Tracheal Stenosis Clinical Trial
Official title:
Phase I/IIa Clinical Trial of Stem Cell Based Tissue Engineered Partial Laryngeal Implants in 10 Adult Patients With End-stage Laryngeal Stenosis With 24 Months Follow-up.
This study aims to test a new groundbreaking treatment for narrowing of the voicebox and
upper windpipe, which can be due to injury, inflammatory disease or cancer treatment.
Narrowing of the voicebox or upper windpipe can leave patients dependant on a tracheostomy
tube to breath through (a tube or hole in the neck), which can require a high level of care
with regular hospital visits and can lead to recurrent chest infections. Regular surgical
procedures may be necessary to widen the airway. Speaking may be very difficult or not even
possible, breathing is usually a struggle and swallowing can also be affected. Patients feel
very tired all the time.
The new treatment tested by this study is an implant that will partially replace the voicebox
or upper windpipe in order to cure the narrowing. The implant is based on a human donor
voicebox or windpipe that has been processed with detergents and enzymes in order to remove
all the cells from the donor, leaving a 'scaffold' of connective tissue. The patient's own
stem cells are removed from the bone marrow, then are grown on the scaffold in the
laboratory. These cells will form the cartilage in the wall of the scaffold. A split skin
graft from the patient may be needed to line the inside of the implant. The implant can be
considered 'living' due to the cells grown on it, and this type of treatment is referred to
as 'tissue engineering' or 'regenerative medicine'.
Once these cells have attached and started to grow on the scaffold, it is ready to be
implanted into the patient, and an operation is performed which occurs in two separate
stages. The final stage of the operation involves removing the narrow section of voicebox or
upper windpipe and implanting the scaffold to reconstruct it. Patients will be followed up
for two years after this operation, with investigations such as CT scans, examination of the
voicebox and windpipe with a flexible camera (bronchoscopy) and blood tests performed at
specific times.
It is intended that this treatment will significantly improve patients' symptoms resulting in
better breathing, swallowing and voice function, reducing the need for repeated hospital
visits and procedures and enhancing patients' quality of life.
The RegenVOX trial is a phase I/IIa safety and potential efficacy clinical trial of
tissue-engineered laryngotracheal replacement using autologous-derived cells and
decellularised human donor scaffolds in 10 patients with severe acquired laryngotracheal
stenosis.
Current solutions for the treatment of advanced structural disorders of the larynx such as
trauma, inflammatory disorders or following cancer treatment are suboptimal and patients with
such problems require frequent hospitalisation. A regenerative solution that restores the
anatomy of the larynx would provide a definitive treatment for these patients, improve the
outcome of resection for malignant disease, avoid some laryngectomies and would reduce the
threshold for performing surgery over administering chemotherapy thereby reducing morbidity.
Giving patients a once-only therapy of a life-time functional living replacement would allow
patients to lead tracheostomy-free lives with improved breathing, swallowing and speech and a
lower requirement for hospital follow-up.
This project is a clinical trial of tissue engineered partial laryngeal replacements in 10
patients with end-stage laryngeal stenosis. The intervention is based on a human donor graft
scaffold which is decellularised and then seeded with autologous mesenchymal stem
cell-derived chondrocytes externally. Following expansion of these cells ex-vivo, the graft
is implanted. This is the first clinical trial to our knowledge of a stem-call based organ
replacement.
Inclusion criteria are:
Patients aged >=18 years with sufficient numbers of Mesenchymal Stromal Cells (MSCs) in their
human Bone Marrow (hBM) aspirate.
Patients with Myer-Cotton Grade 3 or 4 laryngotracheal stenosis or malacia due to traumatic,
inflammatory, iatrogenic, or idiopathic causes who have exhausted conventional therapies.
Exclusion criteria are:
Pregnancy. Patients positive for HIV 1, HIV 2, Hepatitis C (HCV), Hepatitis B (HBV), syphilis
or Human T-cell Lymphotropic Virus (HTLV).
Those unable to provide informed consent. Co-morbid severe chronic obstructive pulmonary
disease (according to NICE criteria) Patients with active / uncontrolled chronic inflammatory
conditions such as granulomatosis with polyangitis (formerly Wegener's granulomatosis) and
sarcoidosis.
Any current or previous cancer within 5 years (except non-melanoma skin cancer, adequately
treated carcinoma in situ of the uterine cervix, laryngeal malignancy treated locally with no
local recurrence and no metastases, or low grade airway malignancy such as chondrosarcoma
which may be causing airway obstruction).
Life expectancy less than 5 years unless this limitation is principally due to the airway
obstruction to be treated.
Concurrent enrollment in any other Clinical Trial of Investigational Medicinal Product
(CTIMP).
The primary outcome measure is safety as determined by morbidity and mortality as measured by
occurrence of adverse events. Secondary outcome is efficacy as determined by
1. Absence of tracheostomy.
2. Absence of non-absorbable stent.
3. Improvement in mean airway diameter.
4. Improvement in Forced Expiratory Volume in 1 second (FEV1).
5. Improvement in global quality of life (EQ-5D).
6. Improvement in maximum phonation time (MPT) as measured by Voice Analysis Operavox
(VAO).
7. Improvement in self assessment of voice handicap (VHI-10).
8. Improvement in swallowing function (EAT-10).
9. Improvement in airway, dyspnoea, voice, swallowing index (ADVS index).
10. Improvement in the penetration-aspiration scale (PAS) as per Video Fluoroscopic Swallow
(VFS) or Functional Endoscopic Evaluation of Swallowing (FEES).
Health economics. Patients will be followed up for 2 years within this study. Key milestones
will be assessed at 6 and 12 months. The follow-up regimen includes bronchoscopy and airway
brushings taken at 1 week post implantation and full physical assessment including CT
imaging, pulmonary function tests, blood tests and bronchoscopy at 1, 6, 12, 18 and 24
months. Telephone follow-up will take place in between these assessments.
This trial will provide a level of insight into the real clinical potential for stem
cell/tissue engineering combined technologies. The results will have wide implications for
the development of hollow organ- replacements such as those for oesophagus, bowel and
vascular disorders. We will also develop new pathways for maximising discovery science and
health economic benefit from complex regenerative medicine therapies (a reverse translational
route map), with important generic benefits for scientists and clinicians.
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