Abstract
PurposeTo provide effective and accurate radiotherapy (RT) for advanced cancer patients who experience breakthrough pain (BP) due to positioning manoeuvres, through the use of FPNS. Secondary endpoints were the dose and time required to achieve a 50% numeric rating scale (NRS) reduction and conduction of a pharmacoeconomic analysis. Patients and methodsTwenty-seven advanced cancer patients with moderate-severe BP associated with routine radiotherapy procedures and manoeuvres were selected to receive FPNS. Most patients (20/27) had bone metastases. The patients showed a low Karnovsky performance status (mean 54%; range: 30–80). BP intensity was scored with the NRS before and after the procedures that triggered it. All patients were already receiving opioid baseline treatment at a total dose equivalent to 40–160mg oral morphine. Before the procedure, BP was treated with 100–400μg of FPNS. Data related to tolerance, pain relief, onset of the relief and efficient dose to allow RT to proceed were collected. ResultsIn 26 patients the BP score was reduced by at least 50% as determined in 15.5min (range 8–35min) after fentanyl pectin intranasal administration, and pain relief started after 7min (range 3–15min); p<0.05 in both cases. The duration of pain reduction facilitated the proceeding of RT. The Mean NRS score before the procedure was 9 (95%CI: 8.6–9.4) and decreased during procedure to 3 (95%CI: 2.5–3.8). The average dose of FPNS for most patients was 100–200μg to achieve pain control, except in three patients who required progressive doses of up to 300–400μg. After receiving 300μg, one patient dropped out of the study due to severe adverse effects (nausea). Seven patients reported minor undesirable effects related to FPNS administration. Conclusions and implicationsCertain necessary RT procedures in advanced cancer patients can cause severe BP episodes. A simple, safe, fast acting and strong analgesic is needed. FPNS is a rapidly absorbed opioid analgesic with a pain relief profile that would be particularly well suited for this patient population. By reducing BP, the drug enables the completion of necessary RT procedures without needless patient discomfort. When BP is attenuated, Department productivity is maintained and unnecessary delays are avoided. Further studies and clinical trials are needed to assess therapeutic FPNS dosages with a view to defining efficacy in the correct clinical context.
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