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Definitions

• the present invention relates methods for treating and/or preventing metabolic diseases, especially type 2 diabetes mellitus and/or conditions related thereto (e.g. diabetic), etc.
• the present invention relates to a method for improving glycemic control and/or preventing, reducing the risk of, slowing the progression of, delaying the onset or treating of complications of diabetes mellitus, such as micro- and macrovascular diseases (e.g. diabetic nephrophathy, retinopathy or neuropathy, or cerebro- or cardiovascular complications such as e.g. myocardial infarction, stroke or vascular death or hospitalization), in a patient in need thereof (type 1 diabetes, LADA or, particularly, type 2 diabetes patient) comprising the combined (e.g. separate, simultaneous or sequential) administration of a long-acting insulin (such as e.g. insulin glargine or insulin detemir) and a certain DPP-4 inhibitor.
• a long-acting insulin such as e.g. insulin glargine or insulin detemir
• the present invention relates to a certain DPP-4 inhibitor for subcutaneous or transdermal (systemic) therapeutic use, particularly in treating and/or preventing the metabolic diseases described herein.
• the present invention relates to a certain DPP-4 inhibitor for subcutaneous administration (particularly for subcutaneous injection), e.g. once daily, each other day, thrice weekly, twice weekly or once weekly, preferably less than once daily.
• the present invention relates to a certain DPP-4 inhibitor for transdermal administration, e.g. once daily, each other day, thrice weekly, twice weekly or once weekly, preferably less than once daily.
• the present invention relates to a parenteral (preferably subcutaneous) delivery device, preferably a subcutaneous injection device, which may be with or without needle (e.g. a needle-based pen injector or a jet/needle-free injector), containing long-acting insulin and a certain DPP-4 inhibitor and, optionally, one or more pharmaceutically acceptable carriers and/or diluents.
• a parenteral (preferably subcutaneous) delivery device preferably a subcutaneous injection device, which may be with or without needle (e.g. a needle-based pen injector or a jet/needle-free injector), containing long-acting insulin and a certain DPP-4 inhibitor and, optionally, one or more pharmaceutically acceptable carriers and/or diluents.
• the present invention relates to a transdermal delivery device (e.g., a transdermal patch or gel) containing long-acting insulin and a certain DPP-4 inhibitor and, optionally, one or more pharmaceutically acceptable carriers and/or diluents.
• a transdermal delivery device e.g., a transdermal patch or gel
• long-acting insulin e.g., insulin and a certain DPP-4 inhibitor
• one or more pharmaceutically acceptable carriers and/or diluents e.g., a transdermal patch or gel
• Type 2 diabetes mellitus is a common chronic and progressive disease arising from a complex pathophysiology involving the dual endocrine effects of insulin resistance and impaired insulin secretion with the consequence not meeting the required demands to maintain plasma glucose levels in the normal range.
• the vascular disease component plays a significant role, but is not the only factor in the spectrum of diabetes associated disorders. The high frequency of complications leads to a significant reduction of life expectancy. Diabetes is currently the most frequent cause of adult-onset loss of vision, renal failure, and amputation in the
• type 2 diabetes typically begins with diet and exercise, followed by oral antidiabetic monotherapy, and although conventional monotherapy may initially control blood glucose in some patients, it is however associated with a high secondary failure rate.
• monotherapy may initially control blood glucose in some patients, it is however associated with a high secondary failure rate.
• single-agent therapy for maintaining glycemic control may be overcome, at least in some patients, and for a limited period of time by combining multiple drugs to achieve reductions in blood glucose that cannot be sustained during long-term therapy with single agents. Available data support the conclusion that in most patients with type 2 diabetes current monotherapy will fail and treatment with multiple drugs will be required.
• these existing drug therapies result in progressive deterioriation in metabolic control despite treatment and do not sufficiently control metabolic status especially over long-term and thus fail to achieve and to maintain glycemic control in advanced or late stage type 2 diabetes, including diabetes with inadequate glycemic control despite conventional oral or non-oral antidiabetic medication. Therefore, although intensive treatment of hyperglycemia can reduce the incidence of chronic damages, many patients with type 2 diabetes remain inadequately treated, partly because of limitations in long term efficacy, tolerability and dosing inconvenience of conventional antihyperglycemic therapies.
• This 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 makrovascular complications such as e.g. diabetic nephrophathy, retinopathy or neuropathy, or cerebro- or cardiovascular complications such as e.g. myocardial infarction, stroke or death) in patients with type 2 diabetes.
• micro- and makrovascular complications such as e.g. diabetic nephrophathy, retinopathy or neuropathy, or cerebro- or cardiovascular complications such as e.g. myocardial infarction, stroke or death
• Oral antidiabetic drugs conventionally used in therapy include, without being restricted thereto, metformin, sulphonylureas, thiazolidinediones, glinides and oglucosidase inhibitors.
• Non-oral (typically injected) antidiabetic drugs conventionally used in therapy include, without being restricted thereto, GLP-1 or GLP-1 analogues, and insulin or insulin analogues.
• GLP-1 or GLP-1 analogues include, without being restricted thereto, insulin or insulin analogues.
• insulin or insulin analogues include, without being restricted thereto, GLP-1 or GLP-1 analogues, and insulin or insulin analogues.
• these conventional antidiabetic or antihyperglycemic agents can be associated with various adverse effects.
• metformin can be associated with lactic acidosis or gastrointestinal side effects
• sulfonylureas, glinides and insulin or insulin analogues can be associated with hypoglycemia and weight gain
• thiazolidinediones can be associated with edema, bone fracture, weight gain and heart failure/cardiac effects
• alpha-glucosidase blockers and GLP-1 or GLP-1 analogues can be associated with gastrointestinal adverse effects (e.g. dyspepsia, flatulence or diarrhea, or nausea or vomiting).
• antidiabetic treatments not only prevent the long-term complications often found in advanced stages of diabetes disease, but also are a therapeutic option in those diabetes patients who have developed or are at risk of developping complications, such as renal impairment. Moreover, it remains a need to provide prevention or reduction of risk for adverse effects associated with conventional antidiabetic therapies.
• DPP-4 dipeptidyl peptidase IV
• CD26 The enzyme DPP-4 (dipeptidyl peptidase IV) also known as CD26 is a serine protease known to lead to the cleavage of a dipeptide from the N-terminal end of a number of proteins having at their N-terminal end a prolin or alanin residue. Due to this property DPP-4 inhibitors interfere with the plasma level of bioactive peptides including the peptide GLP-1 and are considered to be promising drugs for the treatment of diabetes mellitus.
• DPP-4 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
• Long-acting insulin within the meaning of this invention refers to a formulation of insulin or insulin analogue that usually starts working within about 1 -6 hours and is usually effective for up to 24 hours or more (e.g. up to 36 hours). Long-acting insulin usually provides a continuous level of insulin activity (for up to 24-36 hours) and usually operates at a maximum strength (with flat action profile) after about 8-12 hours, sometimes longer. Long-acting insulin is usually administered in the morning or before bed. Examples of long-acting insulin may include, but are not limited to, insulin glargine, insulin detemir or insulin degludec, which are insulin analogues, and ultralente insulin, which is regular human insulin formulated for slow absorption.
• Long-acting insulin is suited to provide for basal, as opposed to prandial, insulin requirements (e.g. to control hyperglycemia).
• Long-acting insulin may be typically administered ranging from twice or once daily, over thrice weekly up to once weekly (ultra long-acting insulin).
• the route of administration of insulin may include, without being limited, invasive delivery (such as e.g. via parenteral route, preferentially via subcutaneous injection) or non-invasive delivery (such as e.g. via oral, buccal/sublingual, pulmonary, intranasal or transdermal (e.g. via iontophoresis, sonophoresis or vesicular carriers) route), with subcutaneously injectable long-acting insulin being preferred.
• the long-acting insulin of this invention refers to any basal insulin known in the art, preferably having a basal release profile.
• a basal release profile refers to the kinetic, amount and rate of release of the insulin or insulin analogue from the formulation into a patient's systemic circulation.
• a basal release profile typically has a minimal peak (often referred to as "a peakless profile” or "flat profile") and slowly and continuously releases insulin for a prolonged period of time.
• the long-acting insulin is an acylated derivative of human insulin.
• Acylated insulin derivatives may be such wherein a lipophilic group is attached to the lysine residue in position B29.
• a commercial product is Levemir ® comprising Lys B29 (N £ - tetradecanoyl) des(B30) human insulin (cf. insulin detemir).
• Another example is ⁇ ⁇ 29 -( ⁇ ⁇ -( ⁇ - carboxypentadecanoyl)-L-Y-glutamyl) des(B30) human insulin (cf. insulin degludec).
• the long-acting insulin is such comprising positively charged amino acids such as Arg attached to the C-terminal end of the B-chain.
• a commercial product is Lantus ® comprising Gly A21 , Arg B31 , Arg B32 human insulin (cf. insulin glargine).
• Insulin glargine (marketed as LANTUS ® by Sanofi-Aventis) is approved and marketed for subcutaneous administration once a day. Insulin glargine provides relatively constant glucose lowering activity over a 24-hour period and may be administered any time during the day provided it is administered at the same time every day.
• Insulin detemir (marketed as LEVEMIR ® by Novo Nordisk) is approved and marketed for subcutaneous administration either twice a day or once a day, preferably with the evening meal or at bedtime.
• Insulin degludec (NN1250) is a neutral, soluble ultra-long acting insulin with a duration of action more than 24 hours. Degludec has a very flat, predictable and smooth action profile. It is intended for subcutaneous administration once daily or less (e.g. three times a week). ln addition, further examples of long-acting insulin may include, without being limited to,
• Long-acting insulin analogues are typically given as basic anti-diabetic therapy to type 2 diabetes, type 1 diabetes or latent autoimmune diabetes with onset in adults (LADA) patients to control the blood sugar when no food intake occurs. As mentioned above, this type of insulin provides a continuous level of insulin activity for up to 36 hours. Long-acting insulin operates at maximum strength after about 8-12 hours.
• DPP-4 inhibitors are a diverse group of anti-diabetics, however also working via insulin increasing mechanisms and limited on still functioning ⁇ - cells for triggering endogenous insulin secretion. DPP-4 inhibitors lower glucagon levels and reduce post-prandial glucose peaks during food intake via increase of GLP-1 and
• Linagliptin is the only DPP-4 inhibitor which demonstrates a superior pharmacokinetic profile (e.g. half life up to 72 h, stoichiometric reversible binding to DPP-4 protein) to be potentially administered once daily, each other day or even longer.
