CIPROXIN
Ciprofloxacin
Ciproxin 250, Ciproxin 500, Ciproxin 750 Tablets
Ciproxin Suspension 5%, Ciproxin Suspension 10%
Ciproxin 200 Infusion Solution
Qualitative and Quantitative Composition
Film-coated tablets
Ciproxin 250: 1 tablet contains 291mg ciprofloxacin hydrochloride monohydrate, corresp. to 250mg ciprofloxacin.
Ciproxin 500: 1 tablet contains 582mg ciprofloxacin hydrochloride monohydrate, corresp. to 500mg ciprofloxacin.
Ciproxin 750: 1 tablet contains 873mg ciprofloxacin hydrochloride monohydrate, corresp. to 750mg ciprofloxacin.
Suspension
Ciproxin Suspension 5%
1 bottle consists of 7.95g of microcapsules which contain 5.0g ciprofloxacin.
1 bottle with 99.2g suspension diluent to prepare 100ml of Ciproxin Suspension 5 %.
1 measuringspoonful (approx 5.0ml) contains approx. 250mg ciprofloxacin
Ciproxin Suspension 10%
1 bottle consists of 15.9g of microcapsules which contain 10.0g ciprofloxacin.
1 bottle with 107.6g suspension diluent to prepare 100ml of Ciproxin Suspension 10 %.
1 measuringspoonful (approx 5.0ml) contains approx. 500mg ciprofloxacin
Infusion solution
Ciproxin 200: 1 vial of 100ml infusion solution contains 254.4mg ciprofloxacin lactate, corresp. to 200mg ciprofloxacin.
Pharmaceutical Form
Ciproxin 250 | Film coated tablet for oral administration |
Ciproxin 500 | Film coated tablet for oral administration |
Ciproxin 750 | Film coated tablet for oral administration |
Ciproxin Suspension 5% | Suspension for oral administration |
Ciproxin Suspension 10% | Suspension for oral administration |
Ciproxin 200 | Infusion Solution |
Indications
Adults
Uncomplicated and complicated infections caused by ciprofloxacin sensitive pathogens
- Infections of the lower respiratory tract
- In the treatment of outpatients with pneumonia due to Pneumococcus ciprofloxacin should not be used as a drug of first choice. Ciprofloxacin can be regarded as a suitable treatment for pneumonias caused by Klebsiella, Enterobacter, Proteus, E. coli, Pseudomonas, Haemophilus, Branhamella, Legionella, and Staphylococcus
- Infections of the kidneys and/or the efferent urinary tract
- Infections of the genital organs, including adnexitis, gonorrhoea, prostatitis
- Infections of the abdominal cavity (e.g. infections of the gastrointestinal tract or of the biliary tract, peritonitis)
- Infections of the skin and soft tissue
- Infections of the bones and joints
- Sepsis
- Inhalational anthrax (post-exposure): To reduce the incidence or progression of disease following exposure to aerosolized Bacillus anthracis. Ciprofloxacin serum concentrations achieved in humans serve as a surrogate endpoint reasonably likely to predict clinical benefit and provide the basis for this indication.
According to in-vitro investigations, the following pathogens can be regarded as sensitive
- E. coli, Shigella, Salmonella, Citrobacter, Klebsiella, Enterobacter, Serratia, Hafnia, Edwardsiella, Proteus (indole-positive and indole-negative), Providencia, Morganella, Yersinia; Vibrio, Aeromonas, Plesiomonas, Pasteurella, Haemophilus, Campylobacter, Pseudomonas, Legionella, Neisseria, Moraxella, Acinetobacter, Brucella; Staphylococcus, Listeria, Corynebacterium, Chlamydia.
The following show varying degrees of sensitivity:
- Gardnerella, Flavobacterium, Alcaligenes, Streptococcus agalactiae, Enterococcus faecalis, Streptococcus pyogenes, Streptococcus pneumoniae, Viridans group streptococci, Mycoplasma hominis, Mycobacterium tuberculosis, and Mycobacterium fortuitum.
The following are usually resistant:
- Enterococcus faecium, Ureaplasma urealyticum, Nocardia asteroides.
With a few exceptions anaerobes are moderately sensitive e.g. Peptococcus, Peptostreptococcus to resistant e.g. Bacteroides.
Ciprofloxacin has been shown to be active against Bacillus anthracis both in vitro and by use of serum levels as a surrogate marker.
Ciprofloxacin is ineffective against Treponema pallidum
Children
For the treatment of acute pulmonary exacerbation of cystic fibrosis associated with P. aeruginosa infection in paediatric patients aged 5-17 years. For the indication of inhalational anthrax (post-exposure), the risk-benefit assessment indicates that administration of ciprofloxacin to paediatric patients is appropriate. The use of ciprofloxacin for indications other than this is not recommended in children.
