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Th1105 details
Primary information
ID1502
ThPP IDTh1105
Therapeutic Peptide/Protein NameInsulin aspart
SequenceA chainGIVEQCCTSICSLYQLENYCN B chainFVNQHLCGSHLVEA view full sequnce in fasta
Functional ClassificationIa
Molecular Weight582580
Chemical FormulaC256H381N65O79S6
Isoelectric PointN.A.
HydrophobicityN.A.
Melting Point (℃)N.A.
Half Life81 mins. SC injection
DescriptionRecombinant (from S. cerevisiae),fast-acting insulin analogue. It contains a single amino acid substitution at position B28 where proline is replaced with aspartic acid. This results in a decreased hexamer formation and higher rate of absorption, compared to wild type insulin, following subcutaneous administration.
Indication/DiseaseFor the treatment of Type 1 or 2 diabetes mellitus. Should normally be used in conjunction with an intermediate or long-acting insulin.
PharmacodynamicsInsulin is a natural hormone produced by beta cells of the pancreas. In non-diabetic individuals, a basal level of insulin is supplemented with insulin spikes following meals. Postprandial insulin spikes are responsible for the metabolic changes that occur as the body transitions from a postabsorptive to absorptive state. Insulin promotes cellular uptake of glucose, particularly in muscle and adipose tissues, promotes energy storage via glycogenesis, opposes catabolism of energy stores, increases DNA replication and protein synthesis by stimulating amino acid uptake by liver, muscle and adipose tissue, and modifies the activity of numerous enzymes involved in glycogen synthesis and glycolysis. Insulin also promotes growth and is required for the actions of growth hormone (e.g. protein synthesis, cell division, DNA synthesis). Insulin aspart is a rapid-acting insulin analogue used to mimic postprandial insulin spikes in diabetic individuals. The onset of action of insulin aspart is 10-15 minutes. Its activity peaks 60-90 minutes following subcutaneous injection and its duration of action is 4-5 hours.
Mechanism of ActionInsulin aspart binds to the insulin receptor (IR), a heterotetrameric protein consisting of two extracellular alpha units and two transmembrane beta units. The binding of insulin to the alpha subunit of IR stimulates the tyrosine kinase activity intrinsic to the beta subunit of the receptor. The bound receptor autophosphorylates and phosphorylates numerous intracellular substrates such as insulin receptor substrates (IRS) proteins, Cbl, APS, Shc and Gab 1. Activation of these proteins leads to the activation of downstream signaling molecules including PI3 kinase and Akt. Akt regulates the activity of glucose transporter 4 (GLUT4) and protein kinase C (PKC), both of which play critical roles in metabolism and catabolism. In humans, insulin is stored in the form of hexamers; however, only insulin monomers are able to interact with IR. Substitution of the proline residue at B28 with aspartic acid reduces the tendency to form hexamers and results in a faster rate of absorption and onset of action and shorter duration of action.
ToxicityInappropriately high dosages relative to food intake and/or energy expenditure may result in severe and sometimes prolonged and life-threatening hypoglycemia. Neurogenic (autonomic) signs and symptoms of hypoglycemia include trembling, palpitations, sweating, anxiety, hunger, nausea and tingling. Neuroglycopenic signs and symptoms of hypoglycemia include difficulty concentrating, lethargy/weakness, confusion, drowsiness, vision changes, difficulty speaking, headache, and dizziness. Mild hypoglycemia is characterized by the presence of autonomic symptoms. Moderate hypoglycemia is characterized by the presence of autonomic and neuroglycopenic symptoms. Individuals may become unconscious in severe cases of hypoglycemia.
MetabolismN.A.
AbsorptionRapidly absorbed following subcutaneous administration (more so than regular human insulin). Furthermore, insulin aspart has a faster absorption, a faster onset of action, and a shorter duration of action than regular human insulin after subcutaneous injection. It takes 40 - 50 minutes to reach maximum concentration. When a dose of 0.15 U/kg body weight was injected in type 1 diabetes patients, the mean maximum concentration (Cmax) was 82 mU/L. The site of injection has no impact on extent or speed of absorption.
Volume of DistributionN.A.
Clearance1.2 L/h/kg [healthy Caucasian male]
CategoriesHypoglycemic Agents and Antidiabetic Agents
Patents NumberUS5866538
Date of Issue21/12/01
Date of Expiry21/12/21
Drug InteractionN.A.
TargetInsulin receptor
Information of corresponding available drug in the market
Brand NameNovoLog
CompanyNovo Nordisk
Brand DiscriptionNovoLog (insulin aspart [rDNA origin] injection) is a rapid-acting human insulin analog used to lower blood glucose. NovoLog is homologous with regular human insulin with the exception of a single substitution of the amino acid proline by aspartic acid in position B28, and is produced by recombinant DNA technology utilizing Saccharomyces cerevisiae (baker's yeast). Insulin aspart has the empirical formula C256H381N65079S6 and a molecular weight of 5825.8
Prescribed forNovoLog is an insulin analog indicated to improve glycemic control in adults and children with diabetes mellitus
Chemical NameN.A.
FormulationNovoLog is a sterile, aqueous, clear, and colorless solution, that contains insulin aspart 100 Units/mL, glycerin 16 mg/mL, phenol 1.50 mg/mL, metacresol 1.72 mg/mL, zinc 19.6 mcg/mL, disodium hydrogen phosphate dihydrate 1.25 mg/mL, sodium chloride 0.58 mg/mL and water for injection. NovoLog has a pH of 7.2-7.6. Hydrochloric acid 10% and/or sodium hydroxide 10% may be added to adjust pH
Physcial AppearanceSterile, aqueous, clear, and colorless solution
Route of AdministrationSubcutaneous, Intravenous
Recommended DosageThe total daily insulin requirement may vary and is usually between 0.5 to 1.0 units/kg/day. When used in a meal-related subcutaneous injection treatment regimen, 50 to 70% of total insulin requirements may be provided by NovoLog and the remainder provided by an intermediate-acting or long-acting insulin. Because of NovoLog's comparatively rapid onset and short duration of glucose lowering activity, some patients may require more basal insulin and more total insulin to prevent pre-meal hyperglycemia when using NovoLog than when using human regular insulin.
