Clinical Trial

Disease: Transfusion-Dependent β-Thalassemia, TDT, (NCT05356195)

Disease info:

Beta-thalassemia is a group of blood disorders characterised by a reduction in the production of haemoglobin. Haemoglobin is the iron-containing protein in red blood cells that carries oxygen to cells throughout the body.

Haemoglobin is encoded by genes that encode the building blocks of the haemoglobin protein. Mutations in these genes can produce abnormal haemoglobins leading to a family of conditions termed "haemoglobinopathies". Abnormal haemoglobin appears in one of three basic circumstances:

  1. Structural defects in the haemoglobin molecule. Alterations in the gene for one of the two haemoglobin subunit chains, alpha (a) or beta (b), are called mutations. Often, mutations change a single amino acid building block in the subunit. Most commonly the change is innocuous, perturbing neither the structure nor function of the haemoglobin molecule. Occasionally, alteration of a single amino acid dramatically disturbs the behavior of the haemoglobin molecule and produces a disease state. Sickle haemoglobin exemplifies this phenomenon.
  2. Diminished production of one of the two subunits of the haemoglobin molecule. Mutations that produce this condition are termed "thalassemias." Equal numbers of haemoglobin alpha and beta chains are necessary for normal function. Haemoglobin chain imbalance damages and destroys red cells thereby producing anaemia. Although there is a dearth of the affected haemoglobin subunit, with most thalassemias the few subunits synthesised are structurally normal.
  3. Abnormal associations of otherwise normal subunits. A single subunit of the alpha chain (from the a-globin locus) and a single subunit from the b-globin locus combine to produce a normal haemoglobin dimer. With severe a-thalassemia, the b-globin subunits begin to associate into groups of four (tetramers) due to the paucity of potential a-chain partners. These tetramers of b-globin subunits are functionally inactive and do not transport oxygen. No comparable tetramers of alpha globin subunits form with severe beta-thalassemia. Alpha subunits are rapidly degraded in the absence of a partner from the beta-globin gene cluster (gamma, delta, beta globin subunits).

In individuals suffering from beta-thalassemia, low levels of haemoglobin lead to a lack of oxygen in many parts of the body. People with beta-thalassemia are at an increased risk of developing abnormal blood clots.

Frequency:
Beta-thalassemia is a fairly common blood disorder worldwide. Thousands of infants with beta-thalassemia are born each year. Beta-thalassemia occurs most frequently in people from Mediterranean countries, North Africa, the Middle East, India, Central Asia
Official title:
A Phase 3 Study to Evaluate the Safety and Efficacy of a Single Dose of CTX001 in Pediatric Subjects With Transfusion-Dependent β-Thalassemia
Who:
Locations:

Not yet disclosed. 

Study start:
Apr. 1, 2022
Enrollment:
12
Gene editing method:
CRISPR-Cas9
Type of edit:
Gene disruption
Gene:
BAF Chromatin Remodeling Complex Subunit 11A (BCL11A)
Delivery method:
Electroporation - Ex-vivo
Indicator
IND Enabling Pre-clinical
Phase I Safety
Phase II Safety and Dosing
Phase III Safety and Efficacy

Status: Active not recruiting

Description

This is a single-dose, open-label study in pediatric participants with TDT. The study will evaluate the safety and efficacy of autologous CRISPR-Cas9 modified CD34+ human hematopoietic stem and progenitor cells (hHSPCs) (CTX001).

Last updated: May. 19, 2022
close
Search CRISPR Medicine