Posology and Method of Administration
Recommended usual dose:
Adults
Unless otherwise prescribed, the following guideline doses are recommended:
| | Tablets | Suspension 5% | Suspension 10% | Intravenous |
(* Number of measuringspoonful) |
Respiratory tract infection
(according to severity and organism) | 2 × 250-500mg | 2 × 1-2* | 2 × ½-1* | 2 × 200-400mg |
| Urinary tract infections: | | | | |
| - acute, uncomplicated | 1-2 × 250mg | 2 × ½* to 1-2 × 1* | - | - cystitis in women (before menopause) | single dose 250mg | 1 × 1* | 1 × ½* | single dose 100mg |
| - complicated | 2 × 250-500mg | 2 × 1-2* | 2 × ½ - 1* | 2 × 200mg | | | | |
| Gonorrhoea | | | | | | | | |
| - extragenital | 1 × 250mg | - | - | 2 × 100mg | | | | |
| - acute, uncomplicated | single dose 250mg | 1 × 1* | 1 × ½* | single dose 100mg | | | | |
| Diarrhoea | 1-2 × 500mg | 1-2 × 2* | 1-2 × 1* | 2 × 200mg | | | | |
Other infections
(see Indications) | 2 × 500mg | 2 × 2* | 2 × 1* | 2 × 200-400mg | | | | |
Particularly severe, life threatening infections, i.e.
-Streptococcal pneumonia
-Recurrent infections in cystic fibrosis
-Bone and joint infections
-Septicaemia
-Peritonitis
In particular when Pseudomonas, Staphylococcus or Streptococcus is present | 2 × 750mg | 2 × 3* | 2 × 1 ½* | 3 × 400mg | | | | |
Inhalational anthrax (post-exposure)
Drug administration should begin as soon as possible after suspected or confirmed exposure | 2 × 500mg | 2 × 2* | 2 × 1* | 2 × 400mg | | | | |
Elderly
Elderly patients should receive a dose as low as possible depending on the severity of their illness and the creatinine clearance.
Children
Clinical and pharmacokinetic data support the use of ciprofloxacin in paediatric cystic fibrosis patients (aged 5-17 years) with acute pulmonary exacerbation associated with P. aeruginosa infection, at a dose of 20mg/kg orally twice daily (maximum daily dose 1500mg) or 10mg/kg iv three times daily (maximum dose 1200mg).
For the indication of inhalational anthrax (post-exposure), the risk-benefit assessment indicates that treatment of paediatric patients with ciprofloxacin is appropriate. For paediatric patients, the recommended oral dose is 15 mg/kg twice daily (not to exceed a maximum dose of 500 mg per dose, 1000 mg per day). For intravenous infusion, the recommended dose is 10 mg/kg twice daily (not to exceed a maximum dose of 400 mg per dose, 800 mg per day). Drug administration should begin as soon as possible after suspected or confirmed exposure.
Method of Administration:
Oral
The tablets are swallowed whole with a small amount of fluid.
Tablets and oral suspension can be taken independent of mealtimes. (If the tablets are taken on an empty stomach, the active substance is absorbed more rapidly). In this case, tablets or suspension should not be taken concurrently with dairy products or with mineral fortified drinks alone (e.g. milk, yoghurt, calcium fortified orange juice). However, dietary calcium as part of a meal does not significantly affect ciprofloxacin absorption.
Ciprofloxacin Suspension 5 %
½ measuringspoonful (approx. 2.5ml) contains approx. 125mg ciprofloxacin, 1 measuringspoonful (approx 5.0ml) contains approx. 250mg ciprofloxacin
Ciprofloxacin Suspension 10 %
&frca12; measuringspoonful (approx. 2.5ml) contains approx. 250mg ciprofloxacin, 1 measuringspoonful (approx 5.0ml) contains approx. 500mg ciprofloxacin
Always use the graduated measuring spoon to obtain the exact dose for administering the suspension.
No additions should be made to the mixed final ciprofloxacin suspension.
If the patient is unable to take tablets / suspension, because of the severity of the illness or for other reasons, it is recommended to commence the therapy with an intravenous form of ciprofloxacin. After intravenous administration the treatment can be continued orally.
Intravenous
Ciprofloxacin should be administered by intravenous infusion over a period of 60 minutes. Slow infusion into a large vein will minimise patient discomfort and reduce the risk of venous irritation. The infusion solution can be infused either directly or after mixing with other compatible infusion solutions.
Unless compatibility with other infusion solutions/drugs has been confirmed, the infusion solution must always be administered separately. The visual signs of incompatibility are e.g. precipitation, clouding, and discolouration.
Incompatibility appears with all infusion solutions/drugs that are physically or chemically unstable at the pH of the solution (e.g. penicillins, heparin solutions), especially in combination with solutions adjusted to an alkaline pH (pH of the ciprofloxacin infusion solutions: 3.9-4.5).
Duration of Treatment
The duration of treatment depends on the severity of the illness and on the clinical and bacteriological course. It is essential to continue therapy for at least 3 days after disappearance of the fever or of the clinical symptoms. Mean duration of treatment:
- 1 day for acute uncomplicated gonorrhoea and cystitis,
- up to 7 days for infections of the kidneys, urinary tract, and abdominal cavity,
- a maximum of 2 months in osteomyelitis,
- 60 days in inhalational anthrax (post-exposure)
- and 7-14 days in all other infections.
In streptococcal infections the treatment must last at least 10 days because of the risk of late complications.
