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Purity: ≥98%
Cefoperazone Sodium, the sodium salt of Cefoperazone (Cefobid), which is a third-generation and semisynthetic cephalosporin with a broad spectrum of antibacterial activity.
| Targets |
β-lactam
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|---|---|
| ln Vitro |
Granulocytopenic mice treated with cefoperazone (aerosol treatment, final concentration of 60 μg/mL in lung homogenate) are protected against acute Pseudomonas aeruginosa pneumonia[2].
|
| ln Vivo |
In the present study, we attempted to identify the membrane permeation process(es) primarily involved in the molecular-weight-dependent biliary excretion of beta-lactam antibiotics. A search of the literature indicated that the molecular weight threshold operates mainly in the transport process across bile canalicular membranes. We confirmed that biliary clearance of the model biliary-excretion-type cephalosporin cefoperazone was reduced to 10% of the control in Eisai hyperbilirubinemic rats, which are genetically deficient in multidrug resistance-associated protein (Mrp) 2, indicating that Mrp2 plays a major role as an efflux transporter on the canalicular membranes. ATP-dependent uptake of several cephalosporins including cefoperazone, cefbuperazone, cefpiramide, and ceftriaxone, all of which are mainly excreted into bile, was confirmed in membrane vesicles from Sf9 cells transfected with rat Mrp2. Both the inhibitory potency of the cephalosporins for Mrp2-mediated transport and the uptake of cephalosporins by Mrp2-expressing vesicles were molecular weight-dependent, suggesting that Mrp2 is one of the major transporters involved in molecular weight-dependent biliary excretion. An uptake study in membrane vesicles of Sf9 cells transfected with breast cancer resistance protein (Bcrp) revealed that Bcrp accepts cefoperazone, cefbuperazone, cefpiramide, cefotetan, ceftriaxone, cefotiam, cefamandole, and cefazolin as substrates, and Bcrp-mediated transport was also molecular weight-dependent, suggesting that Bcrp also contributes to molecular weight-dependent biliary excretion of beta-lactam antibiotics in rats[3].
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| Enzyme Assay |
Cefoperazone, a new semisynthetic cephalosporin, has a broad spectrum of antibacterial activity. It is as active as cefazolin and cefamandole against gram-positive bacteria and is more active than cefazolin and cefamandole against such gram-negative bacilli as Escherichia coli, Klebsiella pneumoniae, Proteus species, Pseudomonas aeruginosa, Citrobacter freundii, Enterobacter cloacae, and Serratia marcescens. The superiority of cefoperazone over cefazolin and cefamandole with respect to activity against P. aeruginosa by more than 200-fold was especially remarkable. As with other beta-lactam antibiotics, there was only a small spread between the minimum inhibitory concentrations and the minimum bactericidal concentrations of cefoperazone and a significant decrease in activity with an increase in inoculum size. Activity was not altered significantly by the addition of human serum to the test medium. Cefoperazone is relatively stable to hydrolysis to beta-lactamases produced by gram-negative bacteria. Relative rates of hydrolysis of cefoperazone by cephalosporinases are 7.0 to 0.01, with reference to cephaloridine hydrolysis (base, 100). Cefoperazone is also more stable than penicillin G and cephaloridine to various types of penicillinases[1].
