Taurolidine

Medical uses

Taurolidine is an antimicrobial agent used as part of a catheter lock solution in an effort to prevent catheter infections.

• Catheter lock solution in home parenteral nutrition (HPN) or total parenteral nutrition (TPN): catheter-related blood stream infections (CRBSI) remains the most common serious complication associated with long-term parenteral nutrition. The use of taurolidine as a catheter lock solution shows a reduction of CRBSI. The overall quality of the evidence however is not strong enough to justify routine use.
• Catheter lock solution: Taurolidine decreases the adherence of bacteria and fungi to host cells by destructing the fimbriae and flagella and thus prevent the biofilm formation. Taurolidine is the active ingredient of antimicrobial catheter lock solutions for the prevention and treatment of catheter related bloodstream infections (CRBSIs) and is suitable for use in all catheter based vascular access devices. Bacterial resistance against taurolidine has never been observed in various studies.
• The use of a taurolidine lock solution may decrease the risk of catheter infection in children with cancer but the evidence is tentative.

Side effects

No systemic side effects have been identified. The safety of taurolidine has also been confirmed in clinical studies with long-term intravenous administration of high doses (up to 20 grams daily). In the body, taurolidine is metabolized rapidly via the metabolites taurultam and methylol taurinamide, which also have a bactericidal action, to taurine, an endogenous aminosulphonic acid, carbon dioxide and water. Therefore, no toxic effects are known or expected in the event of accidental injection. Burning sensation while instilling, numbness, erythema, facial flushing, headache, epistaxis, and nausea have been reported.

Toxicology

Taurolidine has a relatively low acute and subacute toxicity. For treatment of peritonitis, taurolidine was administered by peritoneal lavage, intraperitoneal instillation or intravenous infusion, or by a combination thereof. The total daily dose ranged widely from 0.5 to 50 g. The total cumulative dose ranged from 0.5 to 721 g. In those patients who received intravenous taurolidine, the daily intravenous dose was usually 15 to 30 g but several patients received up to 40 g/day. Total daily doses of up to 40 g and total cumulative doses exceeding 300 g were safe and well tolerated.

Pharmacology

• Metabolism: Taurolidine and taurultam are quickly metabolized to taurinamide, taurine, carbon dioxide and water. Taurolidine exists in equilibrium with taurultam and N-methylol-taurultam in aqueous solution.
• Pharmacokinetic (elimination): The half-life of the terminal elimination phase of taurultam is about 1.5 hours, and of the taurinamide metabolite about 6 hours. 25% of the taurolidine dose applied is renally eliminated as taurinamide and/or taurine.

Mechanism of action

Following administration of taurolidine, the antimicrobial and antiendotoxin activity of the taurolidine molecule is conferred by the release of three active methylol (hydroxymethyl) groups as taurolidine is rapidly metabolized by hydrolysis via methylol taurultam to methylol taurinamide and taurine. These labile N-methylol derivatives of taurultam and taurinamide react with the bacterial cell-wall resulting in lysis of the bacteria, and by inter- and intramolecular cross-linking of the lipopolysaccharide-protein complex, neutralization of the bacterial endotoxins which is enhanced by enzymatic activation. This mechanism of action is accelerated and maximised when taurolidine is pre-warmed to 37 C. Microbes are killed and the resulting toxins are inactivated; the destruction time in vitro is 30 minutes.

The chemical mode of action of taurolidine via its reactive methylol groups confers greater potency in vivo than indicated by in vitro minimum inhibitory concentration (MIC) values, and also appears to preclude susceptibility to resistance mechanisms.

Taurolidine binding to lipopolysaccharides (LPS) prevents microbial adherence to host epithelial cells, thereby prevents microbial invasion of uninfected host cells. Although the mechanism underlying its antineoplastic activity has not been fully elucidated, it may be related to this agent's anti-adherence property. Taurolidine has been shown to block interleukin 1 (IL-1) and tumour necrosis factor (TNF) in human peripheral blood mononuclear cells (PBMC). In addition, taurolidine also promotes apoptosis by inducing various apoptotic factors and suppresses the production of vascular endothelial growth factor (VEGF), a protein that plays an important role in angiogenesis.

Taurolidine is highly active against the common infecting pathogens associated with peritonitis and catheter sepsis, this activity extends across a wide-spectrum of aerobic and anaerobic bacteria and fungi (with no diminution of effect in the presence of biological fluids, e.g. blood, serum, pus).

• Gram-positive bacteria (MIC of 1–2 mg/mL): Staphylococcus (including multiple-antibiotic resistant coagulase negative strains, methicillin-resistant S. aureus), Streptococcus, Enterococcus.
• Gram-negative bacteria (MIC of 0.5–5 mg/mL): Aerobacter species, Citrobacter species, Enterobacter species, Escherichia coli, Proteus species (indole negative), Proteus mirabilis, Pseudomonas species (including P. aeruginosa), Salmonella species, Serratia marcescens, Klebsiella species.
• Anaerobes (MIC 0.03–0.3 mg/mL): Bacteroides species (including B. fragilis), Fusobacteriota, Clostridium species, Peptostreptococcus anaerobius.
• Fungi (MIC 0.3–5 mg/mL): Candida albicans, Cryptococcus neoformans, Aspergillus species, Trichophyton rubrum, Epidermophyton floccosum, Pityrosporum ovale.

Chemical properties

The chemical name for taurolidine is 4,4'-Methylene-bis(1,2,4-thiadiazinane)-1,1,1',1'-tetraoxide.

It is a white to off white odourless crystalline powder. It is practically insoluble in chloroform, slightly soluble in boiling acetone, ethanol, methanol, and ethyl acetate, sparingly soluble in water 8 at 20° and ethyl alcohol, soluble in dilute hydrochloric acid, and dilute sodium hydroxide, and freely soluble in N,N-dimethylformamide (at 60 °C).

History

Taurolidine was first synthesized in the laboratories of Geistlich Pharma AG, Switzerland in 1972. Clinical trials begun in 1975 in patients with severe peritonitis.

Research

Taurolidine demonstrates some anti-tumor properties, with positive results seen in early-stage clinical investigations using the drug to treat gastrointestinal malignancies and tumors of the central nervous system. More recently, it has been found to exert antineoplastic activity. Taurolidine induces cancer cell death through a variety of mechanisms. Even now, all the antineoplastic pathways it employs are not completely elucidated. It has been shown to enhance apoptosis, inhibit angiogenesis, reduce tumor adherence, downregulate pro-inflammatory cytokine release, and stimulate anticancer immune regulation following surgical trauma. Apoptosis is activated through both a mitochondrial cytochrome-c-dependent mechanism and an extrinsic direct pathway. A lot of in vitro and animal data support taurolidine's tumoricidal action. Taurolidine has been used as an antimicrobial agent in the clinical setting since the 1970s and thus far appears nontoxic. The nontoxic nature of taurolidine makes it a favorable option compared with current chemotherapeutic regimens. Few published clinical studies exist evaluating the role of taurolidine as a chemotherapeutic agent. The literature lacks a gold-standard level 1 randomized clinical trial to evaluate taurolidine's potential antineoplastic benefits. However, these trials are currently underway. Such randomized control studies are vital to clarify the role of taurolidine in modern cancer treatment.

References

References

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