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Overview

The goal of this clinical research study is to learn if calcium alumina-silicate (CASAD) can help to stop your diarrhea. Researchers also want to know if this drug can help decrease the duration of your diarrhea.
In this study, CASAD will be compared to a placebo. A placebo is not a drug. It looks like the study drug but it is not designed to treat any disease or illness. It is designed in this study to be compared with the study drug to learn if the study drug has any real effect.

Start Date01 Dec 2013

Sponsor / Collaborator

The University of Texas MD Anderson Cancer Center

[+1]

NCT01739634

/ Unknown statusPhase 1/2

The Efficacy of CASAD in Patients With Diarrhea Related to Medullary Thyroid Cancer

Diarrhea in patients with MTC (Medullary Thyroid Cancer) can be debilitating and, in some cases life threatening. Findings in such patients include volume depletion, renal insufficiency, and electrolyte disorders. Diarrhea can also lead to increased cost of care, reduced quality of life, and treatment delays. Not all patients benefit from conventional anti-diarrheal therapy. CASAD is proven to reduce diarrhea in humans and animals. Clays have water-binding effects, increase the absorptive capacity of the intestinal mucosa, and absorb the excess cytokines which are possible mechanisms of diarrhea in MTC. In this study, we will investigate if starting 1 g CASAD three times a day will ameliorate the severity of diarrhea in patients with MTC. Diarrhea in patients with MTC can be debilitating and, in some cases life threatening. Findings in such patients include volume depletion, renal insufficiency, and electrolyte disorders. We hypothesize that adding CASAD 3 grams/day will reduce the incidence and ameliorate the severity of diarrhea in patients with MTC.

Start Date01 Nov 2012

Sponsor / Collaborator

Salient Pharmaceuticals, Inc.

NCT01570634

/ TerminatedPhase 2

Proof-of-Concept, CASAD for Treatment of Clostridium Difficile Infection

Clostridium difficile (C. difficile) can cause symptoms ranging from mild diarrhea to life-threatening colitis. Illness from C. difficile most commonly affects patients in hospitals and long-term care facilities and typically occurs after a patient has received antibiotics.
In vitro data indicate Calcium Aluminosilicate Anti-Diarrheal (CASAD) has the potential to bind TNFα, IL-1, IL-6, and IL-10 in the intestines and, therefore, may act to reduce severity of fever, leukocytosis, and bowel injury in patients with C. difficile infection. This would likely occur in conjunction with neutralization of C. difficile toxins A&B by CASAD. Computer modeling of CASAD performed by Phillips et al. at Texas A&M University supports this hypothesis.
The investigators hypothesize that adding CASAD 1.5 grams po tid to any standard-of-care therapy will reduce the duration and severity of diarrhea and other symptoms in patients with C. difficile infection.

Start Date01 Mar 2012

Sponsor / Collaborator

Salient Pharmaceuticals, Inc.

[+1]

100 Clinical Results associated with Salient Pharmaceuticals, Inc.

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0 Patents (Medical) associated with Salient Pharmaceuticals, Inc.

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Literatures (Medical) associated with Salient Pharmaceuticals, Inc.

01 Dec 2015·Antimicrobial agents and chemotherapyQ2 · MEDICINE

Effective Sequestration of Clostridium difficile Protein Toxins by Calcium Aluminosilicate

Q2 · MEDICINE

Article

Author: Pokusaeva, Karina ; Sturino, Joseph M. ; Carpenter, Robert

ABSTRACT:

Clostridium difficile is a leading cause of antibiotic-associated diarrhea and the etiologic agent responsible for C. difficile infection. Toxin A (TcdA) and toxin B (TcdB) are nearly indispensable virulence factors for Clostridium difficile pathogenesis. Given the toxin-centric mechanism by which C. difficile pathogenesis occurs, the selective sequestration with neutralization of TcdA and TcdB by nonantibiotic agents represents a novel mode of action to prevent or treat C. difficile- associated disease. In this preclinical study, we used quantitative enzyme immunoassays to determine the extent by which a novel drug, calcium aluminosilicate uniform particle size nonswelling M-1 (CAS UPSN M-1), is capable of sequestering TcdA and TcdB in vitro . The following major findings were derived from the present study. First, we show that CAS UPSN M-1 efficiently sequestered both TcdA and TcdB to undetectable levels. Second, we show that CAS UPSN M-1's affinity for TcdA is greater than its affinity for TcdB. Last, we show that CAS UPSN M-1 exhibited limited binding affinity for nontarget proteins. Taken together, these results suggest that ingestion of calcium aluminosilicate might protect gastrointestinal tissues from antibiotic- or chemotherapy-induced C. difficile infection by neutralizing the cytotoxic and proinflammatory effects of luminal TcdA and TcdB.

100 Deals associated with Salient Pharmaceuticals, Inc.

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100 Translational Medicine associated with Salient Pharmaceuticals, Inc.

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Pipeline

Pipeline Snapshot as of 04 May 2025

The statistics for drugs in the Pipeline is the current organization and its subsidiaries are counted as organizations,Early Phase 1 is incorporated into Phase 1, Phase 1/2 is incorporated into phase 2, and phase 2/3 is incorporated into phase 3

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