Critical Limb Ischemia Clinical Trial
Official title:
Autologous Bone Marrow Stem Cell Transfer in Patients With Chronical Critical Limb Ischemia and Diabetic Foot
A total of 90 patients suffering from end stage-IV Fontaine /CLI and diabetic foot with an
ulcerated limb in whom all previous therapeutic strategies failed (e.g. surgical
revascularization) will be selected and undergo local transplantation of ABMSCs. The
efficacy/safety of this therapy will be assessed by using several endpoints such as (a)
prevention of amputation, (b) wound healing and (c) degree of angiogenesis. In order to
assess the limb ischemia and hypoxia the several tests and measurements will be performed
pre- and post transplantation at a variety of time intervals. The measurements include:
TP-toe pressure measurements (by Periflux 5000 Laser Doppler and Oxymetry system), SPP-skin
perfusion pressure, ABI-ankle brachial index, LDP-laser Doppler baseline and heat perfusion
assessment, TcpO2 without and with O2 provocation inhalation test. In addition, a battery of
biochemical and hematological tests of peripheral venous blood sample will be performed.The
quality form "EQ-50" will be completed.
8.1 Primary objective: To evaluate an efficacy-safety profile of autologous bone marrow stem
cells (ABMSCs) transplantated into chronically and critically ischemic limb (CLI) and into
diabetic foot in stage IV Fontaine, Rutherfod 4-6 classification.
8.2 Secondary objectives: 8.2.1 To assess effect of ABMSCs on tissue perfusion of ischemic
limb after transplantation by transcutaneous oximetry and the laser Doppler flowmetry using
Periflux 5000 system under normal and provocation test conditions. In addition, wound
healing of ulcers will be evaluated using a planimetry method from photographs of affected
skin taken pre- and post-transplantation.
8.2.2 Relationship between CD 34 progenitor counts separated on gradient-density separation
centrifuge from Harvest Technologies and overall effectiveness and safety to treat ischemic
limb.
8.3 Priorities: Beside assessment of effectiveness and safety of ABMSCs transplantation
ultimate emphasis will be put on avoiding limb amputation. This has significant
socioeconomic impact. Therefore this project belongs to the priority programs of clinical
research in cardiovascular diseases.
1. INTRODUCTION:
The local method of autologous bone marrow stem cells transplantation consists of
harvesting bone marrow from the iliac crest, its separation using cell separator to
generate ABMSCs (CD 34 positive) and their subsequent multiple injections into a limb
suffering from chronic and critical ischemia. The aim of this therapy is to induce
angiogenesis and vasculogenesis which would correct ischemia and hypoxia, improve
tissue perfusion and metabolism and thus prevent limb amputation. Due to correction of
hypoxia and ischemia by improvement of blood supply regeneration of damaged tissues is
initiated. Improved tissue perfusion is achieved by a large number of mediators
including growth and angiogenic factors which in turn stimulate growth of primitive
vessel wall within the ischemic tissue, a part of healing process. In general, such
reparative process could be divided into the initial phase characterized by the release
of inflammatory mediators and neurotransmitters followed by phase of formation of
primitive vascular tubes composed of the endothelial cell precursors which are later on
adhered to and stabilized by pericyte cells. Process of angiogenesis (by sprouting as
well as nonsprouting) takes usually between 4-6 weeks depending on degree of the
initial tissue ischemia and hypoxia. Development of new collateral blood flow in the
ischemic/hypoxic tissue can be monitored by the Laser Doppler - Flowmetry, level of
Transcutaneous TcpO2 and TcpCO2, Toe Pressure and Skin Perfusion Pressure measurements,
the Index Ankle-Arm ABI using Duplex Doppler Ultrasound, angiography, MRI or
alternatively by common methods used in nuclear medicine. Analysis and interpretation
of all these measurements should define degree of efficacy and safety of this
therapeutic modality and may suggest future directions in optimization of this therapy.
