is a complication of medication or other underlying medical condition that leas to a diminished excretion of water.
  • Hyponatremia may lead to water intoxication, which occurs when the normal tonicity of extracellular fluid falls below the safe limit, due to retention of excess water. Water intoxication is a potentially fatal disturbance in brain function. Typical symptoms of water intoxication include nausea, vomiting, headache and malaise.
  • SGLT2 inhibitor in the scope of the present invention relates to a compound, in particular to a glucopyranosyl-derivative, i.e. compound having a glucopyranosyl-moiety, which shows an inhibitory effect on the sodium-glucose transporter 2 (SGLT2), in particular the human SGLT2.
  • the inhibitory effect on hSGLT2 measured as IC50 is prerably below 1000 nM, even more preferably below 100 nM, most preferably below 50 nM.
  • IC50 values of SGLT2 inhibitors are usually above 0.01 nM, or even equal to or above 0.1 nM.
  • SGLT2 inhibitor also comprises any pharmaceutically acceptable salts thereof, hydrates and solvates thereof, including the respective crystalline forms.
  • DPPIV inhibitor in the scope of the present invention relates to a compound that exhibits inhibitory activity on the enzyme dipeptidyl peptidase IV. Such inhibitory activity can be characterised by the IC50 value.
  • a DPPIV inhibitor preferably exhibits an IC50 value below 10000 nM, preferably below 1000 nM. Certain DPPIV inhibitors exhibit an IC50 value below 100 nM, or even ⁇ 50 nM. IC50 values of DPPIV inhibitors are usually above 0.01 nM, or even above 0.1 nM.
  • DPPIV inhibitors may include biologic and non-biologic, in particular non-peptidic compounds.
  • DPPIV inhibitor also comprises any pharmaceutically acceptable salts thereof, hydrates and solvates thereof, including the respective crystalline forms.
  • treatment and “treating” comprise therapeutic treatment of patients having already developed said condition, in particular in manifest form.
  • Therapeutic treatment may be symptomatic treatment in order to relieve the symptoms of the specific indication or causal treatment in order to reverse or partially reverse the conditions of the indication or to stop or slow down progression of the disease.
  • compositions and methods of the present invention may be used for instance as therapeutic treatment over a period of time as well as for chronic therapy.
  • prophylactically treating “preventivally treating” and “preventing” are used interchangeably and comprise a treatment of patients at risk to develop a condition mentioned hereinbefore, thus reducing said risk.
  • FIG. 1 shows the glucose excursion as glucose AUC in Zucker rats to which an SGLT2 inhibitor (A), a DPPIV inhibitor (B), metformin (Met) and combinations thereof (A+Met, B+Met, A+B, A+B+Met) were administered.
  • A SGLT2 inhibitor
  • B DPPIV inhibitor
  • Met metformin
  • compositions, methods and uses refer to SGLT2 inhibitors, DPPIV inhibitors and third antidiabetic agents as defined hereinbefore and hereinafter.
  • a third antidiabetic agent is optionally administered, i.e. the SGLT2 inhibitor and the DPPIV inhibitor are administered in combination with a third antidiabetic agent or without a third antidiabetic agent.
  • the SGLT2 inhibitor and the DPPIV inhibitor are administered in combination with a third antidiabetic agent.
  • the SGLT2 inhibitor is selected from the group G1 consisting of dapagliflozin, canagliflozin, atigliflozin, remogliflozin, sergliflozin and glucopyranosyl-substituted benzene derivatives of the formula (I)
  • R 1 denotes CI, methyl or cyano
  • R 2 denotes H, methyl, methoxy or hydroxy
  • R 3 denotes ethyl, cyclopropyl, ethynyl, ethoxy, (R)-tetrahydrofuran-3-yloxy or (S)-tetrahydrofuran-3-yloxy; or a prodrug of one of the beforementioned SGLT2 inhibitors.
  • R 1 denotes chloro or cyano; in particular chloro.
  • R 2 denotes H.
  • R 3 denotes ethyl, cyclopropyl, ethynyl, (R)-tetrahydrofuran-3-yloxy or (S)-tetrahydrofuran-3-yloxy. Even more preferably R 3 denotes cyclopropyl, ethynyl, (R)-tetrahydrofuran-3-yloxy or (S)-tetrahydrofuran-3-yloxy. Most preferably R 3 denotes ethynyl, (R)-tetrahydrofuran-3-yloxy or (S)-tetrahydrofuran-3-yloxy.
  • Preferred glucopyranosyl-substituted benzene derivatives of the formula (I) are selected from the group of compounds (I.1) to (I.11):
  • glucopyranosyl-substituted benzene derivatives of the formula (I) are selected from the compounds (I.6), (I.7), (I.8), (I.9) and (I.11).
  • the group G1 preferably consists of dapagliflozin, remogliflozin, the compound (I.6), the compound (I.7), the compound (I.8), the compound (I.9) and the compound (I.11).
  • the group G1 consists of dapagliflozin and the compound (I.9).
  • the definitions of the above listed glucopyranosyl-substituted benzene derivatives of the formula (I) also comprise their hydrates, solvates and polymorphic forms thereof, and prodrugs thereof.
  • the preferred compound (I.7) an advantageous crystalline form is described in the international patent application WO 2007/028814 which hereby is incorporated herein in its entirety.
  • an advantageous crystalline form is described in the international patent application WO 2006/117360 which hereby is incorporated herein in its entirety.
  • an advantageous crystalline form is described in the international patent application WO 2006/117359 which hereby is incorporated herein in its entirety.
  • dapagliflozin refers to dapagliflozin, including hydrates and solvates thereof, and crystalline forms thereof.
  • the compound and methods of its synthesis are described in WO 03/099836 for example.
  • Preferred hydrates, solvates and crystalline forms are described in the patent applications WO 2008/116179 and WO 2008/002824 for example.
  • canagliflozin refers to canagliflozin, including hydrates and solvates thereof, and crystalline forms thereof and has the following structure:
  • atigliflozin refers to atigliflozin, including hydrates and solvates thereof, and crystalline forms thereof.
  • the compound and methods of its synthesis are described in WO 2004/007517 for example.
  • remogliflozin refers to remogliflozin and prodrugs of remogliflozin, in particular remogliflozin etabonate, including hydrates and solvates thereof, and crystalline forms thereof. Methods of its synthesis are described in the patent applications EP 1213296 and EP 1354888 for example.
  • sergliflozin refers to sergliflozin and prodrugs of sergliflozin, in particular sergliflozin etabonate, including hydrates and solvates thereof, and crystalline forms thereof. Methods for its manufacture are described in the patent applications EP 1344780 and EP 1489089 for example.
  • compositions, methods and uses refer to a DPP IV inhibitor as defined hereinbefore and hereinafter, or prodrugs thereof, or pharmaceutically acceptable salts thereof.
  • the DPPIV inhibitor is selected from the group G2 consisting of linagliptin, sitagliptin, vildagliptin, alogliptin, saxagliptin, denagliptin, carmegliptin, melogliptin and dutogliptin, or a pharmaceutically acceptable salt of one of the beforementioned DPPIV inhibitors, or a prodrug thereof.
  • linagliptin refers to linagliptin and pharmaceutically acceptable salts thereof, including hydrates and solvates thereof, and crystalline forms thereof. Crystalline forms are described in WO 2007/128721. Methods for the manufacture of linagliptin are described in the patent applications WO 2004/018468 and WO 2006/048427 for example. Linagliptin is distinguished from structurally comparable DPP IV inhibitors, as it combines exceptional potency and a long-lasting effect with favourable pharmacological properties, receptor selectivity and a favourable side-effect profile or bring about unexpected therapeutic advantages or improvements when used in combination with an SGLT2 inhibitor and a third antidiabetic agent according to this invention.
  • sitagliptin refers to sitagliptin (or MK-0431) and pharmaceutically acceptable salts thereof, including hydrates and solvates thereof, and crystalline forms thereof.
  • sitagliptin is in the form of its dihydrogenphosphate salt, i.e. sitagliptin phosphate.
  • sitagliptin phosphate is in the form of a crystalline anhydrate or monohydrate.
  • a class of this embodiment refers to sitagliptin phosphate monohydrate.
  • Sitagliptin free base and pharmaceutically acceptable salts thereof are disclosed in U.S. Pat. No. 6,699,871 and in Example 7 of WO 03/004498.
  • Crystalline sitagliptin phosphate monohydrate is disclosed in WO 2005/003135 and in WO 2007/050485.
  • a tablet formulation for sitagliptin is commercially available under the trade name Januvia®.
  • vildagliptin refers to vildagliptin (or LAF-237) and pharmaceutically acceptable salts thereof, including hydrates and solvates thereof, and crystalline forms thereof. Specific salts of vildagliptin are disclosed in WO 2007/019255. A crystalline form of vildagliptin as well as a vildagliptin tablet formulation are disclosed in WO 2006/078593. Vildagliptin can be formulated as described in WO 00/34241 or in WO 2005/067976. A modified release vildagliptin formulation is described in WO 2006/135723. For details, e.g.
  • a tablet formulation for vildagliptin is expected to be commercially available under the trade name Galvus®.
