Abstract
Tamoxifen may lead to bothersome side effects contributing to non-compliance and decreased quality of life. Patients searching for relief are increasingly turning to cannabinoids such as CBD-oil. However, CBD-oil might affect tamoxifen pharmacokinetics (PK) through CYP2D6 inhibition. The aims of this open-label, single-arm study were (1) to determine the PK profile of tamoxifen when using CBD-oil, and (2) to subsequently investigate whether CBD-oil has a beneficial influence on side effects. Study patients had to have steady-state endoxifen concentrations ≥16 nM (conservative threshold). PK sampling and side effect assessment was done at initiation of CBD-oil and 28 days thereafter. Bio-equivalence could be concluded if the 90% confidence interval (CI) for the difference in endoxifen AUC fell within the [−20%; +25%] interval. The effect of CBD-oil on side effects was evaluated using the FACT-ES questionnaire. Endoxifen AUC decreased after CBD-oil by 12.6% (n = 15, 90% CI −18.7%, −6.1%) but remained within bio-equivalence boundaries. The endocrine sub-scale of the FACT-ES improved clinically relevant with 6.7 points (n = 26, p < 0.001) and health-related quality of life improved with 4.7 points after using CBD (95% CI + 1.8, +7.6). We conclude that CBD-oil, if of good quality and with a dosage below 50 mg, does not have to be discouraged in patients using it for tamoxifen-related side effects. Clinical trial registration: International Clinical Trial Registry Platform (NL8786; https://www.who.int/clinical-trials-registry-platform).
Similar content being viewed by others
Introduction
Tamoxifen is effective in the treatment of estrogen-receptor positive breast cancer1,2 and is recommended for two to three years for postmenopausal patients and up to ten years for premenopausal patients3. Unfortunately, tamoxifen can lead to bothersome side effects such as hot flashes, arthralgia, insomnia, and mood alterations. Forty percent of patients eventually discontinue tamoxifen therapy early, mainly due to side effects4,5,6.
Breast cancer patients searching for relief from side effects are increasingly turning to cannabinoids (CBs). CBs are a group of compounds found in the Cannabis sativa plant but interestingly, the human body also produces endocannabinoids7. One of the most active phytocannabinoids produced by Cannabis sativa is the non-psychoactive substance cannabidiol (CBD)8,9. CBD acts as a negative allosteric modulator of the cannabinoid receptor 1 (CB1), mostly present in the central nervous system, and as an inverse agonist of the cannabinoid receptor 2 (CB2), mostly present in the immune system. CBD can also modulate other receptors such as: opioid, dopamine, melatonin, serotonin and acetylcholine receptors7,10. In the United States, more than 20% of breast cancer patients used CBs during their endocrine therapy hoping to reduce side effects11. A recent meta-analysis suggested a small improvement in pain and quality of sleep after CBD use12. Most recently, a RCT did not find any symptom relief after CBD compared to placebo in an advanced cancer population13. Whether CBD improves tamoxifen-related side effects in breast cancer patients has never been investigated.
Tamoxifen is a prodrug metabolised mostly by the cytochrome P450 (CYP) enzyme CYP2D6 in its main and most active metabolite endoxifen14. Several retrospective studies have shown an exposure-response relationship of endoxifen, which led to the suggestion of efficacy thresholds varying from 9–16 nM15,16,17. Due to the complex metabolism, tamoxifen is prone to drug-drug or drug-herb interactions18,19. CBD might also affect tamoxifen pharmacokinetics since it is known to be a potential inhibitor of CYP2D620,21,22. Recently, a case report about a woman treated with tamoxifen for primary breast cancer showed lower endoxifen levels when tamoxifen was combined with CBD compared to tamoxifen monotherapy23. However, the bioavailability of sublingual CBD in the highest over-the-counter dosage should theoretically not be sufficient for significant CYP2D6 inhibition24.
If CBD can diminish tamoxifen-related side effects without negative impact on tamoxifen pharmacokinetics, this could be a solution for the high frequency of tamoxifen discontinuation. Therefore, the aims of our study were (1) to determine the pharmacokinetic interaction between CBD-oil and endoxifen and (2) to investigate whether there is a beneficial effect of CBD-oil on tamoxifen-related side-effects and health-related quality of life (HR-QOL) in primary breast cancer patients.
