Sickle Cell Disease Clinical Trial
Official title:
A Multi-center, Randomized, Double Blind, Dose Escalation Safety Study of MP4CO in Clinically Stable Adult Sickle Cell Patients
Sickle Cell Anemia is caused by an inherited hemoglobin disorder. Healthy red blood cells
are discoid and can deform and move through small blood vessels to carry oxygen to all parts
of the body. In sickle cell disease, as red blood cells circulate and oxygen is released in
the circulatory system, the deoxygenated abnormal hemoglobin S can begin to polymerize. When
this occurs, the red blood cells can become sticky and elongated. These sickled red blood
cells are less flexible and will obstruct small blood vessels and block normal red blood
cells from traveling through the circulatory system, which limits oxygen delivery to tissues
and organs. This is known as a "sickle crisis".
Patients suffering from a sickle crisis experience severe pain and are at risk of stroke,
heart attack or even death. By lowering the level of oxygen pressure at which sickling
occurs and opening the vasculature and rapidly delivering oxygen directly to ischemic
tissues, the addition of MP4CO to existing treatment protocols may alleviate pain associated
with a sickle cell crisis, abort a crisis and/or potentially reduce the duration of a
crisis. This could mean less time in the hospital and an improved quality of life for
patients with sickle cell anemia.
To date, no specific agent has been approved to treat sickle cell crisis, to reduce the
severity of a sickling crisis, or to shorten the duration of admission. Current therapy for
a sickling crisis is limited to hydration and symptomatic pain relief with opiates when pain
is severe enough to cause admission to hospital. Administration of oxygen by inhalation
alone has not proven effective. Carbon monoxide (CO) binds to Hb S and, while attached,
prevents and reverses polymerization of Hb S chains and consequent distortion of the red
blood cell. Carbon monoxide at very low doses also acts as a messenger to cells, reducing
inflammation, reducing oxygen requirements, and preventing programmed cell death
(apoptosis).
The MP4 molecule can be modified to carry CO and other gases to enhance therapeutic benefit
for certain patients. MP4CO is therefore designed to deliver therapeutic, non-toxic levels
of CO, to provide an immediate metabolic signal to cells and to reduce inflammation. Once
the CO is released from the compound, the MP4 molecule gets oxygenated in the lung and then
delivers oxygen to ischemic tissues.
Previously published studies provide a good foundation to postulate that a chemically
modified hemoglobin such as MP4CO might have the ideal properties as an oxygen therapeutic
agent for treatment or reversal of a sickling crisis. The initial release of CO from MP4CO
is predicted to have a therapeutic effect including immediate stabilization of Hb S to
prevent further polymerization and reverse existing sickling, vasodilation of capillaries,
and anti-inflammatory properties. The subsequent circulation of the MP4 molecule as an
oxygen therapeutic agent (after converting to MP4OX following oxygenation in the lungs) will
help to 1) preferentially oxygenate ischemic cells, 2) reverse partially sickled red cells,
and 3) improve oxygenation of local tissues, thereby potentially ameliorating the painful
VOC caused by red blood cell sickling. In addition, MP4CO has enhanced chemical stability,
which enables storage at room temperature while minimizing methemoglobin formation.
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Allocation: Randomized, Endpoint Classification: Safety Study, Intervention Model: Parallel Assignment, Masking: Double Blind (Subject, Caregiver, Investigator, Outcomes Assessor)
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