  • saxagliptin refers to saxagliptin (or BMS-477118) and pharmaceutically acceptable salts thereof, including hydrates and solvates thereof, and crystalline forms thereof.
  • saxagliptin is in the form of the free base or a HCl salt (for example as mono- or dihydrochloride, including hydrates thereof), or a mono-benzoate salt as disclosed in WO 2004/052850 and WO 2008/131149.
  • saxagliptin is in the form of the free base.
  • saxagliptin is in the form of the monohydrate of the free base as disclosed in WO 2004/052850.
  • a process for preparing saxagliptin is also disclosed in WO 2005/106011 and WO 2005/115982.
  • Saxagliptin can be formulated in a tablet as described in WO 2005/117841.
  • denagliptin refers to denagliptin (or GSK-823093) and pharmaceutically acceptable salts thereof, including hydrates and solvates thereof, and crystalline forms thereof.
  • denagliptin is in the form of its hydrochloride salt as disclosed in Example 2 of WO 03/002531 or its tosylate salt as disclosed in WO 2005/009956.
  • a class of this embodiment refers to denagliptin tosylate.
  • Crystalline anhydrous denagliptin tosylate is disclosed in WO 2005/009956.
  • alogliptin refers to alogliptin (or SYR-322) and pharmaceutically acceptable salts thereof, including hydrates and solvates thereof, and crystalline forms thereof.
  • alogliptin is in the form of its benzoate salt, its hydrochloride salt or its tosylate salt each as disclosed in WO 2007/035629.
  • a class of this embodiment refers to alogliptin benzoate.
  • Polymorphs of alogliptin benzoate are disclosed in WO 2007/035372.
  • a process for preparing alogliptin is disclosed in WO 2007/112368 and, specifically, in WO 2007/035629.
  • Alogliptin (namely its benzoate salt) can be formulated in a tablet and administered as described in WO 2007/033266.
  • Alogliptin namely its benzoate salt
  • WO 2007/033266 For details, e.g. on a process to manufacture, to formulate or to use this compound or a salt thereof, reference is thus made to these documents and to US 2005/261271, EP 1586571 and WO 2005/095381.
  • carmegliptin refers to carmegliptin and pharmaceutically acceptable salts thereof, including hydrates and solvates thereof, and crystalline forms thereof.
  • a process for preparing this compound is also disclosed in WO 2008/031749, WO 2008/031750 and WO 2008/055814.
  • This compound can be formulated in a pharmaceutical composition as described in WO 2007/017423.
  • WO 2007/017423 For details, e.g. on a process to manufacture, to formulate or to use this compound or a salt thereof, reference is thus made to these documents and to WO 2005/000848.
  • melogliptin refers to melogliptin and pharmaceutically acceptable salts thereof, including hydrates and solvates thereof, and crystalline forms thereof. Methods for its preparation are inter alia disclosed in WO 2006/040625 and WO 2008/001195. Specifically claimed salts include the methanesulfonate and p-toluenesulfonate. For details, e.g. on a process to manufacture, to formulate or to use this compound or a salt thereof, reference is thus made to these documents.
  • dutogliptin refers to dutogliptin (or PHX-1149, PHX-1149T) and pharmaceutically acceptable salts thereof, including hydrates and solvates thereof, and crystalline forms thereof. Methods for its preparation are inter alia disclosed in WO 2005/047297. Pharmaceutically acceptable salts include the tartrate. For details, e.g. on a process to manufacture, to formulate or to use this compound or a salt thereof, reference is thus made to these documents.
  • the third antidiabetic agent is selected from the group G3 consisting of biguanides, thiazolidindiones, sulfonylureas, glinides, inhibitors of alpha-glucosidase, GLP-1 analogues or a pharmaceutically acceptable salt thereof.
  • G3 consisting of biguanides, thiazolidindiones, sulfonylureas, glinides, inhibitors of alpha-glucosidase, GLP-1 analogues or a pharmaceutically acceptable salt thereof.
  • the group G3 comprises biguanides.
  • biguanides are metformin, phenformin and buformin.
  • a preferred biguanide is metformin.
  • An SGLT2 inhibitor and a DPPIV inhibitor in combination with a biguanide, in particular metformin, can provide more efficacious glycemic control and may act synergistically with the biguanide, for example to reduce weight that has overall beneficial effects on the metabolic syndrome which is commonly associated with type 2 diabetes mellitus.
  • metformin refers to metformin or a pharmaceutically acceptable salt thereof such as the hydrochloride salt, the metformin (2:1) fumarate salt, and the metformin (2:1) succinate salt, the hydrobromide salt, the p-chlorophenoxy acetate or the embonate, and other known metformin salts of mono and dibasic carboxylic acids. It is preferred that the metformin employed herein is the metformin hydrochloride salt.
  • the group G3 comprises thiazolidindiones.
  • thiazolidindiones are pioglitazone and rosiglitazone.
  • TZD therapy is associated with massive weight gain and fat redistribution.
  • TZD cause fluid retention and are not indicated in patients with congestive heart failure.
  • Long term treatment with TZD are further associated with an increased risk of bone fractures.
  • the advantageous properties, like the weight reducing capability, of a SGLT2 inhibitor and a DPPIV inhibitor can minimize side effects of the treatment with TZD.
  • pioglitazone refers to pioglitazone, including its enantiomers, mixtures thereof and its racemate, or a pharmaceutically acceptable salt thereof such as the hydrochloride salt.
  • rosiglitazone refers to rosiglitazone, including its enantiomers, mixtures thereof and its racemate, or a pharmaceutically acceptable salt thereof such as the maleate salt.
  • the group G3 comprises sulfonylureas.
  • sulfonylureas are glibenclamide, tolbutamide, glimepiride, glipizide, gliquidone, glibornuride, glyburide, glisoxepide and gliclazide.
  • Preferred sulfonylureas are tolbutamide, gliquidone, glibenclamide and glimepiride, in particular glibenclamide and glimepiride.
  • a combination of an SGLT2 inhibitor and a DPPIV inhibitor with a sulfonylurea may offer additional benefit to the patient in terms of better glycemic control.
  • treatment with sulfonylureas is normally associated with gradual weight gain over the course of treatment and weight reducing capability of a SGLT2 inhibitor and a DPPIV inhibitor can minimize this side effect of the treatment with an sulfonylurea and improve the metabolic syndrome.
  • This combination may also allow a reduction in the dose of sulfonylureas which may translate into less hypoglycemia which is an undesirable side effect of sulfonylureas.
  • glibenclamide refers to the respective active drug or a pharmaceutically acceptable salt thereof.
  • the group G3 comprises glinides.
  • glinides are nateglinide, repaglinide and mitiglinide.
  • a combination of a SGLT2 inhibitor with a meglitinide may offer additional benefit to the patient in terms of better glycemic control.
  • treatment with meglitinides is normally associated with gradual weight gain over the course of treatment and weight reducing capability of a SGLT2 inhibitor can minimize this side effect of the treatment with an meglitinide and improve the metabolic syndrome.
  • This combination may also allow a reduction in the dose of meglitinides which may translate into less hypoglycemia which is an undesirable side effect of meglitinides.
  • nateglinide refers to nateglinide, including its enantiomers, mixtures thereof and its racemate, or a pharmaceutically acceptable salts and esters thereof.
  • repaglinide refers to repaglinide, including its enantiomers, mixtures thereof and its racemate, or a pharmaceutically acceptable salts and esters thereof.
  • the group G3 comprises inhibitors of alpha-glucosidase.
  • Examples of inhibitors of alpha-glucosidase are acarbose, voglibose and miglitol. Additional benefits from the combination of an SGLT2 inhibitor, a DPPIV inhibitor and an alpha-glucosidase inhibitor may relate to more efficacious glycemic control at lower doses of the individual drugs, which in particular would reduce undesirable gastrointestinal side effects of alpha-glucosidase inhibitors. An additional benefit would be that the combination may result in higher systemic levels of systemic GLP-1 than the respective monotherapies with expected long-term benefits on pancreatic alpha- and beta-cells.
  • acarbose refers to the respective active drug or a pharmaceutically acceptable salt thereof.
  • the group G3 comprises inhibitors of GLP-1 analogues.
  • GLP-1 analogues are exenatide and liraglutide.
  • the combination of an SGLT2 inhibitor, a DPPIV inhibitor and a GLP-1 analogue may achieve a superior glycemic control at lower doses of the individual drugs.
  • the body weight reducing capability of the GLP-1 analogue is expected to be further enhanced by the potential for body weight control of the DPPIV inhibitor and the SGLT2 inhibitor.
  • a reduction of side effects e.g. nausea, vomiting
  • a reduced dose of the GLP-1 analogue is applied in the combination with a DPP IV and a SGLT2 inhibitor.
  • the pharmaceutical compositions, methods and uses according to this invention preferably relate to combinations wherein the SGLT2 inhibitor is selected from glucopyranosyl-substituted benzene derivatives of the formula (I)
  • the SGLT2 inhibitor is selected from group of compounds (I.1) to (I.11) as defined hereinbefore. Most preferably according to the first embodiment the SGLT2 inhibitor is the compound (I.9). According to the first embodiment the DPPIV inhibitor and the third antidiabetic agent are preferably selected according to the entries in the Table 1.