Results
Patient characteristics
In total, 35 patients were enrolled in the study. Four patients were excluded before the start of the study due to voluntary withdrawal (N = 2), disease progression (N = 1), and an endoxifen level <16 nM despite dose escalation (N = 1). Five other patients were excluded during the study due to protocol violation (N = 3), personal circumstances (N = 1), and poor venous access for blood withdrawal (N = 1). There were 26 evaluable patients whereof 15 for the primary pharmacokinetic endpoint. Patient characteristics can be found in Table 1.
Pharmacokinetics
Table 2 shows the main pharmacokinetic parameters of tamoxifen and endoxifen during tamoxifen monotherapy as compared to tamoxifen combined with CBD-oil. For endoxifen, the AUC0–24h significantly decreased by 12.6% (90% CI −18.7%, −6.1%) when CBD-oil was used in addition to tamoxifen. However, the 90% CI was within the limits of bio-equivalence. Also, the Cmin and Cmax of endoxifen decreased significantly when using CBD-oil next to tamoxifen. There were no significant differences in tamoxifen AUC0–24h, Cmin and Cmax between tamoxifen monotherapy or tamoxifen combined with CBD-oil. Moreover, the 90% CIs of all parameters were within bio-equivalence boundaries.
The AUCs of tamoxifen and endoxifen were also analyzed for the intermediate (IM) and extensive (EM) CYP2D6 phenotype patients separately (see Supplementary Table 1). In patients with an IM CYP2D6 phenotype, the AUC of tamoxifen and endoxifen decreased significantly when using CBD-oil, while in patients with an EM CYP2D6 metabolism, the AUC of both tamoxifen and endoxifen remained comparable with the 90% CIs within the bio-equivalence boundaries. There was a significant difference between ∆AUCPK2-PK1 of endoxifen in IM metabolizers compared with EM metabolizers (p = 0.004, independent samples t-test). To further study this difference, the Cmin of tamoxifen and endoxifen was determined for IM and EM CYP2D6 phenotypes separately in the total study group (N = 25, one patient missing due to logistic reasons). Tamoxifen Cmin was comparable in both IM and EM CYP2D6 phenotypes. Endoxifen Cmin decreased in a comparable range in both groups and there was no statistical difference between ∆CminPK2-PK1 of endoxifen in IM metabolizers compared with EM metabolizers (p = 0.48, independent samples t-test).
FACT-ES scores
In Fig. 1 a visual representation of the effect of CBD-oil on ES and HR-QOL is shown. There was a clinical relevant (≥5 points, i.e., >0.5 of SD of ES on baseline) and significant improvement in ES after four weeks of using CBD next to tamoxifen. The HR-QOL showed a significant improvement as well, but this change was not clinical relevant (<8 points, i.e., <0.5 of SD of HR-QOL on baseline). Means, confidence intervals an p-values can be found in Table 3.
To rule out the effect of the (slight) decrease in endoxifen levels on tamoxifen-related side effects instead of the effect of using CBD-oil, a Spearman correlation test was performed between the difference in endoxifen Cmin and the improvement in ES score. No significant correlation was found (r = 0.19, p = 0.37, N = 25).
Joint pain improved most frequently of all separate items of the endocrine subscale of the FACT-ES (n = 16; 62%). Also, hot flashes, cold sweats, night sweats and insomnia (n = 15; 58%) and bloated feeling (n = 13; 50%) were items that improved frequently (i.e. in at least half of the patients). Percentage of improvement of all side effects assessed with the FACT-ES questionnaire can be found in Table 4. Improvement is seen as at least one point improvement on the 5-point Likert scale after four weeks of CBD.
CTCAE-toxicity
Side effects with tamoxifen monotherapy and after four weeks of tamoxifen and CBD-oil concomitantly can be found in Table 5. Hot flashes and arthralgia improved with at least one grade in six out of 25 patients (24%) and insomnia improved with one grade in 11 out of 26 patients (42%). This is in line with the trend seen in improvement in separate endocrine subscale items.
Ten out of 26 patients (38%) experienced some kind of CBD-oil-related toxicity. Most frequented mentioned side effects were fatigue (n = 3, 12%) and dry mouth (n = 3, 12%). All side effects were grade 1. None of the patients quit CBD-oil because of side effects. Sixty-nine percent of patients wished to continue CBD-oil after the study was finished.
