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Clinical Trial Summary

This protocol is designed to develop a novel first-in-class treatment for use in critical care and life-threatening condition of hypovolemic shock with unmet need and is of national interest. Shock is a life-threatening condition of circulatory failure. It is a state of cellular and tissue hypoxia due to reduced oxygen delivery and/or increased oxygen consumption or inadequate oxygen utilization. Shock most commonly occurs when there is circulatory failure leading to reduced tissue perfusion. There are four types of shock: distributive, cardiogenic, hypovolemic, and obstructive. However, these are not exclusive, and many patients with circulatory failure have a combination of more than one form of shock (multifactorial shock).


Clinical Trial Description

Despite advances in medical science, treatments for hypovolemic shock have changed little in the past 30-40 years. A wounded soldier bleeding on the battlefield, or a trauma victim, is treated today largely as the patient would have been treated in 1970. The primary goal when treating traumatic hemorrhage is to control blood loss, support ventilation and oxygenation, and maintain cardiovascular function to preserve organ blood perfusion. Rapid volume repletion is indicated in patients with severe hypovolemic shock. Delayed therapy can lead to ischemic injury and possibly to irreversible shock and multiorgan system failure. Although resuscitation with intravenous fluids and blood products has remained the gold standard over the last twenty years, vigorous volume resuscitation may not be curative and has been associated with the development of serious complications including coagulopathy, acute lung injury, and abdominal compartment syndrome. Massive resuscitation also profoundly alters the neuroendocrine milieu needed to maintain vasomotor tone and may lead to a state of recalcitrant hypotension, multi-organ failure, and ultimately death in severely injured patients. Vasopressors are generally used to increase blood pressure and cardiac output, but sometimes they are not recommended since they do not correct the primary problem and tend to reduce tissue perfusion further. This study seeks to address the impact of centhaquine on the patient population with hypovolemic shock (prehospital SBP ≤ 90 mmHg). The inclusion of centhaquine during resuscitation could potentially prevent the profound hypotension seen in late-stage shock, limit the need for aggressive volume and blood product resuscitation, and decrease the incidence of resuscitation-associated complications. This study will investigate if early use of centhaquine during the resuscitation of hypovolemic shock results in improved survival at Day 28, fewer blood transfusions, a decreased need for crystalloid resuscitation, and a lower incidence of resuscitation related complications. In animal models of hypovolemic shock, low doses (0.006 to 0.05 mg/kg) of centhaquine proved to be highly effective in resuscitation. Centhaquine significantly decreased blood lactate and increased mean arterial pressure (MAP), pulse pressure, and cardiac output (CO), as well as decreased mortality and increased the survival time of animals with severe blood loss. Furthermore, its resuscitative effect was significantly greater compared to presently used resuscitative solutions. The proposed mechanism of action of centhaquine is that in low doses, it acts on α2B adrenergic receptors to produce venous constriction and a consequent increase in venous return to the heart, and stimulation of sodium sense in the brain to increase the intravascular blood volume. These effects increase cardiac output and tissue blood perfusion, which may be responsible for its resuscitative action. Centhaquine has been found to be an effective resuscitative agent in rat, rabbit, and swine models of hemorrhagic shock. Its safety and tolerability have been demonstrated in a human phase I study in 25 subjects. Clinical phase II and III results indicate that centhaquine is a novel first-in-class, highly effective resuscitative agent for hypovolemic shock due to blood loss. Safety and highly significant efficacy in improving blood pressure, lactate levels, base deficit, and reduction in the use of vasopressors and reduced mortality obtained in phase II and III studies in patients of hypovolemic shock are convincing. Therefore, a phase III clinical study in the United States and Europe will be conducted in patients of hypovolemic shock patients. The present multi-centric, randomized, double-blind, placebo-controlled phase-III study aims to assess the efficacy and safety of centhaquine as a resuscitative agent to be used as an adjuvant to standard treatment of hypovolemic shock. ;


Study Design


Related Conditions & MeSH terms


NCT number NCT05251181
Study type Interventional
Source Pharmazz, Inc.
Contact
Status Not yet recruiting
Phase Phase 3
Start date October 2023
Completion date October 2025

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