Infections caused by Chlamydia should also be treated for a minimum of 10 days.
Children
For acute pulmonary exacerbation of cystic fibrosis associated with P. aeruginosa infection in paediatric patients (aged 5-17 years), the duration of treatment is 10-14 days. For inhalational anthrax (post-exposure), the duration of treatment is 60 days.
Renal & Hepatic Impairment
Adults
| 1. | Impaired renal function |
| 1.1 | Where creatinine clearance is between 31 and 60 ml/min/1.73m² or where the serum creatinine concentration is between 1.4 and 1.9 mg/100 ml the maximum daily dose should be 1000mg per day for oral administration or 800mg per day for an intravenous regimen. |
| 1.2 | Where creatinine clearance is equal or is less than 30 ml/min/1.73m² or where the serum creatinine concentration is equal or higher than 2.0 mg/100 ml the maximum daily dose should be 500mg per day for oral administration or 400mg per day for an intravenous regimen. |
| 2 | Impaired renal function + haemodialysis
Dose as in 1.2; on dialysis days after dialysis. |
| | Impaired renal function + CAPD
a) Addition of ciprofloxacin infusion solution to the dialysate (intraperitoneal): 50 mg ciprofloxacin / litre dialysate administered 4 times a day every 6 hours
b) Administration of ciprofloxacin film coated tablets (oral) as 1 x 500mg film coated tablet (or 2 × 250mg film coated tablets). |
| 3 | Impaired liver function
No dose adjustment is required. |
| 4 | Impaired renal and liver function
Dose adjustment as in 1.1 and 1.2 |
Children
Dosing in children with impaired renal and or hepatic function has not been studied.
Contraindications
Ciprofloxacin must not be used in cases of hypersensitivity to ciprofloxacin or other quinolone chemotherapeutics.
Ciprofloxacin must not be prescribed for pregnant women or nursing mothers as there is no experience regarding safety in these patient groups and since, on the basis of animal studies, it is possible that the drug could cause damage to articular cartilage in the foetus or infant. Animal studies have not shown any evidence of teratogenic effects. When considering treatment for inhalational anthrax (post-exposure), the risks and benefits of ciprofloxacin and alternative antibiotic therapies must be carefully considered, and explained to the patient.
Special Warnings and Precautions for Use
May cause tendinitis, hypoglycaemia.
Paediatric Use
As with drugs in its class, ciprofloxacin has been shown to cause arthropathy in weight-bearing joints of immature animals. The analysis of available safety data from ciprofloxacin use in patients less than 18 years of age, the majority of whom had cystic fibrosis, did not disclose any evidence of drug related cartilage or articular damage. For the indication of inhalational anthrax (post-exposure), the risk-benefit assessment indicates that administration of ciprofloxacin to paediatric patients is appropriate. For information regarding paediatric dosing in inhalational anthrax (post-exposure), see Posology and Method of Administration. The use of ciprofloxacin for indications other than the treatment of acute pulmonary exacerbation of cystic fibrosis caused by P. aeruginosa infection, and inhalational anthrax (post-exposure), is not recommended.
Gastrointestinal System
In the event of severe and persistent diarrhoea during or after treatment a doctor must be consulted, since this symptom can hide a serious intestinal disease (life threatening pseudomembranous colitis with possible fatal outcome), requiring immediate treatment. In such cases Ciprofloxacin must be discontinued and appropriate therapy initiated (e. g. vancomycin, orally, 4 x 250 mg/day). Drugs that inhibit peristalsis are contraindicated.
There can be a temporary increase in transaminases, alkaline phosphatase or cholestatic jaundice, especially in patients with previous liver damage.
Nervous System
In epileptics and in patients who have suffered from previous CNS-disorders (e.g. lowered convulsion threshold, previous history of convulsion, reduced cerebral blood flow, altered brain structure or stroke), ciprofloxacin should only be used where the benefits of treatment exceed the risks, since these patients are at risk because of possible central-nervous side effects.
In some instances the CNS reactions occurred after the first administration of Ciprofloxacin. In rare cases depression or psychosis can progress to self endangering behaviour. In these cases Ciprofloxacin has to be discontinued and the doctor should be informed immediately.
Hypersensitivity
In some instances, the hypersensitivity and allergic reactions occurred after the first administration. The doctor should be informed immediately.
Anaphylactic/anaphylactoid reactions in very rare instances can progress to a life threatening shock, in some instances after the first administration. In these cases Ciprofloxacin has to be discontinued, medical treatment (e.g. treatment for shock) is required.
Injection Site Reaction
Local i.v. site reactions have been reported with the intravenous administration of Ciprofloxacin. These reactions are more frequent if the infusion time is 30 minutes or less. These may appear as local skin reactions which resolve rapidly upon completion of the infusion. Subsequent intravenous administration is not contraindicated unless the reactions recur or worsen.
Musculo-Skeletal System:
At any sign of tendinitis (e. g. painful swelling) the administration of Ciprofloxacin should be discontinued, physical exercises be avoided, and a physician be consulted.
Tendon rupture (predominantly achilles tendon) has been reported predominantly in the elderly on prior systemic treatment with glucocorticoids.