• various DPP-4 substrates e.g. SDF-1 , BNP
• SDF-1 , BNP DPP-4 substrates
• the HbA1 c value In the monitoring of the treatment of diabetes mellitus the HbA1 c value, the product of a non- enzymatic glycation of the haemoglobin B chain, is of exceptional importance. As its formation depends essentially on the blood sugar level and the life time of the erythrocytes the HbA1 c in the sense of a "blood sugar memory" reflects the average blood sugar level of the preceding 4-12 weeks. Diabetic patients whose HbA1 c level has been well controlled over a long time by more intensive diabetes treatment (i.e. ⁇ 6.5 % of the total haemoglobin in the sample) are significantly better protected from diabetic microangiopathy.
• the available treatments for diabetes can give the diabetic an average improvement in their HbA1 c level of the order of 1 .0 - 1 .5 %. This reduction in the HbA1 C level is not sufficient in all diabetics to bring them into the desired target range of ⁇ 7.0 %, preferably ⁇ 6.5 % and more preferably ⁇ 6 % HbA1 c.
• inadequate or insufficient glycemic control means in particular a condition wherein patients show HbA1 c values above 6.5%, in particular above 7.0%, even more preferably above 7.5%, especially above 8%.
• An embodiment of patients with inadequate or insufficient glycemic control include, without being limited to, patients having a HbA1 c value from 7.5 to 10% (or, in another embodiment, from 7.5 to 1 1 %).
• a special sub-embodiment of inadequately controlled patients refers to patients with poor glycemic control including, without being limited, patients having a HbA1 c value ⁇ 9%.
• diabetes patients within the meaning of this invention may include patients who have not previously been treated with an antidiabetic drug (drug-na ' i ' ve patients).
• diabetes patients within the meaning of this invention may include patients with advanced or late stage type 2 diabetes mellitus (including patients with failure to conventional antidiabetic therapy), such as e.g. patients with inadequate glycemic control on one, two or more conventional oral and/or non-oral antidiabetic drugs as defined herein, such as e.g.
• the therapies described herein may be used in patients experienced with therapy, e.g. with conventional oral and/or non-oral antidiabetic mono- or dual or triple combination medication as mentioned herein.
• metformin therapy e.g. patients having one or more contraindications against metformin therapy according to label, such as for example patients with at least one contraindication selected from:
• renal disease renal impairment or renal dysfunction (e.g., as specified by product information of locally approved metformin),
• gastrointestinal side effects associated with metformin such as for example patients suffering from at least one gastrointestinal side effect selected from:
• a further embodiment of the diabetes patients which may be amenable to the therapies of this invention may include, without being limited, those diabetes patients for whom normal metformin therapy is not appropriate, such as e.g. those diabetes patients who need reduced dose metformin therapy due to reduced tolerability, intolerability or contraindication against metformin or due to (mildly) impaired/reduced renal function (including elderly patients, such as e.g. ⁇ 60-65 years).
• a further embodiment of diabetic patients within the meaning of this invention refers to patients having renal disease, renal dysfunction, or insufficiency or impairment of renal function (including mild, moderate and severe renal impairment), e.g. as suggested by elevated serum creatinine levels (e.g. serum creatinine levels above the upper limit of normal for their age, e.g. ⁇ 130 - 150 ⁇ / ⁇ , or ⁇ 1.5 mg/dl ( ⁇ 136 ⁇ / ⁇ ) in men and ⁇ 1 .4 mg/dl ( ⁇ 124 ⁇ / ⁇ ) in women) or abnormal creatinine clearance (e.g. glomerular filtration rate (GFR) ⁇ 30 - 60 ml/min).
• elevated serum creatinine levels e.g. serum creatinine levels above the upper limit of normal for their age, e.g. ⁇ 130 - 150 ⁇ / ⁇ , or ⁇ 1.5 mg/dl ( ⁇ 136 ⁇ / ⁇ ) in men and ⁇ 1 .4 mg/dl ( ⁇ 124 ⁇ / ⁇ ) in women
• mild renal impairment may be e.g. suggested by a creatinine clearance of 50-80 ml/min (approximately corresponding to serum creatine levels of ⁇ 1 .7 mg/dL in men and ⁇ 1 .5 mg/dL in women); moderate renal impairment may be e.g. suggested by a creatinine clearance of 30-50 ml/min (approximately corresponding to serum creatinine levels of >1 .7 to ⁇ 3.0 mg/dL in men and >1 .5 to ⁇ 2.5 mg/dL in women); and severe renal impairment may be e.g. suggested by a creatinine clearance of ⁇ 30 ml/min
• patients with renal disease, renal dysfunction or renal impairment include patients with chronic renal insufficiency or impairment, which can be stratified according to glomerular filtration rate (GFR, ml/min/1.73m 2 ) into 5 disease stages: stage 1 characterized by normal GFR ⁇ 90 plus either persistent albuminuria or known structural or hereditary renal disease; stage 2 characterized by mild reduction of GFR (GFR 60-89) describing mild renal impairment; stage 3 characterized by moderate reduction of GFR (GFR 30-59) describing moderate renal impairment; stage 4 characterized by severe reduction of GFR (GFR 15-29) describing severe renal impairment; and terminal stage 5 characterized by requiring dialysis or GFR ⁇ 15 describing established kidney failure (end- stage renal disease, ESRD).
• GFR glomerular filtration rate
• a further embodiment of diabetic patients within the meaning of this invention refers to type 2 diabetes patients with or at risk of developing renal complications, such as diabetic nephropathy (including chronic and progressive renal insufficiency, albuminuria, proteinuria, fluid retention in the body (edema) and/or hypertension).
• patients within the present invention may include type 1 diabetes, LADA or, particularly, type 2 diabetes patients, with or without obesity or overweight.
• DPP-4 inhibitors as defined herein as well as pharmaceutical combinations, compositions or combined uses according to this invention of these DPP-4 inhibitors and long-acting insulin (such as e.g insulin glargine, insulin detemir or insulin degludec) as defined herein have properties, which make them suitable for the purpose of this invention and/or for fulfilling one or more of above needs.
• the present invention thus relates to a combination comprising a certain DPP-4 inhibitor (particularly Bl 1356) and a long-acting insulin (such as e.g. insulin glargine, insulin detemir or insulin degludec), each as defined herein, particularly for simultaneous, separate or sequential use in the therapies described herein.
• the present invention further relates to a certain DPP-4 inhibitor (particularly Bl 1356) in combination with a long-acting insulin (such as e.g. insulin glargine, insulin detemir or insulin degludec), each as defined herein, for use in the therapies described herein.
• a certain DPP-4 inhibitor particularly Bl 1356
• a long-acting insulin such as e.g. insulin glargine, insulin detemir or insulin degludec
• the present invention further relates to a method for treating and/or preventing metabolic diseases, especially type 2 diabetes mellitus and/or conditions related thereto (e.g. diabetic complications) comprising the combined (e.g. simultaneous, separate or sequential) administration of an effective amount of a long-acting insulin (such as e.g. insulin glargine, insulin detemir or insulin degludec) as defined herein and of an effective amount of a DPP-4 inhibitor as defined herein to the patient (particularly human patient) in need thereof, such as e.g. a patient as described herein.
• a long-acting insulin such as e.g. insulin glargine, insulin detemir or insulin degludec
• a DPP-4 inhibitor as defined herein
• a metabolic disorder or disease such as e.g. type 1 diabetes mellitus, type 2 diabetes mellitus, impaired glucose tolerance (IGT), impaired fasting blood glucose (IFG), hyperglycemia, postprandial hyperglycemia, postabsorptive hyperglycemia, overweight, obesity, dyslipidemia, hyperlipidemia, hypercholesterolemia, hypertriglyceridemia, hypertension, atherosclerosis, endothelial dysfunction, osteoporosis, chronic systemic inflammation, non alcoholic fatty liver disease (NAFLD), retinopathy, neuropathy, nephropathy, polycystic ovarian syndrome, and/or metabolic syndrome;
• a metabolic disorder or disease such as e.g. type 1 diabetes mellitus, type 2 diabetes mellitus, impaired glucose tolerance (IGT), impaired fasting blood glucose (IFG), hyperglycemia, postprandial hyperglycemia, postabsorptive hyperglycemia, overweight, obesity, dyslipidemia, hyperlipidemia, hyperchol
• ITT impaired glucose tolerance
• IGF impaired fasting blood glucose
• diabetes mellitus such as micro- and macrovascular diseases, such as nephropathy, micro- or macroalbuminuria, proteinuria, retinopathy, cataracts, neuropathy, learning or memory impairment, neurodegenerative or cognitive disorders, cardio- or cerebrovascular diseases, tissue ischaemia, diabetic foot or ulcus, atherosclerosis, hypertension, endothelial dysfunction, myocardial infarction, acute coronary syndrome, unstable angina pectoris, stable angina pectoris, peripheral arterial occlusive disease, cardiomyopathy, heart failure, heart rhythm disorders, vascular restenosis, and/or stroke; - reducing body weight and/or body fat and/or liver fat and/or intra-myocellular fat or
• pancreatic beta cells - 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, preserving and/or restoring the functionality of pancreatic beta cells and/or stimulating and/or restoring or protecting the functionality of pancreatic insulin secretion;
• NAFLD non alcoholic fatty liver disease
• liver fibrosis including hepatic steatosis, non-alcoholic steatohepatitis (NASH) and/or liver fibrosis (such as e.g. preventing, slowing the progression, delaying, attenuating, treating or reversing hepatic steatosis, (hepatic) inflammation and/or an abnormal accumulation of liver fat);
• NASH non-alcoholic steatohepatitis
• liver fibrosis such as e.g. preventing, slowing the progression, delaying, attenuating, treating or reversing hepatic steatosis, (hepatic) inflammation and/or an abnormal accumulation of liver fat
• the present invention further relates to a certain DPP-4 inhibitor (particularly Bl 1356) as defined herein for subcutaneous or transdermal use in the therapies described herein.
• the present invention further relates to a method for treating and/or preventing metabolic diseases, especially type 2 diabetes mellitus and/or conditions related thereto (e.g. diabetic complications) comprising the administration of an effective amount of a DPP-4 inhibitor as defined herein, optionally in combination with one or more other therapeutic agents as described herein, to the patient (particularly human patient) in need thereof (such as e.g. a patient as described herein), wherein the administration of the DPP-4 inhibitor, and of optionally one or more other therapeutic agents, is by parenteral, such as e.g. subcutaneous or transdermal route.
• metabolic diseases especially type 2 diabetes mellitus and/or conditions related thereto (e.g. diabetic complications)
• a DPP-4 inhibitor as defined herein, optionally in combination with one or more other therapeutic agents as described herein
• parenteral such as e.g. subcutaneous or transdermal route.
