Your search keyword '"Jared M. Rozowsky"' showing total 10 results

1. Short-Term Dietary Restriction Potentiates an Anti-Inflammatory Circulating Mucosal-Associated Invariant T-Cell Response

Author

Brian Fazzone, Erik M. Anderson, Jared M. Rozowsky, Xuanxuan Yu, Kerri A. O’Malley, Scott Robinson, Salvatore T. Scali, Guoshuai Cai, and Scott A. Berceli

Subjects

short-term dietary restriction, mucosal-associated invariant T-cells, MAITs, inflammation, immune response, Nutrition. Foods and food supply, TX341-641

Abstract

Short-term protein-calorie dietary restriction (StDR) is a promising preoperative strategy for modulating postoperative inflammation. We have previously shown marked gut microbial activity during StDR, but relationships between StDR, the gut microbiome, and systemic immunity remain poorly understood. Mucosal-associated invariant T-cells (MAITs) are enriched on mucosal surfaces and in circulation, bridge innate and adaptive immunity, are sensitive to gut microbial changes, and may mediate systemic responses to StDR. Herein, we characterized the MAIT transcriptomic response to StDR using single-cell RNA sequencing of human PBMCs and evaluated gut microbial species-level changes through sequencing of stool samples. Healthy volunteers underwent 4 days of DR during which blood and stool samples were collected before, during, and after DR. MAITs composed 2.4% of PBMCs. More MAIT genes were differentially downregulated during DR, particularly genes associated with MAIT activation (CD69), regulation of pro-inflammatory signaling (IL1, IL6, IL10, TNFα), and T-cell co-stimulation (CD40/CD40L, CD28), whereas genes associated with anti-inflammatory IL10 signaling were upregulated. Stool analysis showed a decreased abundance of multiple MAIT-stimulating Bacteroides species during DR. The analyses suggest that StDR potentiates an anti-inflammatory MAIT immunophenotype through modulation of TCR-dependent signaling, potentially secondary to gut microbial species-level changes.

Published

2024

2. Baseline local hemodynamics as predictor of lumen remodeling at 1-year follow-up in stented superficial femoral arteries

Author

Monika Colombo, Yong He, Anna Corti, Diego Gallo, Stefano Casarin, Jared M. Rozowsky, Francesco Migliavacca, Scott Berceli, and Claudio Chiastra

Subjects

Medicine, Science

Abstract

Abstract In-stent restenosis (ISR) is the major drawback of superficial femoral artery (SFA) stenting. Abnormal hemodynamics after stent implantation seems to promote the development of ISR. Accordingly, this study aims to investigate the impact of local hemodynamics on lumen remodeling in human stented SFA lesions. Ten SFA models were reconstructed at 1-week and 1-year follow-up from computed tomography images. Patient-specific computational fluid dynamics simulations were performed to relate the local hemodynamics at 1-week, expressed in terms of time-averaged wall shear stress (TAWSS), oscillatory shear index and relative residence time, with the lumen remodeling at 1-year, quantified as the change of lumen area between 1-week and 1-year. The TAWSS was negatively associated with the lumen area change (ρ = − 0.75, p = 0.013). The surface area exposed to low TAWSS was positively correlated with the lumen area change (ρ = 0.69, p = 0.026). No significant correlations were present between the other hemodynamic descriptors and lumen area change. The low TAWSS was the best predictive marker of lumen remodeling (positive predictive value of 44.8%). Moreover, stent length and overlapping were predictor of ISR at follow-up. Despite the limited number of analyzed lesions, the overall findings suggest an association between abnormal patterns of WSS after stenting and lumen remodeling.

Published

2021

3. Temporal Dynamics of the Intestinal Microbiome Following Short-Term Dietary Restriction

Author

Erik M. Anderson, Jared M. Rozowsky, Brian J. Fazzone, Emilie A. Schmidt, Bruce R. Stevens, Kerri A. O’Malley, Salvatore T. Scali, and Scott A. Berceli

Subjects

dietary intervention, dietary restriction, caloric restriction, microbiome, intestinal microbiome, pre-operative care, Nutrition. Foods and food supply, TX341-641

Abstract

Short-term dietary restriction has been proposed as an intriguing pre-operative conditioning strategy designed to attenuate the surgical stress response and improve outcomes. However, it is unclear how this nutritional intervention influences the microbiome, which is known to modulate the systemic condition. Healthy individuals were recruited to participate in a four-day, 70% protein-restricted, 30% calorie-restricted diet, and stool samples were collected at baseline, after the restricted diet, and after resuming normal food intake. Taxonomy and functional pathway analysis was performed via shotgun metagenomic sequencing, prevalence filtering, and differential abundance analysis. High prevalence species were altered by the dietary intervention but quickly returned to baseline after restarting a regular diet. Composition and functional changes after the restricted diet included the decreased relative abundance of commensal bacteria and a catabolic phenotype. Notable species changes included Faecalibacterium prausnitzii and Roseburia intestinalis, which are major butyrate producers within the colon and are characteristically decreased in many disease states. The macronutrient components of the diet might have influenced these changes. We conclude that short-term dietary restriction modulates the ecology of the gut microbiome, with this modulation being characterized by a relative dysbiosis.

