View clinical trials related to Spine Disease.
Filter by:This was a prospective observational study with the primary objective of quantifying a change in pain scores after 6-12 months of two separate interventions within the study site (pain team and chiropractic team). Target enrollment was 30 participants for each intervention. The primary outcome was a change from baseline of the Pain Disability Questionnaire (PDQ), the study tool. Secondary outcomes were reduction of opioid dose by morphine equivalent daily dose, and its effect on PDQ scores.
The treatment of postoperative pain is increasingly based on a multimodal approach and although opioids remain the drug of choice, they are often used in combination with other analgesics (paracetamol, cyclooxygenase inhibitors or non-steroidal anti-inflammatory drugs) and co-analgesic agents (clonidine and anti- NMDA such as ketamine or MgSO4). The rationale for combined analgesia is to achieve additive or synergistic analgesic properties while decreasing the incidence of side effects by reducing the dose of each agent. Nociceptive stimuli are known to activate the release of the excitatory amino acid glutamate in the dorsal horn of the spinal cord. The resultant activation of NMDA receptors causes calcium entry into the cell and triggers central sensitisation. This mechanism is involved in the perception of pain and mainly accounts for its persistence during the postoperative period. Although magnesium is not a primary analgesic in itself, it enhances the analgesic actions of more established analgesics as an adjuvant agent. Magnesium produces a voltage-dependent block of NMDA receptors and has been reported to have analgesic properties that might be related to this inhibiting property. Magnesium sulfate has been reported to be effective in perioperative pain treatment and in blunting somatic, autonomic and endocrine reflexes provoked by noxious stimuli. When magnesium was used intraoperatively, many researchers reported that it reduced the requirement for anesthetics and/or muscle relaxants. Intraoperative use of magnesium sulfate can also be associated with decreased incidences of nausea and vomiting after surgery, which could have been due to the lower consumption of anesthetics (i.e. volatile agents), rather than any antiemetic effect of magnesium sulfate. In addition, perioperative i.v. administration of magnesium sulfate has another advantageous effect, as it decreases the incidence of shivering by up to 70-90%. Previous studies investigating the analgesic efficacy of MgSO4 in general, gynaecological, ophthalmic and orthopaedic surgery have shown conflicting results, while reports regarding spine surgery are extremely limited. Our study was designed to investigate the effects of MgSO4 on perioperative pain relief and postoperative quality of recovery after lumbar laminectomy surgery.
This study compares the intraoperative opioid free anesthesia approach in multilevel spine posterior instrumentation surgery to a conventional opioid-based anesthesia. Half of participants will receive opioid free anesthesia with dexmedetomidine, lidocaine and ketamine while the other half will receive opioid based anesthesia with fentanyl, remi-fentanyl and ketamine
In spine surgery postoperative pain can often be severe and difficult to treat.With the use of ultrasound, the performance of plane blocks and other techniques like root blocks, facet infiltration have become possible without the use of either unreliable " pop-techniques" or the use of x-ray.The erector spinae block was recently described as a safe and simple and safe technique for neuropathic pain and acute post surgical pain, with effect on the dorsal rami of the spinal nerves and with promising results. In this observational pilot study we want to test the influence of these to blocks on the postoperative pain and opioid consumption after spine fusion.
The investigators will do the Goal directed fluid therapy by protocolized fluid management in the experimental group, using PPV to guide the fluid administration, compare with standard fluid management in patients undergoing complex spine surgery.
Ultrasound guided thoracolumbar interfascial plane (TLIP) block was first described in 2015 by Hand et al. TLIP block involves injection of local anesthetics between multifidus and longissimus muscles at the third lumbar vertebra level and can block the dorsal rami of thoracolumbar nerves. In new approach differently, the investigators made the injection between longissimus and iliocostalis muscles with a 15 degree angle from medial to lateral. The aim of this study is to determine effectiveness of ultrasound guided thoracolumbar interfascial plane (TLIP) block in patients undergoing spinal surgery.
The collection of data from the myriad of services described is significantly impacted by NIH guidelines defining medical research involving humans as well as the recent implementation of HIPAA constraints which further complicate the conduct of retrospective clinical outcomes research. Simple case reports or case series analysis now involve IRB participation as well as voluminous documentation. The solution to this dilemma lies in developing and promoting secure, confidential prospective clinical databases for storing clinical data for subsequent retrospective de-identified inquiry. These databases function in a way analogous to "tissue banks" for subsequent basic science research. Patients consent to prospective entry of their clinical information into the database so long as they continue to be a patient with the Department of Neurological Surgery or the Departments or Divisions in association with the affiliated programs briefly described above. The consent is obtained during the patient's first inpatient or outpatient encounter in parallel with the HIPAA consent. It can be withdrawn by request of the patient at any time, but it does not expire unless the patient withdraws it, or the patient severs their patient care relationship with UCI Neurosurgery or the affiliated programs. The database is stored on a separate secure server maintained and backed up by the UCIMC Information Technology Department. Access to the database is restricted at multiple levels, with the majority of personnel allowed only limited access for data entry purposes. Only the database programmer/coordinator, the Department Administrator and the Chairman of the Department will have unrestricted access to the database. Authority for permission for levels of security clearance and access to the database, for other individuals, will be vested in the Chairman of the Department of Neurological Surgery. A separate IRB proposal will be formulated for individual study related to the acquisition of data from the de-identified database. Since these future studies will be performed on data sets derived from the previously consented subjects of this IRB-approved project, the requirement for additional consent forms are not anticipated. As a result IRB research proposals utilizing the database can be expedited. Once the specific study is approved, the investigator(s) are provided with the clinical information from the database in the form of a de-identified data set.