Annals of Oncology 14:339-340, 2003
© 2003 European Society for Medical Oncology
Letters to the Editor |
Amelioration of docetaxel/cisplatin induced polyneuropathy by 
-lipoic acid
Clinical Division of Oncology, Department of Internal Medicine I, University of Vienna, Vienna, Austria
*E-mail: werner.scheithauer@akh-wien.ac.at
Docetaxel (Taxotere®; Aventis, Strasbourg, France) is currently considered to be one of the most important anticancer drugs. It is a semi-synthetic agent derived from baccatin III extracted from renewable Taxus baccata needles, which binds to tubulin inducing its polymerization [1]. It inhibits cell replication and leads to apoptosis. Docetaxel has displayed significant antitumor activity against non-small-cell lung cancer (NSCLC), head and neck tumors and breast cancer [2].
Apart from myelosuppression (neutropenia), hypersensitivity reactions and fluid retention, one significant adverse reaction associated with the use of docetaxel is a cumulative and predominantly sensory neurotoxicity [2]. When combined with other neurotoxic agents, such as cisplatin, this adverse reaction may become dose-limiting. Taxane-induced neuropathy tends to occur early during therapy with amelioration after discontinuation of therapy; whereas, cisplatin-induced neuropathy tends to develop after a critical cumulative dose and frequently worsens during the first months following therapy discontinuation [3].
Alpha-lipoic acid (Thioctacid®; Asta Medica, Frankfurt, Germany), which has been shown to be effective in both the somatic and the autonomic neuropathies in diabetes, normalizes the endoneural bloodflow [4], reduces oxidative stress [5, 6] and improves vascular dysfunction [7]. In a placebo-controlled trial in patients with diabetic neuropathy, a significant relief of neuropathic symptoms was observed in patients who received 
-lipoic acid [8].
We investigated the therapeutic potential of -lipoic acid to counteract docetaxel plus cisplatin related peripheral neuropathy (PNP) in patients with advanced gastric cancer (n = 5), NSCLC (n = 6), and head and neck tumor (n = 3).
From October 2000 to March 2001 a total of 14 patients who received docetaxel 50 mg/m2 in combination with cisplatin 50 mg/m2 every 2 weeks, experienced at least one symptom of paresthesia, dysesthesia or pain, including a burning sensation, thus fulfilling the criteria of polyneuropathy [9]. Their pretreatment characteristics are summarized in Table 1. Neurological symptoms were serially evaluated in all patients before each cytotoxic drug administration according to the World Health Organization (WHO) grading system, which has been developed to assess the neurotoxicity occurring during treatment with potentially neurotoxic agents [9]. All patients who experienced PNP grade 2 (severe paresthesia and/or mild weakness) or grade 3 (intractable paresthesia and/or marked motor loss) during or after docetaxel/cisplatin combination chemotherapy received -lipoic acid. The treatment regimen consisted of -lipoic acid 600 mg i.v. once a week for 3–5 weeks followed by 1800 mg td p.o. until full recovery from neurological symptoms for a maximum of 6 months. After a median of eight chemotherapy courses (range 6–12) and a median cumulative docetaxel dose of 400 mg/m2 (range 300–600 mg/m2) a total of 14 patients suffered from PNP grade 2 (10 patients) or 3 (four patients).
|
Treatment with
-lipoic acid resulted in an improvement in neurological symptoms (by 
1 WHO toxicity score) in six patients with grade 2, and two patients who suffered from grade 3 PNP. The median time to response was 4 weeks (range 3–12 weeks) and the median duration of treatment with -lipoic acid was 2 months (range 1–4 months). Six patients did not respond, two of them initially presented with PNP grade 3, and four had PNP grade 2. Apart from moderate gastric pain in two patients and WHO grade 1 and 2 nausea in one patient each, -lipoic acid did not cause any other adverse reactions.
Our data suggest that -lipoic acid administered in the current schedule was able to counteract docetaxel-related PNP. Despite other supportive therapies (such as amifostin, calcium/magnesium infusion, sodium channel blockers and gabapentin), further investigation of -lipoic acid in the treatment of docetaxel ± cisplatin-related polyneuropathy seems warranted.
C. Gedlicka, G. V. Kornek, K. Schmid & W. Scheithauer*
Clinical Division of Oncology, Department of Internal Medicine I, University of Vienna, Vienna, Austria (*E-mail: werner.scheithauer@akh-wien.ac.at)
References
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3. Siegal T, Haim N. Cisplatin-induced peripheral neuropathy. Frequent off-therapy deterioration, demyelinating syndromes, and muscle cramps. Cancer 1990; 66: 1117–1123.[CrossRef][ISI][Medline]
4. Nagamatsu M, Nickander KK, Schmelzer JD et al. Lipoic acid improves nerve blood flow, reduces oxidative stress and improves distal nerve conduction in experimental diabetic neuropathy. Diabetes Care 1995; 18: 1160–1167.[Abstract]
5. Low PA, Nickander KK, Tritschler H. The roles of oxidative stress and of antioxidant treatment in experimental diabetic polyneuropathy. Diabetes 1997; 46 (Suppl 2): 38–42.
6. Nickander KK, McPhee BR, Low PA, Tritschler H. Alpha-lipoic acid: antioxidant potency against lipid peroxidation of neural tissues in vitro and implications for diabetic neuropathy. Free Radic Biol Med 1996; 21: 631–639.[CrossRef][ISI][Medline]
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8. Ziegler D, Hanefeld MH, Ruhnau KJ et al. Treatment of symptomatic diabetic polyneuropathy with the antioxidant -lipoic acid. A 7-month multicenter randomized controlled trial (ALADIN III Study). Diabetes Care 1999; 22: 1296–1301.[Abstract]
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