• the present invention further relates to the use of a DPP-4 inhibitor as defined herein for the manufacture of a pharmaceutical composition for subcutaneous use in the treatment and/or prevention of a metabolic disease, disorder or condition such as e.g. described herein, especially type 2 diabetes mellitus and/or conditions related thereto (e.g. diabetic
• the present invention further relates to at least one of the following methods:
• a metabolic disorder or disease such as e.g. type 1 diabetes mellitus, type 2 diabetes mellitus, impaired glucose tolerance (IGT), impaired fasting blood glucose (IFG), hyperglycemia, postprandial hyperglycemia, postabsorptive hyperglycemia, overweight, obesity, dyslipidemia, hyperlipidemia, hypercholesterolemia, hypertriglyceridemia, hypertension, atherosclerosis, endothelial dysfunction, osteoporosis, chronic systemic inflammation, non alcoholic fatty liver disease (NAFLD), retinopathy, neuropathy, nephropathy, polycystic ovarian syndrome, and/or metabolic syndrome;
• a metabolic disorder or disease such as e.g. type 1 diabetes mellitus, type 2 diabetes mellitus, impaired glucose tolerance (IGT), impaired fasting blood glucose (IFG), hyperglycemia, postprandial hyperglycemia, postabsorptive hyperglycemia, overweight, obesity, dyslipidemia, hyperlipidemia, hyperchol
• ITT impaired glucose tolerance
• IGF impaired fasting blood glucose
• diabetes mellitus such as micro- and macrovascular diseases, such as nephropathy, micro- or macroalbuminuria, proteinuria, retinopathy, cataracts, neuropathy, learning or memory impairment, neurodegenerative or cognitive disorders, cardio- or cerebrovascular diseases, tissue ischaemia, diabetic foot or ulcus, atherosclerosis, hypertension, endothelial dysfunction, myocardial infarction, acute coronary syndrome, unstable angina pectoris, stable angina pectoris, peripheral arterial occlusive disease, cardiomyopathy, heart failure, heart rhythm disorders, vascular restenosis, and/or stroke;
• micro- and macrovascular diseases such as nephropathy, micro- or macroalbuminuria, proteinuria, retinopathy, cataracts, neuropathy, learning or memory impairment, neurodegenerative or cognitive disorders, cardio- or cerebrovascular diseases, tissue ischaemia, diabetic foot or ulcus, atherosclerosis, hypertension, endothelial dysfunction, myocardial infarction, acute coronary syndrome,
• pancreatic beta cells - 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, preserving and/or restoring the functionality of pancreatic beta cells and/or stimulating and/or restoring or protecting the functionality of pancreatic insulin secretion;
• NAFLD non alcoholic fatty liver disease
• hepatic steatosis including hepatic steatosis, non-alcoholic steatohepatitis (NASH) and/or liver fibrosis
• NASH non-alcoholic steatohepatitis
• liver fibrosis including hepatic steatosis, non-alcoholic steatohepatitis (NASH) and/or liver fibrosis
• hepatic hepatic inflammation and/or an abnormal accumulation of liver fat
• a DPP-4 inhibitor as defined herein, optionally in combination with one or more other therapeutic agents as described herein.
• the present invention relates to the combination according to this invention comprising a DPP-4 inhibitor as defined herein and a long-acting insulin as defined herein for parenteral, particularly subcutaneous or transdermal, administration of one or both of the active components to the patient in need thereof.
• the present invention relates to a pharmaceutical composition according to this invention comprising
• the present invention relates to the combination according to this invention comprising a DPP-4 inhibitor as defined herein and a long-acting insulin as defined herein for use in treating and/or preventing (including slowing the progression or delaying the onset) of metabolic diseases as defined herein, particularly diabetes (especially type 2 diabetes or conditions related thereto, including diabetic complications), optionally in combination with one or more other therapeutic agents as described herein.
• the present invention relates to the use of a combination according to this invention comprising a DPP-4 inhibitor as defined herein and a long-acting insulin as defined herein for the manufacture of a medicament for use in a therapeutic method as described hereinbefore or hereinafter. ln addition, the present invention relates to a combination according to this invention comprising a DPP-4 inhibitor as defined herein and a long-acting insulin as defined herein for use in a therapeutic method as described hereinbefore or hereinafter.
• the present invention relates to a method of treating and/or preventing (including slowing the progression or delaying the onset) of a metabolic disease, particularly diabetes (especially type 2 diabetes) or conditions related thereto, including diabetic complications, comprising administering to the patient in need thereof (such as e.g. a patient as described herein) a combination according to this invention comprising a DPP-4 inhibitor as defined herein and a long-acting insulin as defined herein.
• the present invention relates a DPP-4 inhibitor as defined herein for use in a method as described hereinbefore or hereinafter, said method comprising administering the DPP-4 inhibitor, optionally combined with one or more other active substances (e.g. which may selected from those mentioned herein, such as e.g. metformin or pioglitazone), in combination (e.g. separately, simultaneously or sequentially) with a long-acting insulin as defined herein to the patient
• the present invention relates a long-acting insulin as defined herein for use in a method as described hereinbefore or hereinafter, said method comprising administering the long-acting insulin, optionally combined with one or more other active substances (e.g. which may selected from those mentioned herein, such as e.g. metformin or pioglitazone), in combination (e.g. separately, simultaneously or sequentially) with a DPP-4 inhibitor as defined herein to the patient
• the present invention relates to the use of a DPP-4 inhibitor as defined herein for the manufacture of a medicament for use in combination with a long-acting insulin as defined herein for treating and/or preventing (including slowing the progression or delaying the onset) of metabolic diseases, particularly diabetes (especially type 2 diabetes) and conditions related thereto, including diabetic complications.
• the present invention relates to the use of a long-acting insulin as defined herein for the manufacture of a medicament for use in combination with a DPP-4 inhibitor as defined herein for treating and/or preventing (including slowing the progression or delaying the onset) of metabolic diseases, particularly diabetes (especially type 2 diabetes) or conditions related thereto, including diabetic complications.
• the present invention relates to the use of a DPP-4 inhibitor as defined herein, optionally in combination with one or more other active substances (such as e.g. metformin or pioglitazone), for the manufacture of a medicament for use in combination with a long- acting insulin as defined herein for treating and/or preventing (including slowing the progression or delaying the onset) of metabolic diseases, particularly diabetes (especially type 2 diabetes) or conditions related thereto, including diabetic complications.
• active substances such as e.g. metformin or pioglitazone
• the present invention relates a DPP-4 inhibitor as defined herein for use in a combination treatment according to the invention in a patient in need thereof (such as e.g. a patient as described herein).
• the present invention relates a long-acting insulin as defined herein for use in a combination treatment according to the invention in a patient in need thereof (such as e.g. a patient as described herein).
• the present invention relates a DPP-4 inhibitor as defined herein, optionally in combination with one or more other active substances (such as e.g. metformin or
• pioglitazone for use in a combination treatment according to the invention in a patient in need thereof.
• the invention relates to a DPP-4 inhibitor as defined herein for use in a method as described hereinbefore or hereinafter, said method comprising administering the DPP-4 inhibitor, optionally in combination with one or more other active substances (e.g. which may selected from those mentioned herein, such as e.g. metformin or pioglitazone), to the patient.
• one or more other active substances e.g. which may selected from those mentioned herein, such as e.g. metformin or pioglitazone
• the invention relates to a DPP-4 inhibitor as defined herein for use in a method of preventing, reducing the risk of, slowing the progression of, delaying or treating weight gain associated with the therapy with a long-acting insulin as defined herein, preferably said method comprising administering the DPP-4 inhibitor and the long-acting insulin to the patient (e.g. type 1 diabetes, LADA or, particularly, type 2 diabetes patient, with or without obesity or overweight).
• a DPP-4 inhibitor as defined herein for use in a method of preventing, reducing the risk of, slowing the progression of, delaying or treating weight gain associated with the therapy with a long-acting insulin as defined herein, preferably said method comprising administering the DPP-4 inhibitor and the long-acting insulin to the patient (e.g. type 1 diabetes, LADA or, particularly, type 2 diabetes patient, with or without obesity or overweight).
• the patient e.g. type 1 diabetes, LADA or, particularly, type 2 diabetes patient, with or without obesity or overweight.
• the invention relates to a DPP-4 inhibitor as defined herein for use in a method of preventing, reducing the risk of, slowing the progression of, delaying or treating an increase in body weight and/or body fat and/or liver fat and/or intra-myocellular fat which may be associated with the therapy with a long-acting insulin as defined herein, preferably said method comprising administering the DPP-4 inhibitor and the long-acting insulin to the patient (e.g. type 1 diabetes, LADA or, particularly, type 2 diabetes patient, with or without obesity or overweight).
• the patient e.g. type 1 diabetes, LADA or, particularly, type 2 diabetes patient, with or without obesity or overweight.
• the invention relates to a DPP-4 inhibitor as defined herein for use in a method of improving body fat composition and/or obesity parameters which may be associated with the therapy with a long-acting insulin as defined herein, preferably said method comprising administering the DPP-4 inhibitor and the long-acting insulin to the patient (e.g. type 1 diabetes, LADA or, particularly, type 2 diabetes patient, with or without obesity or overweight).
• a DPP-4 inhibitor as defined herein for use in a method of improving body fat composition and/or obesity parameters which may be associated with the therapy with a long-acting insulin as defined herein, preferably said method comprising administering the DPP-4 inhibitor and the long-acting insulin to the patient (e.g. type 1 diabetes, LADA or, particularly, type 2 diabetes patient, with or without obesity or overweight).
• the invention relates to a DPP-4 inhibitor and a long-acting insulin each as defined herein for use in a method of improving diabetic phenotype, improving glycemic and/or metabolic control, improving (blood) glucose profile (e.g. improving the control of fasting and/or postprandial blood glucose levels) and/or improving glucagon suppression (e.g. over long-term and/or during chronic treatment), preferably said method comprising administering the DPP-4 inhibitor and the long-acting insulin to the patient (e.g. type 1 diabetes, LADA or, particularly, type 2 diabetes patient, with or without obesity or overweight).
• the patient e.g. type 1 diabetes, LADA or, particularly, type 2 diabetes patient, with or without obesity or overweight.
• the invention relates to a DPP-4 inhibitor as defined herein for use in a method of sparing or reducing the amount of long-acting insulin as defined herein required for efficacious and/or safe therapeutic treatment, said method comprising administering the DPP-4 inhibitor and the long-acting insulin to the patient (e.g. type 1 diabetes, LADA or, particularly, type 2 diabetes patient, with or without obesity or overweight).
