Novazide S
Novazide S Uses, Dosage, Side Effects, Food Interaction and all others data.
Ceftazidime is a semisynthetic, broad-spectrum, beta-lactam antibiotic for parenteral administration. Ceftazidime is bactericidal in action exerting its effect by inhibition of enzymes responsible for cell-wall synthesis. A wide range of gram-negative organisms is susceptible to ceftazidime in vitro, including strains resistant to gentamicin and other aminoglycosides. In addition, ceftazidime has been shown to be active against gram-positive organisms. It is highly stable to most clinically important beta-lactamases, plasmid or chromosomal, which are produced by both gram-negative and gram-positive organisms and, consequently, is active against many strains resistant to ampicillin and other cephalosporins.
Ceftazidime is a semisynthetic, broad-spectrum, third-generation cephalosporin antibiotic that is bactericidal through inhibition of enzymes responsible for cell-wall synthesis, primarily penicillin-binding protein 3 (PBP3). Among cephalosporins, ceftazidime is notable for its resistance to numerous β-lactamases and its broad spectrum of activity against Gram-negative bacteria, including Pseudomonas aeruginosa. However, it is less active than first- and second-generation cephalosporins against Staphylococcus aureus and other Gram-positive bacteria and also has low activity against anaerobes. Ceftazidime has confirmed activity against clinically relevant Gram-negative bacteria including Citrobacter spp., Enterobacter spp., Klebsiella spp., Proteus spp., Serratia spp., _Escherichia coli, Haemophilus influenzae, Neisseria meningitidis, Pseudomonas aeruginosa, and some Gram-positive bacteria including Staphylococcus spp. and Streptococcus spp. There are also in vitro data for ceftazidime efficacy against a wide variety of other bacteria, such as Acinetobacter baumannii and Neisseria gonorrhoeae, but no clear clinical studies to support the use of ceftazidime for infections caused by these bacteria.
Although β-lactam antibiotics like ceftazidime are generally well tolerated, there remains a risk of serious acute hypersensitivity reactions, which is higher in patients with a known allergy to ceftazidime or any other β-lactam antibiotic. As with all antibiotics, ceftazidime may result in the overgrowth of non-susceptible organisms and potentially serious effects including Clostridium difficile-associated diarrhea (CDAD); CDAD should be considered in patients who develop diarrhea and, in confirmed cases, supportive care initiated immediately. Ceftazidime is primarily renally excreted such that high and prolonged serum concentrations can occur in patients with renal insufficiency, leading to seizures, nonconvulsive status epilepticus (NCSE), encephalopathy, coma, asterixis, neuromuscular excitability, and myoclonia. Treatment may lead to the development or induction of resistance with a risk of treatment failure. Periodic susceptibility testing should be considered, and monotherapy failure may necessitate the addition of another antibiotic such as an aminoglycoside. Cephalosporin use may decrease prothrombin activity, which may be improved by exogenous vitamin K. Inadvertent intra-arterial administration of ceftazidime may result in distal necrosis.
Sulbactam is a β-lactamase inhibitor given in combination with β-lactam antibiotics to inhibit β-lactamase, an enzyme produced by bacteria that destroys antibiotic activity.
Trade Name | Novazide S |
Generic | Ceftazidime + Sulbactam |
Type | Injection |
Therapeutic Class | |
Manufacturer | Cheminnova Life Sciences |
Available Country | India |
Last Updated: | September 19, 2023 at 7:00 am |
Uses
Sidobac Injection is used for the treatment of patients with infections caused by susceptible strains of the designated organisms in the following diseases:
Lower Respiratory Tract Infections, including pneumonia, caused by Pseudomonas aeruginosa and other Pseudomonas spp., Haemophilus influenzae, including ampicillin-resistant strains; Klebsiella spp.; Enterobacter spp.; Proteus mirabilis; Escherichia coli; Serratia spp.; Citrobacter spp.; Streptococcus pneumoniae; and Staphylococcus aureus (methicillin susceptible strains).
Skin and Skin Structure Infections caused by Pseudomonas aeruginosa; Klebsiella spp.; Escherichia coli; Proteus spp., including Proteus mirabilis and indole-positive Proteus, Enterobacter spp.; Serratia spp.; Staphylococcus aureus (methicillin susceptible strains); and Streptococcus pyogenes (group A beta-hemolytic streptococci).
Urinary Tract Infections, both complicated and uncomplicated, caused by Pseudomonas aeruginosa; Enterobacter spp.; Proteus spp., including Proteus mirabilis and indole-positive Proteus, Klebsiella spp.; and Escherichia coli.