  • the pharmaceutical compositions, methods and uses according to this invention preferably relate to combinations wherein the DPPIV inhibitor is linagliptin.
  • the SGLT2 inhibitor and the third antidiabetic agent are preferably selected according to the entries in the Table 2.
  • the combination of an SGLT2 inhibitor, a DPPIV inhibitor and a third antidiabetic agent according to this invention significantly improves the glycemic control, in particular in patients as described hereinafter, compared with a monotherapy using either a SGLT2 inhibitor or a DPP IV inhibitor or the third antidiabetic agent alone, for example with a monotherapy of metformin.
  • the combination of an SGLT2 inhibitor, a DPPIV inhibitor and a third antidiabetic agent improves the glycemic control, in particular in patients as described hereinafter, compared with a combination therapy using an SGLT2 inhibitor and a DPP IV inhibitor or using an SGLT2 inhibitor and the third antidiabetic agent or using a DPPIV inhibitor and the third antidiabetic agent.
  • the improved glycemic control is determined as an increased lowering of blood glucose and an increased reduction of HbA1c.
  • the glycemic control can usually not be further improved significantly by an administration of the drug above a certain highest dose.
  • a long term treatment using a highest dose may be unwanted in view of potential side effects. Therefore, a satisfying glycemic control cannot be achieved in all patients via a monotherapy using either the SLGT2 inhibitor or the DPP IV inhibitor or the third antidiabetic agent alone. Even with combination therapy using only two agents selected from the SGLT2 inhibitors, DPPIV inhibitors and third antidiabetic agents may not yield in a full glycemic control in all patients and/or over a long time. In such patients a progression of the diabetes mellitus may continue and complications associated with diabetes mellitus may occur, such as macrovascular complications.
  • the pharmaceutical composition as well as the methods according to the present invention allow a reduction of the HbA1c value to a desired target range, for example ⁇ 7% and preferably ⁇ 6.5%, for a higher number of patients and for a longer time of therapeutic treatment compared with a corresponding monotherapy or a therapy using only two of the combination partners.
  • the combination of an SGLT2 inhibitor, a DPP IV inhibitor and the third therapeutic agent according to this invention allows a reduction in the dose of either the SGLT2 inhibitor, the DPP IV inhibitor or the third antidiabetic agent or even of two or three of the active ingredients.
  • a dose reduction is beneficial for patients which otherwise would potentially suffer from side effects in a therapy using a higher dose of one or more of the active ingredients, in particular with regard to side effect caused by the third antidiabetic agent. Therefore, the pharmaceutical composition as well as the methods according to the present invention, show less side effects, thereby making the therapy more tolerable and improving the patients compliance with the treatment.
  • a monotherapy using a DPP IV inhibitor or a combination therapy using a DPPIV inhibitor and a third antidiabetic agent according to the present invention is not independent from the insulin secretory capacity or the insulin sensitivity of a patient.
  • a treatment with the administration of a SGLT2 inhibitor according the present invention does not depend on the insulin secretory capacity or the insulin sensitivity of the patient. Therefore, any patient independent of the prevailing insulin levels or insulin resistance and/or hyperinsulinemia may benefit from a therapy using a combination of a SGLT2 inhibitor with a DPPIV inhibitor and a third antidiabetic agent according to this invention. Independent of their prevailing insulin levels or their insulin resistance or hyperinsulinemia these patients can still be treated with a combination of the DPP IV inhibitor and the third antidiabetic agent because of the combined or alternate administration of the SGLT2 inhibitor.
  • a DPP IV inhibitor according to the present invention is able—via the increases in active GLP-1 levels—to reduce the glucagon secretion in a patient. This will therefore limit the hepatic glucose production. Furthermore, the elevated active GLP-1 levels produced by the DPP IV inhibitor will have beneficial effects on beta-cell regeneration and neogenesis. All these features of DPP IV inhibitors render a combination with a SGLT2 inhibitor quite useful and therapeutically relevant.
  • this invention refers to patients requiring treatment or prevention, it relates primarily to treatment and prevention in humans, but the pharmaceutical composition may also be used accordingly in veterinary medicine in mammals.
  • adult patients are preferably humans of the age of 18 years or older.
  • patients are adolescent humans, i.e. humans of age 10 to 17 years, preferably of age 13 to 17 years. It is assumed that in a adolescent population the administration of the pharmaceutical composition according to the invention a very good HbA1c lowering and a very good lowering of the fasting plasma glucose can be seen. In addition it is assumed that in an adolescent population, in particular in overweight and/or obese patients, a pronounced weight loss can be observed.
  • a treatment or prophylaxis according to this invention is advantageously suitable in those patients in need of such treatment or prophylaxis who are diagnosed of one or more of the conditions selected from the group consisting of overweight and obesity, in particular class I obesity, class II obesity, class III obesity, visceral obesity and abdominal obesity.
  • a treatment or prophylaxis according to this invention is advantageously suitable in those patients in which a weight increase is contraindicated. Any weight increasing effect in the therapy, for example due to the administration of the third antidiabetic agent, may be attenuated or even avoided thereby.
  • the pharmaceutical composition according to this invention and in particular the SGLT2 inhibitor therein exhibits a very good efficacy with regard to glycemic control, in particular in view of a reduction of fasting plasma glucose, postprandial plasma glucose and/or glycosylated hemoglobin (HbA1c).
  • HbA1c fasting plasma glucose, postprandial plasma glucose and/or glycosylated hemoglobin
  • the present invention also discloses the use of the pharmaceutical composition for improving glycemic control in patients having type 2 diabetes or showing first signs of pre-diabetes.
  • the invention also includes diabetes prevention. If therefore a pharmaceutical composition according to this invention is used to improve the glycemic control as soon as one of the above-mentioned signs of pre-diabetes is present, the onset of manifest type 2 diabetes mellitus can be delayed or prevented.
  • the pharmaceutical composition according to this invention is particularly suitable in the treatment of patients with insulin dependency, i.e. in patients who are treated or otherwise would be treated or need treatment with an insulin or a derivative of insulin or a substitute of insulin or a formulation comprising an insulin or a derivative or substitute thereof.
  • patients include patients with diabetes type 2 and patients with diabetes type
  • ITT impaired glucose tolerance
  • IGF impaired fasting blood glucose
  • a method for improving glycemic control in patients, in particular in adult patients, with type 2 diabetes mellitus as an adjunct to diet and exercise is provided.
  • a pharmaceutical composition according to this invention an improvement of the glycemic control can be achieved even in those patients who have insufficient glycemic control in particular despite treatment with an antidiabetic drug, for example despite maximal recommended or tolerated dose of oral monotherapy with metformin, a SGLT2 inhibitor or a DPPIV inhibitor or a combination of metformin with a SGLT2 inhibitor or a combination of metformin with a DPPIV inhibitor, in particular a SGLT2 inhibitor according to this invention, or a DPP IV inhibitor according to this invention.
  • a maximal recommended or tolerated dose with regard to metformin is for example 2000 mg per day, 1500 mg per day (for example in asian countries) or 850 mg three times a day or any equivalent thereof.
  • a maximal recommended or tolerated dose with regard to a SGLT2 inhibitor according to this invention, in particular with regard to the compound (I.9), is for example 100 mg or 50 mg or even 25 mg or 10 mg once per day or any equivalent thereof.
  • a maximal recommended or tolerated dose with regard to linagliptin is for example 10 mg, preferably 5 mg once daily or any equivalent thereof.
  • a maximal recommended or tolerated dose with regard to sitagliptin is for example 100 mg once daily or any equivalent thereof.
  • a pharmaceutical composition according to this invention is particularly suitable in the treatment of patients who are diagnosed having one or more of the following conditions
  • composition according to this invention is particularly suitable in the treatment of patients who are diagnosed having one or more of the following conditions
  • ITT impaired glucose tolerance
  • IGF impaired fasting blood glucose
  • metabolic syndrome suffer from an increased risk of developing a cardiovascular disease, such as for example myocardial infarction, coronary heart disease, heart insufficiency, thromboembolic events.
  • a glycemic control according to this invention may result in a reduction of the cardiovascular risks.
  • compositions and the methods according to this invention are particularly suitable in the treatment of patients after organ transplantation, in particular those patients who are diagnosed having one or more of the following conditions
  • compositions and the methods according to this invention are particularly suitable in the treatment of patients who are diagnosed having one or more of the following conditions:
  • the patient may be a diabetic or non-diabetic mammal, in particular human.
  • compositions and the methods according to this invention are particularly suitable in the treatment of patients who are diagnosed having one or more of the following conditions:
  • a pharmaceutical composition according to this invention in particular due to the SGLT2 inhibitor and the DPPIV inhibitor therein, exhibits a good safety profile. Therefore, a treatment or prophylaxis according to this invention is advantageously possible in those patients for which the mono-therapy with another antidiabetic drug, such as for example metformin, is contraindicated and/or who have an intolerance against such drugs at therapeutic doses.
  • another antidiabetic drug such as for example metformin
  • a treatment or prophylaxis according to this invention may be advantageously possible in those patients showing or having an increased risk for one or more of the following disorders: renal insufficiency or diseases, cardiac diseases, cardiac failure, hepatic diseases, pulmonal diseases, catabolytic states and/or danger of lactate acidosis, or female patients being pregnant or during lactation.
