Ciprofloxacin is a broad spectrum fluoroquinolone antibacterial agent. Since its introduction in the 1980s, most Gram-negative bacteria have remained highly susceptible to this agent in vitro; Gram-positive bacteria are generally susceptible or moderately susceptible. Ciprofloxacin attains therapeutic concentrations in most tissues and body fluids. The results of clinical trials with ciprofloxacin have confirmed its clinical efficacy and low potential for adverse effects. Ciprofloxacin is effective in the treatment of a wide variety of infections, particularly those caused by Gram-negative pathogens. These include complicated urinary tract infections, sexually transmitted diseases (gonorrhoea and chancroid), skin and bone infections, gastrointestinal infections caused by multiresistant organisms, lower respiratory tract infections (including those in patients with cystic fibrosis), febrile neutropenia (combined with an agent which possesses good activity against Gram-positive bacteria), intra-abdominal infections (combined with an antianaerobic agent) and malignant external otitis. Ciprofloxacin should not be considered a first-line empirical therapy for respiratory tract infections if penicillin-susceptible Streptococcus pneumoniae is the primary pathogen; however, it is an appropriate treatment option in patients with mixed infections (where S. pneumoniae may or may not be present) or in patients with predisposing factors for Gram-negative infections. Clinically important drug interactions involving ciprofloxacin are well documented and avoidable with conscientious prescribing. Recommended dosage adjustments in patients with impaired renal function vary between countries; major adjustments are not required until the estimated creatinine clearance is < 30 ml/min/1.73m2 (or when the serum creatinine level is > or = 2 mg/dl). Ciprofloxacin is one of the few broad spectrum antibacterials available in both intravenous and oral formulations. In this respect, it offers the potential for cost savings with sequential intravenous and oral therapy in appropriately selected patients and may allow early discharge from hospital in some instances. In conclusion, ciprofloxacin has retained its excellent activity against most Gram-negative bacteria, and fulfilled its potential as an important antibacterial drug in the treatment of a wide range of infections. Rational prescribing will help to ensure the continued clinical usefulness of this valuable antimicrobial drug.
Levofloxacin, an oral fluoroquinolone antibacterial agent, is the optical S-(-) isomer of ofloxacin. In vitro it is generally twice as potent as ofloxacin. Levofloxacin is active against most aerobic Gram-positive and Gram-negative organisms and demonstrates moderate activity against anaerobes. Drug penetration into body tissues and fluids is rapid and widespread after oral administration. In clinical trials conducted in Japan, oral levofloxacin has demonstrated antibacterial efficacy against a variety of infections, including upper and lower respiratory tract, genitourinary, obstetric, gynaecological and skin and soft tissues. In comparative trials with ofloxacin, levofloxacin, at half the daily dosage of ofloxacin, showed equivalent efficacy and a reduced incidence of adverse effects in the treatment of lower respiratory tract and complicated urinary tract infections. Levofloxacin has a tolerability profile similar to that of other oral fluoroquinolones, with gastrointestinal and central nervous system effects reported most commonly. Theophylline dosage adjustment does not appear to be necessary in patients receiving concomitant levofloxacin. Coadministration with antacids or with other drugs containing divalent or trivalent cations reduces levofloxacin absorption. Thus, levofloxacin has potential as a broad spectrum antibacterial drug in the treatment of a variety of infections. However, clinical trials recruiting non-Japanese patients are in progress and these results will form a basis on which future recommendations for the broader use of levofloxacin can be made.
