Chemotherapy-induced Peripheral Neuropathy
Conditions
Brief summary
Chemotherapy-induced peripheral neuropathy (CIPN) is a highly prevalent and clinically meaningful side effect of cancer treatment. It is induced by neurotoxic chemotherapeutic agents, causing severe sensory and/or motor deficits such as pain, altered sensation, reduced or absent reflexes, muscle weakness, reduced balance control, insecure gait, and higher risk of falling. It is associated with significant disability and poor recovery, not only reducing patients' autonomy and quality of life but also limiting medical cancer therapy, which subsequently may affect the clinical outcome and compromise survival. To date, CIPN cannot be prevented and approved and effective treatment options are lacking. Promising results regarding CIPN have recently been achieved with exercise. Own preliminary work revealed that patients profit from sensorimotor training (SMT), experiencing significant relief from CIPN induced symptoms. In a pilot study we therefore also evaluated whole body vibration training, a further neuromuscular stimulating exercise intervention. Results suggest that whole body vibration (WBV) is not only feasible and safe for neuropathic cancer patients but can attenuate motor and sensory deficits. We therefore propose a two-armed, multicenter, randomized controlled trial (RCT with a follow-up period), including 44 patients with neurologically confirmed CIPN, in order to evaluate the effects of WBV on the relevant symptoms of CIPN. Primary endpoint is the patient reported reduction of CIPN-related symptoms (FACT-GOG-Ntx). Secondary endpoints will include compound muscle action potentials, distal motor latency, conduction velocity, and F-waves from the tibial and peroneal nerve as well as antidromic sensory nerve conduction studies of the sural nerve, feasibility, non-invasive electromyographic (EMG) activity of mm. tibialis anterior, soleus, gastrocnemius medialis, rectus femoris, vastus medialis and biceps femoris, peripheral deep sensitivity, proprioception, balance control as well as pain, quality of life and the level of physical activity. Patients will be assessed before and after a 12 week intervention and again after 12 weeks of follow-up. Interim tests will be performed 6 weeks into the intervention as well as every 3 weeks during the follow-up. We hypothesize that individually tailored whole body vibration training will reduce relevant symptoms of CIPN. Our results could contribute to improve supportive care in oncology, thereby enhancing patients' quality of life and coincidentally enabling the optimal medical therapy.
Interventions
BEHAVIORALWhole-body vibration training
Whole-body vibration exercise
Sponsors
German Sport University, Cologne
University Hospital of Cologne
University of Freiburg
University Hospital, Basel, Switzerland
University of Basel
Study design
Allocation
RANDOMIZED
Intervention model
PARALLEL
Primary purpose
TREATMENT
Masking
SINGLE (Outcomes Assessor)
Masking description
Blinding against study arm
Eligibility
Sex/Gender
ALL
Age
18 Years to 80 Years
Healthy volunteers
No
Inclusion criteria
* oncological patients with neurologically confirmed CIPN * age: 18-80 years * performance status of 0-2 according to the toxicity and response criteria of the Eastern Cooperative Oncology Group * patients underwent neurotoxic chemotherapy with one of the following agents: Taxanes (docetaxel with a cumulative dose of ≥ 225mg/m2 or paclitaxel with a cumulative dose of ≥ 525mg/m2), Vinca-alkaloids (vincristine with a cumulative dose of ≥ 4.2mg/m2 or vinblastine with a cumulative dose of 24mg/m2), Platinum-derivatives (Oxaliplatin with a cumulative dose of ≥ 510mg/m2, Cisplatinum with a cumulative dose of ≥ 200mg/m2)
Exclusion criteria
* pre-existing neuropathy of other cause (e.g. diabetes) * given contraindications for WBV (instable osteolysis, osteosynthesis, acute thrombosis, foot ulcers and a fracture of a lower extremity in the last two years) * a myocardial infarction, angina pectoris or heart disease (NYHA III-IV) within the past six months * a mental condition or lack of the German language that prevents the understanding of the written informed consent * metastases of the central nervous system and epilepsy
Design outcomes
Primary
| Measure | Time frame | Description |
|---|---|---|
