Neuromuscular toxicities of paclitaxel 210 mg m-2 by 3-hour infusion

Kunitoh, Hideo; Saijo, Nagahiro; Furuse, Kiyoyuki; Noda, Kiichiro; Ogawa, Makoto

doi:10.1038/bjc.1998.278

Cited by 28 publications

(25 citation statements)

References 9 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…Although as a clinical entity, neuropathic muscle pain has been largely neglected, many forms of peripheral neuropathy manifest persistent, sometimes debilitating, and often difficult to treat pain in skeletal muscle (Bradley et al 1970;Gardner 1972;Kunitoh et al 1998;Marchettini et al 2006;Peltier and Russell 2006;van de Glind et al 2007;Vittadini et al 2001). We have recently observed mechanical hyperalgesia in skeletal muscle in three models of painful peripheral neuropathy, namely CIPN induced by two chemotherapeutic drugs that have CIPN as dose-limiting side effects, paclitaxel (Alessan- Fig.…”

Section: Discussionmentioning

confidence: 99%

“…It also induces painful peripheral neuropathy (Tanner et al 1998a,b) as a major dose-limiting side effect; the incidence of this form of peripheral neuropathy is often Ͼ50% and approaches 90% with some dosage regimens (Cavaletti et al 1995;Rowinsky 1993). Paclitaxel containing chemotherapeutic regimens often also produce a pain syndrome characterized by intense myalgias (Jacobson et al 2003;Kunitoh et al 1998), which can persist for months (Kunitoh et al 1998). We recently demonstrated, in an established model of paclitaxel CIPN, persistent muscle pain, manifest as mechanical hyperalgesia, comparable in time course with, and sharing underlying mechanisms with, paclitaxel-induced cutaneous mechanical hyperalgesia (Alvarez et al 2011).…”

mentioning

confidence: 97%

“…WHEREAS THE CONCEPT OF NEUROPATHIC muscle pain has received remarkably little attention, a number of reports describe muscle pain as a prominent symptom in patients with diverse forms of peripheral neuropathy (Bradley et al 1970;Gardner 1972;Kunitoh et al 1998;Marchettini et al 2006;Peltier and Russell 2006;van de Glind et al 2007;Vittadini et al 2001). However, the muscle pain experienced by these patients can be incapacitating and resistant to treatment (Jacobson et al 2003).…”

mentioning

confidence: 99%

See 2 more Smart Citations

Abnormal muscle afferent function in a model of Taxol chemotherapy-induced painful neuropathy

Chen

Green²,

Levine

2011

Journal of Neurophysiology

View full text Add to dashboard Cite

Chen X, Green PG, Levine JD. Abnormal muscle afferent function in a model of Taxol chemotherapy-induced painful neuropathy. J Neurophysiol 106: 274 -279, 2011. First published May 11, 2011 doi:10.1152/jn.00141.2011.-Despite muscle pain being a well-described symptom in patients with diverse forms of peripheral neuropathy, the role of neuropathic mechanisms in muscle pain have received remarkably little attention. We have recently demonstrated in a well-established model of chemotherapy-induced painful neuropathy (CIPN) that the anti-tumor drug paclitaxel (Taxol) produces mechanical hyperalgesia in skeletal muscle, of similar time course to and with shared mechanism with cutaneous symptoms. In the present study, we evaluated muscle afferent neuron function in this rat model of CIPN. The mechanical threshold of muscle afferents in rats exposed to paclitaxel was not significantly different from the mechanical threshold of muscle afferents in control animals (P ϭ 0.07). However, paclitaxel did produce a marked increase in the number of action potentials elicited by prolonged suprathreshold fixed intensity mechanical stimulation and a marked increase in the conduction velocity. In addition, the interspike interval (ISI) analysis (to evaluate the temporal characteristics of the response of afferents to sustained mechanical stimulation) showed a significant difference in rats treated with paclitaxel; there was a significantly greater ISI percentage of paclitaxel-treated muscle afferents with 0.01-and 0.02-s ISI. In contrast, an analysis of variability of neuronal firing over time (CV2 analysis) showed no effect of paclitaxel administration. These effects of paclitaxel on muscle afferent function contrast with the previously reported effects of paclitaxel on the function of cutaneous nociceptors.

show abstract

Section: Discussionmentioning

confidence: 99%

mentioning

confidence: 97%

mentioning

confidence: 99%

See 1 more Smart Citation

Abnormal muscle afferent function in a model of Taxol chemotherapy-induced painful neuropathy

Chen

Green²,

Levine

2011

Journal of Neurophysiology

View full text Add to dashboard Cite

show abstract

“…No patients were removed from protocol therapy as a direct result of this side-effect, and troublesome functional neuronal impairment -CTC grade II/III toxicity -was reported in less than 6% of all patients. Peripheral sensorineural and motor toxicity is the principal non-myelogenous toxicity of paclitaxel, occurring in up to 80% of patients (Kunitoh et al, 1998), and is dependent upon the cumulative dose and schedule of administration (Rowinski et al, 1993). As a single agent, docetaxel produces neuropathy in only 11% of treated patients (New et al, 1996), and unlike paclitaxel neuropathy, which may manifest early during treatment, docetaxel-induced neuropathy generally does not appear until cumulative doses of docetaxel exceeding 600 mg/m 2 (Hilkens et al, 1996).…”