ContraindicationNovoLog is contraindicated during episodes of hypoglycemia in patients with hypersensitivity to NovoLog or one of its excipients
Side Effectsswelling in your hands or feet; or low potassium (confusion, uneven heart rate, extreme thirst, increased urination, leg discomfort, muscle weakness or limp feeling). Hypoglycemia, Lipodystrophy, Weight gain, Peripheral Edema
Useful Linkhttp://www.novolog.com/ http://www.drugs.com/novolog.html https://en.wikipedia.org/wiki/Insulin_aspart
PubMed ID23512415, 20429049, 19496630, 18076215, 11829732
3-D StructureTh1105 A chain (View) or (Download), Th1105 B chain (View) or (Download)
Primary information
ID1503
ThPP IDTh1105
Therapeutic Peptide/Protein NameInsulin aspart
SequenceA chainGIVEQCCTSICSLYQLENYCN B chainFVNQHLCGSHLVEA view full sequnce in fasta
Functional ClassificationIa
Molecular Weight582580
Chemical FormulaC256H381N65O79S6
Isoelectric PointN.A.
HydrophobicityN.A.
Melting Point (℃)N.A.
Half Life81 mins. SC injection
DescriptionRecombinant (from S. cerevisiae),fast-acting insulin analogue. It contains a single amino acid substitution at position B28 where proline is replaced with aspartic acid. This results in a decreased hexamer formation and higher rate of absorption, compared to wild type insulin, following subcutaneous administration.
Indication/DiseaseFor the treatment of Type 1 or 2 diabetes mellitus. Should normally be used in conjunction with an intermediate or long-acting insulin.
PharmacodynamicsInsulin is a natural hormone produced by beta cells of the pancreas. In non-diabetic individuals, a basal level of insulin is supplemented with insulin spikes following meals. Postprandial insulin spikes are responsible for the metabolic changes that occur as the body transitions from a postabsorptive to absorptive state. Insulin promotes cellular uptake of glucose, particularly in muscle and adipose tissues, promotes energy storage via glycogenesis, opposes catabolism of energy stores, increases DNA replication and protein synthesis by stimulating amino acid uptake by liver, muscle and adipose tissue, and modifies the activity of numerous enzymes involved in glycogen synthesis and glycolysis. Insulin also promotes growth and is required for the actions of growth hormone (e.g. protein synthesis, cell division, DNA synthesis). Insulin aspart is a rapid-acting insulin analogue used to mimic postprandial insulin spikes in diabetic individuals. The onset of action of insulin aspart is 10-15 minutes. Its activity peaks 60-90 minutes following subcutaneous injection and its duration of action is 4-5 hours.
Mechanism of ActionInsulin aspart binds to the insulin receptor (IR), a heterotetrameric protein consisting of two extracellular alpha units and two transmembrane beta units. The binding of insulin to the alpha subunit of IR stimulates the tyrosine kinase activity intrinsic to the beta subunit of the receptor. The bound receptor autophosphorylates and phosphorylates numerous intracellular substrates such as insulin receptor substrates (IRS) proteins, Cbl, APS, Shc and Gab 1. Activation of these proteins leads to the activation of downstream signaling molecules including PI3 kinase and Akt. Akt regulates the activity of glucose transporter 4 (GLUT4) and protein kinase C (PKC), both of which play critical roles in metabolism and catabolism. In humans, insulin is stored in the form of hexamers; however, only insulin monomers are able to interact with IR. Substitution of the proline residue at B28 with aspartic acid reduces the tendency to form hexamers and results in a faster rate of absorption and onset of action and shorter duration of action.
ToxicityInappropriately high dosages relative to food intake and/or energy expenditure may result in severe and sometimes prolonged and life-threatening hypoglycemia. Neurogenic (autonomic) signs and symptoms of hypoglycemia include trembling, palpitations, sweating, anxiety, hunger, nausea and tingling. Neuroglycopenic signs and symptoms of hypoglycemia include difficulty concentrating, lethargy/weakness, confusion, drowsiness, vision changes, difficulty speaking, headache, and dizziness. Mild hypoglycemia is characterized by the presence of autonomic symptoms. Moderate hypoglycemia is characterized by the presence of autonomic and neuroglycopenic symptoms. Individuals may become unconscious in severe cases of hypoglycemia.
MetabolismN.A.
AbsorptionRapidly absorbed following subcutaneous administration (more so than regular human insulin). Furthermore, insulin aspart has a faster absorption, a faster onset of action, and a shorter duration of action than regular human insulin after subcutaneous injection. It takes 40 - 50 minutes to reach maximum concentration. When a dose of 0.15 U/kg body weight was injected in type 1 diabetes patients, the mean maximum concentration (Cmax) was 82 mU/L. The site of injection has no impact on extent or speed of absorption.
Volume of DistributionN.A.
Clearance1.2 L/h/kg [healthy Caucasian male]
CategoriesHypoglycemic Agents and Antidiabetic Agents
Patents NumberUS5618913
Date of Issue08/06/98
Date of Expiry08/06/18
Drug InteractionN.A.
TargetN.A.
Information of corresponding available drug in the market
Brand NameNovoLog Mix 50/50
CompanyNovo Nordisk
Brand DiscriptionNovoLog Mix 50/50 (50% insulin aspart protamine suspension and 50% insulin aspart injection) (50% insulin aspart protamine suspension and 50% insulin aspart injection, [rDNA origin]) is an insulin analog suspension containing 50% insulin aspart protamine crystals and 50% soluble insulin aspart. NovoLog Mix 50/50 is a blood glucose-lowering agent with a rapid onset and an intermediate duration of action. Insulin aspart is homologous with regular human insulin with the exception of a single substitution of the amino acid proline by aspartic acid in position B28, and is produced by recombinant DNA technology utilizing Saccharomyces cerevisiae (baker's yeast) as the on organism. Insulin aspart (NovoLog ) has the empirical formula C256H381N65O79S6 and a molecular weight of 5825.8 Da
Prescribed forNovoLog Mix 50/50 (50% insulin aspart protamine suspension and 50% insulin aspart injection) is indicated as an adjunct to diet and exercise to improve glycemic control in patients with diabetes mellitus.
Chemical NameN.A.
FormulationNovoLog Mix 50/50 (50% insulin aspart protamine suspension and 50% insulin aspart injection) is a uniform, white, sterile suspension that contains insulin aspart (B28 asp regular human insulin analog) 100 Units/ml, 16 mg glycerol, 1.50 mg phenol, 1.72 mg metacre­sol, 19.6 μg zinc, 1.25 mg disodium hydrogen phosphate dihydrate, 1.17 mg sodium chloride, and 0.23 mg protamine sulfate. NovoLog Mix 50/50 (50% insulin aspart protamine suspension and 50% insulin aspart injection) has a pH of 7.10 - 7.44. Hydrochloric acid or sodium hydroxide may be added to adjust pH
Physcial AppearanceUniform, white, sterile suspension that contains insulin aspart (B28 asp regular human insulin analog)
Route of AdministrationSubcutaneous
Recommended DosageNovoLog Mix 50/50 (50% insulin aspart protamine suspension and 50% insulin aspart injection) should be administered within 15 minutes of meal initiation up to three times daily. It is intended only for subcutaneous injection into the abdominal wall, thigh, or upper arm. NovoLog Mix 50/50 (50% insulin aspart protamine suspension and 50% insulin aspart injection) should not be administered intravenously.