Published

2022

4. Temporal Dynamics of the Intestinal Microbiome after Short-Term Dietary Protein Restriction

Author

Erik M. Anderson, Jared M. Rozowsky, Kerri A. O'Malley, Bruce R. Stevens, Salvatore T. Scali, and Scott A. Berceli

Subjects

Diseases of the circulatory (Cardiovascular) system, RC666-701

Published

2021

5. A predictive multiscale model of in-stent restenosis in femoral arteries: linking haemodynamics and gene expression with an agent-based model of cellular dynamics

Author

Anna Corti, Monika Colombo, Jared M. Rozowsky, Stefano Casarin, Yong He, Dario Carbonaro, Francesco Migliavacca, Jose F. Rodriguez Matas, Scott A. Berceli, and Claudio Chiastra

Subjects

Pathologic, Biomedical Engineering, Biophysics, Hemodynamics, Gene Expression, agent-based modeling, Bioengineering, lower-limb peripheral arteries, computational fluid dynamics, Constriction, Pathologic, mechanobiology, agent-based modelling, multiscale modeling, Biochemistry, Constriction, Biomaterials, Coronary Restenosis, Femoral Artery, multiscale modelling, restenosis, Humans, Life Sciences–Engineering interface, Biotechnology

Abstract

In-stent restenosis (ISR) is a maladaptive inflammatory-driven response of femoral arteries to percutaneous transluminal angioplasty and stent deployment, leading to lumen re-narrowing as consequence of excessive cellular proliferative and synthetic activities. A thorough understanding of the underlying mechanobiological factors contributing to ISR is still lacking. Computational multiscale models integrating both continuous- and agent-based approaches have been identified as promising tools to capture key aspects of the complex network of events encompassing molecular, cellular and tissue response to the intervention. In this regard, this work presents a multiscale framework integrating the effects of local haemodynamics and monocyte gene expression data on cellular dynamics to simulate ISR mechanobiological processes in a patient-specific model of stented superficial femoral artery. The framework is based on the coupling of computational fluid dynamics simulations (haemodynamics module) with an agent-based model (ABM) of cellular activities (tissue remodelling module). Sensitivity analysis and surrogate modelling combined with genetic algorithm optimization were adopted to explore the model behaviour and calibrate the ABM parameters. The proposed framework successfully described the patient lumen area reduction from baseline to one-month follow-up, demonstrating the potential capabilities of this approach in predicting the short-term arterial response to the endovascular procedure.

Published

2022

6. Baseline local hemodynamics as predictor of lumen remodeling at 1-year follow-up in stented superficial femoral arteries

Author

Scott A. Berceli, Jared M. Rozowsky, Diego Gallo, Monika Colombo, Anna Corti, Stefano Casarin, Francesco Migliavacca, Claudio Chiastra, and Yong He

Subjects

medicine.medical_specialty, Time Factors, Science, Area change, medicine.medical_treatment, 0206 medical engineering, Lumen (anatomy), Hemodynamics, 1 year follow up, 02 engineering and technology, Constriction, Pathologic, 030204 cardiovascular system & hematology, Article, 03 medical and health sciences, Peripheral Arterial Disease, 0302 clinical medicine, Restenosis, Negatively associated, Internal medicine, medicine, Humans, Computer Simulation, Aged, Spatial Analysis, Multidisciplinary, Superficial femoral artery, business.industry, Stent, Atrial Remodeling, Middle Aged, medicine.disease, 020601 biomedical engineering, Femoral Artery, Logistic Models, Risk factors, Peripheral vascular disease, Cardiology, Medicine, Stents, business, Shear Strength, Tomography, X-Ray Computed, Biomedical engineering, Follow-Up Studies