Discussion
Although the combination of CBD-oil and tamoxifen lead to a significant decrease in endoxifen plasma concentrations, the decrease remained within bio-equivalence boundaries and is not considered clinically relevant. Furthermore, CBD-oil seems to improve tamoxifen-related side effects as measured by an endocrine symptoms quality-of-life questionnaire (FACT-ES) while CBD-oil itself has only mild side effects. Thus, in case of bothersome tamoxifen-related side effects CBD addition may reduce side effects and hopefully lower the high tamoxifen discontinuation rate. However, since this was an open-label, single arm study, it is not known how much of the improvement is due to a placebo effect. HR-QOL improved significantly but this improvement was too little to be clinically relevant. Since CBD-oil was used for only four weeks this may have been too short to achieve a clinical relevant improvement in HR-QOL.
In patients with an IM CYP2D6 phenotype the decrease in endoxifen AUC seemed more pronounced than in patients with an EM CYP2D6 phenotype. Because of the additional patients recruited for side effect analysis extra information about Cmin concentrations could be obtained. With regard to Cmin endoxifen concentrations, there was no significant difference between IM and EM subgroups. Although Cmin is known to be a less robust pharmacokinetic parameter than AUC, this analysis, done with a much larger subgroup, makes a difference in CBD effects between CYP2D6 phenotypes less probable.
In our study mean scores of ES and HR-QOL were 47 and 74 points, respectively. ES scores were much lower than found in previous studies where ES were assessed in large groups of unselected patients using adjuvant tamoxifen (ES: 59–62 points; HR-QOL 79–83 points)25,26,27. This is as expected, since, in contrast to our study, these populations were not selected for tamoxifen-related complaints. After four weeks of CBD, HR-QOL scores improved to an average of 79 points. While the improvement of ES scores was clinically relevant they remained below population average (54 points). Possibly, a longer period of CBD treatment can further improve ES scores.
Earlier studies suggested effects of CBD-oil on sleep and pain which was confirmed in our study12. Insomnia improved the most (i.e., in 42% of patients) and also, hot flashes and arthralgia improved in 24% of patients. But, a placebo effect cannot be ruled out. The most compelling study to date that placebo effect may play an important role in symptom relief from CBD oil comes from the recently published study by Hardy et al. In a randomized study they showed beneficial effect of two weeks CBD use for symptom relief in an advanced cancer population13. However, this effect was not statistically significantly better than placebo, suggesting an important role for a placebo effect13. Although a placebo-controlled randomized study is the ultimate form of ruling out a placebo effect, some nuance should be made here. The questionnaire used had a large overlap with the well-known complaints associated with CBD use. Symptoms that were assessed in this study were pain, tiredness, drowsiness, nausea, lack of appetite, shortness of breath, depression, anxiety and wellbeing. Almost half of these symptoms (tiredness, drowsiness, nausea and lack of appetite) are known side effects of CBD28,29. Besides, this assessment scale is hardly overlapping with any of the endocrine side effects of tamoxifen. This, in combination with the very high dose of CDB used (eight-times higher than in our study), makes it difficult to make a definitive statement about the effect of CBD-oil in case of tamoxifen-related side effects. Overall, our findings of CBD use for reducing tamoxifen-related side effects in a well-defined breast cancer patient population are promising, but certainly need further investigation in a placebo-controlled study to demonstrate the real added value of CBD-oil.
Although it is known that CBD can interact with several G-protein coupled receptors such as CB1-, CB2-, opioid-, melatonin-, acetylcholine-, serotonin- and dopamine-receptors, it is not understood how this interplay of agonism and antagonism of receptors might lead to, for example, alleviation of pain or improvement of sleep7. However, CB1 is highly expressed in areas in the brain related to, among others, pain, anxiety, sensory and visceral perception, motor coordination and endocrine functions10. We hypothesize that this might be one of the reasons that CB1 receptor activation by CBD could lead to less hot flashes and a decrease in arthralgia. Also, it is presumable that activation of other receptors as opioid- and melatonin-receptors could lead to a decrease in pain and an improvement in sleep, subsequently. This is most probably a separate mechanism not related to tamoxifen but which can coincidentally improve side effects that occur with tamoxifen. However, it is not ruled out that an interaction between the estrogen receptor and receptors where CBD engages occurs, for example in the brain where both are present.
