Endocrine Rx Flashcards
Lispro
1)Type I DM, Type II DM, gestational DM, life-threatening hyperkalemia, stress-induced hyperglycemia
2)Insulin/Bind insulin receptor (tyrosine kinase activity)
-Liver: increase glucose stored as glycogen
-Muscle: increase glycogen and protien synthesis and K+ uptake
-Fat: aids in TG storage
3)Hypoglycemia, very rarely hypersensitivy rxns
4)Rapid-acting
Aspart
1)Type I DM, Type II DM, gestational DM, life-threatening hyperkalemia, stress-induced hyperglycemia
2)Insulin/Bind insulin receptor (tyrosine kinase activity)
-Liver: increase glucose stored as glycogen
-Muscle: increase glycogen and protien synthesis and K+ uptake
-Fat: aids in TG storage
3)Hypoglycemia, very rarely hypersensitivy rxns
4)Rapid-acting
Glulisine
1)Type I DM, Type II DM, gestational DM, life-threatening hyperkalemia, stress-induced hyperglycemia
2)Insulin/Bind insulin receptor (tyrosine kinase activity)
-Liver: increase glucose stored as glycogen
-Muscle: increase glycogen and protien synthesis and K+ uptake
-Fat: aids in TG storage
3)Hypoglycemia, very rarely hypersensitivy rxns
4)Rapid-acting
Regular
1)Type I DM, Type II DM, gestational DM, life-threatening hyperkalemia, stress-induced hyperglycemia
2)Insulin/Bind insulin receptor (tyrosine kinase activity)
-Liver: increase glucose stored as glycogen
-Muscle: increase glycogen and protien synthesis and K+ uptake
-Fat: aids in TG storage
3)Hypoglycemia, very rarely hypersensitivy rxns
4)Short-acting
NPH
1)Type I DM, Type II DM, gestational DM, life-threatening hyperkalemia, stress-induced hyperglycemia
2)Insulin/Bind insulin receptor (tyrosine kinase activity)
-Liver: increase glucose stored as glycogen
-Muscle: increase glycogen and protien synthesis and K+ uptake
-Fat: aids in TG storage
3)Hypoglycemia, very rarely hypersensitivy rxns
4)Intermediate
Glargine
1)Type I DM, Type II DM, gestational DM, life-threatening hyperkalemia, stress-induced hyperglycemia
2)Insulin/Bind insulin receptor (tyrosine kinase activity)
-Liver: increase glucose stored as glycogen
-Muscle: increase glycogen and protien synthesis and K+ uptake
-Fat: aids in TG storage
3)Hypoglycemia, very rarely hypersensitivy rxns
4)Long-acting
Detemir
1)Type I DM, Type II DM, gestational DM, life-threatening hyperkalemia, stress-induced hyperglycemia
2)Insulin/Bind insulin receptor (tyrosine kinase activity)
-Liver: increase glucose stored as glycogen
-Muscle: increase glycogen and protien synthesis and K+ uptake
-Fat: aids in TG storage
3)Hypoglycemia, very rarely hypersensitivy rxns
4)Long-acting
Metformin
1)First-line therapy in Type II DM, can be used in pts w/o islet function
2)Biguanide/ Exact MOA unknown –> decreases gluconeogenesis, increases glycolysis, increases peripheral glucose uptake (insulin sensitivity)
3)GI upset, lactic acidosis (most serious)
4)Contraindicated in renal failure
Tolbutamide
1)Type II DM –stimulate endogenous insulin release
2)Sulfonylureas (1st generation)/Close K+ channel in beta cell membrane so cell depolarizes –> triggers insulin release via Ca2+ influx
3)Disulfiram-like effects
4)Useless in Type I DM b/c requires some islet cell function
Chlorpropamide
1)Type II DM –stimulate endogenous insulin release
2)Sulfonylureas (1st generation)/Close K+ channel in beta cell membrane so cell depolarizes –> triggers insulin release via Ca2+ influx
3)Disulfiram-like effects
4)Useless in Type I DM b/c requires some islet cell function
Glyburide
1)Type II DM – stimulates endogenous insulin release
2)Sulfonylureas (2nd generation)/Close K+ channel in beta cell membrane so cell depolarizes –> triggers insulin release via Ca2+ influx
3)Hypoglycemia
4)Useless in Type I DM b/c requires some islet cell funciton
Glimepiride
1)Type II DM – stimulates endogenous insulin release
2)Sulfonylureas (2nd generation)/Close K+ channel in beta cell membrane so cell depolarizes –> triggers insulin release via Ca2+ influx
3)Hypoglycemia
4)Useless in Type I DM b/c requires some islet cell funciton
Glipizide
1)Type II DM – stimulates endogenous insulin release
2)Sulfonylureas (2nd generation)/Close K+ channel in beta cell membrane so cell depolarizes –> triggers insulin release via Ca2+ influx
3)Hypoglycemia
4)Useless in Type I DM b/c requires some islet cell funciton
Pioglitazone
1)Monotherapy in Type II DM or in combination therapy
2)Glitazone/Thiazolidinedione: Incraeses insulin sensitivity in peripheral tissue;, binds PPAR-gamma nuclear transcription regulator
3)Weight gain, edema, hepatoxicity, heart failure
Rosiglitazone
1)Monotherapy in Type II DM or in combination therapy
2)Glitazone/Thiazolidinedione: Incraeses insulin sensitivity in peripheral tissue;, binds PPAR-gamma nuclear transcription regulator
3)Weight gain, edema, hepatoxicity, heart failure