Skin and Appendages
Ciprofloxacin has been shown to produce photosensitivity reactions. Patients taking Ciprofloxacin should avoid direct exposure to excessive sunlight or UV-light. Therapy should be discontinued if photosensitisation (i. e. sunburn-like skin reactions) occur.
Hypoglycaemia
Hypoglycaemia has been noted with enoxacin and lomefloxacin but it is not known whether it occurs with ciprofloxacin.
Interaction with Other Medicaments and Other Forms of Interaction
The simultaneous administration of ciprofloxacin (oral) and iron, sucralfate or antacids and highly buffered drugs (e.g. antiretrovirals), containing magnesium, aluminium, or calcium reduce the absorption of ciprofloxacin. Consequently, ciprofloxacin should be administered either 1-2 hours before, or at least 4 hours after these preparations.
This restriction does not apply to antacids belonging to the class of H2 receptor blockers.
The concurrent administration of dairy products or mineral fortified drinks alone (e.g. milk, yoghurt, calcium fortified orange juice) and ciprofloxacin should be avoided because absorption of ciprofloxacin may be reduced. Dietary calcium as part of a meal, however, does not significantly affect absorption.
Concurrent administration of ciprofloxacin and theophylline can cause an undesirable increase in the serum theophylline concentration. This can lead to theophylline-induced side effects; in very rare cases these side effects can be life threatening or fatal. If concurrent use of the two products is unavoidable, the serum theophylline concentration should therefore be checked and the theophylline dose appropriately reduced.
Animal studies have shown that the combination of very high doses of quinolones (gyrase inhibitors) and certain non-steroidal anti-inflammatory agents (but not acetylsalicylic acid) can provoke convulsions.
A transient rise in the concentration of serum creatinine was observed when ciprofloxacin and cyclosporin were administered simultaneously. Therefore, it is necessary to monitor the serum creatinine concentrations in these patients frequently (twice a week).
The simultaneous administration of ciprofloxacin and warfarin may intensify the action of warfarin
In particular cases, concurrent administration of ciprofloxacin and glibenclamide can intensify the action of glibenclamide (hypoglycaemia)
Probenecid interferes with renal secretion of ciprofloxacin. Co-administration of probenecid and ciprofloxacin increases the ciprofloxacin serum concentrations.
Renal tubular transport of methotrexate may be inhibited by concomitant administration of ciprofloxacin potentially leading to increased plasma levels of methotrexate. This might increase the risk of methotrexate associated toxic reactions. Therefore, patients under methotrexate therapy should be carefully monitored when concomitant ciprofloxacin therapy is indicated.
Metoclopramide accelerates the absorption of ciprofloxacin (oral) resulting in a shorter time to reach maximum plasma concentrations. No effect was seen on the bioavailability of ciprofloxacin.
Effect on Ability to Drive and Use Machines
Even when the drug is taken exactly as prescribed, it can affect the speed of reaction to such an extent that the ability to drive or to operate machinery is impaired. This applies particularly in combination with alcohol.
Pregnancy and Lactation
Ciprofloxacin must not be prescribed for pregnant women, or nursing mothers, since there is no experience on the drug's safety in these patient groups and since, on the basis of animal studies, it is possible that the drug could cause damage to articular cartilage in the foetus or infant. Animal studies have not shown any evidence of teratogenic effects (malformations).
Undesirable Effects
The most common Adverse Reactions based on all clinical studies with ciprofloxacin (oral, parenteral) sorted by CIOMS III categories of frequency and COSTART (5th Edition, 1995) body system and terms (n = 41151 patients, status: 20.11.1997)
Body System |
Incidence of frequency ≥1% and < 10% | Adverse Drug Reactions |
| Digestive system: | nausea, diarrhoea |
| Skin and appendages: | rash |
Incidence of frequency ≥ 0.1% and < 1% | |
| Body as a whole: | abdominal pain, moniliasis, asthenia (general feeling of weakness, tiredness) |
| Cardiovascular system: | (thrombo)-phlebitis |
| Digestive system: | SGOT increased, SGPT increased, vomiting, dyspepsia, abnormal liver function test, alkaline phosphatase increased, anorexia, flatulence, bilirubinemia |
| Haemic and lymphatic system: | eosinophilia, leucopenia |
| Injection site reaction: | injection site reaction |
| Metabolic and nutritional disorder: | creatinine increased, BUN (urea) increased |
| Musculo Skeletal system: | arthralgia (joint pain) |
| Nervous system: | headache, dizziness, insomnia, agitation, confusion |
| Skin and appendages: | pruritus, maculopapular rash, urticaria |
| Special senses: | taste perversion |
Incidence of frequency ≥ 0.01% and < 0.1% | |
| Body as a whole | pain, pain in extremities, back pain, chest pain |
| Cardiovascular system: | tachycardia, migraine, syncope (fainting vasodilatation (hot flushes), hypotension |
| Digestive system: | moniliasis (oral), jaundice, cholestatic jaundice, pseudomembranous colitis |