Our study has several strengths. It is the first study investigating the pharmacokinetic interaction between tamoxifen and CBD-oil leading to highly requested knowledge for many breast cancer patients. Pharmaceutical grade CBD-oil without THC (i.e., THC < 0.05%) was used next to tamoxifen for four weeks in the highest over-the-counter dose (i.e., ≈50 mg), also securing the safety of lower CBD-oil doses. Because patients were their own control and AUCs of tamoxifen and endoxifen were measured, this led to a robust answer to this pharmacokinetic question. However, it remains unclear if higher doses of CBD, non-pharmaceutical grade CBD or other formulations of CBD are equally safe. Also, this is the first study investigating the effect of CBD-oil on tamoxifen-related side effects using the validated and reliable FACT-ES questionnaire next to CTCAE toxicity grading. A limitation of the study is the lack of a control arm when it comes to the research question about the effect of CBD use on side effects reduction. However, this is no issue for our primary, pharmacological research question. Finally, if subsequent studies confirm our results, CBD use will unfortunately not be applicable worldwide. CBD-oil is seen as a supplement in the Netherlands and many other European countries, but is on the list of prohibited narcotics in several other countries.
In conclusion, endoxifen levels remained within bio-equivalence boundaries when CBD-oil was used in combination with tamoxifen. Therefore, sublingual CBD-oil, if of good quality and not higher than the highest over-the-counter dose (<50 mg per day), does not have to be discouraged in patients using it as complementary medication. In addition, the use of CBD-oil in this single arm study resulted in a promising improvement in endocrine symptoms and quality of life, but the real effect of CBD-oil has yet to be proven in a placebo-controlled study that is currently being set up.
Methods
This pharmacokinetic open-label single-arm, one-way cross-over study was performed at the Erasmus MC Cancer Institute in Rotterdam, The Netherlands, between November 2020 and September 2022. The study protocol was written conform the Declaration of Helsinki, approved by the Erasmus MC Medical Ethics Committee and registered at the International Clinical Trial Registry Platform (NL8786; https://www.who.int/clinical-trials-registry-platform).
Patients
We included patients who were treated with adjuvant tamoxifen for at least three months. Steady-state endoxifen plasma concentrations had to be ≥16 nM. Furthermore, patients had to experience at least one of the following tamoxifen related side-effects, scored using US National Cancer Institute’s Common Terminology Criteria for Adverse Events version 5 (CTCAEv5): hot flashes grade ≥2, arthralgia grade ≥2, mood alterations grade ≥2 or insomnia grade ≥1. Patients were excluded if they had used CBs within three months before inclusion or if they used strong CYP3A4, CYP2D6, UDP-glucuronosyltransferase or P-glycoprotein inhibitors or inducers. All included patients gave written informed consent.
Study design
The study started with continuation of tamoxifen monotherapy for 7 days. Patients were ordered to take their tamoxifen at 9 AM. Patients were then hospitalized for 24-h pharmacokinetic blood sampling of tamoxifen and endoxifen. Afterwards, patients started with 5 drops 10% CBD-oil sublingually three times daily for four weeks (i.e., ≈50 mg CBD per day, the highest over-the-counter dose) concomitantly to their tamoxifen treatment. The pharmaceutical grade CBD-oil was manufactured by a Dutch Pharmacy (Clinical Cannabis Care, Breukelen, the Netherlands, article number 16779517). After four weeks of concomitant CBD and tamoxifen, patients were again hospitalized for pharmacokinetic blood sampling of tamoxifen and endoxifen. Also, before and after start of CBD side effects were assessed and laboratory analysis (blood count, kidney- and liver function) was performed. Patients were asked to fill in a patient diary to verify patients’ compliance.
After the intended 15 patients completed the study protocol, the study was amended to include 11 more patients. With this amendment we were able to investigate whether CBD-oil could have a beneficial effect on tamoxifen-related side effects. Hospitalization for pharmacokinetic blood sampling was not required for these patients. A single endoxifen trough concentration (Cmin) was measured after four weeks of CBD-oil. Other design aspects of the extension part were identical to the main study.
Pharmacokinetic and pharmacogenetic analysis
Blood samples for determination of tamoxifen and endoxifen pharmacokinetics were obtained at 13 predefined time points (t = 0 (before tamoxifen intake); and 0.5 h; 1 h; 1.5 h; 2 h; 2.5 h; 3 h; 3.5 h; 4 h; 6 h; 8 h; 10 h and 24 h after tamoxifen intake). Single measurements of plasma concentrations were performed on a validated liquid chromatography with a tandem mass spectrometry method (UP-LC-MS/MS)30. Using Phoenix WinNonLin version 8.3 the following pharmacokinetic parameters were determined or calculated: area under the plasma concentration time curves (AUC), Cmin and maximum observed plasma concentration (Cmax) of tamoxifen and endoxifen.
