Sepsis Clinical Trial
Official title:
A Pilot, Double-blind, Randomised, Placebo-controlled, Exploratory Study to Investigate the Safety and Effect of Bovine Intestinal Alkaline Phosphatase in Patients With Sepsis
Eligible patients will receive either AP or matching placebo in a double blind, randomized design and following a 2:1 ratio. All medication will be given in addition to standard care for sepsis patients. Patients will be followed for 28 days after the start of study medication administration. A blinded safety review of the study results will take place after the inclusion of 12 patients in the study.
Both bolus and continuous infusions were found to effectively reduce the LPS-induced
pro-inflammatory cytokine TNFα in piglets. When AP was administered as a bolus (160 U/kg),
the reduction of TNFα after administration of 10 μg/kg LPS in piglets was found to be in the
order of 32%. When 100 U/kg of CIAP was administered as an infusion over 50 minutes,
reaching steady state levels of 400 U/L, the reduction in TNFα after LPS challenge was
substantially (70%), as compared to TNFα levels after LPS only. A series of these studies
demonstrated that dosages of 100-120 U/kg administered over 50 minutes could effectively
reduce LPS toxicity at steady state levels around 400 U/L, about a 10 fold of the normal
alkaline phosphatase plasma levels (40 U/L in piglets). Furthermore, it is estimated that
the above-mentioned dosages can effectively detoxify 10 μg LPS/kg in piglets, which
represents an LPS-equivalent derived from about 1010 colony forming units (cfu) of E.coli.
These amounts of circulating bacteria are not easily established in a sepsis patient. It is
estimated (personal communication, Prof. S. van Deventer, Academic Medical Centre,
Amsterdam) that the bacterial load in these patients is less than 107 bacteria total, which
is equivalent to approx. 2x105 cfu/kg.
In summary, in piglets 160 U/kg AP was able to detoxify an amount of LPS equivalent to 1010
cfu E. Coli/kg, which is approximately 50,000 times the expected amount of bacteria in
sepsis patients. We therefore expect that the dosage used in human (200 U/kg) administered
over 24 hours is able to detoxify the amount of LPS present in sepsis patients. This dosage
will result in 5-times normal plasma level of alkaline phosphatase which was well tolerated
during the previous clinical trials. Since the effect of antibiotic treatment is expected to
occur within hours of administration we decided to establish this steady state level of AP
as fast as possible, which explains the initial bolus-like administration by short infusion,
followed by a prolonged steady state infusion.
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Allocation: Randomized, Endpoint Classification: Safety/Efficacy Study, Intervention Model: Single Group Assignment, Masking: Double Blind (Caregiver, Investigator), Primary Purpose: Treatment
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