| FACT/GOG-Ntx questionnaire [Functional Assessment of Cancer Therapy/Gynecologic Oncology Group - Neurotoxicity] | Change over the course of the study, from baseline to post 12-week intervention to post 12-week follow-up | It will be used to document and assess the severity of the subjective peripheral neuropathy (PNP) symptoms. This questionnaire has been validated and is widely applied in clinical practise. It contains eleven items which allow an assessment of the extent of PNP symptoms - from not at all to very much. |
Secondary
| Measure | Time frame | Description |
|---|---|---|
| CIPN-related pain | Change over the course of the study, from baseline to post 12-week intervention to post 12-week follow-up | Visual analogue scale (VAS) in order to assess neuropathic pain as well as the dysesthesias |
| Postural control | Change over the course of the study, from baseline to post 12-week intervention to post 12-week follow-up | Center of pressure during upright static and dynamic stance |
| Quality of life - questionnaire | Change over the course of the study, from baseline to post 12-week intervention to post 12-week follow-up | — |
| Physical activity questionnaire | Change over the course of the study, from baseline to post 12-week intervention to post 12-week follow-up | — |
| Compound muscle action potentials (CMAP) | Baseline | obtained from the tibial and peroneal nerve |
| Distal motor latency | Baseline | obtained from the tibial and peroneal nerve |
| EMG recordings | 1 week (first 2 training sessions) | Normalized (to static standing without vibration condition) integrated EMG activity of mm. tibialis anterior, soleus, gastrocnemius (medial head), mm. rectus femoris, vastus medialis, biceps femoris. EMG recordings will be performed using bipolar Ag/AgCl surface electrodes placed over the mm. soleus, gastrocnemius medialis, tibialis anterior, rectus femoris, vastus medialis and biceps femoris of the right leg. A reference electrode will be placed on the patella. To keep interelectrode resistance below 2 kOhm, the skin areas for the electrodes will have to be shaved, degreased and slightly abraded. The EMG signals will then be transmitted to the amplifier (band-pass filter 10 Hz-1 kHz, 1,0009 amplified) via shielded cables and recorded with 4 kHz. |
| Sensory nerve action potentials (SNAPs) | Baseline | recorded from the lateral malleolus with surface electrodes |
| Peripheral deep sensitivity | Change over the course of the study, from baseline to post 12-week intervention to post 12-week follow-up | evaluated with a Rydel-Seiffer tuning fork (128Hz) on a scale from 0 to 8; due to age related neural deconditioning, values ≤4 are pathological for patients ≥ 60years old, while for patients under 60 years old, ≤5 is regarded as pathological |
| Reflex action | Change over the course of the study, from baseline to post 12-week intervention to post 12-week follow-up | The Achilles tendon reflex as well as the patellar tendon reflex is assessed with a reflex hammer and graded on a 3 point scale (1=agile, 2=weak, 3=missing). |
| Sense of position | Change over the course of the study, from baseline to post 12-week intervention to post 12-week follow-up | This test examines whether patients can recognize a change of position in their first toe, with their eyes closed. |
| Perception of touch | Change over the course of the study, from baseline to post 12-week intervention to post 12-week follow-up | The examiner symmetrically strokes the outsides of the patients' legs and feet in order to detect reduced or altered sensation due to demyelination or axonal degeneration. |
| Muscular strength | Change over the course of the study, from baseline to post 12-week intervention to post 12-week follow-up | The strength of the leg muscles is assessed by requesting the patient to actively move their legs against the resistance of the examiner's arm. The examiner then grades the strength on a six point scale (0=no activity, 1=visual contraction without motor effect, 2=movement under elimination of gravity, 3=movement under gravity, 4=movement against slight resistance 5=normal force). |
| Nerve conduction velocity | Baseline | obtained from the tibial and peroneal nerve |
Countries
Switzerland
Contacts
Primary ContactOliver Faude, PhD
Backup ContactFiona Streckmann, PhD
Outcome results
None listed