Abstract PO2-11-10: Can chemotherapy-induced peripheral neuropathy be predicted? Implications for future prevention and treatment of this side-effect

IF 2.9 Q2 PUBLIC, ENVIRONMENTAL & OCCUPATIONAL HEALTH ACS Chemical Health & Safety Pub Date : 2024-05-02 DOI:10.1158/1538-7445.sabcs23-po2-11-10
Alisha Maity, Nolan Metz, Kathryn Fleck, Zonera Ali, Aarthi Shevade, A. Ghaneie, Margaretha Wallon
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Taxane-based regimens are first-line treatment in both early-stage and metastatic breast cancer and therefore place numerous women at risk for developing CIPN. Regrettably, taxane-induced neurotoxicity can be arduous to predict, and there are no preventive or curative treatments currently available.\n Our work aims to assess a predictive tool for identification of patients at high risk of developing neuropathy and the progression of symptoms towards chronic CIPN.\n We hypothesized that oxidative stress might be a triggering event for the development of CIPN and that changes in glutathione recycling can identify patients at high risk for developing prolonged and severe CIPN. This hypothesis is based on reports in the literature proposing that CIPN is triggered by damage to the myelin sheath, which protects nerves from damage, by drug-induced free radicals in and around the nerves. Damage to myelin, a lipid- and protein rich sheath, by lipid peroxidation can result in loss of signal transmission, false signaling, or signal overload. Prolonged exposure to elevated levels of free radicals might result in structural changes to the nerves.\n Methods: Cancer patients seeking treatment at the Lankenau Medical Center Cancer center were asked to participate in our Institutional Review Board approved study of adverse effects. In this on-going study, the cohort (Ntotal =352) includes 104 breast cancer patients that are predominantly Caucasian with 14.9% African American. The median age is 56 (range 26 – 82) and 60.9% were treated with a taxane-based regimen. Nearly half the breast cancer group were diagnosed with Stage I disease. All consented patients donated a tube of blood prior to each treatment and filled out the Rotterdam Symptom Checklist (RSCL). Blood samples were analyzed for glutathione recycling using the ChemoTox assay (MNT™ Test, MYNARI Biomedical) and lipid peroxidation using a thiobarbituric acid reactive substances (TBARS) test (Cayman Chemical). All samples were analyzed in duplicate, and results analyzed using GraphPad Prism 8.4.3.\n Results: Preliminary results from the first 83 breast cancer patients showed African American patients reported a higher rate of NCCN grade 2 and 3 CIPN while Caucasians reported a higher rate of severe, long-lasting CIPN. Our results showed that patients who reported CIPN at later cycles had diminished glutathione recycling capacity already after the first treatment. Drop in recycling capacity had an inverse relationship with lipid peroxidation and grade of CIPN. Both decreased recycling capacity and increase in lipid oxidation were apparent already after the first treatment in patients that reported CIPN after cycle 6-8 or after completion of treatment\n Discussion: There are many proposed mechanisms for the development of CIPN. One mechanism that is shared by both most agents is damage induced by free radicals released following chemotherapy. We show that patients with reduced ability to neutralize free radicals have elevated and prolonged lipid peroxidation. Both processes precede the development of CIPN by several treatment cycles. Therefore, this test could identify patients that might benefit from other regimens rather than a taxane-based therapy. The test could also aid in the identification of patients for preventive therapy once such agents become available.\n Citation Format: Alisha Maity, Nolan Metz, Kathryn Fleck, Zonera Ali, Aarthi Shevade, Arezoo Ghaneie, Margaretha Wallon. Can chemotherapy-induced peripheral neuropathy be predicted? Implications for future prevention and treatment of this side-effect [abstract]. In: Proceedings of the 2023 San Antonio Breast Cancer Symposium; 2023 Dec 5-9; San Antonio, TX. 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Abstract

