Autologous Bone Marrow Stem Cell Transplantation for Critical, Limb-threatening Ischemia
NCT ID: NCT00434616
Last Updated: 2011-04-06
Study Results
Results pending
The study team has not published outcome measurements, participant flow, or safety data for this trial yet. Check back later for updates.
Basic Information
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Recruitment Status
UNKNOWN
Clinical Phase
PHASE2/PHASE3
Total Enrollment
90 participants
Study Classification
INTERVENTIONAL
Study Start Date
2007-04-30
Study Completion Date
2011-07-31
Brief Summary
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Critical limb ischemia is a condition where the blood circulation in the limbs, in most cases the legs, is decreased so that pain and non healing wounds ensue. Mostly, this is a sequel of arteriosclerosis and/or diabetes. If surgical and other methods for the improvement of blood supply for the leg have failed or are not possible, most of these patients will proceed to amputation of the leg.
Bone marrow contains cells which can induce and augment the growth of new, small arteries called collateral arteries. It has been shown in animals and in some case series that the transplantation of a concentrate of the patient's own bone marrow with stem cells into the ischemic limb can improve the blood circulation via the induction of collateral growth. However, it is not known if this bone-marrow stem cell induced collateral growth is sufficient to avoid otherwise necessary amputations.
Therefore, we conduct a study to compare the efficiency of concentrated bone marrow cells injected into the critically ischemic limb compared to a placebo procedure where only saline is injected. We think that the transplantation of autologous bone marrow will reduce the number of necessary leg amputations, reduce pain and induce wound healing. In this investigation, patients with limb threatening ischemia are randomly allocated either to the bone marrow group or to the placebo group. Patients in the bone marrow group will have their bone marrow harvested under sedation, and the bone marrow cells are concentrated. The cell concentrate will then be injected directly into the muscle of the diseased leg. Patients in the placebo group will undergo sedation as well but no bone marrow harvest is done, and saline is injected into the ischemic leg. The procedure will require about 1.5-2 hours, and the subjects will be admitted to a participating vascular Centre. Monthly examinations up to three months after the bone-marrow or placebo procedure are done. After the follow-up of three months, the rate of death and amputations and the wound healing process are compared between groups. Adverse and serious adverse events will be recorded during this time period. Diagnostic studies will be obtained to measure blood flow in the treated leg during the follow up period and include skin oxygen measurements, pressure recordings in the leg and arteriography. Also, quality of life, pain and wound healing will be assessed.
After completion of the three months study participation, subjects who have been treated with placebo will be able to receive open-label bone marrow transplantation therapy.
Bone marrow contains cells which can induce and augment the growth of new, small arteries called collateral arteries. It has been shown in animals and in some case series that the transplantation of a concentrate of the patient's own bone marrow with stem cells into the ischemic limb can improve the blood circulation via the induction of collateral growth. However, it is not known if this bone-marrow stem cell induced collateral growth is sufficient to avoid otherwise necessary amputations.
Therefore, we conduct a study to compare the efficiency of concentrated bone marrow cells injected into the critically ischemic limb compared to a placebo procedure where only saline is injected. We think that the transplantation of autologous bone marrow will reduce the number of necessary leg amputations, reduce pain and induce wound healing. In this investigation, patients with limb threatening ischemia are randomly allocated either to the bone marrow group or to the placebo group. Patients in the bone marrow group will have their bone marrow harvested under sedation, and the bone marrow cells are concentrated. The cell concentrate will then be injected directly into the muscle of the diseased leg. Patients in the placebo group will undergo sedation as well but no bone marrow harvest is done, and saline is injected into the ischemic leg. The procedure will require about 1.5-2 hours, and the subjects will be admitted to a participating vascular Centre. Monthly examinations up to three months after the bone-marrow or placebo procedure are done. After the follow-up of three months, the rate of death and amputations and the wound healing process are compared between groups. Adverse and serious adverse events will be recorded during this time period. Diagnostic studies will be obtained to measure blood flow in the treated leg during the follow up period and include skin oxygen measurements, pressure recordings in the leg and arteriography. Also, quality of life, pain and wound healing will be assessed.
After completion of the three months study participation, subjects who have been treated with placebo will be able to receive open-label bone marrow transplantation therapy.
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Detailed Description
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Peripheral arterial disease (PAD) represents very advanced arteriosclerosis. It is not unusual for this condition to result in limb-threatening ischemia that usually results in amputation of the limb. About 150.000 thigh or calf amputations due to PAD are done annually in the United states.
