Active clinical trials for "Nociceptive Pain"

The purpose of this study is to evaluate the safety of long-term treatment with HZT-501.

Pain is defined as an unpleasant sensory and emotional conscious experience, associated with actual or potential tissue damage. Nociception is the sympathetic response to noxious stimuli during unconsciousness. The appearance of different forms of chronic pain results from sensitization of both peripheral and central neural circuits of pain, which involves inflammatory mechanisms both at a systemic level and specifically in the peripheric and central nervous system, as observed through elevation of specific neuroinflammatory mediators, such as MCP-1, IL-1, IL-1b, and IL-10. Clinically, this sensitization expresses as hyperalgesia and allodynia, which increase postoperative pain and morbidity, but also induce permanent modifications in the nociceptive system. These effects may be ameliorated by adequately adjusting intraoperative analgesia through use of nociception/analgesia balance monitors, of which Nociception Level Index (NOL) shows convenient characteristics and promising results from previous studies. Objectives: The goal of our study is to assess the utility of NOL index monitoring against standard care for Fentanyl-based analgesia by measuring postoperative pain, sensorial thresholds and inflammatory markers related to nociception. Hypothesis: The use of NOL index to guide the intraoperative analgesia will produce less postoperative pain, hyperalgesia, allodynia, and neuroinflammation.

Due to their underlying pathology and the necessary complicated procedures to which they are exposed, patients in the intensive care unit experience varying degrees of pain at some point in their evolution. Evidence has established short-term and long-term negative consequences of unresolved pain or excessive analgesic sedation. However, pain assessment or adequate nociceptive monitoring remains a significant challenge, especially in non-communicative patients under deep sedation, who urgently need to expand and improve current tools. Pain assessment in critically ill patients is challenging; limitations in their ability to communicate (neurocognitive deficit, use of endotracheal tube) or altered consciousness (deep sedation) make them unable to self-report their pain with standard pain scales. The Behavioral Pain Scale (BPS) and the Critical-Care Pain Observation Tool (CPOT) are the pain assessment tools with the best performance and reliability for patients in these conditions. Different technologies are used to monitor nociceptive responses caused by surgical stress in patients under general anesthesia that together with the clinical evaluation, manage to keep patients in the best analgesic conditions, improving the post-surgical prognosis. In particular, the NOL® nociceptive index (Medasense, Ramat Gan, Israel) is a multiparametric detection of nociception/pain, delivering a dimensionless score (0 -100) calculated through an algorithm (patented) and based on the registry of four biometric sensors (photoplethysmography, galvanic skin response, temperature, and accelerometer). NOL index value between 10-25 is the most appropriate for maintaining analgesia during general anesthesia. The ease and low invasiveness of this system (all sensors are implemented in a finger clip, similar to an oxygen saturation monitor) may allow its potential use in the context of intensive care unit patients. Some studies have recently been published that highlight the possible usefulness of the NOL® index in critically ill patients. However, in these studies, the assessment of nociception was limited to acute nociceptive procedures only.

The purpose of this study is to determine whether the value of analgesia nociception index (ANI) is influenced by variations of systemic venous return (cardiac preload) under general anaesthesia.

This study is to investigate the effect of CBD on acute pain in healthy volunteers in a well-established acute pain model.

Several studies have demonstrated that direct currents delivered through the skin at the level of the lumbar spinal cord can influence spinal cord function. In human volunteers, anodal lumbar transcutaneous spinal direct current stimulation (tsDCS) alters spinal processing of nociceptive inputs. Whether cervical tsDCS is able to do the same is less well known.

Prospective, randomized, placebo-controlled, double-blinded, crossover study to investigate the effect of cannabidiol (CBD) on remifentanil-induced hyperalgesia in healthy volunteers in a well-established acute pain model. Participants are randomized according to the order of the two treatments (CBD + Remifentanil or Placebo + Remifentanil).

The purpose of this study is to investigate the effect of AZD3161 on mechanical pain sensitivity and axon reflex flare in normal and ultraviolet C irradiated skin.

Medasense's Pain Monitoring Device (PMD) is a novel non-invasive, bedside stand alone, continuous monitor that is designed to provide real-time information about changes in the nociception level of patients under general anesthesia during surgical procedures. The PMD-200 System is based on real-time data acquisition and processing of physiological signals. The system displays the NOL index (a single numerical index) which is computed from recorded physiological parameters based on a proprietary algorithm.

This is a phase 3, multicentre, prospective, single-blind on principal efficacy criterion, 2 parallel groups, randomized, controlled clinical study comparing efficacy and safety of actiTENS versus systemic level 2 analgesics recommended for the treatment of moderate or severe, nociceptive, chronic pain in patients suffering from osteoarthritis of the knee.