• the invention relates to a DPP-4 inhibitor as defined herein for use in a therapeutic or preventive method as described herein, said use comprising adding the DPP-4 inhibitor to long-acting insulin as defined herein alone or in combination with one or more other antidiabetic drugs (e.g.
• metformin selected from metformin, pioglitazone and a sulphonylurea
• a patient e.g. type 1 diabetes, LADA or, particularly, type 2 diabetes patient, with or without obesity or overweight
• antidiabetic drugs e.g. selected from metformin, pioglitazone and a sulphonylurea
• the invention relates to a DPP-4 inhibitor and a long-acting insulin each as defined herein for use in a therapeutic or preventive method as described herein, said use comprising adding the DPP-4 inhibitor and the long-acting insulin to one or more other antidiabetic drugs (e.g. selected from metformin, pioglitazone and a sulphonylurea), e.g. for improving glycemic control in a patient (e.g. type 1 diabetes, LADA or, particularly, type 2 diabetes patient, with or without obesity or overweight) who may be inadequately controlled on one or more other antidiabetic drugs (e.g. selected from metformin, pioglitazone and a sulphonylurea).
• antidiabetic drugs e.g. selected from metformin, pioglitazone and a sulphonylurea
• the invention relates to a long-acting insulin as defined herein for use in a therapeutic or preventive method as described herein, said use comprising adding the long- acting insulin to a DPP-4 inhibitor as defined herein alone or in combination with one or more other antidiabetic drugs (e.g. selected from metformin, pioglitazone and a sulphonylurea), e.g. for improving glycemic control in a patient (e.g. type 1 diabetes, LADA or, particularly, type 2 diabetes patient, with or without obesity or overweight) who may be inadequately controlled on a DPP-4 inhibitor alone or in combination with one or more other antidiabetic drugs (e.g. selected from metformin, pioglitazone and a sulphonylurea).
• antidiabetic drugs e.g. selected from metformin, pioglitazone and a sulphonylurea
• the invention relates to a combination or composition
• a combination or composition comprising a DPP-4 inhibitor and a long-acting insulin each as defined herein for use in treatment and/or prevention as described herein, optionally in combination with one or more other therapeutic agents.
• the invention relates to a DPP-4 inhibitor as defined herein with or without metformin and/or pioglitazone in combination with a long-acting insulin as defined herein for therapeutic or preventive use as described herein. Further, the invention relates to a DPP-4 inhibitor as defined herein in combination with a long-acting insulin as defined herein, with or without metformin, for use in a method of therapy or prophylaxis as described herein.
• a DPP-4 inhibitor within the meaning of the present invention includes, without being limited to, any of those DPP-4 inhibitors mentioned hereinabove and hereinbelow, preferably orally and/or subcutaneously active DPP-4 inhibitors.
• An embodiment of this invention refers to a DPP-4 inhibitor for use in the treatment and/or prevention of metabolic diseases (particularly type 2 diabetes mellitus) in type 2 diabetes patients, wherein said patients further suffering from renal disease, renal dysfunction or renal impairment, particularly characterized in that said DPP-4 inhibitor is administered to said patients in the same dose levels as to patients with normal renal function, thus e.g. said DPP-4 inhibitor does not require downward dosing adjustment for impaired renal function.
• a DPP-4 inhibitor according to this invention may be such an oral DPP-4 inhibitor, which and whose active metabolites have preferably a relatively wide (e.g. about > 100 fold) therapeutic window and/or, especially, that are primarily eliminated via hepatic metabolism or biliary excretion (preferably without adding additional burden to the kidney).
• a DPP-4 inhibitor according to this invention may be such an orally administered DPP-4 inhibitor, which has a relatively wide (e.g. > 100 fold) therapeutic window (preferably a safety profile comparable to placebo) and/or which fulfils one or more of the following pharmacokinetic properties (preferably at its therapeutic oral dose levels):
• the DPP-4 inhibitor is substantially or mainly excreted via the liver (e.g. > 80 % or even > 90 % of the administered oral dose), and/or for which renal excretion represents no substantial or only a minor elimination pathway (e.g. ⁇ 10 %, preferably ⁇ 7 %, of the administered oral dose measured, for example, by following elimination of a radiolabeled carbon ( 14 C) substance oral dose);
• the DPP-4 inhibitor is excreted mainly unchanged as parent drug (e.g. with a mean of > 70%, or > 80%, or, preferably, 90% of excreted radioactivity in urine and faeces after oral dosing of radiolabelled carbon ( 14 C) substance), and/or which is eliminated to a non- substantial or only to a minor extent via metabolism (e.g. ⁇ 30%, or ⁇ 20%, or, preferably, 10%);
• the (main) metabolite(s) of the DPP-4 inhibitor is/are pharmacologically inactive.
• the main metabolite does not bind to the target enzyme DPP-4 and, optionally, it is rapidly eliminated compared to the parent compound (e.g. with a terminal half-life of the metabolite of ⁇ 20 h, or, preferably, ⁇ about 16 h, such as e.g. 15.9 h).
• the (main) metabolite in plasma (which may be pharmacologically inactive) of a DPP-4 inhibitor having a 3-amino-piperidin-1 -yl substituent is such a derivative where the amino group of the 3-amino-piperidin-1 -yl moiety is replaced by a hydroxyl group to form the 3-hydroxy-piperidin-1 -yl moiety (e.g. the 3-(S)-hydroxy-piperidin-1 -yl moiety, which is formed by inversion of the configuration of the chiral center).
• DPP-4 inhibitor may be one or more of the following: Rapid attainment of steady state (e.g. reaching steady state plasma levels (> 90% of the steady state plasma concentration) between second and fifth day of treatment with therapeutic oral dose levels), little accumulation (e.g. with a mean accumulation ratio RA , AUC ⁇ 1 .4 with therapeutic oral dose levels), and/or preserving a long-lasting effect on DPP-4 inhibition, preferably when used once-daily (e.g.
• a DPP-4 inhibitor according to this invention may be characterized in that said DPP-4 inhibitor has a primarily non-renal route of excretion, i.e. said DPP-4 inhibitor is excreted to a non-substantial or only to a minor extent (e.g. ⁇ 10 %, preferably ⁇ 7 %, e.g. about 5 %, of administered oral dose, preferably of oral therapeutic dose) via the kidney (measured, for example, by following elimination of a radiolabelled carbon ( 14 C) substance oral dose).
• a radiolabelled carbon ( 14 C) substance oral dose e.g. a radiolabelled carbon ( 14 C) substance oral dose
• a DPP-4 inhibitor according to this invention may be characterized in that said DPP- 4 inhibitor is excreted substantially or mainly via the liver or faeces (measured, for example, by following elimination of a radiolabeled carbon ( 14 C) substance oral dose). Further, a DPP-4 inhibitor according to this invention may be characterized in that said DPP-4 inhibitor is excreted mainly unchanged as parent drug (e.g. with a mean of > 70%, or > 80%, or, preferably, 90 % of excreted radioactivity in urine and faeces after oral dosing of radiolabeled carbon ( 14 C) substance),
• said DPP-4 inhibitor is eliminated to a non-substantial or only to a minor extent via metabolism, and/or
• the main metabolite of said DPP-4 inhibitor is pharmacologically inactive or has a relatively wide therapeutic window.
• a DPP-4 inhibitor according to this invention may be characterized in that said DPP-4 inhibitor does not significantly impair glomerular and/or tubular function of a type 2 diabetes patient with chronic renal insufficiency (e.g. mild, moderate or severe renal impairment or end stage renal disease), and/or
• said DPP-4 inhibitor trough levels in the blood plasma of type 2 diabetes patients with mild or moderate renal impairment are comparable to the levels in patients with normal renal function, and/or
• a DPP-4 inhibitor according to this invention may be characterized in that said DPP-4 inhibitor provides its minimally effective dose at that dose that results in >50% inhibition of DPP-4 activity at trough (24 h after last dose) in >80% of patients, and/or said DPP-4 inhibitor provides its fully therapeutic dose at that dose that results in >80% inhibition of DPP-4 activity at trough (24 h after last dose) in >80% of patients.
• a DPP-4 inhibitor according to this invention may be characterized in that being suitable for use in type 2 diabetes patients who are with diagnosed renal impairment and/or who are at risk of developing renal complications, e.g. patients with or at risk of diabetic nephropathy (including chronic and progressive renal insufficiency, albuminuria, proteinuria, fluid retention in the body (edema) and/or hypertension).
• a DPP-4 inhibitor in the context of the present invention is any DPP-4 inhibitor of
• R1 denotes ([1 ,5]naphthyridin-2-yl)methyl, (quinazolin-2-yl)methyl, (quinoxalin-6- yl)methyl, (4-methyl-quinazolin-2-yl)methyl, 2-cyano-benzyl, (3-cyano-quinolin-2-yl)methyl, (3-cyano-pyridin-2-yl)methyl, (4-methyl-pyrimidin-2-yl)methyl, or (4,6-dimethyl-pyrimidin-2- yl)methyl and R2 denotes 3-(R)-amino-piperidin-1 -yl, (2-amino-2-methyl-propyl)-methylamino or (2-(S)-amino-propyl)-methylamino,
• a DPP-4 inhibitor in the context of the present invention is a DPP-4 inhibitor selected from the group consisting of
• sitagliptin sitagliptin, vildagliptin, saxagliptin, alogliptin, gemigliptin,
• preferred DPP-4 inhibitors are any or all of the following compounds and their pharmaceutically acceptable salts:
• DPP-4 inhibitors are distinguished from structurally comparable DPP-4 inhibitors, as they combine 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 combined with other pharmaceutical active substances.
• Their preparation is disclosed in the publications mentioned.
• a more preferred DPP-4 inhibitor among the abovementioned DPP-4 inhibitors of embodiment A of this invention is 1 -[(4-methyl-quinazolin-2-yl)methyl]-3-methyl-7-(2-butyn-1 - yl)-8-(3-(R)-amino-piperidin-1 -yl)-xanthine, particularly the free base thereof (which is also known as linagliptin or Bl 1356).
• DPP-4 inhibitors As further DPP-4 inhibitors the following compounds can be mentioned:
• 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 US Patent 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
• a tablet formulation for sitagliptin is commercially available under the trade name Januvia ® .
• a tablet formulation for sitagliptin/metformin combination is commercially available under the trade name Janumet ® .
• Vildagliptin is specifically disclosed in US Patent No. 6,166,063 and in Example 1 of WO 00/34241. 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.
• a tablet formulation for vildagliptin is expected to be commercially available under the trade name Galvus ® .