Treatment of critical limb threatening ischemia (corresponding to Rutherford grade II or III) consists of revascularization of the leg with critically reduced blood supply. Depending on the localization and morphology of the occlusion, surgical revascularization by means of bypass surgery or catheter-based percutaneous transluminal angioplasty (PTA) may be used (even as a complementary procedure). However, successful revascularization is possible in only max. 60% to 70% of the patients affected. Patients with limb threatening ischemia which cannot be revascularized have a one-year amputation rate exceeding 80% and a 20-30% mortality.
Several studies have shown that in less advanced PAD the implantation of a concentration of mononuclear cells harvested from the patient's own bone marrow has been effective in developing collateral vessel formation translating into an improvement in PAD symptoms. Additional clinical evidence that this simple, safe and inexpensive therapy can induce therapeutic angiogenesis in the ischemic limb sufficient to prevent amputation would be valuable to both patients and clinicians.
This study will evaluate the clinical potential for the implantation of a concentration of bone marrow mononuclear cells which contain stem cells for therapeutic angiogenesis through the augmented formation of collateral vessels in the ischemic limb. It is a placebo-controlled, 1:1 randomized study with a total of 90 patients included. The placebo procedure consists of a sham bone marrow puncture where no bone marrow aspiration is done; instead, only a stab puncture of the skin is made.
The bone marrow cell concentrate will be prepared "point of care", patient-side from an aspirate of 240 mL of bone marrow. A concentrate volume of 40-50 mL will be injected into 40-50 sites in the muscles of the ischemic limb. A blinded physician injects either the bone marrow cell concentrate or the visually identical placebo solution into the ischemic leg.
Improvement in perfusion of the limb will be measured using clinical assessment and ankle-brachial-index (ABI), transcutaneous oxygen (TcPO2) and contrast angiography. Quality of life and pain will be assessed.
Study participation ends for the subjects after a follow-up of three months with monthly visits. After this, clinical and perfusion status are recorded at least three-monthly up to two years after study inclusion.
HYPOTHESIS:
Implantation of Bone Marrow stem cell Aspirate Concentrate (BMAC) can be clinically effective in treating critical limb threatening ischemia so that the number of amputations can be reduced.
Inclusion criteria:
* Presence of Critical Limb ischemia according to the guidelines of the Transatlantic Consensus Group (TASC) Rutherford grade II or III. Perfusion is measured with absolute perfusion pressure and ankle-brachial index (ABI) and transcutaneous oxygen tension (TcpO2); for inclusion, ABI has to be less than or equal to 0.6 or absolute ankle pressure must be less than 60 mmHg. If ABI is technically not feasible, e.g. in patients with media calcification, inclusion criteria are a tcpO2 value (supine, forefoot, 44°C) of less than 20 mmHg if there is no tissue loss, or a tcpO2 of less than 40 mmHg if there is tissue loss.
* No sufficient response to best standard care delivered for six weeks.
* No surgical or radiological interventional option for revascularisation as confirmed by a vascular surgeon and an interventional radiologist
* Age older than 18 years
* Signed informed consent
* Absence of life-threatening complications from the ischemic limb
Exclusion criteria:
* Expected life span less than six months
* Bone marrow diseases which preclude transplantation (eg lymphoma, leukemia, myelodysplastic syndrome and others)
* Renal failure on hemodialysis
* Life threatening complications of limb ischemia with the need for immediate limb amputation to avoid death or clinical deterioration
End points:
* Primary end point: Major amputation (above the ankle) of the index limb after 3 months or persisting critical limb ischemia of the index limb after three months
* Secondary end points:
* Wound healing (wound size, wound stage)
* Pain and analgesics use
* Rutherford grade and stage
* Walking distance (treadmill) if possible
* Quality of life (EQ-5D Questionnaire)
* Transcutaneous oxygen pressure (TcpO2), ABI, absolute ankle perfusion pressure
* Collateral artery number as judged by contrast angiography after 3 months
* Rate and extent of minor (below the ankle) amputations in the index limb
Treatment of critical limb threatening ischemia (corresponding to Rutherford grade II or III) consists of revascularization of the leg with critically reduced blood supply. Depending on the localization and morphology of the occlusion, surgical revascularization by means of bypass surgery or catheter-based percutaneous transluminal angioplasty (PTA) may be used (even as a complementary procedure). However, successful revascularization is possible in only max. 60% to 70% of the patients affected. Patients with limb threatening ischemia which cannot be revascularized have a one-year amputation rate exceeding 80% and a 20-30% mortality.
Several studies have shown that in less advanced PAD the implantation of a concentration of mononuclear cells harvested from the patient's own bone marrow has been effective in developing collateral vessel formation translating into an improvement in PAD symptoms. Additional clinical evidence that this simple, safe and inexpensive therapy can induce therapeutic angiogenesis in the ischemic limb sufficient to prevent amputation would be valuable to both patients and clinicians.