ContraindicationNovoLog Mix 50/50 (50% insulin aspart protamine suspension and 50% insulin aspart injection) is contraindicated during episodes of hypoglycemia and in patients hypersensitive to NovoLog Mix 50/50 (50% insulin aspart protamine suspension and 50% insulin aspart injection) or any of the excipients.
Side EffectsDuring clinical trials the overall adverse event profile of NovoLog Mix 50/50 was comparable to Novolin 70/30. Adverse events commonly associated with human insulin therapy include the following: Body as whole: allergic reactions, Skin and Appendages: Injection site reaction, lipodystrophy, pruritus, rash, Hypoglycemia
Useful Linkhttp://www.rxlist.com/novolog-mix-50-50-drug/side-effects-interactions.htm http://diabetes.emedtv.com/novolog-mix-50-50/novolog-mix-50-50.html http://reference.medscape.com/drug/novolog-mix-50-50-novolog-mix-70-30-insulin-aspart-protamine-insulin-aspart-999552 http://www.accessdata.fda.gov/drugsatfda_docs/label/2013/021810s004lbl.pdf
PubMed ID23512415, 20429049, 19496630, 18076215, 11829732
3-D StructureTh1105 A chain (View) or (Download), Th1105 B chain (View) or (Download)
Primary information
ID1504
ThPP IDTh1105
Therapeutic Peptide/Protein NameInsulin aspart
SequenceA chainGIVEQCCTSICSLYQLENYCN B chainFVNQHLCGSHLVEA view full sequnce in fasta
Functional ClassificationIa
Molecular Weight582580
Chemical FormulaC256H381N65O79S6
Isoelectric PointN.A.
HydrophobicityN.A.
Melting Point (℃)N.A.
Half Life81 mins. SC injection
DescriptionRecombinant (from S. cerevisiae),fast-acting insulin analogue. It contains a single amino acid substitution at position B28 where proline is replaced with aspartic acid. This results in a decreased hexamer formation and higher rate of absorption, compared to wild type insulin, following subcutaneous administration.
Indication/DiseaseFor the treatment of Type 1 or 2 diabetes mellitus. Should normally be used in conjunction with an intermediate or long-acting insulin.
PharmacodynamicsInsulin is a natural hormone produced by beta cells of the pancreas. In non-diabetic individuals, a basal level of insulin is supplemented with insulin spikes following meals. Postprandial insulin spikes are responsible for the metabolic changes that occur as the body transitions from a postabsorptive to absorptive state. Insulin promotes cellular uptake of glucose, particularly in muscle and adipose tissues, promotes energy storage via glycogenesis, opposes catabolism of energy stores, increases DNA replication and protein synthesis by stimulating amino acid uptake by liver, muscle and adipose tissue, and modifies the activity of numerous enzymes involved in glycogen synthesis and glycolysis. Insulin also promotes growth and is required for the actions of growth hormone (e.g. protein synthesis, cell division, DNA synthesis). Insulin aspart is a rapid-acting insulin analogue used to mimic postprandial insulin spikes in diabetic individuals. The onset of action of insulin aspart is 10-15 minutes. Its activity peaks 60-90 minutes following subcutaneous injection and its duration of action is 4-5 hours.
Mechanism of ActionInsulin aspart binds to the insulin receptor (IR), a heterotetrameric protein consisting of two extracellular alpha units and two transmembrane beta units. The binding of insulin to the alpha subunit of IR stimulates the tyrosine kinase activity intrinsic to the beta subunit of the receptor. The bound receptor autophosphorylates and phosphorylates numerous intracellular substrates such as insulin receptor substrates (IRS) proteins, Cbl, APS, Shc and Gab 1. Activation of these proteins leads to the activation of downstream signaling molecules including PI3 kinase and Akt. Akt regulates the activity of glucose transporter 4 (GLUT4) and protein kinase C (PKC), both of which play critical roles in metabolism and catabolism. In humans, insulin is stored in the form of hexamers; however, only insulin monomers are able to interact with IR. Substitution of the proline residue at B28 with aspartic acid reduces the tendency to form hexamers and results in a faster rate of absorption and onset of action and shorter duration of action.
ToxicityInappropriately high dosages relative to food intake and/or energy expenditure may result in severe and sometimes prolonged and life-threatening hypoglycemia. Neurogenic (autonomic) signs and symptoms of hypoglycemia include trembling, palpitations, sweating, anxiety, hunger, nausea and tingling. Neuroglycopenic signs and symptoms of hypoglycemia include difficulty concentrating, lethargy/weakness, confusion, drowsiness, vision changes, difficulty speaking, headache, and dizziness. Mild hypoglycemia is characterized by the presence of autonomic symptoms. Moderate hypoglycemia is characterized by the presence of autonomic and neuroglycopenic symptoms. Individuals may become unconscious in severe cases of hypoglycemia.
MetabolismN.A.
AbsorptionRapidly absorbed following subcutaneous administration (more so than regular human insulin). Furthermore, insulin aspart has a faster absorption, a faster onset of action, and a shorter duration of action than regular human insulin after subcutaneous injection. It takes 40 - 50 minutes to reach maximum concentration. When a dose of 0.15 U/kg body weight was injected in type 1 diabetes patients, the mean maximum concentration (Cmax) was 82 mU/L. The site of injection has no impact on extent or speed of absorption.
Volume of DistributionN.A.
Clearance1.2 L/h/kg [healthy Caucasian male]
CategoriesHypoglycemic Agents and Antidiabetic Agents
Patents NumberN.A.
Date of IssueN.A.
Date of ExpiryN.A.
Drug InteractionN.A.
TargetN.A.
Information of corresponding available drug in the market
Brand NameNovoLog Mix 70/30
CompanyNovo Nordisk
Brand DiscriptionNovoLog Mix 70/30 (insulin aspart protamine and insulin aspart rdna origin) (70% insulin aspart protamine suspension and 30% insulin aspart injection, [rDNA origin]) is a human insulin analog suspension containing 70% insulin aspart protamine crystals and 30% soluble insulin aspart. NovoLog Mix 70/30 is a blood glucose­lowering agent with an earlier onset and an intermediate duration of action. Insulin aspart is homologous with regular human insulin with the exception of a single substitution of the amino acid proline by aspartic acid in position B28, and is produced by recombinant DNA technology utilizing Saccharomyces cerevisiae (baker's part (NovoLog) has the empirical formula C256H381N65O79S6 and a molecular weight of 5825.8 Da
Prescribed forNovoLog Mix 70/30 (70% insulin aspart protamine suspension and 30% insulin aspart injection) is indicated as an adjunct to diet and exercise to improve glycemic control in patients with diabetes mellitus.
