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Carboplatin



Carboplatin
Systematic (IUPAC) name
azanide; cyclobutane-1,1-dicarboxylic acid; platinum
Identifiers
CAS number	41575-94-4
ATC code	L01XA02
PubChem	498142
DrugBank	APRD00466
Chemical data
Formula	C₆H₁₂N₂O₄Pt
Mol. mass	371.249 g/mol
Pharmacokinetic data
Bioavailability	complete
Protein binding	Very low
Metabolism	?
Half life	1.1-2 hours
Excretion	hepatic
Therapeutic considerations
Pregnancy cat.	D(US)
Legal status
Routes	Intravenous

Carboplatin is a chemotherapy drug used against some forms of cancer (mainly ovarian carcinoma, lung, head and neck cancers). It was introduced in the late 1980s and has since gained popularity in clinical treatment due to its vastly reduced side-effects compared to its parent compound cisplatin. Cisplatin and carboplatin, as well as oxaliplatin, are classified as DNA alkylating agents.

Additional recommended knowledge

Daily Sensitivity Test

Daily Visual Balance Check

History

Bristol-Myers Squibb gained Food and Drug Administration (FDA) approval for carboplatin, under the brand name Paraplatin, in March 1989. The drug went generic in October 2004. There are also generic versions of the drug available from APP, Bedford, Sicor (Teva), Mayne Pharma, Pharmachemie, Pliva, Sandoz, Spectrum.

Pharmacology

Chemistry

Carboplatin differs from cisplatin in that it has a bidentate cyclobutane dicarboxylate (CBDCA) moiety as its leaving group in contrast to the more readily leaving chloro groups of cisplatin. This results in lower reactivity and DNA binding kinetics, though it forms the same reaction products in vitro at equivalent doses with cisplatin. However, recent studies provide a new caveat on the DNA binding molecular mechanisms with the possibility of being activated by nucleophiles (as opposed to cisplatin), before forming the toxic adducts. There are also results to show that cisplatin and carboplatin cause different morphological changes in MCF-7 cell lines while exerting their cytotoxic behaviour.

Mode of action

Two theories exist to explain the molecular mechanism of action of carboplatin with DNA.

Aquation, or the like-cisplatin hypothesis.
Activation, or the unlike-cisplatin hypothesis.

The former is more accepted owing to the similarity of the leaving groups with its predecessor cisplatin, while the latter hypothesis envisages a biologically activation mechanism to release the active Pt²⁺ species.

Side-effects

The largest benefit of using carboplatin over cisplatin is the reduction of side effects; particularly the elimination of cisplatin's nephrotoxic effects. This is due in part to the added stability of carboplatin in the bloodstream, which prevents proteins from binding to it. This in turn reduces the amount of these protein-carboplatin complexes to be excreted. The lower excretion rate of carboplatin means that more is retained in the body, and hence its effects are longer lasting (a retention half-life of 30 hours for carboplatin, compared to 1.5-3.6 hours in the case of cisplatin).

There are no known ototoxic effects from carboplatin. Nausea and vomiting are less severe and more easily controlled, compared to the incessant vomiting and antiperistalsis that some patients using cisplatin may experience. Carboplatin has also proven effective in some strains of cancer that may not be susceptible to cisplatin, including germ-line cell, small and non-small cell lung, ovary, and bladder cancers, as well as acute leukemia.

The main drawback of carboplatin is its myelosuppressive effects. This causes the blood cell and platelet output of bone marrow in the body to decrease quite dramatically, sometimes as low as 10% of its usual production levels. The nadir of this myelosuppression usually occurs 21-28 days after the first treatment, after which the blood cell and platelet levels in the blood begin to stabilize, often coming close to its pre-carboplatin levels. This decrease in white blood cells (neutropenia) can cause complications, and is sometimes treated with drugs like filgrastim. The most notable complication of neutropenia is increased probability of infection by opportunistic organisms, which necessitates readmission to hospital and treatment with antibiotics.

