Clinical Trials Logo

Clinical Trial Summary

Intervertebral disc pathology accounts for 40% or more cases of chronic LBP. Available treatment options do not improve the underlying degenerative condition hence This indicates the need for new therapies. intradiscal injection of PRP with exosomes derived from blood may potentially transmit some of the unique stem cell properties to other stem cells, facilitating stemness maintenance, differentiation, self-renewal, and repair. controlled, randomized, double-blind placebo clinical trial to compare the safety and efficacy of PRP with exosomes in discogenic LBP adminstartion of PRP with exosomes at the centre of the nucleus pulposus or equal amount of placebo paradiscal patients wil be elvaluated for primary Outcome measures viz: Visual analog scale (VAS), Roland Morris Disability Questionnaire (RDQ), SF 36 health questionnaire, Functional rating index and Secondary: MRI - disc degeneration grading, T2 quantification, and for any Adverse events including of discitis


Clinical Trial Description

Management of chronic low back pain (LBP) has contributed to its high socioeconomic The intervertebral disc accounts for 40% or more cases of chronic LBP. Available treatment options do not improve the underlying degenerative condition, although they do resolve its symptoms. This indicates the need for new therapies and/or interventions that actually treat the underlying causes of discogenic pain. Biological therapies by direct injection of PRP into the annulus fibrosus and nucleus pulposus seems an effective and feasible option. Exosomes derived from blood may potentially transmit some of the unique stem cell properties to other stem cells, facilitating stemness maintenance, differentiation, self-renewal, and repair. We propose to have a controlled, randomized, double-blind clinical trial to compare the safety and efficacy of exosomes in LBP. Informed consent will be obtained from all subjects prior to study participation. PRP Preparation: Blood sample (60 ml) will be centrifuged at 600×g for 10 min to collect plasma fraction. And centrifuged at 4000×g for 15 min. Supernatant platelet poor plasma (PPP) will be then removed, leaving 1 ml PRP. PPP will be passed through one-micron special indigenous designed flush back filter (Alpha Corpuscle, Delhi, India) so that all the platelets present in PPP fraction will get trapped in the filter. These trapped platelets will be flushed back with 1 ml of PPP to retrieve most of the platelets. This will be mixed together and then passed through a WBC filter (Terumo Imuguard, USA) to filter off the leukocytes. The final PRP concentrate (0.1 ml) will be analysed for total leukocyte & platelet counts. Five samples will be selected randomly treated with bovine thrombin reconstituted in 10% calcium chloride will be assessed for growth factors [platelet-derived growth factors (PDGF) and vascular endothelial growth factors (VEGF)] by ELISA. On an average our PRP sample will have 100 billion platelets and 30x concentrate of blood platelet in 2ml of final PRP. Exosomes preparation: Sixty ml of blood in EDTA-coated tubes will be spin at 1,200 g for 10 minutes at 4°C to separate plasma. Plasma will be filtered with (0.22 μm) filter. Avoid any pelleted material while transferring the plasma. Discard the pelleted material. This tube has special filter to concentrate exosomes and other growth promoting proteins. Tube will be centrifuged at 3000 g, RT, 30 min and exosomes will be collected and then will be concentrated (0.5 ml to 3ml). To recover exosomes clogged in wall of filter -add 20 ml NS (preferably PBS) into micro centrifuge tube and rinsed it by centrifugation at 3,500 g. Collect the concentrated soup of exosomes again which were clogged in filter wall. Quantification of protein content will be done by bicinchoninic acid (BCA) assay. Nanoparticle tracking analysis (NTA) Vesicle suspensions with concentrations between 1×107/ml and 1×109/ml will be examined using a Nanosight NS300 (NanoSight Ltd., UK) equipped with a 405 nm laser to determine the size and quantity of particles isolated. A video of 60-sec duration will be taken with a frame rate of 30 frames/sec, and particle movement will be analyzed using NTA software (version 2.3; NanoSight Ltd.). Western blot analysis The exosome supernatant will be denatured in sample buffer and will be subjected to western blot analysis. Purified exosomes will be analysed for protein expression HSP70, flottilin, CD63, TSG101 and calnexin. The proteins were visualized on the Bio-Rad ChemiDoc XRS Imager system (Bio-Rad Laboratories, Berkeley, CA, USA). Study Design Patients will be randomized into 2 arms with either to receive PRP with exosomes at the centre of the nucleus pulposus or equal amount of placebo and will be evaluated by 2 interventional spine and medicine physicians. Randomisation and Arms of the study: Approximately Three hundred patients will be screened to randomly allocate to treatment or control groups at a 1:1 ratio, to assign 30 patients into each 4 arm: 1. Arm I will be assigned to receive placebo (trigger point injection under C arm) 2. Arm II: to receive PRP with exosomes at the center of the nucleus pulposus (2ml) Test product(s), dose and mode of administration duration of treatment Patients will be randomly selected based on computer generated number to receive one undistinguishable injection of PRP ex or placebo. Following skin disinfection of the back 2 ml from the total PRPex procured was injected as soon as possible by an fluoroscopy guided lateral approach. Patients received the placebo in a similar manner but not to disc .it will be in muscles zone around trigger point .Physician who evaluated the study and patient were unknown of treatment. Patients were advised to continue with usual exercises, routine precautions, physiotherapy and back care. Paracetamol (to a maximum of up to one gram) three times a day, will be allowed to be used as a rescue drug. No systemic corticosteroid, potential symptom-modifying drug /procedure will be allowed during the study. Study assessments / Outcome measures 1. Visual analog scale (VAS) 2. Roland Morris Disability Questionnaire (RDQ) 3. SF 36 health questionnaire 4. Functional rating index 5. MRI - disc degeneration grading, T2 quantification any evidence of discitis Patients will be assessed by visual analog scale (VAS), SF 36 health questionnaire, Functional rating index at baseline and followed at 1, 3, 6, and 12 months. The structural efficacy will evaluated by MRI t2 quantification and grading as described earlier in literature at baseline and at 6 months by two experienced radiologists. Assessors will be blinded. Monitoring visits will be conducted according to standard monitoring procedures. Discontinuation from treatment with a specific reason will be ascertained. Any evidence of infection/discitis will be delicately observed. Worsening of pain will be deeply analyzed. The patients will be evaluated for any adverse effects and vital signs once a week for the first month and then once a month up to 6 months. Blood samples were collected at the time of entry into the study, at six months, and on a final visit to examine biological variables as well as liver and kidney functions. Tolerability was assessed and laboratory-based haematological and biochemical assays were performed. A possible causal relationship with the treatment arm will also be assessed. STATISTICAL ANALYSIS: Analysis of variance (ANOVA) will be used to investigate the differences between groups. Differences in paired samples will be compared using the two-tailed Student's t-test. Correlations between variables will be assessed by Pearson's correlation. SPSS 20.0 will be used for statistical analyses (SPSS, Inc., Chicago, IL, USA). P<0.05 will be considered to be statistically significant. Identification of the relationship between safety issues/side effects and arousal level using measurement by rating scales. To test whether the relationship between safety issues/side effects and arousal level differs between IBRF ACP/MCP vs. Standard of Care groups, using measurement by rating scales, two analyses will be conducted. Canonical correlation will be used to determine which side effect (or combination of side effects) explains variance in the rating scale measurements. Additionally, cluster analysis will be employed to determine whether side effects are similarly related to arousal levels and outcomes for patients in the three treatment groups. MONITORING PROCEDURES/ADVERSE EVENTS / SAFETY ENDPOINTS Monitoring The monitors will visit the center during the study in addition to maintaining frequent telephone and written communication. The following guidelines meet the requirements specified in 21 CFR §812.46 and are provided to describe the procedures for monitoring the clinical studies. If the investigator is not complying with the signed Investigator Agreement, the protocol, or any condition of the study (e.g., incomplete data forms), the monitor has the right to terminate the investigator's participation in the study. Pre-Study Monitoring Procedures The designate (i.e. monitor) will be responsible for determining and documenting that each investigator clearly understands and accepts the responsibilities and obligations incurred in conducting a clinical study. The monitor will ensure prior to study initiation that the investigator: • Understands the requirements for a well-controlled study; • Understands the nature of the clinical protocol • Understands his/her reporting obligations; • Understands the requirements for device accountability; • Understands and accepts the obligations to obtain informed consent in accordance with 21 CFR Parts 50 and 56; • Understands and accepts the obligation to obtain IRB review and approval of the clinical investigation before it is initiated and to ensure continuing review of the study by the IRB in accordance with 21 CFR Part 56, and to keep the sponsor informed of all IRB actions concerning the study; - Understands and accepts the requirements regarding financial disclosure of clinical investigations, 21 CFR Part 54; - Has adequate facilities and access to an adequate number of suitable subjects to conduct the investigation; - Has the required documentation on file, including IRB approval and a signed investigator agreement. Periodic Monitoring Visits • Monitoring visits will be conducted in accordance with the FDA Guideline for the Monitoring of Clinical Investigations - January 1988. • The monitor should visit each site regularly to ensure the following: • Facilities continue to be adequate and acceptable. • The protocol is being properly followed. • The IRB/IEC has approved or been notified of any protocol changes. • Accurate, complete and current records are being maintained, and the information recorded. • Accurate, complete and timely adverse event reports are being submitted • Informed consent has been obtained. • The reason for a subject's withdrawal from the study has been documented. • Reports are being submitted to the IRB and sponsor. • The appropriate staff is carrying out study activities. • All case report forms and other documentation related to the study will be reviewed upon receipt, and the site will be promptly notified of any deficiencies. Frequency of Monitoring Visits a) Monitoring visits will be conducted according to standard monitoring procedures. Monitoring visits will be determined on the basis of several factors, including: b) Duration of the study; c) Number of outstanding issues from previous visits; d) Number of subjects enrolled; e) Number of investigators/sites; and, f) Complexity of the study. Study Termination All routine monitoring functions must be performed prior to the study termination visit. The study termination visit may be combined with a monitoring visit. The following tasks should be completed at the last visit by the monitor. 1. Remind the investigator of the obligation to retain the records. b) Prepare final monitoring report for IEC. Reports of Monitoring Visits Monitoring reports must be completed for all visits. Reports must include the following information: a) Date of the visit; b) List of study site personnel present; c) A summary of the findings, problems ;