  • a pharmaceutical composition according to this invention results in no risk or in a low risk of hypoglycemia. Therefore, a treatment or prophylaxis according to this invention is also advantageously possible in those patients showing or having an increased risk for hypoglycemia.
  • a pharmaceutical composition according to this invention is particularly suitable in the long term treatment or prophylaxis of the diseases and/or conditions as described hereinbefore and hereinafter, in particular in the long term glycemic control in patients with type 2 diabetes mellitus.
  • long term indicates a treatment of or administration in a patient within a period of time longer than 12 weeks, preferably longer than 25 weeks, even more preferably longer than 1 year.
  • a particularly preferred embodiment of the present invention provides a method for therapy, preferably oral therapy, for improvement, especially long term improvement, of glycemic control in patients with type 2 diabetes mellitus, especially in patients with late stage type 2 diabetes mellitus, in particular in patients additionally diagnosed of overweight, obesity (including class I, class II and/or class III obesity), visceral obesity and/or abdominal obesity.
  • a method for therapy preferably oral therapy, for improvement, especially long term improvement, of glycemic control in patients with type 2 diabetes mellitus, especially in patients with late stage type 2 diabetes mellitus, in particular in patients additionally diagnosed of overweight, obesity (including class I, class II and/or class III obesity), visceral obesity and/or abdominal obesity.
  • the amount of the pharmaceutical composition according to this invention to be administered to the patient and required for use in treatment or prophylaxis according to the present invention will vary with the route of administration, the nature and severity of the condition for which treatment or prophylaxis is required, the age, weight and condition of the patient, concomitant medication and will be ultimately at the discretion of the attendant physician.
  • the SGLT2 inhibitor, the DPP IV inhibitor and the third antidiabetic agent according to this invention are included in the pharmaceutical composition or dosage form in an amount sufficient that by their administration in combination and/or alternation the glycemic control in the patient to be treated is improved.
  • the SGLT2 inhibitor according to this invention is included in the pharmaceutical composition or dosage form in an amount sufficient that is sufficient to treat hyperuricemia without disturbing the patient's plasma glucose homeostasis, in particular without inducing hypoglycemia.
  • the SGLT2 inhibitor according to this invention is included in the pharmaceutical composition or dosage form in an amount sufficient that is sufficient to treat or prevent kidney stones without disturbing the patient's plasma glucose homeostasis, in particular without inducing hypoglycemia.
  • the SGLT2 inhibitor according to this invention is included in the pharmaceutical composition or dosage form in an amount sufficient that is sufficient to treat hyponatremia or the associated conditions without disturbing the patient's plasma glucose homeostasis, in particular without inducing hypoglycemia.
  • the amount of the SGLT2 inhibitor, the DPP IV inhibitor and the third antidiabetic agent to be employed in the pharmaceutical composition and the methods and uses according to this invention are described. These ranges refer to the amounts to be administered per day with respect to an adult patient, in particular to a human being, for example of approximately 70 kg body weight, and can be adapted accordingly with regard to an administration 2, 3, 4 or more times daily and with regard to other routes of administration and with regard to the age of the patient. The ranges of the dosage and amounts are calculated for the individual active moiety.
  • the combination therapy according to the present invention utilizes lower dosages of the individual SGLT2 inhibitor, of the individual DPP IV inhibitor and/or of the individual third antidiabetic agent used in monotherapy or used in conventional therapeutics, thus avoiding possible toxicity and adverse side effects incurred when those agents are used as monotherapies.
  • the pharmaceutical composition is preferably administered orally.
  • Other forms of administration are possible and described hereinafter.
  • the one or more dosage forms comprising the SGLT2 inhibitor, the DPPIV inhibitor and/or the third antidiabetic agent is oral or usually well known.
  • the amount of the SGLT2 inhibitor in the pharmaceutical composition and methods according to this invention is preferably in the range from 1/5 to 1/1 of the amount usually recommended for a monotherapy using said SGLT2 inhibitor.
  • the preferred dosage range of the SGLT2 inhibitor is in the range from 0.5 mg to 200 mg, even more preferably from 1 to 100 mg, most preferably from 1 to 50 mg per day.
  • the oral administration is preferred. Therefore, a pharmaceutical composition may comprise the hereinbefore mentioned amounts, in particular from 1 to 50 mg or 1 to 25 mg.
  • Particular dosage strengths e.g. per tablet or capsule
  • the application of the active ingredient may occur up to three times a day, preferably one or two times a day.
  • the amount of the DPP IV inhibitor in the pharmaceutical composition and methods according to this invention is preferably in the range from 1/5 to 1/1 of the amount usually recommended for a monotherapy using said DPP IV inhibitor.
  • a preferred dosage range of linagliptin when administered orally is 0.5 mg to 10 mg per day, preferably 2.5 mg to 10 mg, most preferably 1 mg to 5 mg per day.
  • the preferred range of amounts in the pharmaceutical composition is 0.5 to 10 mg, in particular 1 to 5 mg. Examples of particular dosage strengths are 1, 2.5, 5 or 10 mg.
  • the application of the active ingredient may occur up to three times a day, preferably one or two times a day.
  • Suitable formulations for linagliptin may be those formulations disclosed in the application WO 2007/128724, the disclosure of which is incorporated herein in its entirety.
  • a preferred dosage range of sitagliptin when administered orally is from 10 to 200 mg, in particular 25 to 150 mg per day.
  • a recommended dose of sitagliptin is 100 mg calculated for the active moiety (free base anhydrate) once daily or 50 mg twice daily.
  • the preferred range of amounts in the pharmaceutical composition is 10 to 150 mg, in particular 25 to 100 mg. Examples are 25, 50, 75 or 100 mg.
  • the application of the active ingredient may occur up to three times a day, preferably one or two times a day. Equivalent amounts of salts of sitagliptin, in particular of the phosphate monohydrate can be calculated accordingly. Adjusted dosages of sitagliptin, for example 25 and 50 mg, are preferably used for patients with renal failure.
  • a preferred dosage range of vildagliptin when administered orally is from 10 to 150 mg daily, in particular from 25 to 150 mg, 25 and 100 mg or 25 and 50 mg or 50 and 100 mg daily.
  • the daily administration of vildagliptin is 50 or 100 mg.
  • the preferred range of amounts in the pharmaceutical composition is 10 to 150 mg, in particular 25 to 100 mg. Examples are 25, 50, 75 or 100 mg.
  • the application of the active ingredient may occur up to three times a day, preferably one or two times a day.
  • a preferred dosage range of alogliptin when administered orally is from 5 to 250 mg daily, in particular from 10 to 150 mg daily.
  • the preferred range of amounts in the pharmaceutical composition is 5 to 150 mg, in particular 10 to 100 mg. Examples are 10, 12.5, 20, 25, 50, 75 and 100 mg.
  • the application of the active ingredient may occur up to three times a day, preferably one or two times a day.
  • a preferred dosage range of saxagliptin when administered orally is from 2.5 to 100 mg daily, in particular from 2.5 to 50 mg daily.
  • the preferred range of amounts in the pharmaceutical composition is from 2.5 to 100 mg, in particular from 2.5 and 50 mg. Examples are 2.5, 5, 10, 15, 20, 30, 40, 50 and 100 mg.
  • the application of the active ingredient may occur up to three times a day, preferably one or two times a day.
  • a preferred dosage range of dutogliptin when administered orally is from 50 to 400 mg daily, in particular from 100 to 400 mg daily.
  • the preferred range of amounts in the pharmaceutical composition is from 50 to 400 mg. Examples are 50, 100, 200, 300 and 400 mg.
  • the application of the active ingredient may occur up to three times a day, preferably one or two times a day.
  • the amount of the third antidiabetic agent in the pharmaceutical composition and methods according to this invention is preferably in the range from 1/5 to 1/1 of the amount usually recommended for a monotherapy using said antidiabetic agent.
  • Using lower dosages of the individual third antidiabetic agent compared with monotherapy could avoid or minimize possible toxicity and adverse side effects incurred when those agents are used as monotherapies.
  • a preferred dosage range of metformin when administered orally is 250 to 3000 mg, in particular 500 to 2000 mg per day.
  • the preferred range of amounts in the pharmaceutical composition is 250 to 1000, in particular 500 to 1000 mg or 250 to 850 mg respectively. Examples are 500, 750, 850 or 1000 mg.
  • the administration of said amounts is once, twice or three times daily.
  • the amounts of 500, 750 and 850 mg preferably require once-daily, twice-daily or three-times daily dosing and the amount of 1000 mg preferably requires once-daily or twice-daily dosing.
  • Certain controlled or sustained release formulations allow a once-daily dosing.
  • Metformin can be administered for example in the form as marketed under the trademarks GLUCOPHAGETM, GLUCOPHAGE-DTM or GLUCOPHAGE-XRTM.
  • a preferred dosage range of pioglitazone when administered orally is 5 to 50 mg per day.
  • the preferred range of amounts in the pharmaceutical composition is 5 to 50 mg, 10 to 45 mg and 15 to 45 mg respectively. Examples are 15, 30 or 45 mg.
  • Preferably the administration of said amounts is once or twice daily, in particular once daily.
  • Pioglitazone can be administered in the form as it is marketed for example under the trademark ACTOSTM.
