Is Paclitaxel compatible with breastfeeding? Do we have alternatives for Paclitaxel?

Paclitaxel

August 2, 2018 (Very High Risk)

Paclitaxel is a taxane with antimitotic properties originally derived from the bark of the Pacific yew (Taxus brevifolia).
Indicated for the treatment of various cancers (breast, ovarian, lung, pancreatic).
Administered intravenously; a dose generally every 3 weeks during a number of rounds determined according to protocol. Some types of cancer require weekly doses (EMA 2016, AEMPS 2012).

Because it is very lipophilic( Zagouri 2013), it is excreted in breast milk in significant amounts. At 316 hours (13 days) after the infusion, detectable levels were no longer found in breast milk (Griffin 2012).

There are two different pharmaceutical forms of paclitaxel, the conventional one (AEMPS 2012, Bristol 2011) and the albumin-bound nanoparticle (EMA 2016), with a very similar pharmacokinetic profile: high protein binding, high volume of distribution and a long half-life of around a day, the range being between 13 and 53 hours for the broadest conventional form (Bristol 2011), versus 12 to 33 hours for the nanoparticle form (EMA 2016).

When it is possible to do so, detections in the milk of each patient to determine the total elimination of the drug would be the best indicator for resuming breastfeeding between two rounds of chemotherapy.

It is known from pharmacokinetics that after 3 elimination half-lives (T½) 87.5% of the drug is eliminated from the body; after 4 T½ 94%, after 5 T½ 96.9%, after 6 T½ 98.4% and after 7 T½ 99%. From 7 T½ plasmatic concentrations of drug in the body are negligible. In general, a period of at least five half-lives can be considered a safe waiting time before a return to breastfeeding (Anderson 2016).

Depending on the pharmaceutical form of paclitaxel and taking as reference the longest recorded T½, these 5 T½ would correspond to the conventional form of paclitaxel at 11 days and that of nanoparticles at 7 days.

Expert authors recommend waiting 6 to 10 days (between 6 and 10 T½) after the last dose to restart breastfeeding. Meanwhile, express and discard breast milk regularly (Hale 2017 p.742). Some chemotherapeutic agents with an antibiotic effect can alter the composition of the microbiota (cluster of bacteria or bacterial flora) of the milk and the concentration of some of its components (Urbaniak 2014). This possibly occurs temporarily with subsequent recovery, without any adverse effects being reported in breastfed infants.

Given the strong evidence that exists on the benefits of breastfeeding for the development of babies and the health of mothers, it is advisable to evaluate the risk-benefit of any maternal treatment, including chemotherapy, individually advising each mother that wishes to continue with breastfeeding (Koren 2013).

Alternatives

We do not have alternatives for Paclitaxel.

Very Low Risk

Compatible. Not risky for breastfeeding or infant.

Low Risk

Moderately safe. Mild risk possible. Follow up recommended. Read the Comment.

High Risk

Poorly safe. Evaluate carefully. Use a safer alternative. Read the Comment.

Very High Risk

Not recommended. Cessation of breastfeeding or alternative.

Writings

  • πακλιταξέλη (Greek)
  • باكليتاكسال (Arabic)
  • Паклитаксел (Cyrillic)
  • 紫杉醇 (Chinese)
  • パクリタキセル (Japanese)
  • C47H51NO14 (Molecular formula)
  • (2S,5R,7S,10R,13S)-10,20-Bis(acetoxy)-2-benzoyloxy-1,7-dihydroxy-9-oxo-5,20-epoxytax-11-en-13-yl (3S)-3-benzoylamino-3-phenyl-d-lactate (Chemical name)
  • L01CD01 (ATC Code/s)

References

  1. Hale TW, Rowe HE. Medications & Mothers' Milk. A Manual of Lactation Pharmacology. Springer Publishing Company. 2017
  2. Stopenski S, Aslam A, Zhang X, Cardonick E. After Chemotherapy Treatment for Maternal Cancer During Pregnancy, Is Breastfeeding Possible? Breastfeed Med. 2017Abstract
  3. EMA. Paclitaxel (Abraxane). Drug Summary. 2016 Full text (in our servers)
  4. EMA. Paclitaxel (Abraxane). Ficha técnica. 2016 Full text (in our servers)
  5. Anderson PO. Cancer Chemotherapy. Breastfeed Med. 2016Abstract Full text (link to original source) Full text (in our servers)
  6. Urbaniak C, McMillan A, Angelini M, Gloor GB, Sumarah M, Burton JP, Reid G. Effect of chemotherapy on the microbiota and metabolome of human milk, a case report. Microbiome. 2014Abstract Full text (link to original source) Full text (in our servers)
  7. Zagouri F, Psaltopoulou T, Dimitrakakis C, Bartsch R, Dimopoulos MA. Challenges in managing breast cancer during pregnancy. J Thorac Dis. 2013Abstract Full text (link to original source) Full text (in our servers)
  8. Koren G, Carey N, Gagnon R, Maxwell C, Nulman I, Senikas V; Society of Obstetricians and Gynaecologists of Canada. Cancer chemotherapy and pregnancy. J Obstet Gynaecol Can. 2013Abstract Full text (link to original source) Full text (in our servers)
  9. Griffin SJ, Milla M, Baker TE, Liu T, Wang H, Hale TW. Transfer of carboplatin and paclitaxel into breast milk. J Hum Lact. 2012Abstract
  10. AEMPS. Paclitaxel (Taxol). Ficha técnica. 2012 Full text (in our servers)
  11. Bristol Myers. Paclitaxel (Taxol). Drug Summary. 2011 Full text (in our servers)