The potency of carboplatin also leaves something to be desired compared to cisplatin. Depending on the strain of cancer, carboplatin may only be 1/8 to 1/45 as effective as cisplatin. The clinical standard of dosage of carboplatin is usually a 4:1 ratio compared to cisplatin; that is, for a dose that usually requires a particular dose of cisplatin, four times more carboplatin is needed to achieve the same effectiveness. The stable property of carboplatin is a mixed blessing: although once uptake of the drug occurs, its retention half-life is considerably longer than cisplatin, it is also due to this inertness that causes carboplatin to go right through the human body, and up to 90% of the carboplatin given can be recovered in urine.

Recent studies have provided a way to increase the effectiveness of carboplatin by first incubating carboplatin in a sodium chloride (NaCl) solution. After 24 hours, an analysis was performed on the solution by separating the compounds by thin-layer chromatography (TLC). The TLC isolated cisplatin, carboplatin, and several platinum by-products in the solution. Numerous trials were done, and the trend showed that the survival rate of E. coli dropped dramatically as the molarity of the NaCl incubating solution increased. The treated E. coli also showed decreased amounts of alkaline phosphatase, a protein indicator of cellular size. This suggests that as this incubated carboplatin solution was administered to cells, they began to shrink and eventually die; apparently by the same mechanism that cisplatin works.

Current events

A recent study in mutant mice suggests that in the subset of women with breast cancer due to BRCA1 and BRCA2 genes (these cause a variety of familial breast cancer) carboplatin may be as much as 20 times more effective than the usual breast cancer treatments^[1] However, human data on this application is awaited.

References

^ Mark Henderson, "Lung cancer drug may fight breast tumour in women", (May 1 2006) Times Online http://www.timesonline.co.uk/tol/news/uk/article711744.ece

Additional references

Natarajan, G., et al., Increased DNA-binding activity of carboplatin in the presence of nucleophiles and human breast cancer MCF-7 cell cytoplasmic extracts: activation theory revisited. Biochem. Pharmacol. 58, 1625-1629 (1999). PMID 10535754.
Knox, RJ et al., Mechanism of cytotoxicity of anticancer platinum drugs: evidence that cis-diamminedichloroplatinum(II) and cis-diammine-(1,1-cyclobutanedicarboxylato)platinum(II) differ only in the kinetics of their interaction with DNA., Cancer Res. 1986 Apr;46 (4 Pt 2):1972-9. PMID 3512077
Canetta R, Rozencweig M, Carter SK., Carboplatin: the clinical spectrum to date., Cancer Cancer Treat Rev. 1985 Sep;12 Suppl A:125-36. PMID 3002623
Overbeck, T, et al. “A comparison of the genotoxic effects of carboplatin and cisplatin in Escherichia Coli”. Mutation Research/DNA Repair. Volume: 362, Issue: 3, April 2 1996, pp. 249-259
Schnurr, B., Gust, Ronald. “Investigations on the decomposition of carboplatin in infusion solutions”. Mikrochimica Acta. Volume: 140, Issue: 1-2, August, 2002, pp. 69 – 76
Xiang, Wang. "Structural studies of atom-specific actions on DNA". Pharmacology & Therapeutics. Volume: 83, Issue: 3, September, 1999, pp. 181-215

v • d • e Chemotherapeutic agents/Antineoplastic agents (L01)
Alkylating and alkylating-like agents	Nitrogen mustards: (Chlorambucil, Chlormethine, Cyclophosphamide, Ifosfamide, Melphalan). Nitrosoureas:(Carmustine, Fotemustine, Lomustine, Streptozocin). Platinum (alkylating-like): (Carboplatin, Cisplatin, Oxaliplatin, BBR3464). Busulfan, Dacarbazine, Procarbazine, Temozolomide, ThioTEPA, Uramustine
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Category: Chemotherapeutic agents

This article is licensed under the GNU Free Documentation License. It uses material from the Wikipedia article "Carboplatin". A list of authors is available in Wikipedia.