| Haemic and lymphatic system: | anaemia, leucopenia (granulocytopenia), leucocytosis, altered prothrombin values, thrombocytopenia, thrombocytemia (thrombocytosis) |
| Hypersensitivity: | allergic reaction, drug fever, anaphylactoid (anaphylactic) reaction |
| Metabolic disorders: | edema (peripheral, vascular, face), hyperglycemia |
| Musculo-Skeletal system: | myalgia (muscular pain), joint disorder (joint swelling) |
| Nervous system: | hallucination, sweating, paresthesia (peripheral paralgesia), anxiety, abnormal dreams (nightmares), depression, tremor (trembling), convulsion, hypaesthesia |
| Respiratory system: | dyspnea, larynx edema |
| Skin and appendages: | photosensitivity reaction |
| Special senses: | tinnitus, transitory deafness (especially at high frequencies), abnormal vision (visual disturbances), diplopia, chromatopsia, taste loss (impaired taste) |
| Urogenital system: | acute kidney failure, kidney function abnormal, vaginal moniliasis haematuria, crystalluria, nephritis interstitial |
Incidence of frequency < 0.01% | |
| Cardiovascular system: | vasculitis (petechiae, haemorrhagic bullae, papules, crust formation) |
| Digestive system: | moniliasis (gastrointestinal), hepatitis |
| Haemic and lymphatic system: | haemolytic anaemia |
| Hypersensitivity: | shock (anaphylactic; life threatening), pruritic rash |
| Musculo-skeletal system: | myasthenia |
| Nervous system: | grand mal convulsion, abnormal (unsteady) gait |
| Skin and appendages: | petechiae, erythema multiforme (minor), erythema nodosum, fixed eruption |
The most common Adverse Reactions based on spontaneous reports sorted by CIOMS III categories of frequency and COSTART (5th Edition, 1995) body system and terms calculated on patient exposure (n = 7790 reported cases, status 30.09.1997)
Incidence of frequency < 0.01% |
| Digestive system: | liver necrosis (very rarely progressing to life-threatening hepatic failure), life threatening pseudomembranous colitis with possible fatal outcome |
| Haemic and lymphatic system: | petechiae (punctuate skin haemorrhages), pancytopenia (life-threatening), bone marrow, depression (life-threatening), agranulocytosis |
| Musculo-Skeletal system: | Tendinitis (predominantly achillotendinitis); partial or complete tendon rupture (predominantly achilles tendon)
Exacerbation of symptoms of myasthenia gravis. |
| Nervous system: | psychosis, intracranial hypertension, ataxia, hyperaesthesia, hypertonia, twitching |
| Skin and appendages: | Stevens-Johnson-Syndrome, epidermal necrolysis (Lyell-Syndrome) |
| Hypersensitivity: | Serum sickness like reaction |
| Special senses: | parosmia (impaired smell) anosmia (usually reversible on discontinuation) |
Overdose
In the event of acute, excessive oral overdosage, reversible renal toxicity has been reported in some cases.
Therefore, apart from routine emergency measures, it is recommended to monitor renal function and to administer Mg- or Ca-containing antacids which reduce the absorption of ciprofloxacin.
Only a small amount of ciprofloxacin (< 10 %) is removed from the body after haemodialysis or peritoneal dialysis.
Pharmacodynamic Properties
Ciprofloxacin is a synthetic broad spectrum antibacterial agent (ATCCODE: J 01 MA 02).
Ciprofloxacin is effective in-vitro against virtually all gram-negative pathogens, including Pseudomonas aeruginosa. It is also effective against gram-positives such as staphylococci and streptococci. Anaerobes are generally less susceptible.
Ciprofloxacin has a rapid bactericidal action, not only in the proliferation phase but also in the resting phase.
During the proliferation phase of a bacterium a segmental twisting and untwisting of the chromosomes take place. An enzyme called DNA gyrase plays a decisive part in this process. Ciprofloxacin inhibits this DNA gyrase in a way that arrests the bacterial metabolism, since vital information can no longer be read from the bacterial chromosome.
Resistance to ciprofloxacin develops slowly and in stages (multiple-step type).
Plasmid-mediated resistance development of the kind that occurs with β-lactam antibiotics, aminoglycosides, and tetracyclines has not been observed with ciprofloxacin. It is of clinical interest that plasmid-carrying bacteria are also completely sensitive to ciprofloxacin.
On account of its different mode of action, parallel resistance to other important, chemically different, active substance groups, such as β-lactam antibiotics, aminoglycosides, tetracyclines, macrolide or peptide antibiotics, sulphonamides, trimethoprim or nitrofuran derivatives generally is not seen with Ciprofloxacin. In its indication area ciprofloxacin remains completely effective on pathogens resistant to the above-mentioned groups of antibiotics.
Parallel resistance is observed within the group of gyrase inhibitors. However, because of the high primary sensitivity to ciprofloxacin shown by most organisms parallel resistance is less pronounced with this drug. Ciprofloxacin is thus often still effective on pathogens that are already resistant to the less effective gyrase inhibitors.
Because of its chemical structure ciprofloxacin is completely effective on β-lactamase-forming bacteria.