CYP2D6 genotyping was performed on germline DNA using the Infiniti test (Autogenomics; Carlsblad, CA, USA) and the Quantstudio test (ThermoFisher Scientific; Waltham, MA, USA). Blood samples were assayed on the follow genetic variants: *2–10, *12, *13, *14, *17, *29, and *41.
Quality of life and side effect
Side effects of tamoxifen and CBD-oil were assessed using CTCAEv5. To evaluate the effect of CBD-oil on tamoxifen-related side-effects and HR-QOL in more detail, patients were asked to fill in the Functional Assessment of Cancer Therapy – Endocrine Symptoms (FACT-ES) questionnaire before and four weeks after start of CBD31. The FACT-ES is a validated questionnaire of in total 46 questions and consists of physical, social, emotional and functional wellbeing subscales (together measuring the health-related quality of life) and an additional endocrine subscale measuring side effects of endocrine treatments give in breast cancer patients. The different endocrine subscale items and additional information about the questionnaire can be found in Supplementary Table 2.
Statistical analysis
The primary endpoint of the study was the AUC of endoxifen. Bio-equivalence of tamoxifen with and without CBD-oil could be concluded according to Food and Drug Administration (FDA) guidelines, which suggest that the 90% confidence interval (CI) of the ratio of geometric means of the AUC should be within 0.80–1.2532. Given a two-sided α of 5%, 80% power, assuming a standard deviation of the difference of 20% and a true ratio of AUC geometric means of 1.0 a sample size of 15 patients was required. The AUC of endoxifen as well as all other pharmacokinetic endpoints were analyzed by means of a paired t-test on log-transformed data.
As a secondary endpoint, the ES scores of the FACT-ES questionnaire before start of CBD-oil and four weeks after start of CBD-oil were compared. Change scores of more than 0.5 of the baseline SD are considered a clinically relevant change and seen as more than a moderate effect size33. Hence, we hypothesized that the ES score would improve with at least 0.5 of baseline SD after four weeks of CBD-oil, estimated at four points based on earlier research31. To test this hypothesis with a paired sample t-test a sample size of 26 patients was required (one-sided alpha 5%, 80% power, estimated within-patient correlation 0.7). Also, differences in HR-QOL before and after CBD-oil use were determined and tested with a paired sample t-test or Wilcoxon signed rank test in case the scores were not normally distributed. Differences before and after CBD in specific side effects measured with the endocrine subscale of the FACT-ES were analyzed descriptively. The item ‘I am sleeping well’ is not part of the endocrine subscale but it is an item in the HR-QOL part. Because insomnia was frequently mentioned as a side effect of tamoxifen and CBD is known to potentially improve this, we also checked for changes in this item.
In an exploratory way, the difference in endoxifen AUC was analyzed for each CYP2D6 phenotype separately. If a difference between CYP2D6 phenotypes was found, the endoxifen Cmin would be analyzed for different CYP2D6 phenotypes as well in all 26 patients.
Data availability
All data supporting the findings of this study are available within the article and its information files and from the corresponding author upon reasonable request.
References
Early Breast Cancer Trialists' Collaborative, G. Relevance of breast cancer hormone receptors and other factors to the efficacy of adjuvant tamoxifen: patient-level meta-analysis of randomised trials. Lancet 378, 771–784 (2011).
Early Breast Cancer Trialists Collaborative Group. Effects of chemotherapy and hormonal therapy for early breast cancer on recurrence and 15-year survival: an overview of the randomised trials. Lancet 365, 1687–1717 (2005).
Cardoso, F. et al. Early breast cancer: ESMO Clinical Practice Guidelines for diagnosis, treatment and follow-up†. Ann. Oncol. 30, 1194–1220 (2019).
Owusu, C. et al. Predictors of tamoxifen discontinuation among older women with estrogen receptor–positive breast cancer. J. Clin. Oncol. 26, 549–555 (2008).
Lailler, G. et al. Five-year adjuvant endocrine therapy adherence trajectories among women with breast cancer: a nationwide French study using administrative data. Clin. Breast Cancer 21, e415–e426 (2021).