• a tablet formulation for vildagliptin/metformin combination is commercially available under the trade name Eucreas ® .
• - Saxagliptin (BMS-4771 18) having the structural formula C below is (1 S,3S,5S)-2- ⁇ (2S)-2- amino-2-(3-hydroxyadamantan-1 -yl)acetyl ⁇ -2-azabicyclo[3.1 .0]hexane-3-carbonitrile, also named (S)-3-hydroxyadamantylglycine-L-c/s-4,5-methanoprolinenitrile,
• Saxagliptin is specifically disclosed in US Patent No. 6,395,767 and in Example 60 of WO 01/68603.
• saxagliptin is in the form of its HCI salt or its mono-benzoate salt as disclosed in WO 2004/052850.
• 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.
• Crystalline forms of the HCI salt and of the free base of saxagliptin are disclosed in WO 2008/131 149.
• a process for preparing saxagliptin is also disclosed in WO 2005/10601 1 and WO 2005/1 15982. Saxagliptin can be formulated in a tablet as described in WO 2005/1 17841 .
• Alogliptin (SYR-322) having the structural formula E below is 2-( ⁇ 6-[(3R)-3-aminopiperidin- 1 -yl]-3-methyl-2,4-dioxo-3,4-dihydro-2H-pyrimidin-1 -yl ⁇ methyl)benzonitrile
• Alogliptin is specifically disclosed in US 2005/261271 , EP 1586571 and in WO 2005/095381.
• 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 2007/1 12368 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.
• a solid preparation of alogliptin/pioglitazone and its preparation and use is described in WO 2008/093882.
• a solid preparation of alogliptin/metformin and its preparation and use is described in WO 2009/01 1451 .
• the mesylate salt of the former compound as well as crystalline polymorphs thereof are disclosed in WO 2006/100181 .
• the fumarate salt of the latter compound as well as crystalline polymorphs thereof are disclosed in WO 2007/071576. These compounds can be formulated in a pharmaceutical composition as described in WO 2007/017423.
• This compound and methods for its preparation are disclosed in WO 2005/000848.
• 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.
• dutogliptin [(2R)-1 - ⁇ [(3R)-pyrrolidin-3-ylamino]acetyl ⁇ pyrrolidin-2-yl]boronic acid (also named dutogliptin) or a pharmaceutically acceptable salt thereof:
• This compound and methods for its preparation are disclosed in WO 2005/047297, WO 2008/109681 and WO 2009/009751.
• Specific salts are disclosed in WO 2008/027273 (including citrate, tartrate).
• a formulation of this compound is described in WO 2008/144730.
• a formulation of dutogliptin (as its tartrate salt) with metformin is described in WO
• the DPP-4 inhibitor of this invention is selected from the group (group G1 ) consisting of linagliptin, sitagliptin, vildagliptin, alogliptin, saxagliptin, teneligliptin, anagliptin, gemigliptin and dutogliptin, or a pharmaceutically acceptable salt of one of the hereinmentioned DPP-4 inhibitors, or a prodrug thereof.
• group G1 consisting of linagliptin, sitagliptin, vildagliptin, alogliptin, saxagliptin, teneligliptin, anagliptin, gemigliptin and dutogliptin, or a pharmaceutically acceptable salt of one of the hereinmentioned DPP-4 inhibitors, or a prodrug thereof.
• a particularly preferred DPP-4 inhibitor within the present invention is linagliptin.
• linagliptin refers to linagliptin or a pharmaceutically acceptable salt thereof, including hydrates and solvates thereof, and crystalline forms thereof, preferably linagliptin refers to 1 -[(4-methyl-quinazolin-2-yl)methyl]-3-methyl-7-(2-butyn-1 -yl)-8-(3-(R)- amino-piperidin-1 -yl)-xanthine. 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-4 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 in mono- or dual or triple combination therapy.
• a long-acting insulin within the meaning of the present invention includes, without being limited to, any of those long-acting insulins mentioned hereinabove and hereinbelow, preferably subcutaneously active long-acting insulins.
• Examples of long-acting insulins may include (group G2): insulin glargine; insulin detemir; insulin degludec; insulin lispro PEGylated with high molecular weight poly(ethylene glycol) derivatives as disclosed in WO 2009/152128; amidated insulin glargine in the form of Gly A21 , Arg B31 , Arg B32 -NH 2 human insulin; Lys B29 (N £ -lithocholyl-v-Glu) des(B30) human insulin; ⁇ ⁇ 29 - ⁇ -carboxypentadecanoyl-Y-amino-butanoyl des(B30) human insulin; amidated insulin analogs as disclosed in WO 2009/087082 (especially one selected from claim 14 therein), or amidated insulin analogs as disclosed in WO 2009/087081 (especially one selected from claim 16 therein).
• Preferred examples of long-acting insulins of this invention are insulin glargine, insulin detemir and insulin deglu
• the definitions of the active agents may also contemplate their pharmaceutically acceptable salts, and prodrugs, hydrates, solvates and polymorphic forms thereof.
• the terms of the therapeutic agents given herein refer to the respective active drugs. With respect to salts, hydrates and polymorphic forms thereof, particular reference is made to those which are referred to herein. ln an embodiment the combinations, compositions, methods and uses according to this invention relate to combinations wherein the DPP-4 inhibitor and the long-acting insulins are preferably selected according to the entries in the Table 1 : Table 1 :
• the combinations, compositions, methods and uses according to this invention relate to combinations wherein the DPP-4 inhibitor is linagliptin.
• the long-acting insulin is preferably selected according to the entries E1 to E3 in the Table 2:
• kits may include, without being limited, fixed and non-fixed (e.g. free) forms (including kits) and uses, such as e.g. the simultaneous, sequential or separate use of the components or ingredients.
• kits may include, without being limited, fixed and non-fixed (e.g. free) forms (including kits) and uses, such as e.g. the simultaneous, sequential or separate use of the components or ingredients.
• kits such as e.g. the simultaneous, sequential or separate use of the components or ingredients.
• a) a pharmaceutical composition comprising a DPP-4 inhibitor as defined herein, optionally together with one or more pharmaceutically acceptable carriers and/or diluents, and b) a pharmaceutical composition comprising a long-acting insulin as defined herein.
• the present invention also provides a kit comprising
• instructions directing use of the DPP-4 inhibitor and the long-acting insulin in combination e.g. simultaneously, separately, sequentially or chronologically staggered
• instructions directing use of the DPP-4 inhibitor and the long-acting insulin in combination e.g. simultaneously, separately, sequentially or chronologically staggered
• a purpose of this invention such as e.g. for the treatment of type 2 diabetes in a (human) patient.
• the present invention also provides a pharmaceutical composition or fixed dose combination comprising
• the present invention also provides a transdermal or subcutaneous (injectable)
• compositions, delivery system or device for systemic use comprising a) a DPP-4 inhibitor as defined herein, and, optionally,
• the combined administration of this invention may take place by administering the active components or ingredients together, such as e.g. by administering them simultaneously in one single or in two separate formulations or dosage forms.
• the administration may take place by administering the active components or ingredients sequentially, such as e.g. successively in two separate formulations or dosage forms.
• the active components or ingredients may be administered separately (which implies that they are formulated separately) or formulated altogether (which implies that they are formulated in the same preparation or in the same dosage form).
• the administration of one element of the combination of the present invention may be prior to, concurrent to, or subsequent to the administration of the other element of the combination.
• the DPP-4 inhibitor and the long-acting insulin are administered in different formulations or different dosage forms.
• the DPP-4 inhibitor and the long-acting insulin are administered in the same formulation or in the same dosage form.
• combination therapy may refer to first line, second line or third line therapy, or initial or add-on combination therapy or replacement therapy.
• the methods of synthesis for the DPP-4 inhibitors according to embodiment A of this invention are known to the skilled person.
• the DPP- 4 inhibitors according to embodiment A of this invention can be prepared using synthetic methods as described in the literature.
• purine derivatives of formula (I) can be obtained as described in WO 2002/068420, WO 2004/018468, WO 2005/085246, WO 2006/029769 or WO 2006/048427, the disclosures of which are incorporated herein.
• Purine derivatives of formula (II) can be obtained as described, for example, in WO
• Purine derivatives of formula (III) and (IV) can be obtained as described, for example, in WO 2006/068163, WO 2007/071738 or WO 2008/017670, the disclosures of which are incorporated herein.
• the preparation of those DPP-4 inhibitors, which are specifically mentioned hereinabove, is disclosed in the publications mentioned in connection therewith.
• Polymorphous crystal modifications and formulations of particular DPP-4 inhibitors are disclosed in WO 2007/128721 and WO 2007/128724, respectively, the disclosures of which are incorporated herein in their entireties.
• Formulations of particular DPP-4 inhibitors with metformin or other combination partners are described in WO 2009/121945, the disclosure of which is incorporated herein in its entirety.
• Typical dosage strengths of the dual fixed combination (tablet) of linagliptin / metformin IR (immediate release) are 2.5/500 mg, 2.5/850 mg and 2.5/1000 mg, which may be
• Typical dosage strengths of the dual fixed combination (tablet) of linagliptin / metformin XR (extended release) are 5/500 mg, 5/1000 mg and 5/1500 mg (each one tablet) or 2.5/500 mg, 2.5/750 mg and 2.5/1000 mg (each two tablets), which may be administered 1 -2 times a day, particularly once a day, preferably to be taken in the evening with meal.
• the present invention further provides a DPP-4 inhibitor as defined herein for use in (add-on or initial) combination therapy with metformin (e.g. in a total daily amount from 500 to 2000 mg metformin hydrochloride, such as e.g. 500 mg, 850 mg or 1000 mg once or twice daily).
• metformin e.g. in a total daily amount from 500 to 2000 mg metformin hydrochloride, such as e.g. 500 mg, 850 mg or 1000 mg once or twice daily.
• the elements of the combination of this invention may be administered by various ways, for example by oral, buccal, sublingual, enterical, parenteral (e.g., transdermal, intramuscular or subcutaneous), inhalative (e.g., liquid or powder inhalation, aerosol), pulmonary, intranasal (e.g. spray), intraperitoneal, vaginal, rectal, or topical routes of administration and may be formulated, alone or together, in suitable dosage unit formulations containing conventional non-toxic pharmaceutically acceptable carriers, adjuvants and vehicles appropriate for each route of administration.
• parenteral e.g., transdermal, intramuscular or subcutaneous
• inhalative e.g., liquid or powder inhalation, aerosol
• pulmonary e.g. spray
• intraperitoneal vaginal, rectal, or topical routes of administration
• suitable dosage unit formulations containing conventional non-toxic pharmaceutically acceptable carriers, adjuvants and vehicles appropriate for each route of administration.
