Rosoxacin is a quinolone derivative antibiotic for the treatment of bacterial infection of respiratory tract, urinary tract, GI, CNS and immuno compromised patients. Rosoxacin is known to be effective against penicillin resistant strains and is a single dose orally administered drug, which avoids all complications of parenteral administration seen with penicillin, especially anaphylactic shock.
Fitur visualisasi ini dikembangkan menggunakan pendekatan Graph Theory untuk memetakan hubungan polifarmasi dan molekuler. Entitas (Obat, Target, Gen) direpresentasikan sebagai Simpul (Nodes), sedangkan hubungan biologisnya sebagai Sisi (Edges).
drugbank-id dan name pada skema XML DrugBank.targets/target yang memuat polipeptida sasaran.gene-name dan varian snp-effects.Tata letak grafik menggunakan algoritma Force-Directed Graph (Barnes-Hut). Model fisika ini menerapkan gaya tolak-menolak antar simpul (Gravitasi: -3000) agar tidak tumpang tindih, serta gaya pegas (Spring: 0.04) pada garis penghubung untuk fleksibilitas interaksi.
| Didanosine | Didanosine can cause a decrease in the absorption of Rosoxacin resulting in a reduced serum concentration and potentially a decrease in efficacy. |
| Probenecid | Probenecid may decrease the excretion rate of Rosoxacin which could result in a higher serum level. |
| Quinapril | Quinapril can cause a decrease in the absorption of Rosoxacin resulting in a reduced serum concentration and potentially a decrease in efficacy. |
| Calcium acetate | Calcium acetate can cause a decrease in the absorption of Rosoxacin resulting in a reduced serum concentration and potentially a decrease in efficacy. |
| Sevelamer | Sevelamer can cause a decrease in the absorption of Rosoxacin resulting in a reduced serum concentration and potentially a decrease in efficacy. |
| Iron Dextran | Iron Dextran can cause a decrease in the absorption of Rosoxacin resulting in a reduced serum concentration and potentially a decrease in efficacy. |
| Calcium | Calcium can cause a decrease in the absorption of Rosoxacin resulting in a reduced serum concentration and potentially a decrease in efficacy. |
| Calcium carbonate | Calcium carbonate can cause a decrease in the absorption of Rosoxacin resulting in a reduced serum concentration and potentially a decrease in efficacy. |
| Lanthanum carbonate | Lanthanum carbonate can cause a decrease in the absorption of Rosoxacin resulting in a reduced serum concentration and potentially a decrease in efficacy. |
| Ferric carboxymaltose | Ferric carboxymaltose can cause a decrease in the absorption of Rosoxacin resulting in a reduced serum concentration and potentially a decrease in efficacy. |
| Iron sucrose | Iron sucrose can cause a decrease in the absorption of Rosoxacin resulting in a reduced serum concentration and potentially a decrease in efficacy. |
| Ferric pyrophosphate | Ferric pyrophosphate can cause a decrease in the absorption of Rosoxacin resulting in a reduced serum concentration and potentially a decrease in efficacy. |
| Calcium citrate | Calcium citrate can cause a decrease in the absorption of Rosoxacin resulting in a reduced serum concentration and potentially a decrease in efficacy. |
| Calcium gluconate | Calcium gluconate can cause a decrease in the absorption of Rosoxacin resulting in a reduced serum concentration and potentially a decrease in efficacy. |
| Ferric sulfate | Ferric sulfate can cause a decrease in the absorption of Rosoxacin resulting in a reduced serum concentration and potentially a decrease in efficacy. |
| Ferric cation | Ferric cation can cause a decrease in the absorption of Rosoxacin resulting in a reduced serum concentration and potentially a decrease in efficacy. |
| Tetraferric tricitrate decahydrate | Tetraferric tricitrate decahydrate can cause a decrease in the absorption of Rosoxacin resulting in a reduced serum concentration and potentially a decrease in efficacy. |
| Lanthanum III cation | Lanthanum III cation can cause a decrease in the absorption of Rosoxacin resulting in a reduced serum concentration and potentially a decrease in efficacy. |
| Calcium polycarbophil | Calcium polycarbophil can cause a decrease in the absorption of Rosoxacin resulting in a reduced serum concentration and potentially a decrease in efficacy. |
| Ferric oxyhydroxide | Ferric oxyhydroxide can cause a decrease in the absorption of Rosoxacin resulting in a reduced serum concentration and potentially a decrease in efficacy. |
| Sucralfate | Sucralfate can cause a decrease in the absorption of Rosoxacin resulting in a reduced serum concentration and potentially a decrease in efficacy. |