Background: The pain and sensory abnormalities associated with chemotherapy-induced peripheral neuropathy (CIPN) may persist for months or even years after chemotherapy. CIPN has a negative impact on routine activities, functions, and behaviors in the domestic, work, and social lives of cancer patients, adversely affecting the quality of their survivorship. CIPN is a major adverse effect of taxanes and other agents, possibly requiring dose-reduction or early termination of treatment. Taxane-based regimens are first-line treatment in both early-stage and metastatic breast cancer and therefore place numerous women at risk for developing CIPN. Regrettably, taxane-induced neurotoxicity can be arduous to predict, and there are no preventive or curative treatments currently available. Our work aims to assess a predictive tool for identification of patients at high risk of developing neuropathy and the progression of symptoms towards chronic CIPN. We hypothesized that oxidative stress might be a triggering event for the development of CIPN and that changes in glutathione recycling can identify patients at high risk for developing prolonged and severe CIPN. This hypothesis is based on reports in the literature proposing that CIPN is triggered by damage to the myelin sheath, which protects nerves from damage, by drug-induced free radicals in and around the nerves. Damage to myelin, a lipid- and protein rich sheath, by lipid peroxidation can result in loss of signal transmission, false signaling, or signal overload. Prolonged exposure to elevated levels of free radicals might result in structural changes to the nerves. Methods: Cancer patients seeking treatment at the Lankenau Medical Center Cancer center were asked to participate in our Institutional Review Board approved study of adverse effects. In this on-going study, the cohort (Ntotal =352) includes 104 breast cancer patients that are predominantly Caucasian with 14.9% African American. The median age is 56 (range 26 – 82) and 60.9% were treated with a taxane-based regimen. Nearly half the breast cancer group were diagnosed with Stage I disease. All consented patients donated a tube of blood prior to each treatment and filled out the Rotterdam Symptom Checklist (RSCL). Blood samples were analyzed for glutathione recycling using the ChemoTox assay (MNT™ Test, MYNARI Biomedical) and lipid peroxidation using a thiobarbituric acid reactive substances (TBARS) test (Cayman Chemical). All samples were analyzed in duplicate, and results analyzed using GraphPad Prism 8.4.3. Results: Preliminary results from the first 83 breast cancer patients showed African American patients reported a higher rate of NCCN grade 2 and 3 CIPN while Caucasians reported a higher rate of severe, long-lasting CIPN. Our results showed that patients who reported CIPN at later cycles had diminished glutathione recycling capacity already after the first treatment. Drop in recycling capacity had an inverse relationship with lipid peroxidation and grade of CIPN. Both decreased recycling capacity and increase in lipid oxidation were apparent already after the first treatment in patients that reported CIPN after cycle 6-8 or after completion of treatment Discussion: There are many proposed mechanisms for the development of CIPN. One mechanism that is shared by both most agents is damage induced by free radicals released following chemotherapy. We show that patients with reduced ability to neutralize free radicals have elevated and prolonged lipid peroxidation. Both processes precede the development of CIPN by several treatment cycles. Therefore, this test could identify patients that might benefit from other regimens rather than a taxane-based therapy. The test could also aid in the identification of patients for preventive therapy once such agents become available. Citation Format: Alisha Maity, Nolan Metz, Kathryn Fleck, Zonera Ali, Aarthi Shevade, Arezoo Ghaneie, Margaretha Wallon. Can chemotherapy-induced peripheral neuropathy be predicted? Implications for future prevention and treatment of this side-effect [abstract]. In: Proceedings of the 2023 San Antonio Breast Cancer Symposium; 2023 Dec 5-9; San Antonio, TX. Philadelphia (PA): AACR; Cancer Res 2024;84(9 Suppl):Abstract nr PO2-11-10.
