Spinal cord injuries: how could stem cells help …
By JoanneRUSSELL25
Clinical trials using neural stem cells
Neural stem cells (mouse)
StemCell Inc In December 2010 the Swiss regulatory agency for therapeutic products gave the go-ahead for aStemCell, Inc.-SponsoredPhase I/II clinical trial on chronic spinal cord injuryat the Balgrist University Hospital in Zurich (Switzerland). This trial had been inspired by the preclinical evidence of direct oligodendrocyte cell replacement through human neural stem cell (NSC) transplants in early chronic SCI in a particular mouse model. The trial uses a type of stem cell derived from human brain tissue and can make any of the three major kinds of neural cells found in the central nervous system. A single donor can provide eough cells for several transplanted patients). A single dose (20 x 106cells) of HuCNS-SC is directly implanted through multiple injections into thethoracicspinal cord of patients with chronic thoracic (T2T11) SCI, and immune suppression administered for 9 months after transplantation. This trial had enrolled patients 312 months after complete and incomplete cord injuries. The estimated completion date of this study is March 2016 (clinicaltrials.govidentifier no. NCT01321333). Interim analysis of clinical data to May 2014, presented at the Annual Meeting of the American Spinal Injury Association in San Antonio, Texas has shown that the significant post-transplant gains in sensory function first reported in two patients have now been observed in two additional patients.
The next group of patients currently being recruited in North America (University of Calgary) as well as in Switzerland has included some with incomplete injuries (ie some retained sensory or motor function) (clinicaltrials.govidentifier no. NCT01725880).
Earlier last year, the same company completed enrollment in multicentre open-label Phase I/II clinical titled "Study of Human Central Nervous System (CNS) Stem Cell Transplantation in Cervical Spinal Cord Injury" (Pathway Study website;clinicaltrials.govidentifier no. NCT02163876). The Pathway Study is the first clinical study designed to evaluate both the safetyandefficacy of transplanting stem cells. A total of 52 patients with traumatic injury to the cervical spinal cord are enrolled in the trial. The trial will be conducted as a randomized, controlled, single blind study and efficacy will be primarily measured by assessing motor function according to the International Standards for Neurological Classification of Spinal Cord Injury (ISNCSCI). The primary efficacy outcome will focus on change in upper extremity strength as measured in the hands, arms, and shoulders. The trial will follow the patients for one year from the time of enrollment.
The hope is that when transplanted into the injured spinal cord, these cells may re-establish some of the circuitries important for the network of nerves that carry information around the body.
Neuralstem Neuralstembegan surgeries in a Phase I safety trial of its NSI-566 neural stem cells for chronic spinal cord injury (cSCI) at the University of California, San Diego School of Medicine, with support from the UC San Diego Sanford Stem Cell Clinical Center, in September 2014 (clinicaltrials.govidentifier no. NCT01772810). The FDA amended the Phase I trial protocol to include a total of four patients, as the safety of the same cells and a similar procedure were proven in Neuralstems NSI-566/ALS trials. The four cSCI patients, with thoracic spinal cord injuries (T2-T12), have an American Spinal Injury Association (AIS) grade A level of impairment one-to-two years post-injury. This means that they have no motor or sensory function in the relevant segments at or below the injury, and are considered to be completely paralysed.
All patients in the trial will receive six injections in, or around, the injury site, using the same cells and similar procedure as the companys Amyotrophic Lateral Sclerosis (ALS) trials (the first FDA-approved neural stem cell trial for the treatment of ALS). All patients will also receive physical therapy post-surgery to guide newly formed nerves to their proper connections and functionality. The patients will also receive immunosuppressive therapy, which will be for three months, as tolerated. The trial study period will end six months post-surgery of the last patient, with a one-year Phase I completion goal. An NSI-566/acute spinal cord injury Phase I/II trial is expected to commence in the first quarter of 2015 in Seoul, South Korea.
The Miami Project to Cure Paralysis The Miami Projectclinical researchers currently have several clinical trials and clinical studies available for people who have had a spinal cord injury; some are for acute injuries and some are for chronic injuries. The clinical trials are testing the safety and efficacy of different cellular, neuroprotective, reparative, or modulatory interventions. These include Phase I clinical trials with the patients own (peripheral nerve-derived) Schwann cells in bothsubacute thoracicandchronic cervical and thoracicSCIs and a multicenter Phase II clinical trial withHuCNS-SC in chronic cervical SCIs(as above). All these Miami Project cell therapy trials are recruiting patients (more info on clinicaltrials.gov).
Mesenchymal/stromal stem cellsare being investigated as possible treatments for spinal cord injuries. Clinical Trials (clinicaltrials.gov) identifies at present total of 9 trials tagged as MSC trials in spinal cord injuries. These include studies that investigate the safety and efficacy of MSCs derived from the patients own bone marrow (5), adipose tissue (fat) (3) or cord blood (1). MSCs are injected in a number of different ways in these trials - including directly into the spinal cord or the lesion itself, intravenously, or even just in the skin, in patients with chronic cervical to thoracic injuries showingASIA/ISCoS scoresbetween A (complete lack of motor and sensory function below the level of injury) and C (some muscle movement is spared below the level of injury, but 50 percent of the muscles below the level of injury cannot move against gravity).
The hope is that when transplanted into the injured spinal cord, these cells may provide tissue protective molecules/factors and help (indirectly from cell integration and differentiation) to re-establish some of the circuitries important for the network of nerves that carry information around the body.
California based biotech Geronhad a widely reported clinical trial under way for a treatment the first of its kind involving the injection of cells derived from human embryonic stem cells. The injected cells were precursors of oligodendrocytes, the cells that form the insulating myelin sheath around axons. Researchers hoped that these cells, once injected into the spinal cord, would mature and form a new coating on the nerve cells, restoring the ability of signals to cross the spinal cord injury site.
After treating four patients with these cells in a phase one (safety) trial, and reporting no serious adverse effects, Geron announced in November 2011 it was discontinuing its stem cell programme. The company said stem cells continue to hold great promise, but cited financial reasons for shifting focus to other areas of research.
Asterias Biotherapeutics Following up on the cellular technology initially developed by Geron, Asterias Biotherapeutics has developed a program that focuses on the development of a kind of nerve cell, oligodendrocyte progenitor cells (OPCs) for spinal cord injury. These cells, known as AST-OPC1, are produced from human embryonic stem (ES) cells.
In aPhase 1 clinical trial, five patients with neurologically complete, thoracic spinal cord injury were administered two million hES cell-derived OPCs at the spinal cord injury site 7-14 days post-injury. The subjects received low levels immunosuppression for the next 60 days. Delivery of OPCs was successful in all five subjects with no serious adverse events associated with the administration of the cells or the immunosuppressive regimen. In four of the five subjects, serial MRI scans suggested reduction of the volume of injury in the spinal cord
A second follow up (dose escalation)Phase I/II trialwith AST-OPC1 in acute (14-30 days after injury) sensorimotor complete cervical spinal cord injuries (SCI) is currently recruiting participants.
The hope is that when acutely transplanted into the injured spinal cord, OPCs may remyelinate and restore lost functions.
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