| Zolmitriptan | The metabolism of Zolmitriptan can be decreased when combined with Rosoxacin. |
| Nitrofurantoin | The therapeutic efficacy of Rosoxacin can be decreased when used in combination with Nitrofurantoin. |
| Mycophenolate mofetil | The serum concentration of Mycophenolate mofetil can be decreased when it is combined with Rosoxacin. |
| Mycophenolic acid | The serum concentration of Mycophenolic acid can be decreased when it is combined with Rosoxacin. |
| Picosulfuric acid | The therapeutic efficacy of Picosulfuric acid can be decreased when used in combination with Rosoxacin. |
| Insulin human | The therapeutic efficacy of Insulin human can be increased when used in combination with Rosoxacin. |
| Insulin lispro | The therapeutic efficacy of Insulin lispro can be increased when used in combination with Rosoxacin. |
| Insulin pork | The therapeutic efficacy of Insulin pork can be increased when used in combination with Rosoxacin. |
| Troglitazone | The therapeutic efficacy of Troglitazone can be increased when used in combination with Rosoxacin. |
| Glimepiride | The therapeutic efficacy of Glimepiride can be increased when used in combination with Rosoxacin. |
| Sulfisoxazole | The therapeutic efficacy of Sulfisoxazole can be increased when used in combination with Rosoxacin. |
| Acarbose | The therapeutic efficacy of Acarbose can be increased when used in combination with Rosoxacin. |
| Metformin | The therapeutic efficacy of Metformin can be increased when used in combination with Rosoxacin. |
| Sulfadiazine | The therapeutic efficacy of Sulfadiazine can be increased when used in combination with Rosoxacin. |
| Rosiglitazone | The therapeutic efficacy of Rosiglitazone can be increased when used in combination with Rosoxacin. |
| Acetohexamide | The therapeutic efficacy of Acetohexamide can be increased when used in combination with Rosoxacin. |
| Miglitol | The therapeutic efficacy of Miglitol can be increased when used in combination with Rosoxacin. |
| Chlorpropamide | The therapeutic efficacy of Chlorpropamide can be increased when used in combination with Rosoxacin. |
| Nateglinide | The therapeutic efficacy of Nateglinide can be increased when used in combination with Rosoxacin. |
| Pentamidine | The therapeutic efficacy of Pentamidine can be increased when used in combination with Rosoxacin. |
| Tolazamide | The therapeutic efficacy of Tolazamide can be increased when used in combination with Rosoxacin. |
| Repaglinide | The therapeutic efficacy of Repaglinide can be increased when used in combination with Rosoxacin. |
| Phenformin | The therapeutic efficacy of Phenformin can be increased when used in combination with Rosoxacin. |
| Sulfamethoxazole | The therapeutic efficacy of Sulfamethoxazole can be increased when used in combination with Rosoxacin. |
| Glyburide | The therapeutic efficacy of Glyburide can be increased when used in combination with Rosoxacin. |
| Glipizide | The therapeutic efficacy of Glipizide can be increased when used in combination with Rosoxacin. |
| Gliclazide | The therapeutic efficacy of Gliclazide can be increased when used in combination with Rosoxacin. |
| Tolbutamide | The therapeutic efficacy of Tolbutamide can be increased when used in combination with Rosoxacin. |
| Pioglitazone | The therapeutic efficacy of Pioglitazone can be increased when used in combination with Rosoxacin. |
| Bromocriptine | The therapeutic efficacy of Bromocriptine can be increased when used in combination with Rosoxacin. |
| Gliquidone | The therapeutic efficacy of Gliquidone can be increased when used in combination with Rosoxacin. |
| Mitiglinide | The therapeutic efficacy of Mitiglinide can be increased when used in combination with Rosoxacin. |
| Sitagliptin | The therapeutic efficacy of Sitagliptin can be increased when used in combination with Rosoxacin. |
| Sunitinib | The therapeutic efficacy of Sunitinib can be increased when used in combination with Rosoxacin. |
| Exenatide | The therapeutic efficacy of Exenatide can be increased when used in combination with Rosoxacin. |
| Mecasermin | The therapeutic efficacy of Mecasermin can be increased when used in combination with Rosoxacin. |
| Pramlintide | The therapeutic efficacy of Pramlintide can be increased when used in combination with Rosoxacin. |
| Glisoxepide | The therapeutic efficacy of Glisoxepide can be increased when used in combination with Rosoxacin. |
| Insulin aspart | The therapeutic efficacy of Insulin aspart can be increased when used in combination with Rosoxacin. |
| Insulin glulisine | The therapeutic efficacy of Insulin glulisine can be increased when used in combination with Rosoxacin. |
