Stable Isotope Research Applications

Stable Isotope Assays for Urea Cycle Disorders

We quantify ureagenesis and nitrogen disposal using high-confidence 13C- and 15N-based tracer methods. Our assays provide functional, reproducible endpoints that help researchers evaluate pathway activity and therapeutic impact in UCD programs.

Trusted by Pharma and Biotech to Validate Mechanism of Action

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35+ Years exclusively in stable isotope tracer studies

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Experimental protocol designs and results delivered weeks faster than CROs
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GLP-compliant, CLIA-certified, 21 CFR Part 11 validated

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Consultative approach, with over 1,000+ studies guided from design to submission

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Understanding Urea Cycle Function

The urea cycle is the body’s primary pathway for removing ammonia produced during amino acid metabolism. In urea cycle disorders, impaired enzyme activity causes ammonia to accumulate rapidly, creating the risk of neurological injury.
Traditional markers such as ammonia or amino acids are variable but do not reliably indicate whether the urea cycle is functioning.

Stable isotope tracers provide direct, in vivo measurements of nitrogen metabolism.

They enable researchers to quantify how effectively the urea cycle and complementary pathways detoxify ammonia. 

These endpoints also provide reproducible insight into biochemical function—helping translational and clinical teams determine therapeutic impact with greater clarity.

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Endpoints & Readouts

Tracer Protocols for Urea Cycle Disorder Studies

Our tracer-based assays support mechanistic evaluation across nitrogen-handling pathways:

  • Ureagenesis via 13C-acetate
  • Distributed ammonia detoxification via the glutamate → glutamine pathway
  • Quantification of glutamine synthetase (GS) activity using 15N tracers
  • Total and labeled urea production
  • Nitrogen clearance dynamics during therapeutic intervention

These endpoints provide reproducible insight into biochemical function—helping translational and clinical teams determine therapeutic impact with greater clarity.

Below are tracer protocols used to assess pathway function in UCD research and therapeutic development.

13C-Acetate Ureagenesis Test

Measures ureagenesis rates in vivo to evaluate urea cycle function and therapeutic efficacy.

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We quantitatively determine urea synthesis rates using sodium heparin plasma specimens collected after oral ingestion of [1-13C] sodium acetate (Yudkoff et al). Once a baseline ureagenesis rate is established, changes can be evaluated in subjects with urea cycle disorders such as ornithine transcarbamylase (OTC) deficiency, including during gene therapy or RNA-based therapeutic studies.

The ureagenesis assay provides a direct functional measure of urea cycle activity. It also enhances patient safety by offering an endpoint beyond ammonia and amino acid monitoring—supporting decisions around pathway engagement and eligibility for adjustments in disease management during clinical trials.

Ureagenesis requires measurement of both 13C-urea enrichment and total urea concentration. Only small plasma volumes (25–50 µL) are needed, enabling studies in preclinical rodent models as well as pediatric and adult clinical populations.

13,15N-Glutamate / 15N-Ammonium Chloride Test

Measures glutamine synthetase (GS) activity when urea-cycle capacity is limited.

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The glutamate → glutamine route of nitrogen waste clearance complements the urea cycle by providing distributed ammonia detoxification, nitrogen trafficking, and becomes upregulated when urea-cycle capacity is limited (e.g., liver disease, urea-cycle disorders). Glutamate is converted to glutamine by glutamine synthetase: glutamate + NH₃ + ATP → glutamine

Following administration of 15N-glutamate or 15N-ammonium chloride, we measure isotopic enrichment of 15N-glutamine—and its unlabeled counterpart—in plasma samples using gas chromatography–mass spectrometry (GC-MS) or gas chromatography–combustion isotope ratio mass spectrometry (GC-C-IRMS).

These measurements quantify GS activity alongside ureagenesis, providing complementary insight into total nitrogen waste clearance.

How Researchers Use These Assays in Urea Cycle Disorders Programs

Our functional nitrogen-handling assays support decisions across:

  • Preclinical NHP studies
  • First-in-human pathway engagement studies
  • Early mechanistic evaluation of gene therapies and RNA therapeutics
  • Dose-response and target-engagement assessments
  • Interpretation of ammonia-handling variability

All Analyses Are Performed In Our Certified Laboratory Environment

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These analytical methods enabled our preclinical and clinical program… They check all the boxes from technical to personal side.”

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Looking for Answers?

Frequently Asked Questions

What does the 13C-acetate test measure?

It measures conversion of 13C-acetate into 13C-urea, providing a direct functional readout of urea cycle activity.

Why use 15N-glutamate or 15N-ammonium chloride?

These tracers quantify glutamine synthetase activity, which increases when urea cycle capacity is limited. This provides complementary insight into nitrogen clearance beyond ureagenesis.

Are these assays feasible in clinical studies?

Yes. Both assays require only small plasma samples and are well-suited for preclinical, adult, and pediatric studies. We provide tracer kits, site support, and standardized workflows for multi-site trials.

Contact Us

Measure Urea Cycle Function With Confidence

Functional nitrogen-handling data is essential for UCD research. Our 13C and 15N tracer assays provide reproducible insight into pathway activity. Let’s design the right study together.
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Metabolic Solutions, LLC.
460 Amherst St., Nashua,
NH 03063, USA

Hours of Operation
Monday – Friday
7:30 am – 6:00 pm EST 

Contact us

Metabolic Solutions, LLC.
460 Amherst St., Nashua, NH 03063, USA

(603) 598-6960

(603) 598-6973

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Research: info@metsol.com

Hours of Operation
Monday – Friday
7:30 am – 6:00 pm EST

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