Bacterial Septicemia caused by Pseudomonas aeruginosa, Klebsiella spp., Haemophilus influenzae, Escherichia coli, Serratia spp., Streptococcus pneumoniae, and Staphylococcus aureus (methicillin susceptible strains).
Bone and Joint Infections caused by Pseudomonas aeruginosa, Klebsiella spp., Enterobacter spp., and Staphylococcus aureus (methicillin susceptible strains).
Gynecologic Infections, including endometritis, pelvic cellulitis, and other infections of the female genital tract caused by Escherichia coli.
Intra abdominal Infections, including peritonitis caused by Escherichia coli, Klebsiella spp., and Staphylococcus aureus (methicillin susceptible strains) and polymicrobial infections caused by aerobic and anaerobic organisms and Bacteroides spp.
Central Nervous System Infections, including meningitis, caused by Haemophilus influenzae and Neisseria meningitidis, Pseudomonas aeruginosa and Streptococcus pneumoniae.
Sulbactam is an beta-lactamase inhibitor antibiotic combined with other antibiotics to treat a variety of susceptible bacterial infections.
Sulbactam is currently available in combination products with ampicillin. Within this formulation it is indicated for the treatment of infections due to susceptible strains of the designated microorganisms in the conditions listed below. Skin and Skin Structure Infections caused by beta-lactamase producing strains of Staphylococcus aureus, Escherichia coli, Klebsiella spp. (including K. pneumoniae), Proteus mirabilis, Bacteroides fragilis, Enterobacter spp., and Acinetobacter calcoaceticus. Intra-Abdominal Infections caused by beta-lactamase producing strains of Escherichia coli, Klebsiella spp. (including K. pneumoniae), Bacteroides spp. (including B. fragilis), and Enterobacter spp. Gynecological Infections caused by beta-lactamase producing strains of Escherichia coli, and Bacteroides spp. (including B. fragilis).
Novazide S is also used to associated treatment for these conditions: Bacteremia, Bacterial Infections, Bloodstream Infections, Bone and Joint Infections, Bronchopulmonary Infection, Central Nervous System Infections, Complicated Intra-Abdominal Infections, Complicated Skin and Soft Tissue Infection, Complicated Urinary Tract Infection, Complicated Urinary Tract Infections caused by susceptible Gram-negative microorganisms, Fever caused by susceptible bacteria, Gynaecological infection, Intra-Abdominal Infections, Lower Respiratory Tract Infection (LRTI), Meningitis, Bacterial, Nosocomial Pneumonia, Peritoneal Dialysis-associated Peritonitis, Urinary Tract Infection, Ventilator-associated Bacterial Pneumonia caused by susceptible Gram-negative microorganisms, Chronic suppurative Otitis media, Hospital-acquired bacterial pneumonia caused by susceptible Gram-negative microorganisms, Malignant Otitis Externa, Skin and skin-structure infections, Susceptible Intra-Abdominal Infection caused by susceptible Gram-negative microorganismAnimal bite, Bacterial Infections, Bacterial Infections caused by Beta lactamase producing bacteria, Bacterial Sinusitis, Bites, Human, Catheter Related Infections, Community Acquired Pneumonia (CAP), Gynaecological infection, Infective Endocarditis, Intra-Abdominal Infections, Nosocomial Pneumonia, Postoperative Infections, Postoperative Wound Infection, Skin and Subcutaneous Tissue Bacterial Infections, Complicated Bacterial Infections caused by Beta lactamase producing bacteria, Moderate Bacterial Infections, Severe Bacterial Infections
How Novazide S works
The bacterial cell wall, which is located at the periphery of Gram-positive bacteria and within the periplasm of Gram-negative bacteria, comprises a glycopeptide polymer synthesized through cross-linking of glycans to peptide stems on alternating saccharides, which is known commonly as peptidoglycan. Cell wall formation, recycling, and remodelling require numerous enzymes, including a family of enzymes with similar active site character despite distinct and sometimes overlapping roles as carboxypeptidases, endopeptidases, transpeptidases, and transglycosylases, known as "penicillin-binding proteins" (PBPs). The number of PBPs differs between bacteria, in which some are considered essential and others redundant. In general, inhibition of one or more essential PBPs results in impaired cell wall homeostasis, loss of cell integrity, and is ultimately bactericidal.
