Desloratadine to Prevent Taxane-induced Peripheral Neuropathy in Patients With Breast Cancer (DETOXp)

Taxanes are frequently incorporated in first line chemotherapy regimens for breast cancer. Although taxane induces peripheral neuropathy (TIPN) is among the most common side effects of taxane treatment, currently there are no therapies that have consistently proven to be effective in preventing TIPN. TIPN involves a complex interplay of mechanisms which are not yet fully understood. However, neuroinflammation has been shown to be a critical component of the pathophysiology of TIPN. As a result, the discovery of novel therapies that can safely and efficiently attenuate the inflammatory drivers of TIPN and thus prevent the onset of bothersome and potentially disabling neuropathy, represents a unique opportunity to make a meaningful impact on the lives of breast cancer patients.

Desloratadine has shown promise for preventing TIPN in animal models, but based on available information has not yet been tested in humans. This study aims to build on this research by investigating the efficacy of desloratadine in preventing and ameliorating TIPN symptoms as assessed by validated neurotoxicity and quality of life questionnaires. Additionally, this study seeks to expand current knowledge about the role of inflammatory biomarkers as predictive markers of TIPN development. This study will investigate a broad subset of pro and anti-inflammatory cytokines, many of which have been previously shown to be mediated by the Histamine H1 Receptor (HRH1) and 5-HT 2A /c-Fos/NLRP3/IL-1β pathways. This study will measure histamine and nitric oxide levels, which have been show in-vivo to induce neuroinflammation and be upregulated in TIPN. This study will also assess nerve growth factor (NGF) and neurofilament light polypeptide (NF-L), which have protective, regenerative, nociceptive, and structural function in neurons. These biomarkers have shown to correlate with severity of TIPN, but thus far predictive utility is lacking and merits more research. Finally, this study aims to build upon current research regarding the human microbiome and its role in mediating inflammation and the onset of TIPN. Based on current knowledge, no prior study has investigated whether attenuation of chemotherapy induced inflammation via an antihistamine can prevent dysbiosis and help minimize the effect altered gut flora has on promoting further inflammation.

Desloratadine is a safe and inexpensive drug. This study is using 5mg PO dosing, every other day, because this is the standard dose used clinically for allergic rhinitis and chronic urticaria. Based on the effectiveness of loratadine in improving patient reported outcomes from vinca alkaloid induced neuropathy, and because of promising results of desloratadine in preventing and alleviating TIPN in mouse models, it is hypothesized that desloratadine will be an effective therapy to prevent TIPN in patients with breast cancer who receive adjuvant taxane-based chemotherapy regimens. Furthermore, it is also hypothesized that inflammatory biomarkers and gut microbiome signatures are associated with the development of TIPN. The effect of desloratadine in modulating such biomarkers will be monitored.

This double-blinded randomized controlled trial design will help mitigate bias in patient reported outcomes and clinician assessments. If the primary objective is met, desloratadine could potentially represent a safe, cost effective, and accessible strategy to prevent TIPN.