  • a preferred dosage range of rosiglitazone when administered orally is 1 mg to 10 mg per day.
  • the preferred range of amounts in the pharmaceutical composition is 1 to 10 mg, 2 to 8 mg, 4 to 8 mg and 1 to 4 mg. Examples are 1, 2, 4 or 8 mg.
  • the administration of said amounts is once or twice daily.
  • the dose should not exceed 8 mg daily.
  • Rosiglitazone can be administered in the form as it is marketed for example under the trademark AVANDIATM.
  • a preferred dosage range of a thiazolidindione (other than pioglitazone or rosiglitazone as described above) when administered orally is 2 to 100 mg per day.
  • the preferred range of amounts in the pharmaceutical composition for an administration once, twice or three times daily is 2 to 100, 1 to 50 and 1 to 33 mg respectively.
  • a preferred dosage range of glibenclamide when administered orally is 0.5 to 15 mg, in particular 1 to 10 mg per day.
  • the preferred range of amounts in the pharmaceutical composition is 0.5 to 5 mg, in particular 1 to 4 mg. Examples are 1.0, 1.75 and 3.5 mg.
  • Preferably the administration of said amounts is once, twice or three-times daily.
  • Glibenclamide can be administered in the form as it is marketed for example under the trademark EUGLUCONTM.
  • a preferred dosage range of glimepiride when administered orally is 0.5 to 10 mg, in particular 1 to 6 mg per day.
  • the preferred range of amounts in the pharmaceutical composition is 0.5 to 10 mg, in particular 1 to 6 mg. Examples are 1, 2, 3, 4, and 6 mg.
  • Preferably the administration of said amounts is once, twice or three-times daily, preferably once daily.
  • Glimepiride can be administered in the form as it is marketed for example under the trademark AMARYLTM.
  • a preferred dosage range of gliquidone when administered orally is 5 to 150 mg, in particular 15 to 120 mg per day.
  • the preferred range of amounts in the pharmaceutical composition is 5 to 120 mg, in particular 5 to 30 mg. Examples are 10, 20, 30 mg.
  • Preferably the administration of said amounts is once, twice, three-times or four-times daily.
  • Gliquidone can be administered in the form as it is marketed for example under the trademark GLURENORMTM.
  • a preferred dosage range of glibornuride when administered orally is 5 to 75 mg per day.
  • the preferred range of amounts in the pharmaceutical composition is 5 to 75 mg, in particular 10 to 50 mg.
  • Preferably the administration of said amounts is once, twice or three-times daily.
  • a preferred dosage range of gliclazide when administered orally is 20 to 300 mg, in particular 40 to 240 mg per day.
  • the preferred range of amounts in the pharmaceutical composition is 20 to 240 mg, in particular 20 to 80 mg. Examples are 20, 30, 40 and 50 mg.
  • Preferably the administration of said amounts is once, twice or three-times daily.
  • a preferred dosage range of glisoxepide when administered orally is 1 to 20 mg, in particular 1 to 16 mg per day.
  • the preferred range of amounts in the pharmaceutical composition is 1 to 8 mg, in particular 1 to 4 mg.
  • Preferably the administration of said amounts is once, twice, three-times or four-times daily.
  • a preferred dosage range of tolbutamide when administered orally is 100 to 3000 mg, preferably 500 to 2000 mg per day.
  • the preferred range of amounts in the pharmaceutical composition is 100 to 1000 mg.
  • the administration of said amounts is once or twice daily.
  • a preferred dosage range of glipizide when administered orally is 1 to 50 mg, in particular 2.5 to 40 mg per day.
  • the preferred range of amounts in the pharmaceutical composition for an administration once, twice or three times daily is 1 to 50, 0.5 to 25 and 0.3 to 17 mg respectively.
  • a preferred dosage range of nateglinide when administered orally is 30 to 500 mg, in particular 60 to 360 mg per day.
  • the preferred range of amounts in the pharmaceutical composition is 30 to 120 mg. Examples are 30, 60 and 120 mg.
  • Preferably the administration of said amounts is once, twice or three-times daily.
  • Nateglinide can be administered in the form as it is marketed for example under the trademark STARLIXTM.
  • a preferred dosage range of repaglinide when administered orally is 0.1 to 16 mg, in particular 0.5 to 6 mg per day.
  • the preferred range of amounts in the pharmaceutical composition is 0.5 to 4 mg. Examples are 0.5, 1, 2 or 4 mg. Preferably the administration of said amounts is once, twice, three-times or four-times daily.
  • Repaglinide can be administered in the form as it is marketed for example under the trademark NOVONORMTM.
  • a preferred dosage range of acarbose when administered orally is 50 to 1000 mg, in particular 50 to 600 mg per day.
  • the preferred range of amounts in the pharmaceutical composition is 50 to 150 mg. Examples are 50 and 100 mg.
  • Preferably the administration of said amounts is once, twice, three-times or four-times daily.
  • Acarbose can be administered in the form as it is marketed for example under the trademark GlucobayTM.
  • a preferred dosage range of voglibose when administered orally is 100 to 1000 mg, in particular 200 to 600 mg per day.
  • the preferred range of amounts in the pharmaceutical composition is 50 to 300 mg. Examples are 50, 100, 150, 200 and 300 mg.
  • Preferably the administration of said amounts is once, twice, three-times or four-times daily.
  • Voglibose can be administered in the form as it is marketed for example under the trademark BasenTM or VoglisanTM.
  • a preferred dosage range of miglitol when administered orally is 25 to 500 mg, in particular 25 to 300 mg per day.
  • the preferred range of amounts in the pharmaceutical composition is 25 to 100 mg. Examples are 25, 50 and 100 mg.
  • Preferably the administration of said amounts is once, twice, three-times or four-times daily.
  • Miglitol can be administered in the form as it is marketed for example under the trademark GlysetTM.
  • a preferred dosage range of GLP-1 analogues, in particular of exenatide is 5 to 30 ⁇ g, in particular 5 to 20 ⁇ g per day.
  • the preferred range of amounts in the pharmaceutical composition is 5 to 10 ⁇ g. Examples are 5 and 10 ⁇ g.
  • Preferably the administration of said amounts is once, twice, three-times or four-times daily by subcutaneous injection.
  • Exenatide can be administered in the form as it is marketed for example under the trademark ByettaTM.
  • a long acting formulation, preferably for a once weekly subcutaneous injection comprises an amount from 0.1 to 3.0 mg, preferably 0.5 to 2.0 mg exenatide. Examples are 0.8 mg and 2.0 mg.
  • An example of a long acting formulation of exenatide is Byetta LARTM.
  • a preferred dosage range of liraglutide is 0.5 to 3 mg, in particular 0.5 to 2 mg per day.
  • the preferred range of amounts in the pharmaceutical composition is 0.5 to 2 mg. Examples are 0.6, 1.2 and 1.8 mg.
  • Preferably the administration of said amounts is once or twice daily by subcutaneous injection.
  • the amount of the SGLT2 inhibitor, the DPP IV inhibitor and the third therapeutic agent in the pharmaceutical composition and in the methods and uses according to this invention correspond to the respective dosage ranges as provided hereinbefore.
  • preferred dosage ranges in a pharmaceutical composition and in methods and uses according to this invention are an amount of 1 to 50 mg (in particular 1 to 25 mg) of a SGLT2 inhibitor according to the formula (I), in particular of the compound (I.9), an amount of 0.5 to 10 mg (in particular 1 to 5 mg) of linagliptin and an amount of 250 to 1000 mg (in particular 250 to 850 mg) of metformin.
  • An oral administration once or twice daily is preferred.
  • Another example of preferred dosage ranges in a pharmaceutical composition or in methods or uses according to this invention are an amount of 1 to 50 mg (in particular 1 to 25 mg) of a SGLT2 inhibitor according to the formula (I), in particular of the compound (I.9), an amount of 0.5 to 10 mg (in particular 1 to 5 mg) of linagliptin and an amount of 5 to 50 mg (in particular 10 to 45 mg) of pioglitazone.
  • An oral administration once daily is preferred.
  • Another example of preferred dosage ranges in a pharmaceutical composition or in methods or uses according to this invention are an amount of 1 to 50 mg (in particular 1 to 25 mg) of dapagliflozin, an amount of 0.5 to 10 mg (in particular 1 to 5 mg) of linagliptin and an amount of 250 to 1000 mg (in particular 250 to 850 mg) of metformin.
  • An oral administration once or twice daily is preferred.
  • Another example of preferred dosage ranges in a pharmaceutical composition or in methods or uses according to this invention are an amount of 1 to 50 mg (in particular 1 to 25 mg) of a SGLT2 inhibitor according to the formula (I), in particular of the compound (I.9), an amount of 10 to 150 mg (in particular 25 to 100 mg) of vildagliptin and an amount of 250 to 1000 mg (in particular 250 to 850 mg) of metformin.
  • An oral administration once or twice daily is preferred.
  • Another example of preferred dosage ranges in a pharmaceutical composition or in methods or uses according to this invention are an amount of 1 to 50 mg (in particular 1 to 25 mg) of a SGLT2 inhibitor according to the formula (I), in particular of the compound (I.9), an amount of 5 to 150 mg (in particular 10 to 100 mg) of alogliptin and an amount of 250 to 1000 mg (in particular 250 to 850 mg) of metformin.