Ciprofloxacin can be used in combination with another antibiotic. In-vitro studies with usually sensitive pathogens, carried out using ciprofloxacin in combination with β-lactam antibiotics and aminoglycosides, have shown primarily additive or indifferent effects; synergistic increases in efficacy were relatively rare and antagonistic effects very rare.
Possible combination drugs include: |
| for pseudomonas: | azlocillin, ceftazidime |
| for streptococci: | mezlocillin, azlocillin, other effective β-lactam antibiotics |
| for staphylococci: | β-lactam antibiotics, particularly isoxazolylpenicillins, vancomycin |
| for anaerobes: | metronidazole, clindamycin |
Pharmacokinetic Properties
Absorption
Following oral administration of single doses of 250mg, 500mg, and 750mg tablets ciprofloxacin is absorbed rapidly and extensively mainly from the small intestine, reaching maximum serum concentrations 1-2 hours later.
Time (h) | Mean Ciprofloxacin Serum Concentrations (mg/L)
after Oral Administration [Time from tablet intake] |
250 mg | 500 mg | 750 mg |
| 0.5 | 0.9 | 1.7 | 2.9 |
| 1.0 | 1.3 | 2.5 | 3.5 |
| 2.0 | 0.9 | 2.0 | 2.9 |
| 4.0 | 0.5 | 1.7 | 1.7 |
| 8.0 | 0.3 | 0.6 | 0.8 |
| 12.0 | 0.2 | 0.4 | 0.5 |
The absolute bioavailability is approximately 70-80%. Maximum serum concentrations (Cmax) and total areas under serum concentration vs. time curves (AUC) increased in proportion to dose.
The pharmacokinetics of ciprofloxacin oral suspension 5% and 10% are virtually identical to those of tablets.
Following an intravenous infusion of ciprofloxacin the mean maximum serum concentrations were achieved at the end of infusion. Pharmacokinetics of ciprofloxacin were linear over the dose range up to 400mg administered intravenously.
Time (h) | Mean Ciprofloxacin Serum Concentrations (mg/l)
after Intravenous Administration
[Time from start of infusion (in hours)] |
200mg i.v.
(30 min inf.) |
| 0.50 | 3.4 |
| 0.75 | 1.40 |
| 1.00 | 1.00 |
| 1.50 | 0.70 |
| 2.50 | 0.50 |
| 4.50 | 0.30 |
| 8.50 | 0.10 |
| 12.50 | 0.10 |
Comparison of the pharmacokinetic parameters for a bid and tid i.v. dose regimen indicated no evidence of drug accumulation for ciprofloxacin and its metabolites.
A 60-minute i.v. infusion of 200mg ciprofloxacin or the oral administration of 250mg ciprofloxacin both given every 12 hours produced an equivalent area under the serum concentration time curve (AUC).
Results of pharmacokinetic studies in paediatric cystic fibrosis patients have shown dosages of 20mg/kg bd orally or 10mg/kg tid iv are recommended to achieve plasma concentration/time profiles comparable to those achieved in the adult population at the currently recommended dosage regimens.
Distribution
The protein binding of ciprofloxacin is low (20-30%), and the substance is present in plasma largely in a non-ionised form. Ciprofloxacin can diffuse freely into the extravascular space. The large steady-state volume of distribution of 2-3 l/kg body weight shows that ciprofloxacin penetrates into tissues resulting in concentrations which clearly exceed the corresponding serum levels.
Bioavailability
Small concentrations of 4 metabolites have been reported. They were identified as desethyleneciprofloxacin (M 1), sulphociprofloxacin (M 2), oxociprofloxacin (M 3) and formylciprofloxacin (M 4). M 1 to M 3 display antibacterial activity comparable to or inferior to that of nalidixic acid. M 4, with the smallest quantity, is largely equivalent to norfloxacin in its antimicrobial activity.
Excretion
Ciprofloxacin is largely excreted unchanged both renally and, to a smaller extent, non-renally.
Excretion of Ciprofloxacin (% of dose)
Oral Administration |
| | Urine | Faeces |
| Ciprofloxacin | 44.7 | 25.0 |
| Metabolites (M1-M4) | 11.3 | 7.5 |
Intravenous Administration |
| | Urine | Faeces |
| Ciprofloxacin | 61.5 | 15.2 |
| Metabolites (M1-M4) | 9.5 | 2.6 |
Renal clearance is between 0.18-0.3 L/h/kg and the total body clearance between 0.48-0.60 L/h/kg. Ciprofloxacin undergoes both glomerular filtration and tubular secretion.
Non-renal clearance of ciprofloxacin is mainly due to active transintestinal secretion as well as metabolisation. 1% of the dose is via the biliary excreted route. Ciprofloxacin is present in the bile in high concentrations.
Preclinical Safety Data
Acute toxicity
The acute toxicity of ciprofloxacin after oral administration can be classified as very low. Depending on the individual species, the LD50 after intravenous infusion is 125-290 mg/kg.
Species | Mode of administration | LD50 (mg/kg) |
| Mouse | p.o. | Approx. 5000 |
| Rat | p.o. | Approx. 5000 |
| Rabbit | p.o. | Approx. 2500 |
| Mouse | i.v. | Approx. 290 |
| Rat | i.v. | Approx. 145 |
| Rabbit | i.v. | Approx. 125 |
| Dog | i.v. | Approx. 250 |
Subacute Toxicity
Subacute tolerability studies over 4 weeks
Oral administration
Doses up to and including 100 mg/kg were tolerated without damage by rats. Pseudoallergic reactions due to histamine release were observed in dogs.
