Carboplatin

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Carboplatin
Carboplatin-skeletal.svg
Carboplatin-3D-balls.png
Clinical data
Pronunciation /ˈkɑːrbˌplætən/
Trade names Paraplatin, others
AHFS/Drugs.com Monograph
MedlinePlus a695017
Pregnancy
category
  • US: D (Evidence of risk)
Routes of
administration		 Intravenous
ATC code L01XA02 (WHO)
Legal status
Legal status
  • ℞ (Prescription only)
Pharmacokinetic data
Bioavailability complete
Protein binding Very low
Biological half-life 1.1-2 hours
Excretion renal
Identifiers
CAS Number 41575-94-4 YesY
PubChem (CID) 498142
DrugBank DB00958 YesY
ChemSpider 8514637 YesY
UNII BG3F62OND5 YesY
KEGG D01363 YesY
ChEBI CHEBI:31355 YesY
ChEMBL CHEMBL288376 N
ECHA InfoCard 100.050.388
Chemical and physical data
Formula C6H12N2O4Pt
Molar mass 371.249 g/mol
3D model (Jmol) Interactive image
 NYesY (what is this?)  (verify)

Carboplatin, sold under the trade name Paraplatin among others, is a chemotherapy medication used to treat a number of forms of cancer. This includes ovarian cancer, lung cancer, head and neck cancer, brain cancer, and neuroblastoma. It is used by injection into a vein.[1]

Side effects generally occur. Common side effects include low blood cell levels, nausea, and electrolyte problems. Other serious side effects include allergic reactions and increases future risk of another cancer. Use during pregnancy may result in harm to the baby.[1] Carboplatin in the platinum-based antineoplastic family of medications and works by interfering with duplication of DNA.[1][2]

Carboplatin was patented in 1972 and approved for medical use in 1986.[3] It is on the World Health Organization's List of Essential Medicines, the most effective and safe medicines needed in a health system.[4] The wholesale cost in the developing world is about 26.49 to 37.37 USD per 450 mg vial.[5] In the United Kingdom that amount costs the NIH about 160.00 pounds.[6]

Side-effects[edit]

Relative to cisplatin, the greatest benefit of carboplatin is its reduced side effects, particularly the elimination of nephrotoxic effects. Nausea and vomiting are less severe and more easily controlled.

The main drawback of carboplatin is its myelosuppressive effect. 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 hospital readmission and treatment with antibiotics.

Carboplatin is less potent than cisplatin; depending on the strain of cancer, carboplatin may only be 1/8 to 1/45 as effective[citation needed]. 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 as much carboplatin is needed to achieve the same effectiveness[citation needed]. The stable property of carboplatin is a mixed blessing: once uptake of the drug occurs, its retention half-life is considerably longer than cisplatin, but it is also 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[citation needed].

Chemistry[edit]

In terms of its structure, carboplatin differs from cisplatin in that it has a bidentate dicarboxylate (the ligand is CycloButane DiCarboxylic Acid, CBDCA) in place of the two chloride ligand, which are the leaving groups in cisplatin. For this reason, "CBDCA" is sometimes used in the medical literature as an abbreviation referring to carboplatin. Carboplatin exhibits lower reactivity and slower DNA binding kinetics, although it forms the same reaction products in vitro at equivalent doses with cisplatin. Unlike cisplatin, carboplatin may be susceptible to alternative mechanisms. Some results show that cisplatin and carboplatin cause different morphological changes in MCF-7 cell lines while exerting their cytotoxic behaviour.[7] The diminished reactivity limits protein-carboplatin complexes, which are 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).

Mechanism of action[edit]

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 biological activation mechanism to release the active Pt2+ species.

Dose[edit]

Calvert's formula is used to calculate the dose of carboplatin. It takes under consideration the creatinine clearance and the desired area under curve.[8]

History[edit]

Carboplatin was discovered at Michigan State University,[9] and developed at the Institute of Cancer Research in London. Bristol-Myers Squibb gained Food and Drug Administration (FDA) approval for carboplatin, under the brand name Paraplatin, in March 1989. Starting in October 2004, generic versions of the drug became available.

Research[edit]

Carboplatin has also been used for adjuvant therapy of stage 1 seminomatous testicular cancer. Research has indicated that it is not less effective than adjuvant radiotherapy for this treatment, while having fewer side effects.[10] This has led to carboplatin based adjuvant therapy being generally preferred over adjuvant radiotherapy in clinical practice.[11]

See also[edit]

References[edit]

  1. ^ a b c "Carboplatin". The American Society of Health-System Pharmacists. Retrieved 8 December 2016. 
  2. ^ Apps, M. G.; Choi, E. H. Y.; Wheate, N. J. (2015). "The state-of-play and future of platinum drugs". Endocrine-related Cancer. 22 (4): 219–233. doi:10.1530/ERC-15-0237. PMID 26113607. 
  3. ^ Fischer, Janos; Ganellin, C. Robin (2006). Analogue-based Drug Discovery. John Wiley & Sons. p. 513. ISBN 9783527607495. 
  4. ^ "WHO Model List of Essential Medicines (19th List)" (PDF). World Health Organization. April 2015. Retrieved 8 December 2016. 
  5. ^ "Carboplatin". International Drug Price Indicator Guide. Retrieved 8 December 2016. 
  6. ^ British national formulary : BNF 69 (69 ed.). British Medical Association. 2015. p. 605. ISBN 9780857111562. 
  7. ^ Natarajan G, Malathi R, Holler E (November 1999). "Increased DNA-binding activity of cis-1,1-cyclobutanedicarboxylatodiammineplatinum(II) (carboplatin) in the presence of nucleophiles and human breast cancer MCF-7 cell cytoplasmic extracts: activation theory revisited". Biochemical Pharmacology. 58 (10): 1625–29. doi:10.1016/S0006-2952(99)00250-6. PMID 10535754. 
  8. ^ http://www.mskcc.org/cancer-care/clinical-update/new-guidelines-carboplatin-dosing
  9. ^ "Discovery to Market: Fact Sheet". 
  10. ^ Oliver RT, Mason MD, Mead GM, von der Maase H, Rustin GJ, Joffe JK, de Wit R, Aass N, Graham JD, Coleman R, Kirk SJ, Stenning SP (2005). "Radiotherapy versus single-dose carboplatin in adjuvant treatment of stage I seminoma: a randomised trial". Lancet. 366 (9482): 293–300. doi:10.1016/S0140-6736(05)66984-X. PMID 16039331. 
  11. ^ Toner GC (2015). "Testicular cancer: Optimal management of stage I seminoma in 2015". Nat Rev Urol. 12 (5): 249–51. doi:10.1038/nrurol.2015.85. PMID 25896179. 

Additional references[edit]

External links[edit]

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