• the component DPP-4 inhibitor of the combination according to the invention is preferably administered orally.
• the component long-acting insulin of the combination is preferably administered by injection (preferably subcutaneously).
• the component long-acting insulin of the combination is administered by a transdermal delivery system.
• Suitable doses and dosage forms of the DPP-4 inhibitors may be determined by a person skilled in the art and may include those described herein or in the relevant references.
• the compounds of this invention are usually used in dosages from 0.001 to 100 mg/kg body weight, preferably at 0.01 -15 mg/kg or 0.1 -15 mg/kg, in each case 1 to 4 times a day.
• the compounds optionally combined with other active substances, may be incorporated together with one or more inert conventional carriers and/or diluents, e.g. with corn starch, lactose, glucose, microcrystalline cellulose, magnesium stearate, polyvinylpyrrolidone, citric acid, tartaric acid, water, water/ethanol, water/glycerol,
• carboxymethylcellulose or fatty substances such as hard fat or suitable mixtures thereof into conventional galenic preparations such as plain or coated tablets, capsules, powders, suspensions or suppositories.
• compositions according to this invention comprising the DPP-4 inhibitors as defined herein are thus prepared by the skilled person using pharmaceutically acceptable formulation excipients as described in the art and appropriate for the desired route of administration.
• excipients include, without being restricted to diluents, binders, carriers, fillers, lubricants, flow promoters, crystallisation retardants, disintegrants, solubilizers, colorants, pH regulators, surfactants and emulsifiers.
• Oral preparations or dosage forms of the DPP-4 inhibitor of this invention may be prepared according to known techniques.
• Suitable diluents for compounds according to embodiment A include cellulose powder, calcium hydrogen phosphate, erythritol, low substituted hydroxypropyl cellulose, mannitol, pregelatinized starch or xylitol.
• Suitable lubricants for compounds according to embodiment A include talc, polyethyleneglycol, calcium behenate, calcium stearate, hydrogenated castor oil or magnesium stearate.
• Suitable binders for compounds according to embodiment A include copovidone (copolymerisates of vinylpyrrolidon with other vinylderivates), hydroxypropyl methylcellulose (HPMC), hydroxypropylcellulose (HPC), polyvinylpyrrolidon (povidone), pregelatinized starch, or low-substituted hydroxypropylcellulose (L-HPC).
• Suitable disintegrants for compounds according to embodiment A include corn starch or crospovidone.
• Suitable methods of preparing pharmaceutical formulations of the DPP-4 inhibitors according to embodiment A of the invention are direct tabletting of the active substance in powder mixtures with suitable tabletting excipients;
• An exemplary composition (e.g. tablet core) of a DPP-4 inhibitor according to embodiment A of the invention comprises the first diluent mannitol, pregelatinized starch as a second diluent with additional binder properties, the binder copovidone, the disintegrant corn starch, and magnesium stearate as lubricant; wherein copovidone and/or corn starch may be optional.
• a tablet of a DPP-4 inhibitor according to embodiment A of the invention may be film coated, preferably the film coat comprises hydroxypropylmethylcellulose (HPMC), polyethylene glycol (PEG), talc, titanium dioxide and iron oxide (e.g. red and/or yellow).
• HPMC hydroxypropylmethylcellulose
• PEG polyethylene glycol
• talc talc
• titanium dioxide titanium dioxide
• iron oxide e.g. red and/or yellow
• the component DPP-4 inhibitor of the combination according to the invention is administered by injection (preferably subcutaneously).
• the component long-acting insulin of the combination is preferably administered by injection (preferably subcutaneously) as well.
• the component long-acting insulin of the combination is administered by a transdermal delivery system.
• injectable formulations of the long-acting insulin and/or the DPP-4 inhibitor of this invention may be prepared according to known formulation techniques, e.g. using suitable liquid carriers, which usually comprise sterile water, and, optionally, further additives such as e.g. preservatives, pH adjusting agents, buffering agents, isotoning agents, solubility aids and/or tensides or the like, to obtain injectable solutions or suspensions.
• suitable liquid carriers which usually comprise sterile water
• further additives such as e.g. preservatives, pH adjusting agents, buffering agents, isotoning agents, solubility aids and/or tensides or the like, to obtain injectable solutions or suspensions.
• injectable formulations may comprise further additives, for example salts, solubility modifying agents or precipitating agents which retard release of the drug(s).
• injectable insulin formulations may comprise insulin stabilizing agents, such as zinc compounds.
• the component DPP-4 inhibitor of the combination according to the invention is administered by a transdermal delivery system.
• the component long-acting insulin of the combination is administered by a transdermal delivery system as well.
• the combination is preferably administered by injection (preferably subcutaneously).
• the component long-acting insulin of the combination is administered by (subcutaneous implanted) insulin pellets.
• Transdermal formulations e.g. for transdermal patches or gels
• the long-acting insulin and/or the DPP-4 inhibitor of this invention may be prepared according to known formulation techniques, e.g. using suitable carriers and, optionally, further additives.
• suitable carriers e.g
• microchannels or micropores in the skin, such as e.g. iontophoresis (based on low-level electrical current), sonophoresis (based on low-frequency ultrasound) or microneedling, or the use of drug-carrier agents (e.g. elastic or lipid vesicles such as transfersomes) or permeation enhancers.
• drug-carrier agents e.g. elastic or lipid vesicles such as transfersomes
• compositions may be packaged in a variety of ways.
• an article for distribution includes one or more containers that contain the one or more pharmaceutical compositions in an appropriate form. Tablets are typically packed in an appropriate primary package for easy handling, distribution and storage and for assurance of proper stability of the composition at prolonged contact with the environment during storage.
• Primary containers for tablets may be bottles or blister packs.
• a suitable bottle e.g. for a pharmaceutical composition or combination (tablet) comprising a DPP-4 inhibitor according to embodiment A of the invention, may be made from glass or polymer (preferably polypropylene (PP) or high density polyethylene (HD-PE)) and sealed with a screw cap.
• the screw cap may be provided with a child resistant safety closure (e.g. press-and-twist closure) for preventing or hampering access to the contents by children.
• a desiccant such as e.g. bentonite clay, molecular sieves, or, preferably, silica gel
• the shelf life of the packaged composition can be prolonged.
• a suitable blister pack e.g. for a pharmaceutical composition or combination (tablet) comprising a DPP-4 inhibitor according to embodiment A of the invention, comprises or is formed of a top foil (which is breachable by the tablets) and a bottom part (which contains pockets for the tablets).
• the top foil may contain a metallic foil, particularly aluminium or aluminium alloy foil (e.g. having a thickness of 20 ⁇ to 45 ⁇ " ⁇ , preferably 20 ⁇ to 25 ⁇ " ⁇ ) that is coated with a heat-sealing polymer layer on its inner side (sealing side).
• the bottom part may contain a multi-layer polymer foil (such as e.g.
• PVDC polyvinyl chloride
• PCTFE poly(chlorotriflouroethylene)
• PCTFE poly(chlorotriflouroethylene)
• multi-layer polymer-metal-polymer foil such as e.g. a cold-formable laminated PVC/aluminium/polyamide composition
• an additional overwrap or pouch made of a multi-layer polymer-metal-polymer foil may be used for the blister packs.
• Supplementary desiccant such as e.g. bentonite clay, molecular sieves, or, preferably, silica gel
• this pouch package may prolong the shelf life even more under such harsh conditions.
• Solutions for injection may be available in typical suitable presentation forms such as vials, cartridges or prefilled (disposable) pens, which may be further packaged.
• the article may further comprise a label or package insert, which refer to instructions customarily included in commercial packages of therapeutic products, that may contain information about the indications, usage, dosage, administration, contraindications and/or warnings concerning the use of such therapeutic products.
• the label or package inserts indicates that the composition can be used for any of the purposes described herein.
• the dosage typically required of the DPP-4 inhibitors mentioned herein in embodiment A when administered intravenously is 0.1 mg to 10 mg, preferably 0.25 mg to 5 mg, and when administered orally is 0.5 mg to 100 mg, preferably 2.5 mg to 50 mg or 0.5 mg to 10 mg, more preferably 2.5 mg to 10 mg or 1 mg to 5 mg, in each case 1 to 4 times a day.
• 0.1 mg to 10 mg preferably 0.25 mg to 5 mg
• 0.5 mg to 100 mg preferably 2.5 mg to 50 mg or 0.5 mg to 10 mg, more preferably 2.5 mg to 10 mg or 1 mg to 5 mg, in each case 1 to 4 times a day.
• the dosage of 1 -[(4-methyl- quinazolin-2-yl)methyl]-3-methyl-7-(2-butyn-1 -yl)-8-(3-(R)-amino-piperidin-1 -yl)-xanthine when administered orally is 0.5 mg to 10 mg per patient per day, preferably 2.5 mg to 10 mg or 1 mg to 5 mg per patient per day.
• a dosage form prepared with a pharmaceutical composition comprising a DPP-4 inhibitor mentioned herein in embodiment A contain the active ingredient in a dosage range of 0.1 - 100 mg.
• particular oral dosage strengths of 1 -[(4-methyl-quinazolin-2-yl)methyl]-3- methyl-7-(2-butyn-1 -yl)-8-(3-(R)-amino-piperidin-1-yl)-xanthine are 0.5 mg, 1 mg, 2.5 mg, 5 mg and 10 mg.
• the doses of DPP-4 inhibitors mentioned herein in embodiment B to be administered to mammals may be generally from about 0.5 mg to about 350 mg, for example from about 10 mg to about 250 mg, preferably 20-200 mg, more preferably 20-100 mg, of the active moiety per person per day, or from about 0.5 mg to about 20 mg, preferably 2.5-10 mg, per person per day, divided preferably into 1 to 4 single doses which may, for example, be of the same size.
• Single oral dosage strengths comprise, for example, 10, 25, 40, 50, 75, 100, 150 and 200 mg of the DPP-4 inhibitor active moiety.
• An oral dosage strength of the DPP-4 inhibitor sitagliptin is usually between 25 and 200 mg of the active moiety.
• a recommended dose of sitagliptin is 100 mg calculated for the active moiety (free base anhydrate) once daily.
• Unit dosage strengths of sitagliptin free base anhydrate (active moiety) are 25, 50, 75, 100, 150 and 200 mg.
• Particular unit dosage strengths of sitagliptin (e.g. per tablet) are 25, 50 and 100 mg.