This study will evaluate the clinical potential for the implantation of a concentration of bone marrow mononuclear cells which contain stem cells for therapeutic angiogenesis through the augmented formation of collateral vessels in the ischemic limb. It is a placebo-controlled, 1:1 randomized study with a total of 90 patients included. The placebo procedure consists of a sham bone marrow puncture where no bone marrow aspiration is done; instead, only a stab puncture of the skin is made.
The bone marrow cell concentrate will be prepared "point of care", patient-side from an aspirate of 240 mL of bone marrow. A concentrate volume of 40-50 mL will be injected into 40-50 sites in the muscles of the ischemic limb. A blinded physician injects either the bone marrow cell concentrate or the visually identical placebo solution into the ischemic leg.
Improvement in perfusion of the limb will be measured using clinical assessment and ankle-brachial-index (ABI), transcutaneous oxygen (TcPO2) and contrast angiography. Quality of life and pain will be assessed.
Study participation ends for the subjects after a follow-up of three months with monthly visits. After this, clinical and perfusion status are recorded at least three-monthly up to two years after study inclusion.
HYPOTHESIS:
Implantation of Bone Marrow stem cell Aspirate Concentrate (BMAC) can be clinically effective in treating critical limb threatening ischemia so that the number of amputations can be reduced.
Inclusion criteria:
* Presence of Critical Limb ischemia according to the guidelines of the Transatlantic Consensus Group (TASC) Rutherford grade II or III. Perfusion is measured with absolute perfusion pressure and ankle-brachial index (ABI) and transcutaneous oxygen tension (TcpO2); for inclusion, ABI has to be less than or equal to 0.6 or absolute ankle pressure must be less than 60 mmHg. If ABI is technically not feasible, e.g. in patients with media calcification, inclusion criteria are a tcpO2 value (supine, forefoot, 44°C) of less than 20 mmHg if there is no tissue loss, or a tcpO2 of less than 40 mmHg if there is tissue loss.
* No sufficient response to best standard care delivered for six weeks.
* No surgical or radiological interventional option for revascularisation as confirmed by a vascular surgeon and an interventional radiologist
* Age older than 18 years
* Signed informed consent
* Absence of life-threatening complications from the ischemic limb
Exclusion criteria:
* Expected life span less than six months
* Bone marrow diseases which preclude transplantation (eg lymphoma, leukemia, myelodysplastic syndrome and others)
* Renal failure on hemodialysis
* Life threatening complications of limb ischemia with the need for immediate limb amputation to avoid death or clinical deterioration
End points:
* Primary end point: Major amputation (above the ankle) of the index limb after 3 months or persisting critical limb ischemia of the index limb after three months
* Secondary end points:
* Wound healing (wound size, wound stage)
* Pain and analgesics use
* Rutherford grade and stage
* Walking distance (treadmill) if possible
* Quality of life (EQ-5D Questionnaire)
* Transcutaneous oxygen pressure (TcpO2), ABI, absolute ankle perfusion pressure
* Collateral artery number as judged by contrast angiography after 3 months
* Rate and extent of minor (below the ankle) amputations in the index limb
Conditions
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Peripheral Vascular Disease
Diabetic Foot
Peripheral Arterial Occlusive Disease
Leg Ulcer
Gangrene
Ischemia
Study Design
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Allocation Method
RANDOMIZED
Intervention Model
PARALLEL
Primary Study Purpose
TREATMENT
Blinding Strategy
QUADRUPLE
Participants
Caregivers
Investigators
Outcome Assessors
Study Groups
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1
saline injections
Group Type
PLACEBO_COMPARATOR
saline injection
Intervention Type
BIOLOGICAL
saline injections
2
autologous bone marrow transplantation into the ischemic leg
Group Type
ACTIVE_COMPARATOR
Autologous bone marrow cell concentrate transplantation
Intervention Type
PROCEDURE
bone marrow aspiration (240 ml), processing and reinjection
Interventions
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Autologous bone marrow cell concentrate transplantation
bone marrow aspiration (240 ml), processing and reinjection
Intervention Type
PROCEDURE
saline injection
saline injections
Intervention Type
BIOLOGICAL
Eligibility Criteria
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Inclusion Criteria
* No sufficient response to best standard care delivered for six weeks.