Chemical NameN.A.
FormulationInactive ingredients for the 10 mL vial are mannitol 36.4 mg/mL, phenol 1.50 mg/mL, metacresol 1.72 mg/mL, zinc 19.6 μg/mL, disodium hydrogen phosphate dihydrate 1.25 mg/mL, sodium chloride 0.58 mg/mL, and protamine sulfate 0.32 mg/mL. Inactive ingredients for the NovoLog Mix 70/30 (insulin aspart protamine and insulin aspart rdna origin) FlexPen are glycerol 16.0 mg/mL, phenol 1.50 mg/mL, metacresol 1.72 mg/mL, zinc 19.6 μg/mL, disodium hydrogen phosphate dihydrate 1.25 mg/mL, sodium chloride 0.877 mg/mL, and protamine sulfate 0.32 mg/mL. NovoLog Mix 70/30 (insulin aspart protamine and insulin aspart rdna origin) has a pH of 7.20 - 7.44. Hydrochloric acid or sodium hydroxide may be added to adjust pH.
Physcial AppearanceNovoLog Mix 70/30 (insulin aspart protamine and insulin aspart rdna origin) is a uniform, white, sterile suspension that contains insulin aspart 100 Units/mL.
Route of AdministrationSubcutaneous
Recommended DosageNovoLog Mix 70/30 (insulin aspart protamine and insulin aspart (rdna origin)) is an insulin analog with an earlier onset and intermediate duration of action in comparison to the basal human insulin premix. The addition of protamine to the rapid-acting aspart insulin analog (NovoLog) results in insulin activity that is 30% short-acting and 70% long-acting. NovoLog Mix 70/30 (insulin aspart protamine and insulin aspart (rdna origin)) is typically dosed on a twice-daily basis (with each dose intended to cover 2 meals or a meal and a snack). The dosage of NovoLog Mix 70/30 (insulin aspart protamine and insulin aspart (rdna origin)) must be individualized. The written prescription for NovoLog Mix 70/30 (insulin aspart protamine and insulin aspart (rdna origin)) should include the full name, to avoid confusion with NovoLog (insulin aspart) and Novolin 70/30 (human premix).
ContraindicationNovoLog Mix 70/30 (insulin aspart protamine and insulin aspart (rdna origin)) is contraindicated during episodes of hypoglycemia in patients with hypersensitivity to NovoLog Mix 70/30 (insulin aspart protamine and insulin aspart (rdna origin)) or one of its excipients.
Side Effectssigns of insulin allergy: itching skin rash over the entire body, wheezing, trouble breathing, fast heart rate, sweating, or feeling like you might pass out. Hypoglycemia, or low blood sugar, is the most common side effect of insulin. Symptoms include headache, hunger, weakness, sweating, tremors, irritability, trouble concentrating, rapid breathing, fast heartbeat, fainting, or seizure (severe hypoglycemia can be fatal)
Useful Linkhttp://www.novologmix70-30.com/ http://www.drugs.com/pro/novolog-mix-70-30.html http://www.rxlist.com/novolog-mix-70-30-drug.htm
PubMed ID23512415, 20429049, 19496630, 18076215, 11829732
3-D StructureTh1105 A chain (View) or (Download), Th1105 B chain (View) or (Download)
Primary information
ID1505
ThPP IDTh1105
Therapeutic Peptide/Protein NameInsulin aspart
SequenceA chainGIVEQCCTSICSLYQLENYCN B chainFVNQHLCGSHLVEA view full sequnce in fasta
Functional ClassificationIa
Molecular Weight582580
Chemical FormulaC256H381N65O79S6
Isoelectric PointN.A.
HydrophobicityN.A.
Melting Point (℃)N.A.
Half Life81 mins. SC injection
DescriptionRecombinant (from S. cerevisiae),fast-acting insulin analogue. It contains a single amino acid substitution at position B28 where proline is replaced with aspartic acid. This results in a decreased hexamer formation and higher rate of absorption, compared to wild type insulin, following subcutaneous administration.
Indication/DiseaseFor the treatment of Type 1 or 2 diabetes mellitus. Should normally be used in conjunction with an intermediate or long-acting insulin.
PharmacodynamicsInsulin is a natural hormone produced by beta cells of the pancreas. In non-diabetic individuals, a basal level of insulin is supplemented with insulin spikes following meals. Postprandial insulin spikes are responsible for the metabolic changes that occur as the body transitions from a postabsorptive to absorptive state. Insulin promotes cellular uptake of glucose, particularly in muscle and adipose tissues, promotes energy storage via glycogenesis, opposes catabolism of energy stores, increases DNA replication and protein synthesis by stimulating amino acid uptake by liver, muscle and adipose tissue, and modifies the activity of numerous enzymes involved in glycogen synthesis and glycolysis. Insulin also promotes growth and is required for the actions of growth hormone (e.g. protein synthesis, cell division, DNA synthesis). Insulin aspart is a rapid-acting insulin analogue used to mimic postprandial insulin spikes in diabetic individuals. The onset of action of insulin aspart is 10-15 minutes. Its activity peaks 60-90 minutes following subcutaneous injection and its duration of action is 4-5 hours.
Mechanism of ActionInsulin aspart binds to the insulin receptor (IR), a heterotetrameric protein consisting of two extracellular alpha units and two transmembrane beta units. The binding of insulin to the alpha subunit of IR stimulates the tyrosine kinase activity intrinsic to the beta subunit of the receptor. The bound receptor autophosphorylates and phosphorylates numerous intracellular substrates such as insulin receptor substrates (IRS) proteins, Cbl, APS, Shc and Gab 1. Activation of these proteins leads to the activation of downstream signaling molecules including PI3 kinase and Akt. Akt regulates the activity of glucose transporter 4 (GLUT4) and protein kinase C (PKC), both of which play critical roles in metabolism and catabolism. In humans, insulin is stored in the form of hexamers; however, only insulin monomers are able to interact with IR. Substitution of the proline residue at B28 with aspartic acid reduces the tendency to form hexamers and results in a faster rate of absorption and onset of action and shorter duration of action.