Topiramate is a sulphamate-substituted monosaccharide derived from D-fructose and is structurally unrelated to other antiepileptic drugs. It acts by multiple mechanisms that suggest it may be effective in several types of epilepsy. In double-blind placebo-controlled trials, add-on therapy with topiramate 400 to 1000 mg/day reduces the seizure rate by > or = 50% in 35 to 52% of adult patients with resistant partial epilepsy (with or without secondarily generalised seizures) compared with 0 to 19% of placebo recipients; a 200 mg/day dosage was less effective. Topiramate has also been shown to be superior in efficacy to placebo in well controlled trials in patients with generalised tonic-clonic seizures, Lennox-Gastaut syndrome and in paediatric patients with partial epilepsy. Efficacy has been maintained for 7 years and some patients may also be satisfactorily treated with topiramate monotherapy. Further study is needed to follow up on the promising results of topiramate use in other paediatric epilepsies. Adverse CNS events are the most common untoward effects during topiramate therapy and are most likely to lead to withdrawal of the drug. However, most adverse events are mild to moderate in severity and lessen with continued drug therapy. In clinical trials, most adverse events which were dose limiting or led to discontinuation of treatment occurred during the titration phase. The overall incidence of adverse events may be reduced by slower upward dosage titration. In summary, topiramate appears to be a suitable agent for add-on therapy in adult patients with partial epilepsy. Preliminary reports support the use of add-on topiramate in adults with generalised epilepsy, in childhood epilepsies and in patients with Lennox-Gastaut syndrome, as well as the use of topiramate monotherapy in patients with partial epilepsy. Thus, topiramate can be considered an important new drug for the management of patients with refractory epilepsy.
Patients undergoing cardiac surgery with cardiopulmonary bypass (CPB) experience transient haemostatic defects as a result of adverse changes to their blood components, blood cells and specific coagulation proteins. Aprotinin is a naturally occurring serine protease inhibitor isolated from bovine lung tissue which inhibits kallikrein and plasmin. A high dose aprotinin regimen (aprotinin 280mg loading dose over 20 to 30 minutes after anaesthesia induction followed by 70 mg/h for the duration of the operation and 280mg added to the priming fluid of the CPB circuit) has been used during CPB in order to reduce perioperative bleeding. Recent clinical trials confirm the efficacy of high dose aprotinin in reducing blood loss and transfusion requirements associated with primary cardiac procedures such as coronary artery bypass graft (CABG) or heart valve replacement surgery. High dose aprotinin is also effective in procedures known to possess a high risk for excessive blood loss, such as repeat CABG or heart valve replacement surgery, cardiac surgery in patients with infective endocarditis, or in patients receiving aspirin (acetylsalicylic acid) before surgery. Studies indicate that low dose aprotinin (280mg added to CPB pump prime fluid) is effective in reducing blood loss and transfusion requirements in patients undergoing primary CABG surgery. Additionally, low dose aprotinin regimens (both 280mg added to CPB pump prime fluid and 50% of the high dose regimen) have shown some benefit in repeat CABG surgery; however, more studies are needed to confirm these results. Data from clinical trials indicate that aprotinin is well tolerated. The types and incidences of adverse events reported with aprotinin therapy are generally consistent with those associated with major cardiac surgery, and are not significantly different from those observed in control groups. A trend towards lower graft patency rates, detected by ultrafast computerised tomography (CT), has been observed in aprotinin recipients in 2 US trials. These differences did not reach statistical significance and should be interpreted with caution since the ability of ultrafast CT to determine graft patency has not been validated. Mildly elevated plasma creatinine levels are more commonly observed in aprotinin-treated patients; these changes are transient in the majority of patients. Both high dose and low dose aprotinin regimens (280mg added to CPB pump prime fluid or 50% of the high dose regimen) have reduced blood loss and transfusion requirements in patients undergoing primary and repeat cardiac surgery. The role of aprotinin in paediatric cardiac surgery needs further clarification, while well-designed studies comparing aprotinin with other agents which inhibit fibrinolysis are also awaited with interest.(ABSTRACT TRUNCATED AT 400 WORDS)
The recommended starting dosage of mirtazapine is 15 mg/day for 4 days, then 30 mg/day for 10 days. If effective, the drug should be continued unchanged at this dosage or, in patients assessed as insufficiently improved, the daily dosage may be further increased to 45 mg/day. In patients with hepatic or renal insufficiency, careful dosage titration as well as regular and close monitoring for adverse events is recommended. Concomitant use of mirtazapine and diazepam or alcohol (ethanol) may also impair cognitive and/or motor performance.
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