2. PROJECT OBJECTIVES:
Primary objective: To evaluate an efficacy-safety profile of autologous bone marrow stem
cells (ABMSCs) transplantated into chronically and critically ischemic limb (CLI) and into
diabetic foot in stage IV Fontaine classification.
Secondary objectives: To assess effect of ABMSCs on tissue perfusion of ischemic limb after
transplantation by transcutaneous oximetry and the laser Doppler flowmetry using Periflux
5000 system under normal and provocation test conditions. In addition, wound healing of
ulcers will be evaluated using a planimetry method from photographs of affected skin taken
pre- and post-transplantation.
Relationship between CD 34 progenitor counts separated on gradient-density separation
centrifuge from Harvest Technologies and overall effectiveness and safety to treat ischemic
limb.
Priorities: Beside assessment of effectiveness and safety of ABMSCs transplantation ultimate
emphasis will be put on avoiding limb amputation. This has significant socioeconomic impact.
Therefore this project belongs to the priority programs of clinical research in
cardiovascular diseases.
METHODOLOGY AND PATIENT RECRUITMENT:
A total of 90 patients (45 patients per year) will be recruited over the period of 2 years
for this study.
Separation of ABMSCs and their application:
Concentrate of autologous stem cells (CD 34 positive) will be separated from the bone marrow
aspirate using the cell separator from Harvest Technologies. Bone marrow is collected from
both iliac bone shovels according to standard Yamshidi puncture aspiration methodology.
During this procedure the patient is under analgosedation using propophol iv bolus and
physiological signs including blood pressure (BP), pulse, ECG, pO2 saturation are
continuously monitored and adjusted according to needs. In brief, 240 ml of the bone marrow
is aspirated into an aspiration set pre filed with ACD-A anticoagulant (30 ml) by
hematologist and processed using the cell separator from Harvest Technologies. This
equipment is easy to operate and has several advantages compared to other cell separators on
the market. The methodology is (a) simple, easy, fast, and safe using gradient density
centrifugation to separate all blood elements including white cells, platelets, red cells
from collected bone marrow in centrifuge containers into a sample with 5 % hematocrit
(containing ABMSCs and platelets) within 15 minutes. Thereafter 40 ml of sample is aspirated
into a syringe and immediately applied by multiple injections in the ischemic limb. Whole
procedure should take less than one hour.
Monitoring of quality and clinical effects of ABMSCs transplantation:
Bone marrow will be examined before and after separation of ABMSCs to assess number of CD 34
positive progenitors as well as number of other cellular components including platelets.
Prior- (0 days-baseline) and post transplantation (1, 7, 14, 30, 60, and 120 days) all
patients will undergo following examinations: Laser Doppler Flowmetry - assessment of blood
flow; measurements of transcutaneous oxygen (TcpO2) and CO2 (TcpCO2) levels with and without
provocation test (with O2 inhalation). Complete battery of tests such as CBC and
differential, fibrinogen and CPR will also be established. In addition, ABI-Ankle-Brachial
Index, TP-Toe Pressure, SPP-Skin Perfusion Pressure, Rutherford and Fontaine Cathegory,
analgetics consumption (requirements), claudication interval in non-amputated patients will
also be monitored. These values will be collected and then correlated with the degree of
initial ischemia/hypoxia as well as with changes in ischemia/hypoxia developed within 120
postoperative days (6 intervals).
4 / EXPECTED RESULTS AND THE IMPORTANCE OF SOCIO-ECONOMIC IMPACT Our preliminary pilot data
suggest that in 60% of patients suffering from chronic critical limb ischemia which failed
to common therapy, limb amputations were prevented. In this patients leg wound healed very
well within the 120 days following ABMSCs transplantation. This is a remarkable success when
compared to historical controls with 100% amputations, particularly in ischemic leg at the
end-stages with failed therapy (Rutherford 4-6 and Fontaine IV classification) of CLI and
diabetic foot with wounds. We expect to confirm these results and set a new standard for the
treatment of this condition with ABMSCs transplantation in Faculty Hospital Ostrava and the
Czech Republic as well. We feel that our new treatment will have significant positive
socioeconomic impact on our patients and entire Czech society.