ToxicityInappropriately high dosages relative to food intake and/or energy expenditure may result in severe and sometimes prolonged and life-threatening hypoglycemia. Neurogenic (autonomic) signs and symptoms of hypoglycemia include trembling, palpitations, sweating, anxiety, hunger, nausea and tingling. Neuroglycopenic signs and symptoms of hypoglycemia include difficulty concentrating, lethargy/weakness, confusion, drowsiness, vision changes, difficulty speaking, headache, and dizziness. Mild hypoglycemia is characterized by the presence of autonomic symptoms. Moderate hypoglycemia is characterized by the presence of autonomic and neuroglycopenic symptoms. Individuals may become unconscious in severe cases of hypoglycemia.
MetabolismN.A.
AbsorptionRapidly absorbed following subcutaneous administration (more so than regular human insulin). Furthermore, insulin aspart has a faster absorption, a faster onset of action, and a shorter duration of action than regular human insulin after subcutaneous injection. It takes 40 - 50 minutes to reach maximum concentration. When a dose of 0.15 U/kg body weight was injected in type 1 diabetes patients, the mean maximum concentration (Cmax) was 82 mU/L. The site of injection has no impact on extent or speed of absorption.
Volume of DistributionN.A.
Clearance1.2 L/h/kg [healthy Caucasian male]
CategoriesHypoglycemic Agents and Antidiabetic Agents
Patents NumberN.A.
Date of IssueN.A.
Date of ExpiryN.A.
Drug InteractionN.A.
TargetN.A.
Information of corresponding available drug in the market
Brand NameN.A.
CompanyN.A.
Brand DiscriptionN.A.
Prescribed forN.A.
Chemical NameN.A.
FormulationN.A.
Physcial AppearanceN.A.
Route of AdministrationN.A.
Recommended DosageN.A.
ContraindicationN.A.
Side EffectsN.A.
Useful LinkN.A.
PubMed ID23512415, 20429049, 19496630, 18076215, 11829732
3-D StructureTh1105 A chain (View) or (Download), Th1105 B chain (View) or (Download)
Primary information
ID1506
ThPP IDTh1105
Therapeutic Peptide/Protein NameInsulin aspart
SequenceA chainGIVEQCCTSICSLYQLENYCN B chainFVNQHLCGSHLVEA view full sequnce in fasta
Functional ClassificationIa
Molecular Weight582580
Chemical FormulaC256H381N65O79S6
Isoelectric PointN.A.
HydrophobicityN.A.
Melting Point (℃)N.A.
Half Life81 mins. SC injection
DescriptionRecombinant (from S. cerevisiae),fast-acting insulin analogue. It contains a single amino acid substitution at position B28 where proline is replaced with aspartic acid. This results in a decreased hexamer formation and higher rate of absorption, compared to wild type insulin, following subcutaneous administration.
Indication/DiseaseFor the treatment of Type 1 or 2 diabetes mellitus. Should normally be used in conjunction with an intermediate or long-acting insulin.
PharmacodynamicsInsulin is a natural hormone produced by beta cells of the pancreas. In non-diabetic individuals, a basal level of insulin is supplemented with insulin spikes following meals. Postprandial insulin spikes are responsible for the metabolic changes that occur as the body transitions from a postabsorptive to absorptive state. Insulin promotes cellular uptake of glucose, particularly in muscle and adipose tissues, promotes energy storage via glycogenesis, opposes catabolism of energy stores, increases DNA replication and protein synthesis by stimulating amino acid uptake by liver, muscle and adipose tissue, and modifies the activity of numerous enzymes involved in glycogen synthesis and glycolysis. Insulin also promotes growth and is required for the actions of growth hormone (e.g. protein synthesis, cell division, DNA synthesis). Insulin aspart is a rapid-acting insulin analogue used to mimic postprandial insulin spikes in diabetic individuals. The onset of action of insulin aspart is 10-15 minutes. Its activity peaks 60-90 minutes following subcutaneous injection and its duration of action is 4-5 hours.
Mechanism of ActionInsulin aspart binds to the insulin receptor (IR), a heterotetrameric protein consisting of two extracellular alpha units and two transmembrane beta units. The binding of insulin to the alpha subunit of IR stimulates the tyrosine kinase activity intrinsic to the beta subunit of the receptor. The bound receptor autophosphorylates and phosphorylates numerous intracellular substrates such as insulin receptor substrates (IRS) proteins, Cbl, APS, Shc and Gab 1. Activation of these proteins leads to the activation of downstream signaling molecules including PI3 kinase and Akt. Akt regulates the activity of glucose transporter 4 (GLUT4) and protein kinase C (PKC), both of which play critical roles in metabolism and catabolism. In humans, insulin is stored in the form of hexamers; however, only insulin monomers are able to interact with IR. Substitution of the proline residue at B28 with aspartic acid reduces the tendency to form hexamers and results in a faster rate of absorption and onset of action and shorter duration of action.
ToxicityInappropriately high dosages relative to food intake and/or energy expenditure may result in severe and sometimes prolonged and life-threatening hypoglycemia. Neurogenic (autonomic) signs and symptoms of hypoglycemia include trembling, palpitations, sweating, anxiety, hunger, nausea and tingling. Neuroglycopenic signs and symptoms of hypoglycemia include difficulty concentrating, lethargy/weakness, confusion, drowsiness, vision changes, difficulty speaking, headache, and dizziness. Mild hypoglycemia is characterized by the presence of autonomic symptoms. Moderate hypoglycemia is characterized by the presence of autonomic and neuroglycopenic symptoms. Individuals may become unconscious in severe cases of hypoglycemia.
MetabolismN.A.
AbsorptionRapidly absorbed following subcutaneous administration (more so than regular human insulin). Furthermore, insulin aspart has a faster absorption, a faster onset of action, and a shorter duration of action than regular human insulin after subcutaneous injection. It takes 40 - 50 minutes to reach maximum concentration. When a dose of 0.15 U/kg body weight was injected in type 1 diabetes patients, the mean maximum concentration (Cmax) was 82 mU/L. The site of injection has no impact on extent or speed of absorption.
Volume of DistributionN.A.
Clearance1.2 L/h/kg [healthy Caucasian male]
CategoriesHypoglycemic Agents and Antidiabetic Agents
Patents NumberN.A.
Date of IssueN.A.
Date of ExpiryN.A.
Drug InteractionN.A.
TargetN.A.
Information of corresponding available drug in the market
Brand NameN.A.
CompanyN.A.
Brand DiscriptionN.A.
Prescribed forN.A.
Chemical NameN.A.
FormulationN.A.
Physcial AppearanceN.A.
Route of AdministrationN.A.
Recommended DosageN.A.