  • An oral administration once or twice daily is preferred.
  • Another example of preferred dosage ranges in a pharmaceutical composition or in methods or uses according to this invention are an amount of 1 to 50 mg (in particular 1 to 25 mg) of a SGLT2 inhibitor according to the formula (I), in particular of the compound (I.9), an amount of 2.5 to 100 mg (in particular 2.5 to 50 mg) of saxagliptin and an amount of 250 to 1000 mg (in particular 250 to 850 mg) of metformin.
  • An oral administration once or twice daily is preferred.
  • the SGLT2 inhibitor and the DPP IV inhibitor and the third therapeutic agent are administered in combination or alternation.
  • administration in combination means that the active ingredients are administered at the same time, i.e. simultaneously, or essentially at the same time.
  • administration in alternation means that at first one or two active ingredients are administered and after a period of time the other two or one active ingredients are administered, i.e. at least two of the three active ingredients are administered sequentially. The period of time may be in the range from 30 min to 12 hours.
  • the administration which is in combination or in alternation may be once, twice, three times or four times daily, preferably once or twice daily.
  • all three active ingredients may be present in one single dosage form, for example in one tablet or capsule, or one or two of the active ingredients may be present in a separate dosage form, for example in two different or identical dosage forms.
  • one or two of the active ingredients are present in a separate dosage form, for example in two different or identical dosage forms.
  • the pharmaceutical composition according to this invention may be present as single dosage forms which comprise the SGLT2 inhibitor, the DPP IV inhibitor and the third antidiabetic agent.
  • the pharmaceutical composition according to this invention may be present as two separate dosage forms wherein one dosage form comprises the SGLT2 inhibitor and the other dosage form comprises the DPP IV inhibitor plus the third antidiabetic agent or one dosage form comprises the SGLT2 inhibitor plus the third antidiabetic agent and the other dosage form comprises the DPP IV inhibitor.
  • the pharmaceutical composition according to this invention may be present as three separate dosage forms wherein one dosage form comprises the SGLT2 inhibitor and a second dosage form comprises the DPP IV inhibitor and the third dosage form comprises the third antidiabetic agent.
  • the pharmaceutical composition according to the invention is characterized in that the SGLT2 inhibitor and the DPP IV inhibitor are present in a single dosage form and the third antidiabetic agent is present in a separate dosage form.
  • the pharmaceutical composition according to the invention is characterized in that the SGLT2 inhibitor and the third antidiabetic agent are present in a single dosage form and the DPPIV inhibitor is present in a separate dosage form.
  • the pharmaceutical composition according to the invention is characterized in that the DPPIV inhibitor and the third antidiabetic agent are present in a single dosage form and the SGLT2 inhibitor is present in a separate dosage form.
  • the pharmaceutical composition according to the invention is characterized in that the SGLT2 inhibitor, the DPP IV inhibitor and the third antidiabetic agent are present in a single dosage form.
  • the pharmaceutical composition according to the invention is characterized in that the SGLT2 inhibitor, the DPP IV inhibitor and the third antidiabetic agent are present each in a separate dosage form.
  • administration in combination or alternation also includes an administration scheme in which first all active ingredients are administered in combination or alternation and after a period of time only one active ingredient is administered again or vice versa.
  • the present invention also includes pharmaceutical compositions which are present in separate dosage forms wherein one dosage form comprises SGLT2 inhibitor, the DPP IV inhibitor and the third therapeutic agent and the other dosage form comprises the third therapeutic agent only.
  • a further aspect of the present invention is a manufacture comprising the pharmaceutical composition being present as separate dosage forms according to the present invention and a label or package insert comprising instructions that the separate dosage forms are to be administered in combination or alternation.
  • a manufacture comprises (a) a pharmaceutical composition comprising a SGLT2 inhibitor according to the present invention and (b) a label or package insert which comprises instructions that the medicament may or is to be administered, for example in combination or alternation, with a medicament comprising a DPP IV inhibitor according to the present invention and with a medicament comprising a third antidiabetic agent according to the present invention or with a medicament comprising both a DPPIV inhibitor and a third antidiabetic agent according to the present invention.
  • a manufacture comprises (a) a pharmaceutical composition comprising a DPP IV inhibitor according to the present invention and (b) a label or package insert which comprises instructions that the medicament may or is to be administered, for example in combination or alternation, with a medicament comprising a SGLT2 inhibitor according to the present invention and a medicament comprising a third antidiabetic agent according to the present invention or with a medicament comprising both a SGLT2 inhibitor and a third antidiabetic agent according to the present invention.
  • a manufacture comprises (a) a pharmaceutical composition comprising a DPP IV inhibitor and a third antidiabetic agent according to the present invention and (b) a label or package insert which comprises instructions that the medicament may or is to be administered, for example in combination or alternation, with a medicament comprising a SGLT2 inhibitor according to the present invention.
  • a manufacture comprises (a) a pharmaceutical composition comprising a SGLT2 inhibitor and a third antidiabetic agent according to the present invention and (b) a label or package insert which comprises instructions that the medicament may or is to be administered, for example in combination or alternation, with a medicament comprising a DPPIV inhibitor according to the present invention.
  • the desired dose of the pharmaceutical composition according to this invention may conveniently be presented in a once daily or as divided dose administered at appropriate intervals, for example as two, three or more doses per day.
  • the pharmaceutical composition may be formulated for oral, rectal, nasal, topical (including buccal and sublingual), transdermal, vaginal or parenteral (including intramuscular, sub-cutaneous and intravenous) administration in liquid or solid form or in a form suitable for administration by inhalation or insufflation. Oral administration is preferred.
  • the formulations may, where appropriate, be conveniently presented in discrete dosage units and may be prepared by any of the methods well known in the art of pharmacy. All methods include the step of bringing into association the active ingredient with one or more pharmaceutically acceptable carriers, like liquid carriers or finely divided solid carriers or both, and then, if necessary, shaping the product into the desired formulation.
  • the pharmaceutical composition may be formulated in the form of tablets, granules, fine granules, powders, capsules, caplets, soft capsules, pills, oral solutions, syrups, dry syrups, chewable tablets, troches, effervescent tablets, drops, suspension, fast dissolving tablets, oral fast-dispersing tablets, etc.
  • the pharmaceutical composition and the dosage forms preferably comprises one or more pharmaceutical acceptable carriers.
  • Preferred carriers must be “acceptable” in the sense of being compatible with the other ingredients of the formulation and not deleterious to the recipient thereof. Examples of pharmaceutically acceptable carriers are known to the one skilled in the art.
  • compositions suitable for oral administration may conveniently be presented as discrete units such as capsules, including soft gelatin capsules, cachets or tablets each containing a predetermined amount of the active ingredient; as a powder or granules; as a solution, a suspension or as an emulsion, for example as syrups, elixirs or self-emulsifying delivery systems (SEDDS).
  • the active ingredients may also be presented as a bolus, electuary or paste.
  • Tablets and capsules for oral administration may contain conventional excipients such as binding agents, fillers, lubricants, disintegrants, or wetting agents.
  • the tablets may be coated according to methods well known in the art.
  • Oral liquid preparations may be in the form of, for example, aqueous or oily suspensions, solutions, emulsions, syrups or elixirs, or may be presented as a dry product for constitution with water or other suitable vehicle before use.
  • Such liquid preparations may contain conventional additives such as suspending agents, emulsifying agents, non-aqueous vehicles (which may include edible oils), or preservatives.
  • compositions according to the invention may also be formulated for parenteral administration (e.g. by injection, for example bolus injection or continuous infusion) and may be presented in unit dose form in ampoules, pre-filled syringes, small volume infusion or in multi-dose containers with an added preservative.
  • the compositions may take such forms as suspensions, solutions, or emulsions in oily or aqueous vehicles, and may contain formulatory agents such as suspending, stabilizing and/or dispersing agents.
  • the active ingredients may be in powder form, obtained by aseptic isolation of sterile solid or by lyophilisation from solution, for constitution with a suitable vehicle, e.g. sterile, pyrogen-free water, before use.
  • compositions suitable for rectal administration wherein the carrier is a solid are most preferably presented as unit dose suppositories.
  • suitable carriers include cocoa butter and other materials commonly used in the art, and the suppositories may be conveniently formed by admixture of the active compound(s) with the softened or melted carrier(s) followed by chilling and shaping in moulds.
  • compositions and methods according to this invention show advantageous effects in the treatment and prevention of those diseases and conditions as described hereinbefore compared with pharmaceutical compositions and methods which comprise only one or two of the three active ingredients.
  • Advantageous effects may be seen for example with respect to efficacy, dosage strength, dosage frequency, pharmacodynamic properties, pharmacokinetic properties, fewer adverse effects, convenience, compliance, etc.
  • the active ingredients may be present in the form of a pharmaceutically acceptable salt.
  • Pharmaceutically acceptable salts include, without being restricted thereto, such as salts of inorganic acid like hydrochloric acid, sulfuric acid and phosphoric acid; salts of organic carboxylic acid like oxalic acid, acetic acid, citric acid, malic acid, benzoic acid, maleic acid, fumaric acid, tartaric acid, succinic acid and glutamic acid and salts of organic sulfonic acid like methanesulfonic acid and p-toluenesulfonic acid.