Study Design


Related Conditions & MeSH terms


NCT number NCT04849429
Study type Interventional
Source Dr. Himanshu Bansal Foundation
Contact
Status Completed
Phase Phase 1
Start date September 10, 2021
Completion date July 25, 2022

See also
  Status Clinical Trial Phase
Completed NCT03243084 - Transcranial Alternating Current Stimulation in Back Pain- Pilot Sudy N/A
Suspended NCT04735185 - Stem Cells vs. Steroids for Discogenic Back Pain N/A
Completed NCT03162952 - RAND Center of Excellence for the Study of Appropriateness of Care in CAM
Completed NCT03240146 - Pulsed Shortwave Therapy Treatment for Chronic Musculoskeletal Low Back Pain N/A
Completed NCT05282589 - Lumbopelvic Manipulation Effects on Fatigue in Chronic Low Back Pain Patients N/A
Completed NCT03637998 - Physical Activity on Neurophysiologic Gene Expression Profiles of Chronic Low Back Pain N/A
Recruiting NCT02289170 - Clinical Study to Evaluate the Safety and Efficacy of Heating and Cooling Combination Therapeutic Device(OCH-S100) N/A
Active, not recruiting NCT01944163 - The IMPACT of a Referral Model for Axial Spondyloarthritis in Young Patients With Chronic Low Back Pain N/A
Completed NCT02231554 - Feldenkrais vs Back School for Treating Chronic Low Back Pain: a Randomized Controlled Trial N/A
Recruiting NCT02063503 - Identification of Prognostic Indicators for Rehabilitation in Chronic Nonspecific Low Back Pain Patients N/A
Completed NCT01704677 - Lumbar Disc Prosthesis Versus Multidisciplinary Rehabilitation; 8-year Follow-up N/A
Terminated NCT01620775 - MR(Magnetic Resonance) Imaging of Neurotransmitters in Chronic Pain N/A
Completed NCT01177241 - Cytochrome P450 Pharmacokinetic DDIs Among Patients With Chronic Low Back Pain Taking Opioids N/A
Completed NCT01177280 - Prevalence of Potential Cytochrome P450 Pharmacokinetic Incident Drug-Drug Interactions Among Chronic Low Back Pain Patients Taking Opioid Analgesics and Associated Economic Outcomes N/A
Completed NCT01490905 - A Double Blind Placebo Study to Determine the Effectiveness of Theramine on the Management of Chronic Back Pain Phase 4
Completed NCT01177254 - Exposure to Potential Cytochrome P450 Pharmacokinetic Drug-Drug Interactions Among Osteoarthritis Patients: Incremental Risk of Multiple Prescriptions N/A
Completed NCT00984815 - Safety Study of HZT-501 in Patients Who Require Long-Term Daily Non-steroidal Anti-inflammatory Drug Treatment Phase 3
Completed NCT00761150 - Study to Evaluate the Safety and Efficacy of ABT-712 in Subjects With Moderate to Severe Chronic Low Back Pain (CLBP) Phase 3
Completed NCT00767806 - A Study for Patient With Chronic Low Back Pain Phase 3
Completed NCT00763321 - Study to Evaluate the Safety and Efficacy of ABT-712 in Subjects With Moderate to Severe Chronic Low Back Pain (CLBP) Phase 3