Spinal Cord Injury Clinical Trial
Official title:
Collection and Characterisation of Human Olfactory Ensheathing Cells
We aim to retrieve olfactory bulbs (OBs) from suitable human donors. We have defined two
groups who will qualify:
Group 1 - Deceased Donors:
1A: Donors after brainstem death (DBDs) undergoing solid organ donation
1B: Donors after brainstem death (DBDs) considered unsuitable for solid organ donation
Group 2 - Living Donors:
Neurosurgical patients undergoing anterior cranial surgery in which the olfactory nerve (ON)
is cut as part of the surgical procedure. The OB of the concomitant severed ON would be
donated.
We aim to optimise OB collection and Olfactory Ensheathing Cell (OEC) culture and storage. We
will study the effects of patient diagnosis, age, cause of death (if applicable),
co-morbidities and warm ischaemic time on cell survival and regenerative function.
In future studies we aim to store OECs in a GMP facility and transplant OECs into patients
with spinal cord injuries.
Spinal cord injury (SCI) is a devastating condition. To date there is no treatment to improve
outcome. There is limited regenerative capacity of the central nervous system (CNS), such
that damaged neurons and severed axons are not replaced.
A substantial body of evidence suggests that olfactory ensheathing cells (OECs) obtained from
olfactory bulbs (OBs) facilitate neuronal regeneration in rodents and humans with SCI.
Indeed, transplanting autologous OECs from an OB into the injury site improved neurological
outcome in a patient with SCI.
Harvesting autologous OBs to culture OECs has several disadvantages:
1. If the OECs do not grow in vitro, the transplantation is abandoned;
2. The retrieval procedure exposes a paralysed patient to the risks of craniotomy;
3. Excising an OB can impair the sense of smell; and
4. The number of OECs obtained is limited to one OB.
Investigators will collect human OECs from suitable donors which we have defined as two
groups. Group 1 patients will be brain dead donors identified by the neuro-intensive care
team as potential candidates for solid organ donation. The OBs will be retrieved as near to
death as possible. Group 2 patients will be living donors undergoing elective neurosurgery in
which the olfactory nerve is sacrificed as part of that procedure.
There are two OBs located at the anterior skull base, responsible for transmitting the
sensation of smell from the nose to the brain. Obtaining OECs requires a craniotomy (opening
the skull) to remove the OBs.
PHASE 1 will be divided into 2 stages. In stage 1 we will culture OECs and characterise them
in the central laboratory. We aim to determine how the yield of OECs and their regenerative
properties are affected by freeze-thaw, time left at room temperature and time left at 40C
before culture as well as patient age. Each harvested sample will be transferred to the lab
for further processing. Processing includes but is not limited to histological fixation,
sectioning and staining, cell culture and storage. Some OECs will be frozen in liquid
nitrogen to determine whether they can indeed be stored. In stage 2 we will transfer OECs
outside St. George's to a GMP facility (to be determined). In the GMP facility, the OECs will
be processed and stored according to the optimised conditions we have determined.
In PHASE 2, the OECs will be transplanted into patients with SCI.
;
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