The Therapeutic Effect of Low-intensity Focused Ultrasound on Painful Diabetic Peripheral Neuropathy

Overview

Diabetic painful peripheral neuropathy (DPN) constitutes a serious threat to the outcomes of patients with diabetes. Yet, the treatments for targeting the underlying nerve damage and relieving pain are limited. The low-intensity focused ultrasound (LIFU) has been demonstrated to regulate neuronal activity without any concomitant tissue damage. Studies in animal models have shown that LIFU could protect nerve cells against inflammation and oxidative stress, as well as stimulate neurotrophic factor production. In humans, LIFU has been reported to be effective in relieving peripheral neurogenic pain caused by carpal tunnel syndrome and chemotherapy drugs. Thus, we aim to design a randomized controlled double-blind study by using LIFU. The primary endpoint is the patient's pain score (NRS), and the secondary endpoints include Neuropathy Symptom Score (NSS) and Neuropathy Deficit Score (NDS). Through this study, we anticipate establishing a new method for managing painful DPN.

Diabetic peripheral neuropathy (DPN) is a major cause of disability and mortality due to pain, loss of protective sensation, foot ulceration, amputation, and risk of falls, therefore constituting a serious threat to the outcomes of patients with diabetes and their treatment costs. The pathogenesis of DPN has been proposed as an inflammatory and oxidative stress injury in nerve cells caused by glucose and lipid metabolism disorder. Yet, the treatments for targeting the underlying nerve damage and relieving pain are limited. The widely used drugs such as Mecobalamine and Lipoic acid are not effective in some patients (about 2/3). Others, like anticonvulsant (e.g. Dabapentin), antidepressant (e.g. Duloxetine), and central opioid analgesics (e.g. Tramadol), are effective in the short-term, but they may lead to side effects for long-term use such as impairment of cognitive function, insomnia, and addiction, etc. The low-intensity focused ultrasound (LIFU) is regarded as the magnitude of ultrasonic intensity similar to or below that typically used in diagnostic ultrasound examinations. Although currently LIFU has not been applied in DPN, a number of studies have demonstrated that it can regulate neuronal activity without any concomitant tissue damage. Studies in animal models have shown that LIFU could protect nerve cells against inflammation and oxidative stress, as well as stimulate neurotrophic factor production. In humans, LIFU has been reported to be effective in relieving pain caused by carpal tunnel syndrome (Median nerve compression). Also, several studies have evidenced that cancer patients suffering from chemotherapy drug-induced peripheral neurogenic pain had significant improvement by LIFU treatment. Thus, we aim to take advantage of LIFU to treat the painful DPN. We plan to design a randomized controlled double-blind study. The primary endpoint is the patient's pain score (NRS), and the secondary endpoints include Neuropathy Symptom Score (NSS) and Neuropathy Deficit Score (NDS). Through this study, we anticipate establishing a new method for managing painful DPN.