ContraindicationN.A.
Side EffectsN.A.
Useful LinkN.A.
PubMed ID23512415, 20429049, 19496630, 18076215, 11829732
3-D StructureTh1105 A chain (View) or (Download), Th1105 B chain (View) or (Download)
Primary information
ID1507
ThPP IDTh1105
Therapeutic Peptide/Protein NameInsulin aspart
SequenceA chainGIVEQCCTSICSLYQLENYCN B chainFVNQHLCGSHLVEA view full sequnce in fasta
Functional ClassificationIa
Molecular Weight582580
Chemical FormulaC256H381N65O79S6
Isoelectric PointN.A.
HydrophobicityN.A.
Melting Point (℃)N.A.
Half Life81 mins. SC injection
DescriptionRecombinant (from S. cerevisiae),fast-acting insulin analogue. It contains a single amino acid substitution at position B28 where proline is replaced with aspartic acid. This results in a decreased hexamer formation and higher rate of absorption, compared to wild type insulin, following subcutaneous administration.
Indication/DiseaseFor the treatment of Type 1 or 2 diabetes mellitus. Should normally be used in conjunction with an intermediate or long-acting insulin.
PharmacodynamicsInsulin is a natural hormone produced by beta cells of the pancreas. In non-diabetic individuals, a basal level of insulin is supplemented with insulin spikes following meals. Postprandial insulin spikes are responsible for the metabolic changes that occur as the body transitions from a postabsorptive to absorptive state. Insulin promotes cellular uptake of glucose, particularly in muscle and adipose tissues, promotes energy storage via glycogenesis, opposes catabolism of energy stores, increases DNA replication and protein synthesis by stimulating amino acid uptake by liver, muscle and adipose tissue, and modifies the activity of numerous enzymes involved in glycogen synthesis and glycolysis. Insulin also promotes growth and is required for the actions of growth hormone (e.g. protein synthesis, cell division, DNA synthesis). Insulin aspart is a rapid-acting insulin analogue used to mimic postprandial insulin spikes in diabetic individuals. The onset of action of insulin aspart is 10-15 minutes. Its activity peaks 60-90 minutes following subcutaneous injection and its duration of action is 4-5 hours.
Mechanism of ActionInsulin aspart binds to the insulin receptor (IR), a heterotetrameric protein consisting of two extracellular alpha units and two transmembrane beta units. The binding of insulin to the alpha subunit of IR stimulates the tyrosine kinase activity intrinsic to the beta subunit of the receptor. The bound receptor autophosphorylates and phosphorylates numerous intracellular substrates such as insulin receptor substrates (IRS) proteins, Cbl, APS, Shc and Gab 1. Activation of these proteins leads to the activation of downstream signaling molecules including PI3 kinase and Akt. Akt regulates the activity of glucose transporter 4 (GLUT4) and protein kinase C (PKC), both of which play critical roles in metabolism and catabolism. In humans, insulin is stored in the form of hexamers; however, only insulin monomers are able to interact with IR. Substitution of the proline residue at B28 with aspartic acid reduces the tendency to form hexamers and results in a faster rate of absorption and onset of action and shorter duration of action.
ToxicityInappropriately high dosages relative to food intake and/or energy expenditure may result in severe and sometimes prolonged and life-threatening hypoglycemia. Neurogenic (autonomic) signs and symptoms of hypoglycemia include trembling, palpitations, sweating, anxiety, hunger, nausea and tingling. Neuroglycopenic signs and symptoms of hypoglycemia include difficulty concentrating, lethargy/weakness, confusion, drowsiness, vision changes, difficulty speaking, headache, and dizziness. Mild hypoglycemia is characterized by the presence of autonomic symptoms. Moderate hypoglycemia is characterized by the presence of autonomic and neuroglycopenic symptoms. Individuals may become unconscious in severe cases of hypoglycemia.
MetabolismN.A.
AbsorptionRapidly absorbed following subcutaneous administration (more so than regular human insulin). Furthermore, insulin aspart has a faster absorption, a faster onset of action, and a shorter duration of action than regular human insulin after subcutaneous injection. It takes 40 - 50 minutes to reach maximum concentration. When a dose of 0.15 U/kg body weight was injected in type 1 diabetes patients, the mean maximum concentration (Cmax) was 82 mU/L. The site of injection has no impact on extent or speed of absorption.
Volume of DistributionN.A.
Clearance1.2 L/h/kg [healthy Caucasian male]
CategoriesHypoglycemic Agents and Antidiabetic Agents
Patents NumberN.A.
Date of IssueN.A.
Date of ExpiryN.A.
Drug InteractionN.A.
TargetN.A.
Information of corresponding available drug in the market
Brand NameN.A.
CompanyN.A.
Brand DiscriptionN.A.
Prescribed forN.A.
Chemical NameN.A.
FormulationN.A.
Physcial AppearanceN.A.
Route of AdministrationN.A.
Recommended DosageN.A.
ContraindicationN.A.
Side EffectsN.A.
Useful LinkN.A.
PubMed ID23512415, 20429049, 19496630, 18076215, 11829732
3-D StructureTh1105 A chain (View) or (Download), Th1105 B chain (View) or (Download)
Primary information
ID1508
ThPP IDTh1105
Therapeutic Peptide/Protein NameInsulin aspart
SequenceA chainGIVEQCCTSICSLYQLENYCN B chainFVNQHLCGSHLVEA view full sequnce in fasta
Functional ClassificationIa
Molecular Weight582580
Chemical FormulaC256H381N65O79S6
Isoelectric PointN.A.
HydrophobicityN.A.
Melting Point (℃)N.A.
Half Life81 mins. SC injection
DescriptionRecombinant (from S. cerevisiae),fast-acting insulin analogue. It contains a single amino acid substitution at position B28 where proline is replaced with aspartic acid. This results in a decreased hexamer formation and higher rate of absorption, compared to wild type insulin, following subcutaneous administration.
Indication/DiseaseFor the treatment of Type 1 or 2 diabetes mellitus. Should normally be used in conjunction with an intermediate or long-acting insulin.
PharmacodynamicsInsulin is a natural hormone produced by beta cells of the pancreas. In non-diabetic individuals, a basal level of insulin is supplemented with insulin spikes following meals. Postprandial insulin spikes are responsible for the metabolic changes that occur as the body transitions from a postabsorptive to absorptive state. Insulin promotes cellular uptake of glucose, particularly in muscle and adipose tissues, promotes energy storage via glycogenesis, opposes catabolism of energy stores, increases DNA replication and protein synthesis by stimulating amino acid uptake by liver, muscle and adipose tissue, and modifies the activity of numerous enzymes involved in glycogen synthesis and glycolysis. Insulin also promotes growth and is required for the actions of growth hormone (e.g. protein synthesis, cell division, DNA synthesis). Insulin aspart is a rapid-acting insulin analogue used to mimic postprandial insulin spikes in diabetic individuals. The onset of action of insulin aspart is 10-15 minutes. Its activity peaks 60-90 minutes following subcutaneous injection and its duration of action is 4-5 hours.