* No surgical or radiological interventional option for revascularisation as confirmed by a vascular surgeon and an interventional radiologist
* Age older than 18 years
* Signed informed consent
* Absence of life-threatening complications from the ischemic limb
* No surgical or radiological interventional option for revascularisation as confirmed by a vascular surgeon and an interventional radiologist
* Age older than 18 years
* Signed informed consent
* Absence of life-threatening complications from the ischemic limb
Exclusion Criteria
* Expected life span less than six months
* Bone marrow diseases which preclude transplantation (eg lymphoma, leukaemia, myelodysplastic syndrome and others)
* Renal failure on hemodialysis
* Life threatening complications of limb ischemia with the need for immediate limb amputation to avoid death or clinical deterioration
* Bone marrow diseases which preclude transplantation (eg lymphoma, leukaemia, myelodysplastic syndrome and others)
* Renal failure on hemodialysis
* Life threatening complications of limb ischemia with the need for immediate limb amputation to avoid death or clinical deterioration
Minimum Eligible Age
18 Years
Maximum Eligible Age
95 Years
Eligible Sex
ALL
Accepts Healthy Volunteers
No
Sponsors
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Klinikum Karlsbad-Langensteinbach
OTHER
Sponsor Role
collaborator
Stiftungsklinikum Boppard
UNKNOWN
Sponsor Role
collaborator
Krankenhaus der Barmherzigen Brüder Trier
OTHER
Sponsor Role
collaborator
Franziskus-Krankenhaus
OTHER
Sponsor Role
lead
Responsible Party
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Franziskus-Krankenhaus berlin, germany
Principal Investigators
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Berthold Amann, MD
Role: PRINCIPAL_INVESTIGATOR
Franziskus Hospital, Berlin Vascular Center
Locations
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Franziskus Hospital Berlin Vascular Center
Berlin, State of Berlin, Germany
Site Status
Countries
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Germany
References
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Tateishi-Yuyama E, Matsubara H, Murohara T, Ikeda U, Shintani S, Masaki H, Amano K, Kishimoto Y, Yoshimoto K, Akashi H, Shimada K, Iwasaka T, Imaizumi T; Therapeutic Angiogenesis using Cell Transplantation (TACT) Study Investigators. Therapeutic angiogenesis for patients with limb ischaemia by autologous transplantation of bone-marrow cells: a pilot study and a randomised controlled trial. Lancet. 2002 Aug 10;360(9331):427-35. doi: 10.1016/S0140-6736(02)09670-8.
Reference Type
BACKGROUND
Durdu S, Akar AR, Arat M, Sancak T, Eren NT, Ozyurda U. Autologous bone-marrow mononuclear cell implantation for patients with Rutherford grade II-III thromboangiitis obliterans. J Vasc Surg. 2006 Oct;44(4):732-9. doi: 10.1016/j.jvs.2006.06.023. Epub 2006 Aug 22.
Reference Type
BACKGROUND
Iba O, Matsubara H, Nozawa Y, Fujiyama S, Amano K, Mori Y, Kojima H, Iwasaka T. Angiogenesis by implantation of peripheral blood mononuclear cells and platelets into ischemic limbs. Circulation. 2002 Oct 8;106(15):2019-25. doi: 10.1161/01.cir.0000031332.45480.79.
Reference Type
BACKGROUND
Nizankowski R, Petriczek T, Skotnicki A, Szczeklik A. The treatment of advanced chronic lower limb ischaemia with marrow stem cell autotransplantation. Kardiol Pol. 2005 Oct;63(4):351-60; discussion 361. English, Polish.
Reference Type
BACKGROUND
Hernandez P, Cortina L, Artaza H, Pol N, Lam RM, Dorticos E, Macias C, Hernandez C, del Valle L, Blanco A, Martinez A, Diaz F. Autologous bone-marrow mononuclear cell implantation in patients with severe lower limb ischaemia: a comparison of using blood cell separator and Ficoll density gradient centrifugation. Atherosclerosis. 2007 Oct;194(2):e52-6. doi: 10.1016/j.atherosclerosis.2006.08.025. Epub 2006 Sep 18.
Reference Type
BACKGROUND
Lawall H, Bramlage P, Amann B. Stem cell and progenitor cell therapy in peripheral artery disease. A critical appraisal. Thromb Haemost. 2010 Apr;103(4):696-709. doi: 10.1160/TH09-10-0688. Epub 2010 Feb 19.
Reference Type
BACKGROUND
Amann B, Luedemann C, Ratei R, Schmidt-Lucke JA. Autologous bone marrow cell transplantation increases leg perfusion and reduces amputations in patients with advanced critical limb ischemia due to peripheral artery disease. Cell Transplant. 2009;18(3):371-80. doi: 10.3727/096368909788534942. Epub 2009 Apr 2.
Reference Type
BACKGROUND
Related Links
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http://www.franziskus-berlin.de/
Home page of Berlin Vascular Center
Other Identifiers
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FKH 200
Identifier Type: -
Identifier Source: secondary_id
2006-001825-24
Identifier Type: -
Identifier Source: org_study_id
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