Parenteral administration
In the highest-dose group in each case (rats 80 mg/kg and monkeys 30 mg/kg), crystals containing ciprofloxacin were found in the urine sediment. There were also changes in individual renal tubules, with typical foreign-body reactions due to crystal-like precipitates.
The tubular changes observed should not (as e.g. in the case of aminoglycosides) be interpreted as a primary toxic effect of ciprofloxacin, but as secondary inflammatory foreign-body reactions due to the precipitation of a crystalline complex in the distal renal tubule system (cf. also the subchronic and chronic tolerability studies).
Subchronic Toxicity
Subchronic tolerability studies over 3 months
Oral administration
All doses up to and including 500 mg/kg were tolerated without damage by rats. In monkeys, crystalluria and changes in the renal tubules were observed in the highest-dose group (135 mg/kg).
Parenteral administration
Although the changes in the renal tubules observed in rats were in some cases very slight, they were present in every dose group. In monkeys they were found only in the highest-dose group (18 mg/kg) and were associated with slightly reduced erythrocyte counts and haemoglobin values.
Chronic Toxicity
Chronic tolerability studies over 6 months
Oral administration
Doses up to and including 500 mg/kg and 30 mg/kg were tolerated without damage by rats and monkeys, respectively. Changes in the distal renal tubules were again observed in some monkeys in the highest-dose group (90 mg/kg).
Parenteral administration
In monkeys slightly elevated urea and creatinine concentrations and changes in the distal renal tubules were recorded in the highest-dose group (20 mg/kg).
Carcinogenicity
In carcinogenicity studies in mice (21 months) and rats (24 months) with doses up to approx. 1000 mg/kg bw/day in mice and 125 mg/kg bw/day in rats (increased to 250 mg/kg bw/day after 22 weeks), there was no evidence of a carcinogenic potential at any dose level.
Reproduction Toxicology
Fertility studies in rats
Fertility, the intrauterine and postnatal development of the young, and the fertility of F1 generation were not affected by ciprofloxacin.
Embryotoxicity studies
These yielded no evidence of any embryotoxic or teratogenic action of ciprofloxacin.
Perinatal and postnatal development in rats
No effects on the perinatal or postnatal development of the animals were detected. At the end of the rearing period histological investigations did not bring to light any sign of articular damage in the young.
Mutagenicity
Eight in vitro mutagenicity tests have been conducted with ciprofloxacin.
Test results are listed below:
- Salmonella: Microsome Test (Negative)
- E. coli: DNA Repair Assay (Negative),
- Mouse Lymphoma Cell Forward Mutation Assay (Positive)
- Chinese Hamster V79 Cell HGPRT Test (Negative),
- Syrian Hamster Embryo Cell Transformation Assay (Negative)
- Saccharomyces cerev.: Point Mutation Assay (Negative), Mitotic Crossover and Gene Conversion Assay (Negative)
- Rat Hepatocyte Primary Culture DNA Repair Assay (UDS) (Positive)
Thus, two of the eight tests were positive, but results of the following four in vivo test systems gave negative results:
- Rat Hepatocyte DNA Repair Assay
- Micronucleus Test (Mice)
- Dominant Lethal Test (Mice)
- Chinese Hamster Bone Marrow
Although two of the eight in-vitro assays (i.e. the Mouse Lymphoma Cell Forward Mutation Assay and the Rat Hepatocyte Primary Culture DNA Repair Assay (UDS)) were positive, all of the in-vivo test systems covering all relevant endpoints gave negative results.
In summary, ciprofloxacin poses no significant mutagenic potential. This assessment is confirmed by the negative outcome of the long-term carcinogenicity studies in mice and rats.
Special Tolerability Studies
It is known from comparative studies in animals, both with the older gyrase inhibitors (e.g. nalidixic and pipemidic acid) and the more recent ones (e.g. norfloxacin and ofloxacin), that this substance class produces a characteristic damage pattern. Kidney damage, cartilage damage in weight-bearing joints of immature animals, and eye damage may be encountered.
Renal tolerability
The crystallisation observed in the animal studies occurred preferentially under pH conditions that do not apply in man.
Compared to rapid infusion, a slow infusion of ciprofloxacin reduces the danger of crystal precipitation.
The precipitation of crystals in renal tubules does not immediately and automatically lead to kidney damage. In the animal studies damage occurred only after high doses, with correspondingly high levels of crystalluria. For example, although they always caused crystalluria, even high doses were tolerated over 6 months without damage and without foreign-body reactions occurring in individual distal renal tubules.
Damage to the kidneys without the presence of crystalluria has not been observed. The renal damage observed in animal studies must not, therefore, as is the case e.g. with the aminoglycosides, be regarded as a primary toxic action of ciprofloxacin on the kidney tissue, but as typical secondary inflammatory foreign-body reactions due to the precipitation of a crystalline complex of ciprofloxacin, magnesium, and protein.