Mechanism of ActionInsulin aspart binds to the insulin receptor (IR), a heterotetrameric protein consisting of two extracellular alpha units and two transmembrane beta units. The binding of insulin to the alpha subunit of IR stimulates the tyrosine kinase activity intrinsic to the beta subunit of the receptor. The bound receptor autophosphorylates and phosphorylates numerous intracellular substrates such as insulin receptor substrates (IRS) proteins, Cbl, APS, Shc and Gab 1. Activation of these proteins leads to the activation of downstream signaling molecules including PI3 kinase and Akt. Akt regulates the activity of glucose transporter 4 (GLUT4) and protein kinase C (PKC), both of which play critical roles in metabolism and catabolism. In humans, insulin is stored in the form of hexamers; however, only insulin monomers are able to interact with IR. Substitution of the proline residue at B28 with aspartic acid reduces the tendency to form hexamers and results in a faster rate of absorption and onset of action and shorter duration of action.
ToxicityInappropriately high dosages relative to food intake and/or energy expenditure may result in severe and sometimes prolonged and life-threatening hypoglycemia. Neurogenic (autonomic) signs and symptoms of hypoglycemia include trembling, palpitations, sweating, anxiety, hunger, nausea and tingling. Neuroglycopenic signs and symptoms of hypoglycemia include difficulty concentrating, lethargy/weakness, confusion, drowsiness, vision changes, difficulty speaking, headache, and dizziness. Mild hypoglycemia is characterized by the presence of autonomic symptoms. Moderate hypoglycemia is characterized by the presence of autonomic and neuroglycopenic symptoms. Individuals may become unconscious in severe cases of hypoglycemia.
MetabolismN.A.
AbsorptionRapidly absorbed following subcutaneous administration (more so than regular human insulin). Furthermore, insulin aspart has a faster absorption, a faster onset of action, and a shorter duration of action than regular human insulin after subcutaneous injection. It takes 40 - 50 minutes to reach maximum concentration. When a dose of 0.15 U/kg body weight was injected in type 1 diabetes patients, the mean maximum concentration (Cmax) was 82 mU/L. The site of injection has no impact on extent or speed of absorption.
Volume of DistributionN.A.
Clearance1.2 L/h/kg [healthy Caucasian male]
CategoriesHypoglycemic Agents and Antidiabetic Agents
Patents NumberN.A.
Date of IssueN.A.
Date of ExpiryN.A.
Drug InteractionN.A.
TargetN.A.
Information of corresponding available drug in the market
Brand NameN.A.
CompanyN.A.
Brand DiscriptionN.A.
Prescribed forN.A.
Chemical NameN.A.
FormulationN.A.
Physcial AppearanceN.A.
Route of AdministrationN.A.
Recommended DosageN.A.
ContraindicationN.A.
Side EffectsN.A.
Useful LinkN.A.
PubMed ID23512415, 20429049, 19496630, 18076215, 11829732
3-D StructureTh1105 A chain (View) or (Download), Th1105 B chain (View) or (Download)
Primary information
ID1509
ThPP IDTh1105
Therapeutic Peptide/Protein NameInsulin aspart
SequenceA chainGIVEQCCTSICSLYQLENYCN B chainFVNQHLCGSHLVEA view full sequnce in fasta
Functional ClassificationIa
Molecular Weight582580
Chemical FormulaC256H381N65O79S6
Isoelectric PointN.A.
HydrophobicityN.A.
Melting Point (℃)N.A.
Half Life81 mins. SC injection
DescriptionRecombinant (from S. cerevisiae),fast-acting insulin analogue. It contains a single amino acid substitution at position B28 where proline is replaced with aspartic acid. This results in a decreased hexamer formation and higher rate of absorption, compared to wild type insulin, following subcutaneous administration.
Indication/DiseaseFor the treatment of Type 1 or 2 diabetes mellitus. Should normally be used in conjunction with an intermediate or long-acting insulin.
PharmacodynamicsInsulin is a natural hormone produced by beta cells of the pancreas. In non-diabetic individuals, a basal level of insulin is supplemented with insulin spikes following meals. Postprandial insulin spikes are responsible for the metabolic changes that occur as the body transitions from a postabsorptive to absorptive state. Insulin promotes cellular uptake of glucose, particularly in muscle and adipose tissues, promotes energy storage via glycogenesis, opposes catabolism of energy stores, increases DNA replication and protein synthesis by stimulating amino acid uptake by liver, muscle and adipose tissue, and modifies the activity of numerous enzymes involved in glycogen synthesis and glycolysis. Insulin also promotes growth and is required for the actions of growth hormone (e.g. protein synthesis, cell division, DNA synthesis). Insulin aspart is a rapid-acting insulin analogue used to mimic postprandial insulin spikes in diabetic individuals. The onset of action of insulin aspart is 10-15 minutes. Its activity peaks 60-90 minutes following subcutaneous injection and its duration of action is 4-5 hours.
Mechanism of ActionInsulin aspart binds to the insulin receptor (IR), a heterotetrameric protein consisting of two extracellular alpha units and two transmembrane beta units. The binding of insulin to the alpha subunit of IR stimulates the tyrosine kinase activity intrinsic to the beta subunit of the receptor. The bound receptor autophosphorylates and phosphorylates numerous intracellular substrates such as insulin receptor substrates (IRS) proteins, Cbl, APS, Shc and Gab 1. Activation of these proteins leads to the activation of downstream signaling molecules including PI3 kinase and Akt. Akt regulates the activity of glucose transporter 4 (GLUT4) and protein kinase C (PKC), both of which play critical roles in metabolism and catabolism. In humans, insulin is stored in the form of hexamers; however, only insulin monomers are able to interact with IR. Substitution of the proline residue at B28 with aspartic acid reduces the tendency to form hexamers and results in a faster rate of absorption and onset of action and shorter duration of action.