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| Animal Protocol |
The pharmacokinetics of cefoperazone in normal subjects, and in patients with hepatic and renal dysfunction are reviewed. After intravenous administration of 2 g of cefoperazone, levels in serum ranged from 202 to 375 microgram/ml depending on the period of drug administration. After intramuscular injection of 2 g of cefoperazone, the mean peak serum level was 111 microgram/ml at 1.5 hours. At 12 hours after dosing, mean serum levels were still 2 to 4 microgram/ml. Cefoperazone was 90% bound to serum proteins. The apparent volume of distribution was 10 to 13L. The half-life of the drug varied from 1.6 to 2.4 hours; serum clearance was between 75 and 96 ml/min. Urinary excretion was rapid, but only 15 to 36% of the cefoperazone dose was recovered in the urine. Renal clearance ranged from 14 to 25 ml/min. Urine levels of cefoperazone in excess of 32 microgram/ml were maintained for at least 12 hours. Biliary levels of cefoperazone were many-fold higher than serum levels; peak bile concentrations from 675 to 6000 microgram/ml were obtained. Severe hepatic dysfunction was associated with a 2- to 4-fold increase in the half-life of cefoperazone. In patients with relatively complete biliary obstruction, over 90% of the dose was recovered in the urine. In contrast, the serum kinetics of cefoperazone were not significantly altered in patients with renal impairment. The human pharmacology of cefoperazone is similar to cephazolin in terms of serum concentrations, half-life, protein binding, and apparent volume of distribution, but markedly different in terms of biliary and renal excretion. Since biliary excretion is normally the primary route of cefoperazone elimination, dosage modification should only be required in the presence of severe biliary obstruction or concomitant renal and hepatic dysfunction.
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| References |
[3]. Involvement of multidrug resistance-associated protein 2 (Abcc2) in molecular weight-dependent biliary excretion of beta-lactam antibiotics. Drug Metab Dispos. 2008 Jun;36(6):1088-96.
[4]. Pharmacokinetics of cefoperazone: a review. Drugs, 1981. 22 Suppl 1: p. 35-45. |
| Additional Infomation |
Cefoperazone Sodium is the sodium salt form of cefoperazone and a semi-synthetic, broad-spectrum, beta-lactamase resistant, third-generation cephalosporin antibiotic with bactericidal activity. Cefoperazone sodium inhibits bacterial cell wall synthesis by inactivating penicillin binding proteins (PBPs) thereby interfering with the final transpeptidation step required for cross-linking of peptidoglycan units which are a component of bacterial cell walls. This results in a reduction of cell wall stability and causes cell lysis.
Semisynthetic broad-spectrum cephalosporin with a tetrazolyl moiety that is resistant to beta-lactamase. It may be used to treat Pseudomonas infections. |
| Molecular Formula |
C25H26N9NAO8S2
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|---|---|
| Molecular Weight |
667.65
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| Exact Mass |
667.12432
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| Elemental Analysis |
C, 44.97; H, 3.93; N, 18.88; Na, 3.44; O, 19.17; S, 9.61
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| CAS # |
62893-20-3
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| Related CAS # |
Cefoperazone;62893-19-0;Cefoperazone dihydrate;113826-44-1
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| PubChem CID |
23663974
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| Appearance |
White to off-white solid powder
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| Melting Point |
200-202°C
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| tPSA |
273.69
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| SMILES |
CCN1CCN(C(=O)C1=O)C(=O)N[C@H](C2=CC=C(C=C2)O)C(=O)N[C@H]3[C@@H]4N(C3=O)C(=C(CS4)CSC5=NN=NN5C)C(=O)[O-].[Na+]
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| InChi Key |
NCFTXMQPRQZFMZ-WERGMSTESA-M
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| InChi Code |
InChI=1S/C25H27N9O8S2.Na/c1-3-32-8-9-33(21(39)20(32)38)24(42)27-15(12-4-6-14(35)7-5-12)18(36)26-16-19(37)34-17(23(40)41)13(10-43-22(16)34)11-44-25-28-29-30-31(25)2;/h4-7,15-16,22,35H,3,8-11H2,1-2H3,(H,26,36)(H,27,42)(H,40,41);/q;+1/p-1/t15-,16-,22-;/m1./s1
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| Chemical Name |
InChI=1S/C25H27N9O8S2.Na/c1-3-32-8-9-33(21(39)20(32)38)24(42)27-15(12-4-6-14(35)7-5-12)18(36)26-16-19(37)34-17(23(40)41)13(10-43-22(16)34)11-44-25-28-29-30-31(25)2;/h4-7,15-16,22,35H,3,8-11H2,1-2H3,(H,26,36)(H,27,42)(H,40,41);/q;+1/p-1/t15-,16-,22-;/m1./s1
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| Synonyms |
Cefoperazone Sodium; Sodium cefoperazone; Tomabef; T-1551; UNII-5FQG9774WD; Sodium, Cefoperazone; T 1551; T-1551; T1551; Farmasierra Brand of Cefoperazone Sodium; Pfizer Brand of Cefoperazone Sodium; Salt, Cefoperazone Sodium; Sodium Salt, Cefoperazone;
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| HS Tariff Code |
2934.99.9001
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| Storage |
Powder -20°C 3 years 4°C 2 years In solvent -80°C 6 months -20°C 1 month Note: Please store this product in a sealed and protected environment, avoid exposure to moisture. |
| Shipping Condition |
Room temperature (This product is stable at ambient temperature for a few days during ordinary shipping and time spent in Customs)
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| Solubility (In Vitro) |
DMSO : 100~125 mg/mL (~187.22 mM )
H2O : ~60 mg/mL (~89.87 mM) |
|---|---|
| Solubility (In Vivo) |
Solubility in Formulation 1: ≥ 2.08 mg/mL (3.12 mM) (saturation unknown) in 10% DMSO + 40% PEG300 + 5% Tween80 + 45% Saline (add these co-solvents sequentially from left to right, and one by one), clear solution.