5 / MATERIALS AND HUMAN RESOURCES 5.1 Patients included in the project will be examined in
the interventional angiology FN Ostrava laboratory were inclusion end exclusion criteria
will be considered. They will be included to the study after completing standard
revascularisation (Bypass or PTA-stent of the leg arteries) treatment, meeting the criteria
of end-stage Fontaine - IV and Rutherford 4-6 classification of the CLI.
5.2 Entrance examinations - will be carried out by the duplex doppler legs examination,
measuring of ankle pressure, ankle-brachial index and toe pressure, measurement of SPP- skin
perfusion pressure with laser doppler and measurement of transcutaneous TcpO2 and TcpCO2.
The patient will have initial angiographic examination by DSA, CTA or MRA to assess depleted
basic revascularisation treatment.
5.3 Personnel cooperation: The candidate -Vaclav Prochazka, MD, PhD, MSc will coordinate
patients recruitment, entry examinations carry out and will be involved in data collection
and data management. Jaromir Gumulec, MD will participate in the bone marrow collection and
separation and data-processing, blood samples laboratory tests and data management. Prof..
Peter Klement, MVDr, Ph.D. will contribute to ensure the logistics and processing of
statistical datas and ensure the publications and presentations in the foreign journals.
Frantisek Jaluvka, MD will contribute patients hospitalisation to the surgical clinic,
subsequent podology ambulatory care for these patients and will participate in the BMSC
transplantatation procedure to ensure desinfection and sterility of operating environment.
Jana Chmelova, MD. will participate on the transplantation programe procedures, data
processing and ensuring the creation of publications.
6 / TIME WORK PLAN During the first and second year 45 patients each will be enrolled (in
total 90). All patients will be treated with autologous BMSC Tx and monitoring of clinical
state with endpoints of limb amputation or wound healing will be donne. Hematology datas of
separated bone marrow samples will be analysed and examination of peripheral venous blood
samples laboratory datas at day 0,1,3,7,14,30 will be carried out. Entire datas of tissue
perfusion with laser doppler flow (LDP), including provocation tests and measurements of
TcpO2 and TcpCO2 including inhalation tests for appreciation of the tissue perfusion state
will be evaluated. Ankle pressures with the ABI- index, SPP- skin perfusion pressure and TP-
toe pressure will be examined. Simultaneously dynamic legs scintigraphy before and 6 months
after the procedure will be carried out. In the non-amputated patients claudication interval
will be tested and Rutherford plus Fontaine stage classification will be counted. In the
last 3rd year of the project, patients follow-up will continue with data files and
statistical evaluation managements. In the 1st. and 2nd year, interim period report with the
economic data assessment will be taken out and in the 3rd year final report will be
completed.
7 / INFORMED CONSENT Dear patient Mr/Mrs.., You have been invited by Your doctor for the
therapeutic procedure of autologous bone marrow stem cells transplantation. You have the
right to freely decide on about further proposed procedure (if specific legislation do not
exclude this right) and you have the inalienable right to be fully informed about these
procedure. Based on Your current health status, therapeutic procedure of the bone marrow
stem cells transplantation for the treatment of chronical critical limb ischemia was
designed to You by Your medical specialist.
8 / CONCLUSION OF THE PROJECT The project will be prepared for publication in the
Circulation and Stem Cell Therapy journals and will be presented at domestic and foreign
angiology, haematology and vascular surgery meetings, with the publication of abstracts
accompanied by IGA grant annotations.
;
Allocation: Randomized, Endpoint Classification: Safety/Efficacy Study, Intervention Model: Parallel Assignment, Masking: Open Label, Primary Purpose: Treatment
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