Ceftazidime is a semisynthetic third-generation cephalosporin with broad activity against numerous Gram-negative and some Gram-positive bacteria. Like other β-lactam antibiotics, ceftazidime exhibits its bactericidal effect primarily through direct inhibition of specific PBPs in susceptible bacteria. In vitro experiments in Gram-negative bacteria such as Escherichia coli, Pseudomonas aeruginosa, Acinetobacter baumannii, and Klebsiella pneumoniae suggest that ceftazidime primarily binds to PBP3, with weaker binding to PBP1a/1b and PBP2 as well; although binding to other PBPs, such as PBP4, is detectable, the concentrations required are much greater than those achieved clinically. Similarly, ceftazidime showed binding to Staphylococcus aureus PBP 1, 2, and 3 with a much lower affinity for PBP4. Recent data for Mycobacterium abcessus suggest that ceftazidime can inhibit PonA1, PonA2, and PbpA at intermediate concentrations.
Sulbactam is an irreversible inhibitor of β-lactamase; by binding and inhibiting β-lactamase produced by bacterial cells, sulbactam is thereby able to prevent it from reducing antibiotic activity. Although sulbactam alone possesses little useful antibacterial activity, except against the Neisseriaceae, whole organism studies have shown that sulbactam restores ampicillin activity against beta-lactamase producing strains. In particular, sulbactam has good inhibitory activity against the clinically important plasmid mediated beta-lactamases most frequently responsible for transferred drug resistance. The presence of sulbactam in formulations with ampicillin effectively extends the antibacterial spectrum of ampicillin to include many bacteria normally resistant to it and to other beta-lactam antibacterials. Thus, products with ampicillin + sulbactam possess the properties of a broad-spectrum antibacterial and a beta-lactamase inhibitor.
Dosage
Novazide S dosage
Dosage: The usual adult dosage is 1 gram administered intravenously or intramuscularly every 8 to 12 hours. The dosage and route should be determined by the susceptibility of the causative organisms, the severity of infection and the condition, and renal function of the patient.
Recommended Dosage Schedule
Uncomplicated urinary tract infections: 250 mg IV or IM Q 12h
Bone and joint infections: 2 grams IV Q 12h
Complicated urinary tract infections: 500 mg IV or IM Q 8-12h
Uncomplicated pneumonia; mild skin and skin structure infections: 500 mg -1 gram IV or IM Q 8h
Serious gynecologic and intra-abdominal infections: 2 grams IV Q 8h
Meningitis: 2 grams IV Q 8h
Very Severe life threatening infections, especially in immunocompromised patients: 2 grams IV Q 8h
Lung infections caused by Pseudomonas spp. In patients with cystic fibrosis with normal renal function: 30-50 mg/kg IV to a maximum of 6 grams per day Q 8h
Neonates (0 - 2 months): 25-60 mg/kg/day IV Q 12h
Infants & Children (2 months - 12 years): 30-100 mg/kg/day IV to a maximum of 6 grams per day Q 8-12h.
Impaired Hepatic Function: No adjustment in dosage is required for patients with hepatic dysfunction.
Impaired Renal Function: In patients with impaired renal function (glomerular filtration rate [GFR]<50 mL/min) it is recommended that the dosage of Ceftazidime be reduced to compensate for its slower excretion. In patients with suspected renal insufficiency, an initial loading dose of 1 gram of Ceftazidime may be given.
Recommended Maintenance Dosages of Ceftazidime in renal insufficiency:
Creatinine clearance 50-31 mL/min: 1 gram Q12h
Creatinine clearance 30-16 mL/min: 1 gram Q24h
Creatinine clearance 15-6 mL/min: 500 mg Q24h
Creatinine clearance <5 mL/min: 500 mg Q48h
Administration: Sidobac may be given intravenously or by deep IM injection into a large muscle mass such as the upper outer quadrant of the gluteus maximus or lateral proof of the thigh. Intra-arterial administration should be avoided. For IV/IM administration, Sidobac should be constituted with the supplied Sterile Water for Injection.
Single-dose vial Administration Amount of WFI to be added:
- 250 mg IM in 1.5 ml
- 250 mg IV in 5 ml
- 500 mg IM in 1.5 ml
- 500 mg IV in 5 ml
- 1 gm IM in 3 ml
- 1 gm IV in 10 ml
Step 1: Add recommended volume of solvent slowly. Remove the syringe needle.
Step 2: Gently shake the vial to dissolve the powder. Carbon dioxide is released & a clear solution will be obtained.