For example, if 1 mL of working solution is to be prepared, you can add 100 μL of 20.8 mg/mL clear DMSO stock solution to 400 μL PEG300 and mix evenly; then add 50 μL Tween-80 to the above solution and mix evenly; then add 450 μL normal saline to adjust the volume to 1 mL. Preparation of saline: Dissolve 0.9 g of sodium chloride in 100 mL ddH₂ O to obtain a clear solution. Solubility in Formulation 2: ≥ 2.08 mg/mL (3.12 mM) (saturation unknown) in 10% DMSO + 90% (20% SBE-β-CD in Saline) (add these co-solvents sequentially from left to right, and one by one), clear solution. For example, if 1 mL of working solution is to be prepared, you can add 100 μL of 20.8 mg/mL clear DMSO stock solution to 900 μL of 20% SBE-β-CD physiological saline solution and mix evenly. Preparation of 20% SBE-β-CD in Saline (4°C,1 week): Dissolve 2 g SBE-β-CD in 10 mL saline to obtain a clear solution. View More
Solubility in Formulation 3: ≥ 2.08 mg/mL (3.12 mM) (saturation unknown) in 10% DMSO + 90% Corn Oil (add these co-solvents sequentially from left to right, and one by one), clear solution. Solubility in Formulation 4: 10% DMSO+40% PEG300+5% Tween-80+45% Saline: ≥ 2.08 mg/mL (3.12 mM) Solubility in Formulation 5: 100 mg/mL (149.78 mM) in PBS (add these co-solvents sequentially from left to right, and one by one), clear solution; with ultrasonication. |
| Preparing Stock Solutions | 1 mg | 5 mg | 10 mg | |
| 1 mM | 1.4978 mL | 7.4890 mL | 14.9779 mL | |
| 5 mM | 0.2996 mL | 1.4978 mL | 2.9956 mL | |
| 10 mM | 0.1498 mL | 0.7489 mL | 1.4978 mL |
*Note: Please select an appropriate solvent for the preparation of stock solution based on your experiment needs. For most products, DMSO can be used for preparing stock solutions (e.g. 5 mM, 10 mM, or 20 mM concentration); some products with high aqueous solubility may be dissolved in water directly. Solubility information is available at the above Solubility Data section. Once the stock solution is prepared, aliquot it to routine usage volumes and store at -20°C or -80°C. Avoid repeated freeze and thaw cycles.
Calculation results
Working concentration: mg/mL;
Method for preparing DMSO stock solution: mg drug pre-dissolved in μL DMSO (stock solution concentration mg/mL). Please contact us first if the concentration exceeds the DMSO solubility of the batch of drug.
Method for preparing in vivo formulation::Take μL DMSO stock solution, next add μL PEG300, mix and clarify, next addμL Tween 80, mix and clarify, next add μL ddH2O,mix and clarify.
(1) Please be sure that the solution is clear before the addition of next solvent. Dissolution methods like vortex, ultrasound or warming and heat may be used to aid dissolving.
(2) Be sure to add the solvent(s) in order.
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