  • the salts can be formed by combining the compound and an acid in the appropriate amount and ratio in a solvent and decomposer. They can be also obtained by the cation or anion exchange from the form of other salts.
  • the active ingredients or a pharmaceutically acceptable salt thereof may be present in the form of a solvate such as a hydrate or alcohol adduct.
  • compositions and methods according to this invention can be tested in genetically hyperinsulinemic or diabetic animals like db/db mice, ob/ob mice, Zucker Fatty (fa/fa) rats or Zucker Diabetic Fatty (ZDF) rats.
  • they can be tested in animals with experimentally induced diabetes like HanWistar or Sprague Dawley rats pretreated with streptozotocin.
  • the effect on glycemic control of the combinations according to this invention can be tested after single dosing of the SGLT2 inhibitor and the DPP IV inhibitor and the third antidiabetic agent alone and in combination in an oral glucose tolerance test in the animal models described hereinbefore.
  • the time course of blood glucose is followed after an oral glucose challenge in overnight fasted animals.
  • the combinations according to the present invention significantly improve glucose excursion compared to each monotherapy or dual-combination therapy using a combination of only two of the three active ingredients as measured by reduction of peak glucose concentrations or reduction of glucose AUC.
  • the effect on glycemic control can be determined by measuring the HbA1c value in blood.
  • the combinations according to this invention significantly reduce HbA1c compared to each monotherapy or compared to a dual-combination therapy, i.e. using a combination of only two of the three active ingredients, for example employing the SGLT2 inhibitor plus the third antidiabetic agent or the DPPIV inhibitor and the third therapeutic agent.
  • the possible dose reduction of one or more of the SGLT2 inhibitor, the DPPIV inhibitor and the third antidiabetic agent can be tested by the effect on glycemic control of lower doses of the combinations and monotherapies or dual-combination therapies in the animal models described hereinbefore.
  • the combinations according to this invention at the lower doses significantly improve glycemic control compared to placebo treatment whereas the monotherapies or dual-combination therapies at lower doses do not.
  • the improved independence from insulin of the treatment according to this invention can be shown after single dosing in oral glucose tolerance tests in the animal models described hereinbefore.
  • the time course of plasma insulin is followed after a glucose challenge in overnight fasted animals.
  • the SGLT2 inhibitor in combination with the DPP IV inhibitor and the third antidiabetic agent will exhibit lower insulin peak concentrations or insulin AUC at lower blood glucose excursion than the DPP IV inhibitor alone.
  • the increase in active GLP-1 levels by treatment according to this invention after single or multiple dosing can be determined by measuring those levels in the plasma of animal models described hereinbefore in either the fasting or postprandial state. Likewise, a reduction in glucagon levels in plasma can be measured under the same conditions.
  • the SGLT2 inhibitor in combination with the DPP IV inhibitor and the third antidiabetic agent will exhibit higher active GLP-1 concentrations and lower glucagon concentrations than the SGLT2 inhibitor alone.
  • a superior effect of the combination of a SGLT2 inhibitor, a DPP IV inhibitor and a third antidiabetic agent according to the present invention on beta-cell regeneration and neogenesis can be determined after multiple dosing in the animal models described hereinbefore by measuring the increase in pancreatic insulin content, or by measuring increased beta-cell mass by morphometric analysis after immunhistochemical staining of pancreatic sections, or by measuring increased glucose-stimulated insulin secretion in isolated pancreatic islets.
  • an oral glucose tolerance test is performed in overnight fasted male Zucker rats (Crl:ZUC(Orl)Lepr fa ) or Zucker Diabetic Fatty (ZDF) rats (ZDF/Crl-Lepr fa /Crl).
  • a pre-dose blood sample is obtained by tail bleed.
  • the groups receive a single oral administration of either vehicle alone (0.5% aqueous hydroxyethylcellulose containing 0.015% Polysorbat 80) or vehicle containing either the SGLT2 inhibitor or the DPPIV inhibitor or the third antidiabetic agent or the combination of the SGLT2 inhibitor plus the DPP IV inhibitor plus the third antidiabetic agent.
  • the test can also be performed after multiple administrations of the respective drugs to account for anti-diabetic effects that need longer to become evident like in the case of thiazolidindiones.
  • the animals receive an oral glucose load (2 g/kg) 30 min after compound administration. Blood glucose is measured in tail blood 30 min, 60 min, 90 min, and 120 min after the glucose challenge.
  • Glucose excursion is quantified by calculating the glucose AUC. The data are presented as mean ⁇ SEM. The two-sided unpaired Student t-test is used for statistical comparison of the control group and the active groups. Statistical comparisons are conducted by Student's t test.
  • the following specific example shows the superior effect on glycemic control of the combination of the SGLT2 inhibitor (I.9) with the DPPIV inhibitor linagliptin and with metformin as a third antidiabetic agent as compared to the respective monotherapies and double combinations.
  • All experimental protocols concerning the use of laboratory animals were reviewed by a federal Ethics Committee and approved by governmental authorities.
  • An oral glucose tolerance test was performed after single oral dosing in overnight fasted male Zucker rats as described above. Control animals received vehicle only.
  • Compound A is the glucopyranosyl-substituted benzene derivative (I.9) at a dose of 0.5 mg/kg body weight.
  • Compound B is linagliptin at a dose of 0.5 mg/kg body weight.
  • Met is metformin at a dose of 50 mg/kg body weight.
  • the compounds were administered together at the same doses as in the respective monotherapies. The result is shown in FIG. 1 .
  • P values for comparison versus control are indicated by symbols above the bars.
  • P values for comparison of the triple combination of the glucopyranosyl-substituted benzene derivative, linagliptin and metformin with the respective double combinations and monotherapies are indicated below the figure (#, p ⁇ 0.1; *, p ⁇ 0.05; **, p ⁇ 0.01; ***, p ⁇ 0.001).
  • a p value below 0.05 is considered as being statistically significant, and a p value between 0.1 and 0.05 is regarded as showing a trend.
  • a complete set of p values for comparison of all groups is given in the following Table 3.
  • an oral glucose tolerance test is performed in overnight fasted male Sprague Dawley rats (Crl:CD(SD)) with a body weight of about 200 g.
  • a pre-dose blood sample is obtained by tail bleed.
  • the groups receive a single oral administration of either vehicle alone (0.5% aqueous hydroxyethylcellulose containing 0.015% Polysorbat 80) or vehicle containing either the SGLT2 inhibitor or the DPPIV inhibitor or the third antidiabetic agent or the combination of the SGLT2 inhibitor plus the DPP IV inhibitor plus the third antidiabetic agent.
  • the groups receive a single oral administration of either vehicle alone or vehicle containing either the SGLT2 inhibitor or the DPPIV inhibitor plus the third antidiabetic agent or the third antidiabetic agent or the combination of the SGLT2 inhibitor plus the DPP IV inhibitor plus the third antidiabetic agent.
  • the test can also be performed after multiple administrations of the respective drugs to account for anti-diabetic effects that need longer to become evident like in the case of thiazolidindiones.
  • the animals receive an oral glucose load (2 g/kg) 30 min after compound administration. Blood glucose is measured in tail blood 30 min, 60 min, 90 min, and 120 min after the glucose challenge. Glucose excursion is quantified by calculating the glucose AUC. The data are presented as mean ⁇ S.E.M. Statistical comparisons are conducted by Student's t test.
  • the efficacy of a pharmaceutical composition according to the invention in the treatment of pre-diabetes characterised by pathological fasting glucose and/or impaired glucose tolerance can be tested using clinical studies. In studies over a shorter period (e.g. 2-4 weeks) the success of the treatment is examined by determining the fasting glucose values and/or the glucose values after a meal or after a loading test (oral glucose tolerance test or food tolerance test after a defined meal) after the end of the period of therapy for the study and comparing them with the values before the start of the study and/or with those of a placebo group. In addition, the fructosamine value can be determined before and after therapy and compared with the initial value and/or the placebo value.
  • a significant drop in the fasting or non-fasting glucose levels demonstrates the efficacy of the treatment.
  • the success of the treatment is tested by determining the HbA1c value, by comparison with the initial value and/or with the value of the placebo group.
  • a significant change in the HbA1c value compared with the initial value and/or the placebo value demonstrates the efficacy of the combination according to the invention for treating pre-diabetes.
  • Treating patients with pathological fasting glucose and/or impaired glucose tolerance is also in pursuit of the goal of preventing the transition to manifest type 2 diabetes.
  • the efficacy of a treatment can be investigated in a comparative clinical study in which pre-diabetes patients are treated over a lengthy period (e.g. 1-5 years) with either a pharmaceutical composition according to this invention or with placebo or with a non-drug therapy or other medicaments.
  • a loading test e.g. oGTT
  • Treating patients with type 2 diabetes with the pharmaceutical composition according to the invention in addition to producing an acute improvement in the glucose metabolic situation, prevents a deterioration in the metabolic situation in the long term. This can be observed is patients are treated for a longer period, e.g. 3 months to 1 year or even 1 to 6 years, with the pharmaceutical composition according to the invention and are compared with patients who have been treated with other antidiabetic medicaments. There is evidence of therapeutic success compared with patients treated with other antidiabetic medicaments if no or only a slight increase in the fasting glucose and/or HbA1c value is observed.