ToxicityInappropriately high dosages relative to food intake and/or energy expenditure may result in severe and sometimes prolonged and life-threatening hypoglycemia. Neurogenic (autonomic) signs and symptoms of hypoglycemia include trembling, palpitations, sweating, anxiety, hunger, nausea and tingling. Neuroglycopenic signs and symptoms of hypoglycemia include difficulty concentrating, lethargy/weakness, confusion, drowsiness, vision changes, difficulty speaking, headache, and dizziness. Mild hypoglycemia is characterized by the presence of autonomic symptoms. Moderate hypoglycemia is characterized by the presence of autonomic and neuroglycopenic symptoms. Individuals may become unconscious in severe cases of hypoglycemia.
MetabolismN.A.
AbsorptionRapidly absorbed following subcutaneous administration (more so than regular human insulin). Furthermore, insulin aspart has a faster absorption, a faster onset of action, and a shorter duration of action than regular human insulin after subcutaneous injection. It takes 40 - 50 minutes to reach maximum concentration. When a dose of 0.15 U/kg body weight was injected in type 1 diabetes patients, the mean maximum concentration (Cmax) was 82 mU/L. The site of injection has no impact on extent or speed of absorption.
Volume of DistributionN.A.
Clearance1.2 L/h/kg [healthy Caucasian male]
CategoriesHypoglycemic Agents and Antidiabetic Agents
Patents NumberN.A.
Date of IssueN.A.
Date of ExpiryN.A.
Drug InteractionN.A.
TargetN.A.
Information of corresponding available drug in the market
Brand NameN.A.
CompanyN.A.
Brand DiscriptionN.A.
Prescribed forN.A.
Chemical NameN.A.
FormulationN.A.
Physcial AppearanceN.A.
Route of AdministrationN.A.
Recommended DosageN.A.
ContraindicationN.A.
Side EffectsN.A.
Useful LinkN.A.
PubMed ID23512415, 20429049, 19496630, 18076215, 11829732
3-D StructureTh1105 A chain (View) or (Download), Th1105 B chain (View) or (Download)
Primary information
ID1510
ThPP IDTh1105
Therapeutic Peptide/Protein NameInsulin aspart
SequenceA chainGIVEQCCTSICSLYQLENYCN B chainFVNQHLCGSHLVEA view full sequnce in fasta
Functional ClassificationIa
Molecular Weight582580
Chemical FormulaC256H381N65O79S6
Isoelectric PointN.A.
HydrophobicityN.A.
Melting Point (℃)N.A.
Half Life81 mins. SC injection
DescriptionRecombinant (from S. cerevisiae),fast-acting insulin analogue. It contains a single amino acid substitution at position B28 where proline is replaced with aspartic acid. This results in a decreased hexamer formation and higher rate of absorption, compared to wild type insulin, following subcutaneous administration.
Indication/DiseaseFor the treatment of Type 1 or 2 diabetes mellitus. Should normally be used in conjunction with an intermediate or long-acting insulin.
PharmacodynamicsInsulin is a natural hormone produced by beta cells of the pancreas. In non-diabetic individuals, a basal level of insulin is supplemented with insulin spikes following meals. Postprandial insulin spikes are responsible for the metabolic changes that occur as the body transitions from a postabsorptive to absorptive state. Insulin promotes cellular uptake of glucose, particularly in muscle and adipose tissues, promotes energy storage via glycogenesis, opposes catabolism of energy stores, increases DNA replication and protein synthesis by stimulating amino acid uptake by liver, muscle and adipose tissue, and modifies the activity of numerous enzymes involved in glycogen synthesis and glycolysis. Insulin also promotes growth and is required for the actions of growth hormone (e.g. protein synthesis, cell division, DNA synthesis). Insulin aspart is a rapid-acting insulin analogue used to mimic postprandial insulin spikes in diabetic individuals. The onset of action of insulin aspart is 10-15 minutes. Its activity peaks 60-90 minutes following subcutaneous injection and its duration of action is 4-5 hours.
Mechanism of ActionInsulin aspart binds to the insulin receptor (IR), a heterotetrameric protein consisting of two extracellular alpha units and two transmembrane beta units. The binding of insulin to the alpha subunit of IR stimulates the tyrosine kinase activity intrinsic to the beta subunit of the receptor. The bound receptor autophosphorylates and phosphorylates numerous intracellular substrates such as insulin receptor substrates (IRS) proteins, Cbl, APS, Shc and Gab 1. Activation of these proteins leads to the activation of downstream signaling molecules including PI3 kinase and Akt. Akt regulates the activity of glucose transporter 4 (GLUT4) and protein kinase C (PKC), both of which play critical roles in metabolism and catabolism. In humans, insulin is stored in the form of hexamers; however, only insulin monomers are able to interact with IR. Substitution of the proline residue at B28 with aspartic acid reduces the tendency to form hexamers and results in a faster rate of absorption and onset of action and shorter duration of action.
ToxicityInappropriately high dosages relative to food intake and/or energy expenditure may result in severe and sometimes prolonged and life-threatening hypoglycemia. Neurogenic (autonomic) signs and symptoms of hypoglycemia include trembling, palpitations, sweating, anxiety, hunger, nausea and tingling. Neuroglycopenic signs and symptoms of hypoglycemia include difficulty concentrating, lethargy/weakness, confusion, drowsiness, vision changes, difficulty speaking, headache, and dizziness. Mild hypoglycemia is characterized by the presence of autonomic symptoms. Moderate hypoglycemia is characterized by the presence of autonomic and neuroglycopenic symptoms. Individuals may become unconscious in severe cases of hypoglycemia.
MetabolismN.A.
AbsorptionRapidly absorbed following subcutaneous administration (more so than regular human insulin). Furthermore, insulin aspart has a faster absorption, a faster onset of action, and a shorter duration of action than regular human insulin after subcutaneous injection. It takes 40 - 50 minutes to reach maximum concentration. When a dose of 0.15 U/kg body weight was injected in type 1 diabetes patients, the mean maximum concentration (Cmax) was 82 mU/L. The site of injection has no impact on extent or speed of absorption.
Volume of DistributionN.A.
Clearance1.2 L/h/kg [healthy Caucasian male]
CategoriesHypoglycemic Agents and Antidiabetic Agents
Patents NumberN.A.
Date of IssueN.A.
Date of ExpiryN.A.
Drug InteractionN.A.
TargetN.A.
Information of corresponding available drug in the market
Brand NameN.A.
CompanyN.A.
Brand DiscriptionN.A.
Prescribed forN.A.
Chemical NameN.A.
FormulationN.A.
Physcial AppearanceN.A.
Route of AdministrationN.A.
Recommended DosageN.A.
ContraindicationN.A.
Side EffectsN.A.
Useful LinkN.A.
PubMed ID23512415, 20429049, 19496630, 18076215, 11829732
3-D StructureTh1105 A chain (View) or (Download), Th1105 B chain (View) or (Download)