Murphy, C. C., Bartholomew, L. K., Carpentier, M. Y., Bluethmann, S. M. & Vernon, S. W. Adherence to adjuvant hormonal therapy among breast cancer survivors in clinical practice: a systematic review. Breast Cancer Res. Treat. 134, 459–478 (2012).
Shahbazi, F., Grandi, V., Banerjee, A. & Trant, J. F. Cannabinoids and cannabinoid receptors: the story so far. iScience 23, 101301 (2020).
Lucas, C. J., Galettis, P. & Schneider, J. The pharmacokinetics and the pharmacodynamics of cannabinoids. Br. J. Clin. Pharmacol. 84, 2477–2482 (2018).
Atakan, Z. Cannabis, a complex plant: different compounds and different effects on individuals. Ther. Adv. Psychopharmacol. 2, 241–254 (2012).
Kisková, T., Mungenast, F., Suváková, M., Jäger, W. & Thalhammer, T. Future aspects for cannabinoids in breast cancer therapy. Int. J. Mol. Sci. 20, 1673 (2019).
Weiss, M. C. et al. A survey of breast cancer patients’ use of cannabis before, during, and after treatment. J. Clin. Oncol. 38, e19210–e19210 (2020).
Wang, L. et al. Medical cannabis or cannabinoids for chronic non-cancer and cancer related pain: a systematic review and meta-analysis of randomised clinical trials. BMJ 374, n1034 (2021).
Hardy, J. et al. Phase IIb Randomized, Placebo-Controlled, Dose-Escalating, Double-Blind Study of Cannabidiol Oil for the Relief of Symptoms in Advanced Cancer (MedCan1-CBD). J. Clin. Oncol. https://doi.org/10.1200/jco.22.01632 (2022).
Mulder, T. A. M. et al. Clinical CYP2D6 genotyping to personalize adjuvant tamoxifen treatment in ER-positive breast cancer patients: current status of a controversy. Cancers 13, 771 (2021).
Helland, T. et al. Serum concentrations of active tamoxifen metabolites predict long-term survival in adjuvantly treated breast cancer patients. Breast Cancer Res. 19, 125 (2017).
Madlensky, L. et al. Tamoxifen metabolite concentrations, CYP2D6 genotype, and breast cancer outcomes. Clin. Pharmacol. Therapeutics 89, 718–725 (2011).
Saladores, P. et al. Tamoxifen metabolism predicts drug concentrations and outcome in premenopausal patients with early breast cancer. Pharmacogenomics J. 15, 84–94 (2015).
Binkhorst, L. et al. Effects of CYP induction by rifampicin on tamoxifen exposure. Clin. Pharmacol. Therapeutics 92, 62–67 (2012).
Hussaarts, K. et al. Impact of curcumin (with or without piperine) on the pharmacokinetics of tamoxifen. Cancers 11, 403 (2019).
Yamaori, S., Okamoto, Y., Yamamoto, I. & Watanabe, K. Cannabidiol, a major phytocannabinoid, as a potent atypical inhibitor for CYP2D6. Drug Metab. Disposition 39, 2049–2056 (2011).
Brown, J. D. & Winterstein, A. G. Potential adverse drug events and drug-drug interactions with medical and consumer cannabidiol (CBD) use. J. Clin. Med. 8, 989 (2019).
Graham, M., Martin, J. H., Lucas, C. J., Murnion, B. & Schneider, J. Cannabidiol drug interaction considerations for prescribers and pharmacists. Expert Rev. Clin. Pharmacol. 15, 1383–1397 (2022).
Parihar, V. et al. Reduction in tamoxifen metabolites endoxifen and N-desmethyltamoxifen with chronic administration of low dose cannabidiol: a CYP3A4 and CYP2D6 drug interaction. J. Pharm. Pract. 35, 322–326 (2022).
Nelson, K. M. et al. The essential medicinal chemistry of cannabidiol (CBD). J. Med. Chem. 63, 12137–12155 (2020).
Ohsumi, S. et al. Health-related quality of life and psychological distress of breast cancer patients after surgery during a phase III randomized trial comparing continuation of tamoxifen with switching to anastrozole after adjuvant tamoxifen for 1–4 years: N-SAS BC 03. Breast Cancer Res. Treat. 127, 143–152 (2011).