• An equivalent amount of sitagliptin phosphate monohydrate to the sitagliptin free base anhydrate is used in the pharmaceutical compositions, namely, 32.13, 64.25, 96.38, 128.5, 192.75, and 257 mg, respectively. Adjusted dosages of 25 and 50 mg sitagliptin are used for patients with renal failure.
• Typical dosage strengths of the dual combination of sitagliptin / metformin are 50/500 mg and 50/1000 mg.
• An oral dosage range of the DPP-4 inhibitor vildagliptin is usually between 10 and 150 mg daily, in particular between 25 and 150 mg, 25 and 100 mg or 25 and 50 mg or 50 and 100 mg daily.
• Particular examples of daily oral dosage are 25, 30, 35, 45, 50, 55, 60, 80, 100 or 150 mg.
• the daily administration of vildagliptin may be between 25 and 150 mg or between 50 and 100 mg.
• the daily administration of vildagliptin may be 50 or 100 mg.
• the application of the active ingredient may occur up to three times a day, preferably one or two times a day.
• Particular dosage strengths are 50 mg or 100 mg vildagliptin.
• Typical dosage strengths of the dual combination of vildagliptin / metformin are 50/850 mg and 50/1000 mg.
• Alogliptin may be administered to a patient at an oral daily dose of between 5 mg/day and 250 mg/day, optionally between 10 mg and 200 mg, optionally between 10 mg and 150 mg, and optionally between 10 mg and 100 mg of alogliptin (in each instance based on the molecular weight of the free base form of alogliptin).
• specific oral dosage amounts that may be used include, but are not limited to 10 mg, 12.5 mg, 20 mg, 25 mg, 50 mg, 75 mg and 100 mg of alogliptin per day.
• Alogliptin may be administered in its free base form or as a pharmaceutically acceptable salt.
• Saxagliptin may be administered to a patient at an oral daily dose of between 2.5 mg/day and 100 mg/day, optionally between 2.5 mg and 50 mg.
• Specific oral dosage amounts that may be used include, but are not limited to 2.5 mg, 5 mg, 10 mg, 15 mg, 20 mg, 30 mg , 40 mg, 50 mg and 100 mg of saxagliptin per day.
• Typical dosage strengths of the dual combination of saxagliptin / metformin are 2.5/500 mg and 2.5/1000 mg.
• DPP-4 inhibitors of this invention refers to those orally administered DPP-4 inhibitors which are therapeutically efficacious at low dose levels, e.g. at oral dose levels ⁇ 100 mg or ⁇ 70 mg per patient per day, preferably ⁇ 50 mg, more preferably ⁇ 30 mg or ⁇ 20 mg, even more preferably from 1 mg to 10 mg, particularly from 1 mg to 5 mg (more particularly 5 mg), per patient per day (if required, divided into 1 to 4 single doses, particularly 1 or 2 single doses, which may be of the same size, preferentially, administered orally once- or twice daily (more preferentially once-daily), advantageously, administered at any time of day, with or without food.
• the daily oral amount 5 mg Bl 1356 can be given in an once daily dosing regimen (i.e. 5 mg Bl 1356 once daily) or in a twice daily dosing regimen (i.e. 2.5 mg Bl 1356 twice daily), at any time of day, with or without food.
• the long-acting insulin is typically administered by subcutaneous injection, e.g. ranging from twice daily, once daily to once weekly injection. Suitable doses and dosage forms of the long- acting insulin may be determined by a person skilled in the art. Blood glucose monitoring is essential in all patients receiving insulin therapy.
• insulin glargine is administered subcutaneously once a day.
• Lantus may be administered at any time during the day, but at the same time every day.
• the dose of Lantus is individualized based on clinical response.
• the recommended starting dose of Lantus in patients with type 2 diabetes who are not currently treated with insulin is 10 units (or 0.2 Units/kg) once daily, which should subsequently be adjusted to the patient's needs.
• Insulin detemir is administered subcutaneously once or twice a day.
• the dose is preferably administered with the evening meal or at bedtime.
• the evening dose can be administered either with evening meal, at bedtime, or 12 hours after the morning dose.
• the dose of Levemir is individualized based on clinical response.
• Levemir should be started at a dose of 0.1 to 0.2 Units/kg once-daily in the evening or 10 units once- or twice-daily, and the dose adjusted to achieve glycemic targets.
• the dosage of the active ingredients in the combinations and compositions in accordance with the present invention may be varied, although the amount of the active ingredients shall be such that a suitable dosage form is obtained.
• the selected dosage and the selected dosage form shall depend on the desired therapeutic effect, the route of
• Suitable dosage ranges for the combination are from the maximal tolerated dose for the single agent to lower doses, e.g. to one tenth of the maximal tolerated dose.
• a particularly preferred DPP-4 inhibitor to be emphasized within the meaning of this invention is 1 -[(4-methyl-quinazolin-2-yl)methyl]-3-methyl-7-(2-butyn-1 -yl)-8-(3-(R)-amino-piperidin-1 - yl)-xanthine (also known as Bl 1356 or linagliptin).
• Bl 1356 exhibits high potency, 24h duration of action, and a wide therapeutic window.
• Bl 1356 shows favourable pharmacodynamic and pharmacokinetic profile (see e.g.
• Bl 1356 acts as a true once-daily oral drug with a full 24 h duration of DPP-4 inhibition.
• Bl 1356 is mainly excreted via the liver and only to a minor extent (about ⁇ 7% of the administered oral dose) via the kidney.
• Bl 1356 is primarily excreted unchanged via the bile.
• the fraction of Bl 1356 eliminated via the kidneys increases only very slightly over time and with increasing dose, so that there will likely be no need to modify the dose of Bl 1356 based on the patients' renal function.
• the non-renal elimination of Bl 1356 in combination with its low accumulation potential and broad safety margin may be of significant benefit in a patient population that has a high prevalence of renal insufficiency and diabetic nephropathy.
• a DPP-4 inhibitor is combined with active substances customary for the respective disorders, such as e.g. one or more active substances selected from among the other antidiabetic substances, especially active substances that lower the blood sugar level or the lipid level in the blood, raise the HDL level in the blood, lower blood pressure or are indicated in the treatment of atherosclerosis or obesity.
• the DPP-4 inhibitors mentioned above - besides their use in mono-therapy - may also be used in conjunction with other active substances, by means of which improved treatment results can be obtained.
• Such a combined treatment may be given as a free combination of the substances or in the form of a fixed combination, for example in a tablet or capsule.
• Pharmaceutical formulations of the combination partner needed for this may either be obtained commercially as pharmaceutical compositions or may be formulated by the skilled man using conventional methods.
• antidiabetic combination partners are metformin; sulphonylureas such as glibenclamide, tolbutamide, glimepiride, glipizide, gliquidon, glibornuride and gliclazide;
• nateglinide nateglinide
• repaglinide mitiglinide
• mitiglinide mitiglinide
• thiazolidinediones such as rosiglitazone
• PPAR gamma modulators such as metaglidases; PPAR-gamma agonists such as e.g. rivoglitazone, mitoglitazone, INT-131 and balaglitazone; PPAR-gamma antagonists; PPAR-gamma/alpha modulators such as tesaglitazar, muraglitazar, aleglitazar, indeglitazar and KRP297; PPAR-gamma/alpha/delta modulators such as e.g. lobeglitazone; AMPK- activators such as AICAR; acetyl-CoA carboxylase (ACC1 and ACC2) inhibitors;
• DGAT diacylglycerol-acetyltransferase
• pancreatic beta cell GCRP agonists such as SMT3-receptor-agonists and GPR1 19, such as the GPR1 19 agonists 5-ethyl-2- ⁇ 4-[4-(4- tetrazol-1 -yl-phenoxymethyl)-thiazol-2-yl]-piperidin-1 -yl ⁇ -pyrimidine or 5-[1 -(3-isopropyl- [1 ,2,4]oxadiazol-5-yl)-piperidin-4-ylmethoxy]-2-(4-methanesulfonyl-phenyl)-pyridine; 1 1 ⁇ - HSD-inhibitors; FGF19 agonists or analogues; alpha-glucosidase blockers such as acarbose, voglibose and miglitol; alpha2-antagonists; insulin and insulin analogues such
• taspoglutide lixisenatide
• LY-2428757 a PEGylated version of GLP-1
• dulaglutide LY-2189265
• semaglutide or albiglutide SGLT2-inhibitors such as e.g.
• dapagliflozin sergliflozin (KGT-1251 ), atigliflozin, canagliflozin, ipragliflozin, luseogliflozin or tofogliflozin; inhibitors of protein tyrosine-phosphatase (e.g.
• trodusquemine inhibitors of glucose-6-phosphatase; fructose-1 ,6-bisphosphatase modulators; glycogen phosphorylase modulators; glucagon receptor antagonists; phosphoenolpyruvatecarboxykinase (PEPCK) inhibitors; pyruvate dehydrogenasekinase (PDK) inhibitors; inhibitors of tyrosine-kinases (50 mg to 600 mg) such as PDGF-receptor-kinase (cf. EP-A-564409, WO 98/35958, US 5093330, WO 2004/005281 , and WO 2006/041976) or of serine/threonine kinases;
• PPCK phosphoenolpyruvatecarboxykinase
• PDK pyruvate dehydrogenasekinase
• inhibitors of tyrosine-kinases 50 mg to 600 mg
• glucokinase/regulatory protein modulators incl glucokinase activators; glycogen synthase kinase inhibitors; inhibitors of the SH2-domain-containing inositol 5-phosphatase type 2 (SHIP2) ; IKK inhibitors such as high-dose salicylate; JNK1 inhibitors; protein kinase C-theta inhibitors; beta 3 agonists such as ritobegron, YM 178, solabegron, talibegron, N-5984, GRC-1087, rafabegron, FMP825; aldosereductase inhibitors such as AS 3201 , zenarestat, fidarestat, epalrestat, ranirestat, NZ-314, CP-744809, and CT-1 12; SGLT-1 or SGLT-2 inhibitors; KV 1 .3 channel inhibitors; GPR40 modulators such as e.g.
• Metformin is usually given in doses varying from about 500 mg to 2000 mg up to 2500 mg per day using various dosing regimens from about 100 mg to 500 mg or 200 mg to 850 mg (1 -3 times a day), or about 300 mg to 1000 mg once or twice a day, or delayed-release metformin in doses of about 100 mg to 1000 mg or preferably 500 mg to 1000 mg once or twice a day or about 500 mg to 2000 mg once a day.
• Particular dosage strengths may be 250, 500, 625, 750, 850 and 1000 mg of metformin hydrochloride.