| Glymidine | The therapeutic efficacy of Glymidine can be increased when used in combination with Rosoxacin. |
| AICA ribonucleotide | The therapeutic efficacy of AICA ribonucleotide can be increased when used in combination with Rosoxacin. |
| Buformin | The therapeutic efficacy of Buformin can be increased when used in combination with Rosoxacin. |
| Vildagliptin | The therapeutic efficacy of Vildagliptin can be increased when used in combination with Rosoxacin. |
| Voglibose | The therapeutic efficacy of Voglibose can be increased when used in combination with Rosoxacin. |
| NN344 | The therapeutic efficacy of NN344 can be increased when used in combination with Rosoxacin. |
| AMG-222 | The therapeutic efficacy of AMG-222 can be increased when used in combination with Rosoxacin. |
| Bisegliptin | The therapeutic efficacy of Bisegliptin can be increased when used in combination with Rosoxacin. |
| Alogliptin | The therapeutic efficacy of Alogliptin can be increased when used in combination with Rosoxacin. |
| Dapagliflozin | The therapeutic efficacy of Dapagliflozin can be increased when used in combination with Rosoxacin. |
| Saxagliptin | The therapeutic efficacy of Saxagliptin can be increased when used in combination with Rosoxacin. |
| Liraglutide | The therapeutic efficacy of Liraglutide can be increased when used in combination with Rosoxacin. |
| Gosogliptin | The therapeutic efficacy of Gosogliptin can be increased when used in combination with Rosoxacin. |
| Linagliptin | The therapeutic efficacy of Linagliptin can be increased when used in combination with Rosoxacin. |
| Canagliflozin | The therapeutic efficacy of Canagliflozin can be increased when used in combination with Rosoxacin. |
| Glibornuride | The therapeutic efficacy of Glibornuride can be increased when used in combination with Rosoxacin. |
| Benfluorex | The therapeutic efficacy of Benfluorex can be increased when used in combination with Rosoxacin. |
| Empagliflozin | The therapeutic efficacy of Empagliflozin can be increased when used in combination with Rosoxacin. |
| Albiglutide | The therapeutic efficacy of Albiglutide can be increased when used in combination with Rosoxacin. |
| Dulaglutide | The therapeutic efficacy of Dulaglutide can be increased when used in combination with Rosoxacin. |
| Lobeglitazone | The therapeutic efficacy of Lobeglitazone can be increased when used in combination with Rosoxacin. |
| Netoglitazone | The therapeutic efficacy of Netoglitazone can be increased when used in combination with Rosoxacin. |
| Rivoglitazone | The therapeutic efficacy of Rivoglitazone can be increased when used in combination with Rosoxacin. |
| Ciglitazone | The therapeutic efficacy of Ciglitazone can be increased when used in combination with Rosoxacin. |
| Lixisenatide | The therapeutic efficacy of Lixisenatide can be increased when used in combination with Rosoxacin. |
| Insulin beef | The therapeutic efficacy of Insulin beef can be increased when used in combination with Rosoxacin. |
| Insulin degludec | The therapeutic efficacy of Insulin degludec can be increased when used in combination with Rosoxacin. |
| Insulin peglispro | The therapeutic efficacy of Insulin peglispro can be increased when used in combination with Rosoxacin. |
| Insulin tregopil | The therapeutic efficacy of Insulin tregopil can be increased when used in combination with Rosoxacin. |
| Ipragliflozin | The therapeutic efficacy of Ipragliflozin can be increased when used in combination with Rosoxacin. |
| Dutogliptin | The therapeutic efficacy of Dutogliptin can be increased when used in combination with Rosoxacin. |
| Allicin | The therapeutic efficacy of Allicin can be increased when used in combination with Rosoxacin. |
| Tofogliflozin | The therapeutic efficacy of Tofogliflozin can be increased when used in combination with Rosoxacin. |
| Ertugliflozin | The therapeutic efficacy of Ertugliflozin can be increased when used in combination with Rosoxacin. |
| 2,4-thiazolidinedione | The therapeutic efficacy of 2,4-thiazolidinedione can be increased when used in combination with Rosoxacin. |
| Teneligliptin | The therapeutic efficacy of Teneligliptin can be increased when used in combination with Rosoxacin. |
| Omarigliptin | The therapeutic efficacy of Omarigliptin can be increased when used in combination with Rosoxacin. |
| Carmegliptin | The therapeutic efficacy of Carmegliptin can be increased when used in combination with Rosoxacin. |
| Gemigliptin | The therapeutic efficacy of Gemigliptin can be increased when used in combination with Rosoxacin. |