  • type 2 diabetes or pre-diabetes patients with a pharmaceutical composition according to the invention prevents or reduces or reduces the risk of developing microvascular complications (e.g. diabetic neuropathy, diabetic retinopathy, diabetic nephropathy, diabetic foot, diabetic ulcer) or macrovascular complications (e.g. myocardial infarct, acute coronary syndrome, unstable angina pectoris, stable angina pectoris, stroke, peripheral arterial occlusive disease, cardiomyopathy, heart failure, heart rhythm disorders, vascular restenosis).
  • microvascular complications e.g. diabetic neuropathy, diabetic retinopathy, diabetic nephropathy, diabetic foot, diabetic ulcer
  • macrovascular complications e.g. myocardial infarct, acute coronary syndrome, unstable angina pectoris, stable angina pectoris, stroke, peripheral arterial occlusive disease, cardiomyopathy, heart failure, heart rhythm disorders, vascular restenosis.
  • Type 2 diabetes or patients with pre-diabetes are treated long-
  • the nerve conduction rate can be measured using a calibrated tuning fork, for example.
  • the following parameters may be investigated before the start, during and at the end of the study: secretion of albumin, creatinine clearance, serum creatinin values, time taken for the serum creatinine values to double, time taken until dialysis becomes necessary.
  • the efficacy of a pharmaceutical composition according to the invention can be tested in clinical studies with varying run times (e.g. 12 weeks to 6 years) by determining the fasting glucose or non-fasting glucose (e.g. after a meal or a loading test with oGTT or a defined meal) or the HbA1c value.
  • Examples of this are a reduction in systolic and/or diastolic blood pressure, a lowering of the plasma triglycerides, a reduction in total or LDL cholesterol, an increase in HDL cholesterol or a reduction in weight, either compared with the starting value at the beginning of the study or in comparison with a group of patients treated with placebo or a different therapy.
  • Treatment of patients after organ transplantation with the pharmaceutical composition according to the invention prevents the development of NODAT and/or PTMS, and associated complications.
  • the efficacy of the treatment can be investigated in a comparative clinical study in which patients before or immediately after transplantation are treated over a lengthy period (e.g. 1-5 years) with either a pharmaceutical composition according to this intervention or with a placebo or with a non-drug therapy or other medicaments.
  • a pharmaceutical composition according to this intervention or with a placebo or with a non-drug therapy or other medicaments.
  • the incidence of NODAT, PTMS, micro- and macrovascular complications, graft rejection, infection and death will be assessed.
  • a significant reduction in the number of patients experiencing these complications demonstrates the efficacy in preventing development of NODAT, PTMS, and associated complications.
  • Treatment of patients with NODAT and/or PTMS with the pharmaceutical composition according to the invention prevents, delays or reduces the development of NODAT/PTMS associated complications.
  • the efficacy of the treatment can be investigated in a comparative clinical study in which patients with NODAT and/or PTMS are treated over a lengthy period (e.g. 1-5 years) with either a pharmaceutical composition according to this intervention or with a placebo or with a non-drug therapy or other medicaments.
  • a pharmaceutical composition according to this intervention or with a placebo or with a non-drug therapy or other medicaments.
  • the incidence of micro- and macrovascular complications, graft rejection, infection and death will be assessed.
  • a significant reduction in the number of patients experiencing these complications demonstrates the efficacy in preventing, delaying or reducing the development of NODAT and/or PTMS associated complications.
  • the success of the treatment is checked by determining the fasting glucose values and/or the glucose values after a meal or after a loading test (oral glucose tolerance test or food tolerance test after a defined meal) at the end of the therapeutic period of the study and comparing them with the values before the start of the study and/or with those of a placebo group.
  • the fructosamine value can be determined before and after treatment and compared with the initial value and/or a placebo value.
  • HbA1c value compared with initial value and placebo group.
  • a significant change in the HbA1c value compared with the starting value and/or placebo value demonstrates the efficacy of the pharmaceutical composition according to the invention in the treatment of gestational diabetes.
  • Patients with gestational diabetes have a significantly increased risk of contracting manifest type 2 diabetes after the pregnancy. Therapy may be provided with the objective of preventing the transition to manifest type 2.
  • women with a history of gestational diabetes are treated either with a pharmaceutical composition according to the invention or with placebo or with a non-drug therapy or with other medicaments, over a lengthy period (e.g. 1-4 years).
  • a check is carried out by determining the fasting glucose and/or by a loading test (e.g. oGTT) to see how many patients have developed manifest type 2 diabetes (fasting glucose level>125 mg/dl and/or 2 h value after oGTT>199 mg/dl).
  • a loading test e.g. oGTT
  • Therapy may be provided with the objective of lowering serum levels of uric acid as a means of preventing future episodes or flare-ups of gout or gouty arthritis. Additionally, lowering serum uric acid levels may reduce the risk of cardiovascular disease.
  • patients with an elevated uric acid level or a history of gout or gouty arthritis are treated either with a pharmaceutical composition according to the invention or with placebo or with a non-drug therapy or with other medicaments, over a lengthy period (e.g. 6 months to 4 years).
  • a check is carried out by determining the serum uric acid level and the number of episodes of gout or gouty arthritis occurences.
  • Therapy may be provided with the objective of increasing the amount of free water to be excreted in the renal filtrate without disturbing sodium balance with the objective of increasing the overall sodium concentration of the interstitial fluids.
  • patients with a history of hyponatremia are treated either with a pharmaceutical composition according to the invention or with placebo or with a non-drug therapy or with other medicaments, over a short period (e.g. 3 to 6 months), with periodic assessment of serum sodium levels.
  • kidney stones particularly calcium, mixed calcium, and uric acid stones frequently have a history of hyperuricemia.
  • These renal stones may relate to small urate crystals forming a nidus in the renal filtrate upon which further crystallization of urate or other crystallizing substances in the solute can induce renal stone formation.
  • These stones are not related to renal stones caused by certain kidney infections (such as staghorn-type stones).
  • Therapy may be provided with the objective of increasing the neutral solutes (for example glucose) and free water content of the renal filtrate, making it difficult for a urate nidus to form, despite a possible increase in the absolute amounts of urate in the renal filtrate.
  • kidney stones particularly calcium, mixed calcium, and uric acid stones are treated either with a pharmaceutical composition according to the invention or with placebo or with a non-drug therapy or with other medicaments, over a lengthy period (e.g. 6 months to 4 years).
  • a reduction in the number of kidney stones stones particularly calcium, mixed calcium, and uric acid stones reported during this time period when treated with a pharmaceutical composition according to the invention compared with a different type of therapy, is proof of the efficacy of a pharmaceutical composition in preventing kidney stones particularly calcium, mixed calcium, and uric acid stones.
  • active ingredient denotes one or more compounds according to the invention, i.e. denotes an SGLT2 inhibitor, DPP IV inhibitor or a third antidiabetic compound according to this invention or a combination of two or three of said active ingredients, for example selected from the combinations as listed in the Table 1 or 2.
  • Additional suitable formulations for the DPP IV inhibitor linagliptin may be those formulations disclosed in the application WO 2007/128724, the disclosure of which is incorporated herein in its entirety.
  • Additional suitable formulations for the other DPP IV inhibitors may be those formulations which are available on the market, or formulations described in the patent applications cited above in paragraph “background of the invention”, or those described in the literature, for example as disclosed in current issues of “Rote Liste®” (Germany) or of “Physician's Desk Reference”.
  • composition Active ingredient 75.0 mg Mannitol 50.0 mg water for injections ad 10.0 ml
  • Active ingredient and mannitol are dissolved in water. After packaging the solution is freeze-dried. To produce the solution ready for use, the product is dissolved in water for injections.
  • composition Active ingredient 35.0 mg Mannitol 100.0 mg water for injections ad 2.0 ml
  • Active ingredient and mannitol are dissolved in water. After packaging, the solution is freeze-dried. To produce the solution ready for use, the product is dissolved in water for injections.
  • composition (1) Active ingredient 50.0 mg (2) Mannitol 98.0 mg (3) Maize starch 50.0 mg (4) Polyvinylpyrrolidone 15.0 mg (5) Magnesium stearate 2.0 mg 215.0 mg
  • Diameter of the tablets 9 mm.
  • Diameter of the tablets 12 mm.
  • Diameter of the tablets 12 mm.
  • composition (1) Active ingredient 50.0 mg (2) Dried maize starch 58.0 mg (3) Mannitol 50.0 mg (4) Magnesium stearate 2.0 mg 160.0 mg
  • (1) is triturated with (3). This trituration is added to the mixture of (2) and (4) with vigorous mixing. This powder mixture is packed into size 3 hard gelatin capsules in a capsule filling machine.
  • composition (1) Active ingredient 350.0 mg (2) Dried maize starch 46.0 mg (3) Mannitol 30.0 mg (4) Magnesium stearate 4.0 mg 430.0 mg
  • (1) is triturated with (3). This trituration is added to the mixture of (2) and (4) with vigorous mixing. This powder mixture is packed into size 0 hard gelatin capsules in a capsule filling machine.
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