• metformin For children 10 to 16 years of age, the recommended starting dose of metformin is 500 mg given once daily. If this dose fails to produce adequate results, the dose may be increased to 500 mg twice daily. Further increases may be made in increments of 500 mg weekly to a maximum daily dose of 2000 mg, given in divided doses (e.g. 2 or 3 divided doses).
• Metformin may be administered with food to decrease nausea.
• a dosage of pioglitazone is usually of about 1 -10 mg, 15 mg, 30 mg, or 45 mg once a day. Rosiglitazone is usually given in doses from 4 to 8 mg once (or divided twice) a day (typical dosage strengths are 2, 4 and 8 mg).
• Glibenclamide is usually given in doses from 2.5-5 to 20 mg once (or divided twice) a day (typical dosage strengths are 1 .25, 2.5 and 5 mg), or micronized glibenclamide in doses from 0.75-3 to 12 mg once (or divided twice) a day (typical dosage strengths are 1 .5, 3, 4.5 and 6 mg).
• Glipizide is usually given in doses from 2.5 to 10-20 mg once (or up to 40 mg divided twice) a day (typical dosage strengths are 5 and 10 mg), or extended-release glibenclamide in doses from 5 to 10 mg (up to 20 mg) once a day (typical dosage strengths are 2.5, 5 and 10 mg).
• Glimepiride is usually given in doses from 1 -2 to 4 mg (up to 8 mg) once a day (typical dosage strengths are 1 , 2 and 4 mg).
• a dual combination of glibenclamide/metformin is usually given in doses from 1 .25/250 once daily to 10/1000 mg twice daily, (typical dosage strengths are 1 .25/250, 2.5/500 and 5/500 mg).
• a dual combination of glipizide/metformin is usually given in doses from 2.5/250 to 10/1000 mg twice daily (typical dosage strengths are 2.5/250, 2.5/500 and 5/500 mg).
• a dual combination of glimepiride/metformin is usually given in doses from 1/250 to 4/1000 mg twice daily.
• a dual combination of rosiglitazone/glimepiride is usually given in doses from 4/1 once or twice daily to 4/2 mg twice daily (typical dosage strengths are 4/1 , 4/2, 4/4, 8/2 and 8/4 mg).
• a dual combination of pioglitazone/glimepiride is usually given in doses from 30/2 to 30/4 mg once daily (typical dosage strengths are 30/4 and 45/4 mg).
• a dual combination of rosiglitazone/metformin is usually given in doses from 1/500 to 4/1000 mg twice daily (typical dosage strengths are 1/500, 2/500, 4/500, 2/1000 and 4/1000 mg).
• a dual combination of pioglitazone/metformin is usually given in doses from 15/500 once or twice daily to 15/850 mg thrice daily (typical dosage strengths are 15/500 and 15/850 mg).
• the non-sulphonylurea insulin secretagogue nateglinide is usually given in doses from 60 to 120 mg with meals (up to 360 mg/day, typical dosage strengths are 60 and 120 mg);
• repaglinide is usually given in doses from 0.5 to 4 mg with meals (up to 16 mg/day, typical dosage strengths are 0.5, 1 and 2 mg).
• a dual combination of repaglinide/metformin is available in dosage strengths of 1/500 and 2/850 mg.
• Acarbose is usually given in doses from 25 to 100 mg with meals.
• Miglitol is usually given in doses from 25 to 100 mg with meals.
• combination partners that lower the lipid level in the blood are HMG-CoA- reductase inhibitors such as simvastatin, atorvastatin, lovastatin, fluvastatin, pravastatin, pitavastatin and rosuvastatin; fibrates such as bezafibrate, fenofibrate, clofibrate, gemfibrozil, etofibrate and etofyllinclofibrate; nicotinic acid and the derivatives thereof such as acipimox; PPAR-alpha agonists; PPAR-delta agonists such as e.g.
• cholestyramine, colestipol and colesevelam include inhibitors of bile acid transport; HDL modulating active substances such as D4F, reverse D4F, LXR modulating active substances and FXR modulating active substances; CETP inhibitors such as torcetrapib, JTT-705 (dalcetrapib) or compound 12 from WO 2007/005572 (anacetrapib); LDL receptor modulators; MTP inhibitors (e.g. lomitapide); and ApoB100 antisense RNA.
• HDL modulating active substances such as D4F, reverse D4F, LXR modulating active substances and FXR modulating active substances
• CETP inhibitors such as torcetrapib, JTT-705 (dalcetrapib) or compound 12 from WO 2007/005572 (anacetrapib)
• LDL receptor modulators include LDL receptor modulators; MTP inhibitors (e.g. lomitapide); and ApoB100 antisense RNA.
• a dosage of atorvastatin is usually from 1 mg to 40 mg or 10 mg to 80 mg once a day.
• beta-blockers such as atenolol, bisoprolol, celiprolol, metoprolol and carvedilol
• diuretics such as
• hydrochlorothiazide chlortalidon, xipamide, furosemide, piretanide, torasemide,
• calcium channel blockers such as amlodipine, nifedipine, nitrendipine, nisoldipine, nicardipine, felodipine, lacidipine, lercanipidine, manidipine, isradipine, nilvadipine, verapamil, gallopamil and diltiazem; ACE inhibitors such as ramipril, lisinopril, cilazapril, quinapril, captopril, enalapril, benazepril, perindopril, fosinopril and trandolapril; as well as angiotensin II receptor blockers (ARBs) such as telmisartan, candesartan, valsartan, losartan, irbesartan, olmesartan, azilsartan and
• ARBs angiotensin II receptor blockers
• a dosage of telmisartan is usually from 20 mg to 320 mg or 40 mg to 160 mg per day.
• combination partners which increase the HDL level in the blood are Cholesteryl Ester Transfer Protein (CETP) inhibitors; inhibitors of endothelial lipase; regulators of ABC1 ; LXRalpha antagonists; LXRbeta agonists; PPAR-delta agonists; LXRalpha/beta regulators, and substances that increase the expression and/or plasma concentration of apolipoprotein A-l.
• CETP Cholesteryl Ester Transfer Protein
• combination partners for the treatment of obesity are sibutramine;
• tetrahydrolipstatin orlistat
• alizyme cetilistat
• dexfenfluramine axokine
• cannabinoid receptor 1 antagonists such as the CB1 antagonist rimonobant
• MCH-1 receptor antagonists MCH-1 receptor antagonists
• MC4 receptor agonists NPY5 as well as NPY2 antagonists
• beta3-AR agonists such as SB-418790 and AD-9677
• 5HT2c receptor agonists such as APD 356 (lorcaserin); myostatin inhibitors; Acrp30 and adiponectin; steroyl CoA desaturase (SCD1 ) inhibitors; fatty acid synthase (FAS) inhibitors; CCK receptor agonists; Ghrelin receptor modulators; Pyy 3-36; orexin receptor antagonists; and tesofensine; as well as the dual combinations bupropion/naltrexone, bupropion/zonisamide, topiramate/phentermine and pramlintide/metreleptin.
• combination partners for the treatment of atherosclerosis are phospholipase A2 inhibitors; inhibitors of tyrosine-kinases (50 mg to 600 mg) such as PDGF-receptor-kinase (cf. EP-A-564409, WO 98/35958, US 5093330, WO 2004/005281 , and WO 2006/041976); oxLDL antibodies and oxLDL vaccines; apoA-1 Milano; ASA; and VCAM-1 inhibitors.
• phospholipase A2 inhibitors inhibitors of tyrosine-kinases (50 mg to 600 mg) such as PDGF-receptor-kinase (cf. EP-A-564409, WO 98/35958, US 5093330, WO 2004/005281 , and WO 2006/041976); oxLDL antibodies and oxLDL vaccines; apoA-1 Milano; ASA; and VCAM-1 inhibitors.
• Linagliptin s.c. dosing and its DPP-4 inhibition in plasma can be comparable in efficacy and duration of action to oral dosing, which may make it suitable for use in fixed combination with s.c. insulin:
• DPP-4 activity in EDTA plasma was detected 1, 3, 5, 7, 24, 31 , 48, 72h following drug administration (blood was taken by venous puncture under isofluran anesthesia from the vena sublingualis).
• Bl 1356 had a persistent DPP-4 inhibition of more than 64% over 7h.
• the 1 mg/kg s.c. dose was comparable in efficacy and duration of action to the 3 mg/kg oral dose.
• Fig. 1 DPP-4 activity in plasma after linagliptin s.c. dosing.
• Rats are fed a high-fat diet for 3 months and received either vehicle, linagliptin (10 mg/kg), or sibutramine (5 mg/kg) for 6 additional weeks, while continuing the high-fat diet.
• Magnetic resonance spectroscopy (MRS) analysis of total body fat, muscle fat, and liver fat is performed before treatment and at the end of the study.
• Sibutramine causes a significant reduction of body weight (-12%) versus control, whereas linagliptin has no significant effect (-3%). Total body fat is also significantly reduced by sibutramine (-12%), whereas linagliptin-treated animals show no significant reduction (-5%).
• linagliptin and sibutramine result both in a potent reduction of intramyocellular fat (- 24% and -34%, respectively).
• treatment with linagliptin results in a profound decrease of hepatic fat (-39%), whereas the effect of sibutramine (-30%) does not reach significance (see Table 4).
• linagliptin is weight neutral but improves intra-myocellular and hepatic lipid accumulation. Table 4: Effect of linagliptin on body weight total body fat, liver fat and intramyocellular fat
• linagliptin treatment provokes a potent reduction of intramyocellular lipids and hepatic fat, which are both independent of weight loss.
• the effects of sibutramine on muscular and hepatic fat are attributed mainly to the known weight reduction induced by this compound. Delaying onset of diabetes and preserving beta-cell function in non-obese type-1 diabetes:
• pancreatic T-cell migration and altered cytokine production is considered important players for the onset of insulinitis the exact mechanism and effects on the pancreatic cell pool is still incompletely understood.
• NOD non-obese-diabetic
• the subsequent stereological assessment of beta-cell mass demonstrates a significantly larger beta cell mass (vehicle 0.18 ⁇ 0.03 mg; linagliptin 0.48 ⁇ 0.09 mg, p ⁇ 0.01 ) and total islet mass (vehicle 0.40 ⁇ 0.04 mg; linagliptin 0.70 ⁇ 0.09 mg, p ⁇ 0.01 ) in linagliptin treated mice.
• the data demonstrate that linagliptin is able to delay the onset of diabetes in a type-1 diabetic model (NOD mouse).
• NOD mouse type-1 diabetic model
• beta-cell sparing effects which can be observed in this animal model indicate that such DPP-4 inhibition not only protects beta- cells by increasing active GLP-1 levels, but may also exerts direct or indirect antiinflammatory actions.

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