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摘要 PO2-11-10:化疗诱发的周围神经病变可以预测吗?对未来预防和治疗这种副作用的启示
背景:化疗诱发的周围神经病变(CIPN)引起的疼痛和感觉异常可能会在化疗后持续数月甚至数年。CIPN 会对癌症患者在家庭、工作和社会生活中的日常活动、功能和行为产生负面影响,对其生存质量产生不利影响。CIPN 是紫杉类药物和其他药物的主要不良反应,可能需要减少剂量或提前终止治疗。以紫杉类药物为基础的治疗方案是早期乳腺癌和转移性乳腺癌的一线治疗方案,因此许多妇女都面临着罹患 CIPN 的风险。遗憾的是,很难预测紫杉类药物引起的神经毒性,目前也没有预防或治疗方法。我们的工作旨在评估一种预测工具,用于识别神经病变的高风险患者以及慢性 CIPN 的症状进展。我们假设氧化应激可能是诱发 CIPN 的一个因素,而谷胱甘肽循环的变化可以识别出发展为长期和严重 CIPN 的高风险患者。这一假说是基于文献报道提出的,即 CIPN 是由药物诱导的神经内外自由基对保护神经免受损伤的髓鞘的损害引发的。髓鞘是一种富含脂质和蛋白质的鞘,脂质过氧化对髓鞘造成的损害可导致信号传输损失、错误信号或信号超载。长期暴露于高水平的自由基中可能会导致神经结构发生变化。研究方法在兰肯诺医疗中心癌症中心接受治疗的癌症患者被要求参加我们经机构审查委员会批准的不良反应研究。在这项正在进行的研究中,队列(总人数=352)包括104名乳腺癌患者,主要为白种人,14.9%为非裔美国人。中位年龄为 56 岁(26 - 82 岁不等),60.9% 的患者接受了以紫杉类药物为基础的治疗。近一半的乳腺癌患者被诊断为 I 期疾病。所有同意接受治疗的患者都在每次治疗前捐献了一管血液,并填写了鹿特丹症状检查表(RSCL)。使用 ChemoTox 检测法(MNT™ Test,MYNARI Biomedical)分析血样中谷胱甘肽的回收情况,使用硫代巴比妥酸活性物质(TBARS)检测法(Cayman Chemical)分析血样中脂质过氧化情况。所有样本均一式两份,使用 GraphPad Prism 8.4.3 分析结果。结果首批 83 名乳腺癌患者的初步结果显示,非裔美国患者报告的 NCCN 2 级和 3 级 CIPN 发生率较高,而白种人报告的严重、持久的 CIPN 发生率较高。我们的研究结果表明,在后期治疗周期中出现 CIPN 的患者,其谷胱甘肽的回收能力在第一次治疗后就已经下降。谷胱甘肽再循环能力的下降与脂质过氧化反应和 CIPN 的等级呈反比关系。在第 6-8 个周期或治疗结束后报告出现 CIPN 的患者中,谷胱甘肽再循环能力的下降和脂质氧化的增加在首次治疗后就已很明显:关于 CIPN 的发病机制有很多说法。其中一种机制是化疗后释放的自由基所诱发的损伤,这也是大多数药物所共有的机制。我们的研究表明,中和自由基能力下降的患者会出现脂质过氧化反应的升高和延长。这两个过程都比 CIPN 的发生早几个治疗周期。因此,这项检测可以确定哪些患者可能会从其他治疗方案而非基于类固醇的疗法中获益。一旦有了预防性治疗药物,该检验还能帮助确定哪些患者需要进行预防性治疗。引用格式:阿丽莎-梅蒂(Alisha Maity)、诺兰-梅兹(Nolan Metz)、凯瑟琳-弗莱克(Kathryn Fleck)、佐内拉-阿里(Zonera Ali)、阿尔蒂-谢瓦德(Aarthi Shevade)、阿雷祖-加尼(Arezoo Ghaneie)、玛格丽塔-沃伦(Margaretha Wallon)。化疗诱发的周围神经病变可以预测吗?对未来预防和治疗这种副作用的启示 [摘要].In:2023 年圣安东尼奥乳腺癌研讨会论文集;2023 年 12 月 5-9 日;德克萨斯州圣安东尼奥。费城(宾夕法尼亚州):AACR; Cancer Res 2024;84(9 Suppl):Abstract nr PO2-11-10.
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来源期刊
ACS Chemical Health & Safety
ACS Chemical Health & Safety PUBLIC, ENVIRONMENTAL & OCCUPATIONAL HEALTH-
CiteScore
3.10
自引率
20.00%
发文量
63
期刊介绍: The Journal of Chemical Health and Safety focuses on news, information, and ideas relating to issues and advances in chemical health and safety. The Journal of Chemical Health and Safety covers up-to-the minute, in-depth views of safety issues ranging from OSHA and EPA regulations to the safe handling of hazardous waste, from the latest innovations in effective chemical hygiene practices to the courts'' most recent rulings on safety-related lawsuits. The Journal of Chemical Health and Safety presents real-world information that health, safety and environmental professionals and others responsible for the safety of their workplaces can put to use right away, identifying potential and developing safety concerns before they do real harm.
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