Takei, H. et al. Health-related quality of life, psychological distress, and adverse events in postmenopausal women with breast cancer who receive tamoxifen, exemestane, or anastrozole as adjuvant endocrine therapy: National Surgical Adjuvant Study of Breast Cancer 04 (N-SAS BC 04). Breast Cancer Res. Treat. 133, 227–236 (2012).
Cella, D. et al. Quality of life of postmenopausal women in the ATAC (“Arimidex”, Tamoxifen, alone or in combination) trial after completion of 5 years' adjuvant treatment for early breast cancer. Breast Cancer Res. Treat. 100, 273–284 (2006).
Iffland, K. & Grotenhermen, F. An update on safety and side effects of cannabidiol: a review of clinical data and relevant animal studies. Cannabis Cannabinoid Res. 2, 139–154 (2017).
Pauli, C. S., Conroy, M., Vanden Heuvel, B. D. & Park, S. H. Cannabidiol drugs clinical trial outcomes and adverse effects. Front. Pharmacol. 11, 63 (2020).
Binkhorst, L. et al. Quantification of tamoxifen and three of its phase-I metabolites in human plasma by liquid chromatography/triple-quadrupole mass spectrometry. J. Pharm. Biomed. Anal. 56, 1016–1023 (2011).
Fallowfield, L. J., Leaity, S. K., Howell, A., Benson, S. & Cella, D. Assessment of quality of life in women undergoing hormonal therapy for breast cancer: validation of an endocrine symptom subscale for the FACT-B. Breast Cancer Res. Treat. 55, 189–199 (1999).
U.S. Department of Health and Human Services Food and Drug Administration Center for Drug Evaluation and Research (CDER). Bioequivalence Studies With Pharmacokinetic Endpoints for Drugs Submitted Under an ANDA Guidance for Industry. (2021).
Cohen, J. Statistical Power Analysis for the Behavioral Sciences. 2nd edn., reprint. (New York: Psychology Press 2009).
Acknowledgements
This research was partly funded by Clinical Cannabis Care. Clinical Cannabis Care provided the CBD-oil and part of the study conduct costs. LvdME and HAKTvP from Clinical Cannabis Care were involved in conceiving the study design and revising and approving the final version of the manuscript. Clinical Cannabis Care was not in any way involved in the primary study idea, collection, analysis and interpretation of the data. This work was presented at the 45th San Antonio Breast Cancer Symposium (#P1-02-08, San Antonio, TX, December 6–10, 2022).
Author information
Authors and Affiliations
Contributions
C.L.B., S.A.J.B., L.vdM.E., H.A.K.T.vP., E.O., R.H.J.M., S.L.W.K., and A.J. conceived the study design. S.M.B., C.L.B., N.F.vM., L.S., S.A.J.B., L.E.M.S., Q.C.vR., R.H.J.M., and A.J. acquired data. S.M.B., E.O., S.L.W.K., R.H.J.M., and A.J. mainly interpret the results. S.M.B. and A.J. drafted the manuscript. All authors revised the manuscript, approved the final version and agreed with its submission.
Corresponding author
Ethics declarations
Competing interests
H.A.K.T.vP. has ownership in Clinical Cannabis Care and L.vdM.E. is an employee of Clinical Cannabis Care. All other authors declare no potential competing interests.
Additional information
Publisher’s note Springer Nature remains neutral with regard to jurisdictional claims in published maps and institutional affiliations.
Supplementary information
Rights and permissions
Open Access This article is licensed under a Creative Commons Attribution 4.0 International License, which permits use, sharing, adaptation, distribution and reproduction in any medium or format, as long as you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons license, and indicate if changes were made. The images or other third party material in this article are included in the article’s Creative Commons license, unless indicated otherwise in a credit line to the material. If material is not included in the article’s Creative Commons license and your intended use is not permitted by statutory regulation or exceeds the permitted use, you will need to obtain permission directly from the copyright holder. To view a copy of this license, visit http://creativecommons.org/licenses/by/4.0/.
About this article
Cite this article
Buijs, S.M., Braal, C.L., Buck, S.A.J. et al. CBD-oil as a potential solution in case of severe tamoxifen-related side effects. npj Breast Cancer 9, 63 (2023). https://doi.org/10.1038/s41523-023-00570-x
Received:
Accepted:
Published:
DOI: https://doi.org/10.1038/s41523-023-00570-x
- Springer Nature Limited