Step 3: Now insert the needle in the free space of the reconstituted vial & withdraw the pressurized air from the free space.
Step 4: Finally withdraw the solution from the vial by syringe
Side Effects
The most common side-effects are local reactions following IV injection and allergic and gastrointestinal reactions. Hypersensitivity reactions are pruritus, rash, and fever. Angioedema and anaphylaxis have been reported very rarely. Gastrointestinal symptoms are diarrhea, nausea, vomiting, and abdominal pain. Central nervous system reactions included headache, dizziness, and paresthesia.
Toxicity
Ceftazidime overdosage has occurred in patients with renal failure. Reactions included seizure activity, encephalopathy, asterixis, neuromuscular excitability, and coma. Patients who receive an acute overdosage should be carefully observed and given supportive treatment. In the presence of renal insufficiency, hemodialysis or peritoneal dialysis may aid in the removal of ceftazidime from the body.
Precaution
The total daily dosage should be reduced when Ceftazidime is administered to patients with renal insufficiency. Ceftazidine should be prescribed with caution in individuals with a history of gastrointestinal disease, particularly colitis.
Interaction
Increased nephrotoxicity has been reported following concomitant administration of Cephalosporins and aminoglycoside antibiotics.
Volume of Distribution
Ceftazidime has a volume of distribution of 15-20 L.
Penetration of both ampicillin and sulbactam into cerebrospinal fluid in the presence of inflamed meninges has been demonstrated after IV administration.
Elimination Route
Ceftazidime administered intravenously in healthy males produced mean Cmax values of between 42 and 170 μg/mL for doses between 500 mg and 2 g, and are reached immediately following the end of the infusion period. The Cmax for 1 g of ceftazidime administered intramuscularly is attained approximately one hour following injection and is between 37 and 43 mg/L. Following intramuscular administration of 500 mg and 1 g of ceftazidime, the serum concentration remained above 4 μg/mL for six and eight hours, respectively.
Ceftazidime Cmax and AUC show linear proportionality to the dose over the therapeutic range. In individuals with normal renal function, ceftazidime given intravenously every eight hours for 10 days as either 1 or 2 g doses showed no accumulation.
Peak serum concentrations are reached almost immediately following a 15-minute intravenous infusion of sulbactam + ampicillin. Mean peak serum levels for sulbactam range from 48 to 88 mcg/mL following intravenous administration of 2000 mg of ampicillin plus 1000 mg sulbactam. After an intramuscular injection of 1000 mg ampicillin plus 500 mg sulbactam, peak sulbactam serum levels ranging from 6 to 24 mcg/mL are attained.
Half Life
Ceftazidime has an elimination half-life of 1.5-2.8 hours in healthy subjects. As ceftazidime is primarily renally excreted, its half-life is significantly prolonged in patients with renal impairment. In patients with creatinine clearance < 12 mL/min, the half-life is prolonged to between 14 and 30 hours.
~1 hr
Clearance
The mean renal clearance of ceftazidime in healthy subjects ranges from 72 to 141 mL/min while the calculated plasma clearance is approximately 115 mL/min.
Elimination Route
Approximately 80% to 90% of an intramuscular or intravenous dose of ceftazidime is excreted unchanged by the kidneys over a 24-hour period. When administered intravenously, 50% of the dose appears in the urine within two hours, with another 32% of the dose appearing by eight hours post-administration.
Approximately 75 to 85% of both ampicillin and sulbactam are excreted unchanged in the urine during the first 8 hours after administration.
Pregnancy & Breastfeeding use
Pregnancy: No adequate and well controlled studies in pregnant women have been conducted with Ceftazidime. Because animal reproduction studies are not always predictive of human response this drug should be used during pregnancy only if clearly needed.
Lactation: Ceftazidime is excreted in human milk in low concentrations. Because many drugs are excreted in human milk and because safety of the component of the injections in nursing infants has not been established, a decision should be made whether to discontinue nursing or to discontinue the drug, taking into account the importance of the drug to the mother.
Contraindication
Ceftazidime is contraindicated in patients with known hypersensitivity to cephalosporin antibiotics.
Acute Overdose
Ceftazidime overdosage has occurred in patients with renal failure. Reactions have included seizure activity, encephalopathy, asterixis, neuromuscular excitability, and coma. Patients who receive an acute overdosage should be carefully observed and given supportive treatment.
Storage Condition
Store below 25° C, protected from light and moisture. Reconstituted solutions are stable for up to 24 h if stored between 2°-8° C
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