Section: Discussionmentioning

confidence: 99%

Docetaxel-carboplatin as first line chemotherapy for epithelial ovarian cancer

et al. 2001

View full text Add to dashboard Cite

Epithelial carcinoma of the ovary is one of the most common gynaecologic malignancies, and the fourth most frequent cause of cancer death in women (Yancik, 1993). The asymptomatic early stages of ovarian cancer mean that most patients have widespread disease at the time of diagnosis. Patients with FIGO stage III and IV disease and significant residual tumour masses after primary surgery can expect a 5-year survival rate of less than 10%, despite multiple courses of platinum-based chemotherapy (Omura et al, 1991).Until the mid-1990s, the combination of a platinum compound and an alkylating agent was considered best therapy for these patients, but a new standard of care emerged after the publication of trial GOG-111 in 1996 which was followed by the first reports of the INTERGROUP trial, OV10, in 1998(Piccart et al, 2000. Both these large, prospective randomized studies demonstrated that patients treated with cisplatin-paclitaxel in combination had significantly higher response rates, progression-free survival and overall survival compared with the previous standard treatment of cisplatin and cyclophosphamide. However, this higher efficacy was at the expense of greater toxicity. In GOG-111, 135 mg/m 2 paclitaxel was administered with 75 mg/m 2 cisplatin as an inconvenient 24-hour infusion, and neurotoxicity in particular was more frequently observed (28% vs 21%, P ≤ 0.05). Reducing the paclitaxel infusion time to 3 hours (with a concomitant increase in dose to 175 mg/m 2 ) in OV.10 produced a further increase in neurotoxicity, with 19.6% patients experiencing CTC grade III or IV sensory neurotoxicity, compared with 1% of patients receiving cisplatin-cyclophosphamide. Meta-analyses incorporating data on nearly 10 000 patients from 45 randomized trials suggested that the substitution of carboplatin for cisplatin was equally effective either as a single agent or in combination (Aabo et al, 1998). The addition of carboplatin to paclitaxel was expected to produce less emesis and neurotoxicity, but greater myelosuppression compared with cisplatin-paclitaxel. Seven phase I-II trials of carboplatin-paclitaxel combinations have been reported, involving 260 chemo-naïve ovarian cancer patients (Bookman et al, 1996;Lhomme et al, 1996;Bolis et al, 1997;duBois et al, 1997;Huizing et al, 1997;ten Bokkel Huinink et al, 1997;Siddiqui et al, 1997). Doses of carboplatin ranged from AUC 5-10, and paclitaxel from 120-250 mg/m 2 and almost all the trials used a 3-hour paclitaxel administration schedule. As expected the major toxicities in all studies were myelosuppression and neurotoxicity, however, an apparent reduction in the expected level of thrombocytopenia was observed in many of these trials, and an interaction at the megakaryocyte level rather than a pharmacokinetic interaction is thought to be responsible (Calvert et al, 1995). Antitumour activity was substantial, with response rates ranging from 70-100%.The direct comparison of carboplatin-paclitaxel with cisplatinpaclitaxel in a prospective, randomized trial as first-line t...

show abstract

“…Drug was not detectable in samples taken after this time. Patients 12,16,25, and 27 were omitted from the calculation of summary pharmacokinetic parameters as there were insufficient data to estimate individual parameters. Patients 9,17, and 20 were omitted from the calculation of summary pharmacokinetic parameters as spuriously high values for conjugated taxanes were found in samples obtained just before the second cycle of treatment.…”

Section: Resultsmentioning

confidence: 99%

A Phase I and Pharmacokinetic Study of Paclitaxel Poliglumex (XYOTAX), Investigating Both 3-Weekly and 2-Weekly Schedules

Boddy¹,

Plummer²,

Todd³

et al. 2005

Clinical Cancer Research

100

View full text Add to dashboard Cite

Purpose: To determine the safety, maximum tolerated dose, pharmacokinetics, and toxicities associated with administration of paclitaxel poliglumex (PPX, XYOTAX, Cell Therapeutics, Inc., Bresso, Italy) given on either 3-weekly or 2-weekly schedule. Experimental Design: Nineteen patients were investigated on the 3-weekly phase Ia study and 11patients on the 2-weekly phase Ib study. Dose escalation starting with 100% increments and one patient per dose level was modulated in accordance with the observed toxicities. Conjugated and unconjugated paclitaxel were measured in plasma. Results: Dose-limiting toxicity of neutropenia was encountered at 266 mg/m 2 (paclitaxel equivalents) in phase Ia and the maximum tolerated dose was 233 mg/m 2 . Neuropathy was dose-limiting in phase Ib with a maximum tolerated dose of 177 mg/m 2 . Pharmacokinetic investigations indicated a prolonged half-life of >100 hours for conjugated taxanes. Plasma concentrations of unconjugated paclitaxel were similar to those following administration of an equivalent dose of Taxol. Two partial responses were observed, one in a patient with mesothelioma at 177 mg/m 2 in phase Ia and one in a patient with gastric carcinoma at 175 mg/m 2 in phase Ib. Conclusion: PPX is a water-soluble paclitaxel-polymer conjugate with a prolonged half-life and limited volume of distribution. Dose-limiting toxicities were neutropenia and neuropathy. PPX showed activity in this patient population.

show abstract

Neuromuscular toxicities of paclitaxel 210 mg m-2 by 3-hour infusion

Cited by 28 publications

References 9 publications

Abnormal muscle afferent function in a model of Taxol chemotherapy-induced painful neuropathy

Abnormal muscle afferent function in a model of Taxol chemotherapy-induced painful neuropathy

Docetaxel-carboplatin as first line chemotherapy for epithelial ovarian cancer

A Phase I and Pharmacokinetic Study of Paclitaxel Poliglumex (XYOTAX), Investigating Both 3-Weekly and 2-Weekly Schedules

Contact Info

Product

Resources

About