The Effect of Dietary Management and Cysteine Supplementation on Growth Parameters and Biochemical Control for Pediatric Qatari Patients Affected with Classical B6 Non-responsive Homocystinuria.

This single-arm interventional study aims to evaluate the efficacy of dietary management combined with additional cysteine (Cys) supplementation in patients with Classical Homocystinuria (HCU). The study will assess the impact on biochemical markers and growth parameters over a six-month period. The study will include pediatric patients from birth to 18 years old, residing in Qatar, a region with the highest global prevalence of HCU.

Classical HCU is an autosomal recessive disorder resulting from a deficiency in cystathionine β-synthase (CβS). This enzymatic deficiency disrupts the metabolism of methionine (Met) and leads to elevated levels of homocysteine (Hcy), while cysteine (Cys) levels remain low. Untreated, HCU can cause significant complications including ectopic lentis, elongated bones, intellectual disability, and thromboembolism. Management primarily involves dietary restrictions to reduce Met intake and supplementation of Cys, along with other treatments.

More research is needed to determine the appropriate cysteine levels in treated patients and whether additional L-cystine supplementation can improve outcomes in those with Classical homocystinuria.

In CBS deficiency, the formation of cysteine from methionine is disrupted, making cysteine a "conditionally essential" amino acid. Low cysteine concentrations may contribute to the disease's pathogenesis.

The Relationship Between Cysteine and Homocysteine (Hcy) is both cysteine and homocysteine (Hcy) contain thiol groups, and they exist in different reduced and oxidized forms. When Hcy levels are very high, they reduce the concentration of plasma cysteine, likely due to the limited thiol-binding capacity of plasma proteins. Improving homocysteine control by increasing cysteine levels highlights the importance of focusing on cysteine supplementation. Case reports even suggest that cysteine deficiency may lead to poor weight gain and growth, even with adequate energy intake.

Cysteine is added to most methionine-free L-amino acid supplements, but the quantities may not always be sufficient. Administering cysteine can be challenging due to its poor solubility and unpleasant taste.

This provides insight into the complexities of managing CBS deficiency and the potential need for individualized cysteine supplementation.

Despite the known benefits of dietary management, there is limited research on the impact of additional Cysteine supplementation. This study seeks to explore this aspect more comprehensively, especially considering varying practices and guidelines globally.