Clinical improvements after treatment with a low-valine and low-fat diet in a pediatric patient with enoyl-CoA hydratase, short chain 1 (ECHS1) deficiency.
Study Goal
The researchers aimed to evaluate the therapeutic effects of a valine- and fat-restricted diet, particularly low in dairy fat, on disease progression in a patient with ECHS1 deficiency.
Results Summary
The patient showed improved dystonia and walking ability after three years on the diet, leading to enhanced autonomy and quality of life. The diet was well-tolerated and adhered to, suggesting potential benefits in managing ECHS1 deficiency.
Population
A single 8-year-old male with ECHS1 deficiency presenting severe dystonia, hyperlordosis, kyphoscoliosis, and dysarthria.
Effective Dosage
Not specified (valine-restricted, total fat-restricted, particularly low in dairy fat).
Duration
3 years
Interactions
None mentioned
| Intervention | Direction | Endpoint | Population | Dosage | Impact | Claim # |
|---|---|---|---|---|---|---|
valine-restricted and total fat-restricted diet | decrease | dystonia | male with ECHS1 deficiency | - | noticed an improvement | #1 |
valine-restricted and total fat-restricted diet | increase | walking | male with ECHS1 deficiency | - | improvement | #2 |
valine-restricted and total fat-restricted diet | decrease | walking or standing | male with ECHS1 deficiency | - | requires minimal support | #3 |
valine-restricted and total fat-restricted diet | increase | autonomy to go to school or establish a career | male with ECHS1 deficiency | - | enhanced | #4 |
valine-restricted and total fat-restricted diet | increase | quality of life | male with ECHS1 deficiency | - | greatly increased | #5 |
valine-restricted and total fat-restricted diet | increase | motivation for treatment | male with ECHS1 deficiency | - | greatly increased | #6 |
valine- and fat-restricted diet, particularly dairy fat-restricted diet | decrease | disease progression | patient with ECHS1 deficiency | - | appeared to limit | #7 |
BACKGROUND: Enoyl-CoA hydratase short-chain 1 (ECHS1) is a key mitochondrial enzyme that is involved in valine catabolism and fatty acid beta-oxidation. Mutations in the ECHS1 gene lead to enzymatic deficiency, resulting in the accumulation of certain intermediates from the valine catabolism pathway. This disrupts the pyruvate dehydrogenase complex and the mitochondrial respiratory chain, with consequent cellular damage. Patients present with a variable age of onset and a wide spectrum of clinical features. The Leigh syndrome phenotype is the most frequently reported form of the disease. Herein, we report a case of a male with ECHS1 deficiency who was diagnosed at 8 years of age. He presented severe dystonia, hyperlordosis, moderate to severe kyphoscoliosis, great difficulty in walking, and severe dysarthria. A valine-restricted and total fat-restricted diet was considered as a therapeutic option after the genetic diagnosis. An available formula that restricted branched-chain amino acids and especially restricted valine was used. We also restricted animal protein intake and provided a low-fat diet that was particularly low in dairy fat. RESULTS: This protein- and fat-restricted diet was initiated with adequate tolerance and adherence. After three years, the patient noticed an improvement in dystonia, especially in walking. He currently requires minimal support to walk or stand. Therefore, he has enhanced his autonomy to go to school or establish a career for himself. His quality of life and motivation for treatment have greatly increased. CONCLUSIONS: There is still a substantial lack of knowledge about this rare disorder, especially knowledge about future effective treatments. However, early diagnosis and treatment with a valine- and fat-restricted diet, particularly dairy fat-restricted diet, appeared to limit disease progression in this patient with ECHS1 deficiency.