Proof of Concept Creatine Supplementation for Homocystinuria Study

Last updated: January 23, 2025
Sponsor: University of British Columbia
Overall Status: Active - Recruiting

Phase

N/A

Condition

N/A

Treatment

Dietary methionine tracer and protein intake

Creatine

Clinical Study ID

NCT06495567
H23-02515
  • Ages 19-40
  • Male
  • Accepts Healthy Volunteers

Study Summary

Homocystinuria is a rare and inherited metabolic disorder, people with this condition don't have an enzyme needed to break down an amino acid called homocysteine. When the body can't break down the homocysteine made from another amino acid methionine, it becomes toxic to the heart, brain, and bones. We are constantly eating methionine, a building block of protein, so a common treatment is eating a low-protein diet with medical foods and vitamin pills. This can be hard to follow due to bad tastes and missing out on foods a person enjoys, especially in children.

The goal of this study is to provide participants with a supplement containing creatine, another amino acid related to methionine and homocysteine, and learn if it lowers homocysteine production in healthy adult men. We would ultimately like to see if creatine supplements are a potential alternate treatment of Homocystinuria in this proof of concept study, before studying individuals with the condition.

Researchers in this study want to know:

  • How does the bodies digestion of isotope methionine change in breath and urine when creatine is taken in healthy young adult men?

  • How do levels of homocysteine, methionine and related metabolites change in the blood when creatine is taken by healthy young adult men?

Participants will:

  • Complete two (2), 8-hour study days on-site.

  • Eat a lower protein diet for one (1) week before the first study day, and eat a lower protein diet with creatine supplements for one (1) week before the second study day.

  • During both study days eat special hourly meals of controlled amino acids and nutrients, along with a methionine isotope. (An isotope is a stable labelled amino acid that is colourless, odorless, tasteless, and safe for consumption. In the lab we can detect this isotope in breath and urine samples collected during the study day).

  • Provide samples of breath, urine and blood. (Researchers will also take body measurements (height weight), and use non-invasive tests to measure body composition and energy needs).

Eligibility Criteria

Inclusion

Inclusion Criteria:

  • Cis-male

  • Men who are classified as normal body weight and BMI (18.5-25kg/m2)

  • Free of any concurrent illness (cold, flu, vomiting etc.)

  • Not be claustrophobic (we will place a clear hood, which can easily be removed, overyour head for approximately 20 min to measure your energy expenditure)

  • Not be enrolled in any other research studies (as this may affect our study results)

Exclusion

Exclusion Criteria:

  • Men not in good health or have a metabolic, neurological, genetic, or immunedisorder, including diabetes, hypoglycemia, hypertension and current or past historyof kidney disease

  • Men who have food allergies/sensitivities/intolerances to egg, corn, diary etc.

  • Men who have current or recent past history of ingesting creatine supplements

  • Men who are smokers

  • Men who are following a non-traditional dietary pattern (e.g. Keto diet, Atkinsdiet, paleo diet, intermittent fasting, strict vegan, calorie restricted diet etc.)

Study Design

Total Participants: 6
Treatment Group(s): 2
Primary Treatment: Dietary methionine tracer and protein intake
Phase:
Study Start date:
August 19, 2024
Estimated Completion Date:
December 31, 2025

Study Description

Homocystinuria is a rare but potentially serious inherited condition due to cystathionine beta-synthase (CBS) deficiency which causes accumulation of homocysteine and its precursor methionine.

Our hypothesis is that high doses of orally supplemented creatine will lead to a reduction of endogenous production of homocysteine. Our hypothesis is based on the tight association of the metabolic pathways for creatine synthesis and the synthesis of S-adenosylhomocysteine (SAH) which is the immediate precursor of homocysteine. Suppression of endogenous creatine synthesis through provision of exogenous creatine will lead to reduced production of SAH and thus homocysteine.

Our objectives are:

  1. To test endogenous methionine turn over using stable isotope technique in response to creatine supplementation in healthy young adult men

  2. To test changes in blood levels of homocysteine, S-adenosylmethionine (SAM), SAH and methionine as well as creatine metabolites dependent on creatine supplementation

To test the endogenous methionine turn over in response to creatine supplementation we will use stable isotope techniques utilizing labelled carbon (13C), as 1-13C-Methionine. The tracer will be given along with protein shakes composed of specific amounts of protein (1g/kg/d) and its metabolic fate can be tracked by measuring 13C labelled carbon dioxide (CO2) in breath samples and 13C species in urine with mass spectrometer. Stable isotopes have been used previously and are currently being used for metabolic studies in healthy children and adults, including pregnancy. Our Lab has special experience with this technique and has used it for the study of other inborn errors of metabolism. For the measurement of plasma levels of homocysteine, methionine, SAM, SAH, creatine and its intermediates we will use mass spectrometry, employing well established methods in our lab.

We will perform a baseline study (without previous creatine supplementation and a treatment study (with previous creatine supplementation) in two separate study days. Participants will take a diet providing 1 gram of protein /kg/day for 7 days prior to the respective study. For the treatment, study participants will additionally take 20 grams of creatine per day for 7 days. On the study days probands will take hourly experimental meals containing the tracer methionine and breath samples and urine samples will be collected to determine 13C species coming from the ingested methionine. We will collect blood during the 6th hour of the study to determine methionine and creatine related metabolites.

Connect with a study center

  • BC Children's Hospital Research Institute, University of British Columbia

    Vancouver, British Columbia V5Z4H4
    Canada

    Active - Recruiting

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