Application of a novel index for understanding vascular health following pharmacological intervention in a pre-clinical model of metabolic disease

Nithin J Menon; Brayden D Halvorson; Gabrielle H Alimorad; Jefferson C Frisbee; Daniel J Lizotte; Aaron D Ward; Daniel Goldman; Paul D Chantler; Stephanie J Frisbee

doi:10.3389/fphar.2023.1104568

Application of a novel index for understanding vascular health following pharmacological intervention in a pre-clinical model of metabolic disease

Front Pharmacol. 2023 Jan 25:14:1104568. doi: 10.3389/fphar.2023.1104568. eCollection 2023.

Authors

Nithin J Menon¹, Brayden D Halvorson¹, Gabrielle H Alimorad², Jefferson C Frisbee¹, Daniel J Lizotte^{2

3

4}, Aaron D Ward^{1

4}, Daniel Goldman¹, Paul D Chantler⁵, Stephanie J Frisbee^{2

4

6}

Affiliations

¹ Department of Medical Biophysics, London, ON, Canada.
² Department of Epidemiology and Biostatistics, London, ON, Canada.
³ Department of Computer Science, Faculty of Science, University of Western Ontario, London, ON, Canada.
⁴ Lawson Health Research Institute, London, ON, Canada.
⁵ Department of Human Performance-Exercise Physiology, School of Medicine, West Virginia University, Morgantown, WV, United States.
⁶ Department of Pathology and Laboratory Medicine, Schulich School of Medicine and Dentistry, University of Western Ontario, London, ON, Canada.

Abstract

While a thorough understanding of microvascular function in health and how it becomes compromised with progression of disease risk is critical for developing effective therapeutic interventions, our ability to accurately assess the beneficial impact of pharmacological interventions to improve outcomes is vital. Here we introduce a novel Vascular Health Index (VHI) that allows for simultaneous assessment of changes to vascular reactivity/endothelial function, vascular wall mechanics and microvessel density within cerebral and skeletal muscle vascular networks with progression of metabolic disease in obese Zucker rats (OZR); under control conditions and following pharmacological interventions of clinical relevance. Outcomes are compared to "healthy" conditions in lean Zucker rats. We detail the calculation of vascular health index, full assessments of validity, and describe progressive changes to vascular health index over the development of metabolic disease in obese Zucker rats. Further, we detail the improvement to cerebral and skeletal muscle vascular health index following chronic treatment of obese Zucker rats with anti-hypertensive (15%-52% for skeletal muscle vascular health index; 12%-48% for cerebral vascular health index; p < 0.05 for both), anti-dyslipidemic (13%-48% for skeletal muscle vascular health index; p < 0.05), anti-diabetic (12%-32% for cerebral vascular health index; p < 0.05) and anti-oxidant/inflammation (41%-64% for skeletal muscle vascular health index; 29%-42% for cerebral vascular health index; p < 0.05 for both) drugs. The results present the effectiveness of mechanistically diverse interventions to improve cerebral or skeletal muscle vascular health index in obese Zucker rats and provide insight into the superiority of some pharmacological agents despite similar effectiveness in terms of impact on intended targets. In addition, we demonstrate the utility of including a wider, more integrative approach to the study of microvasculopathy under settings of elevated disease risk and following pharmacological intervention. A major benefit of integrating vascular health index is an increased understanding of the development, timing and efficacy of interventions through greater insight into integrated microvascular function in combination with individual, higher resolution metrics.

Keywords: data analytics; rodent models of metabolic disease; vascular disease; vascular dysfunction; vascular health outcomes.

Grants and funding

Author NM is supported by an Ontario Graduate Scholarship and author BH is supported by a CIHR Doctoral Scholarship.