CytoSolve® In Silico Combination Screening and Optimization for Testosterone Enhancement

Life Extension® is a science-driven health and wellness organization focused on evidence-based nutritional solutions that support healthy aging and metabolic function. The company emphasizes rigorous scientific substantiation and innovation, particularly for complex, multi-ingredient formulations where pathway-level validation is critical. To advance a next-generation testosterone support platform, Life Extension® partnered with CytoSolve® to apply computational modeling and combination screening methodologies.

Challenge

Enhancing testosterone levels through plant-based ingredients presents several scientific challenges:

  • Testosterone regulation involves multiple interconnected molecular pathways, including synthesis, metabolism, and hormonal feedback loops.
  • Individual ingredients may show modest effects in isolation but exhibit synergistic or antagonistic interactions in combination.
  • Traditional experimental approaches are limited in efficiently screening large ingredient sets and optimizing multi-ingredient dose ratios.
Life Extension® required a scalable, mechanistic approach to identify effective ingredient combinations and rationally optimize formulations prior to clinical testing.

How CytoSolve Helped

CytoSolve® applied its end-to-end systems biology and combination screening framework across three structured phases:

Phase 1: Ingredient Identification

  • Employed the CytoSolve® platform to identify an Initial List of plant-based bioactive ingredients with documented relevance to testosterone-related biology.
  • Applied Life Extension®–defined scientific and formulation criteria to refine the Initial List into a Filtered List of high-priority candidates.
Phase 2: In Silico Model Development

  • Identified and curated the molecular pathways governing testosterone production and metabolism from peer-reviewed literature.
  • Converted each pathway into a validated mathematical model.
  • Integrated the plurality of pathway models into a unified, quantitative in silico model of testosterone metabolism using the CytoSolve® computational engine.
Phase 3: Combination Screening and Dose Optimization

  • Screened ingredients from the Filtered List within the integrated model to evaluate efficacy at the systems level.
  • Identified the most impactful ingredients influencing testosterone-related biomarkers.
  • Applied the CytoSolve® optimization engine to determine optimal ingredient combinations and dose ratios, resulting in three distinct formulations predicted to maximize testosterone enhancement.

Key Benefits Realized

  • Systems-Level Understanding – Quantified how ingredients interact across testosterone synthesis and metabolism pathways
  • Rational Combination Design – Identified synergistic ingredient groupings rather than relying on trial-and-error formulation
  • Dose Optimization – Computationally optimized ingredient ratios prior to clinical evaluation
  • Accelerated Development – Reduced time and cost compared to purely experimental screening approaches
  • Clinical Readiness – Generated formulations supported by mechanistic evidence suitable for human studies

Outcome

The Life Extension®–CytoSolve collaboration produced three optimized, plant-based testosterone-support formulations through rigorous in silico combination screening and dose optimization. These formulations demonstrated strong predicted efficacy at the molecular systems level and advanced directly into clinical evaluation. This case study illustrates how CytoSolve® enables data-driven formulation design for complex endocrine targets, bridging computational modeling with translational and clinical research.