Articular tolerability studies
As with other gyrase inhibitors, ciprofloxacin causes damage to the large, weight-bearing joints in immature animals.
The extent of the cartilage damage varies according to age, species, and dose; the damage can be reduced by taking the weight off the joints. Studies with mature animals (rat, dog) revealed no evidence of cartilage lesions.
Studies aimed at excluding cataractogenic effects
On the basis of the investigations it may be stated from a toxicological point of view that ciprofloxacin treatment does not involve any risk of cataract induction, particularly because in parenteral administration maximal bioavailability can be assumed and the duration of administration was 6 months.
Retina tolerability studies
Ciprofloxacin binds to the melanin containing structures including the retina. Potential effects of ciprofloxacin on the retina were assessed in various pigmented animal species. Ciprofloxacin treatment had no effect on the morphological structures of the retina and on electroretinographic findings.
Pharmaceutical Particulars
List of Excipients
Tablets
Ciproxin 250, Ciproxin, 500, Ciproxin 750
microcrystalline cellulose, maize starch, poly(1-vinyl-2-pyrrolidone) crosslinked, highly dispersed silicon dioxide, magnesium stearate, methylhydroxypropylcellulose, macrogol 4000, titanium dioxide (E171).
Suspension
copolymer of ethyl acrylate and methyl methacrylate, magnesium stearate, methylhydroxypropylcellulose, polysorbate, polyvidone, lecithin, sucrose, strawberry flavour, medium chain triglycerides, water.
Infusion solution
Ciproxin 200
lactic acid, sodium chloride, hydrochloric acid, water for injection.
Incompatibilities
The ciprofloxacin infusion solution is compatible with physiological saline, Ringer solution and Ringer lactate solution, 5% and 10% glucose solutions, 10% fructose solution, and 5% glucose solution with 0.225% NaCl or 0.45% NaCl. When ciprofloxacin infusion solutions are mixed with compatible infusion solutions, they should be administered shortly after admixture for microbiological and light sensitivity reasons.
Unless compatibility with other infusion solutions/drugs has been confirmed, the infusion solution must always be administered separately. The visual signs of incompatibility are e.g. precipitation, clouding, and discolouration.
Incompatibility appears with all infusion solutions/drugs that are physically or chemically unstable at the pH of the solution (e.g. penicillins, heparin solutions), especially in combination with solutions adjusted to an alkaline pH (pH of the ciprofloxacin infusion solutions: 3.9-4.5).
No additions should be made to the mixed final ciprofloxacin suspension.
Shelf-Life
| Ciprofloxacin film-coated tablets: | 5 years | |
| Ciprofloxacin infusion solutions | 4 years | Stored below 30°C |
| Ciprofloxacin suspension |
| Microcapsules | 3 years | Stored below 25°C |
| Suspension diluent | 2 years | Stored below 25°C |
Special Precautions for Storage
Ciprofloxacin IV solution
Since the infusion solution is photosensitive, the infusion bottles should be removed from the box only immediately before use. In daylight conditions complete efficacy is guaranteed for a period of 3 days.
Nature and Contents of Container
Tablets
Foil, Strips of 14
Infusion Solution
Glass bottle
Suspension
Bottle, PET active ingredient microcapsule
Bottle, PET diluent
Instruction for Use / Handling
Ciprofloxacin Suspension
The small bottle contains the active substance, the large bottle contains the suspension fluid. Open both bottles.
Childproof cap: Press down according to instructions on the cap while turning to the left.
Pour the microcapsules completely into the large bottle with the suspension fluid.
Do not pour water into the suspension!
Reclose the large bottle properly according to the instructions on the cap and shake vigorously for about 15 seconds. The suspension is now ready to use.
Taking the ready-to-use suspension.
Take the prescribed amount of suspension by using the measuring spoon. Do not chew the microcapsules present in the suspension, simply swallow them. A drink of water may be taken afterwards. Reseal the bottle properly after use according to the instructions on the cap. The ready-to-use suspension is stable for 14 days when stored in a refrigerator or at ambient temperatures below 30°C. After treatment has been completed, discard any surplus suspension.
Shake vigorously each time before use for approx. 15 seconds.
The graduated measuring spoon with the markings ½ is equivalent to 2.6ml contains 2.5ml of final suspension and 1/1 is equivalent to 5.2ml contains 5.0ml of final suspension. The graduated measuringspoon must be used for measuring the required prescribed amount of Ciprofloxacin Suspension 5 % or 10%
Special Precautions for Use
Ciprofloxacin IV solution
At cool storage temperatures precipitation may occur, which will re-dissolve at room temperature. It is therefore recommended not to store the infusion solution in a refrigerator.
Ciprofloxacin Suspension 5 % and 10 %
Each consists of two individual components, Microcapsules and Suspension diluent. These should not be used after the expiration date has been reached.
Occasionally a slight yellow layer is observed on the surface of the sugar in the suspension. This has no influence on the pharmaceutical quality of the product.
The ready mixed final suspension is stable when stored in a refrigerator or at ambient temperatures below 30°C for 14 days. After this time it should not be taken.
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