Abstract

In-stent restenosis (ISR) is the major drawback of superficial femoral artery (SFA) stenting. Abnormal hemodynamics after stent implantation seems to promote the development of ISR. Accordingly, this study aims to investigate the impact of local hemodynamics on lumen remodeling in human stented SFA lesions. Ten SFA models were reconstructed at 1-week and 1-year follow-up from computed tomography images. Patient-specific computational fluid dynamics simulations were performed to relate the local hemodynamics at 1-week, expressed in terms of time-averaged wall shear stress (TAWSS), oscillatory shear index and relative residence time, with the lumen remodeling at 1-year, quantified as the change of lumen area between 1-week and 1-year. The TAWSS was negatively associated with the lumen area change (ρ = − 0.75, p = 0.013). The surface area exposed to low TAWSS was positively correlated with the lumen area change (ρ = 0.69, p = 0.026). No significant correlations were present between the other hemodynamic descriptors and lumen area change. The low TAWSS was the best predictive marker of lumen remodeling (positive predictive value of 44.8%). Moreover, stent length and overlapping were predictor of ISR at follow-up. Despite the limited number of analyzed lesions, the overall findings suggest an association between abnormal patterns of WSS after stenting and lumen remodeling.

Published

2021

7. In-Stent Restenosis Progression in Human Superficial Femoral Arteries: Dynamics of Lumen Remodeling and Impact of Local Hemodynamics

Author

Francesco Migliavacca, Anna Corti, Yong He, Monika Colombo, Federica Ninno, Scott A. Berceli, Claudio Chiastra, Stefano Casarin, Diego Gallo, and Jared M. Rozowsky

Subjects

Male, Patient-Specific Modeling, In-stent restenosis, medicine.medical_specialty, Area change, medicine.medical_treatment, 0206 medical engineering, Specific time, Biomedical Engineering, Lumen (anatomy), Hemodynamics, 02 engineering and technology, Constriction, Pathologic, 030204 cardiovascular system & hematology, Computational fluid dynamics, 03 medical and health sciences, Wall shear stress, 0302 clinical medicine, Restenosis, Longitudinal study, Patient-specific computer modeling, Peripheral artery disease, Stent overlapping, Vascular remodeling, Internal medicine, medicine, Humans, Aged, business.industry, Stent, Middle Aged, medicine.disease, 020601 biomedical engineering, Femoral Artery, Cardiology, Hydrodynamics, Original Article, Stents, High incidence, In stent restenosis, business

Abstract

In-stent restenosis (ISR) represents a major drawback of stented superficial femoral arteries (SFAs). Motivated by the high incidence and limited knowledge of ISR onset and development in human SFAs, this study aims to (i) analyze the lumen remodeling trajectory over 1-year follow-up period in human stented SFAs and (ii) investigate the impact of altered hemodynamics on ISR initiation and progression. Ten SFA lesions were reconstructed at four follow-ups from computed tomography to quantify the lumen area change occurring within 1-year post-intervention. Patient-specific computational fluid dynamics simulations were performed at each follow-up to relate wall shear stress (WSS) based descriptors with lumen remodeling. The largest lumen remodeling was found in the first post-operative month, with slight regional-specific differences (larger inward remodeling in the fringe segments, p

Published

2021

8. Temporal Dynamics of the Intestinal Microbiome after Short-Term Dietary Protein Restriction

Author

Bruce R. Stevens, Jared M. Rozowsky, Kerri O'Malley, Scott A. Berceli, Salvatore T. Scali, and Erik M. Anderson

Subjects

Genetics, RC666-701, Intestinal Microbiome, Diseases of the circulatory (Cardiovascular) system, Protein restriction, Biology, Term (time)

Published

2021

9. Metabalomic Signatures and Nitric Oxide Pathway Perturbations in Patients With End Stage Renal Disease

Author

Zhihua Jiang, Timothy J. Garrett, Jared M. Rozowsky, Scott A. Berceli, Eoin P. Quinlivan, Christopher Kuppler, and Kyle M. Staton

Subjects

business.industry, Nitric Oxide Pathway, Genetics, Cancer research, Medicine, In patient, business, Molecular Biology, Biochemistry, Biotechnology, End stage renal disease

Published

2018

10. Hyperacute Monocyte Gene Response Patterns Are Associated With Lower Extremity Vein Bypass Graft Failure

Author

Henry V. Baker, Jonathan P. Rehfuss, Peter R. Nelson, Scott A. Berceli, Yaqun Wang, Rongling Wu, Kerri A. O’Malley, Kenneth DeSart, Jared M. Rozowsky, and Lyle L. Moldawer

Subjects

Male, STAT3 Transcription Factor, 0301 basic medicine, 030204 cardiovascular system & hematology, Bioinformatics, Monocytes, Article, Transcriptome, 03 medical and health sciences, 0302 clinical medicine, Mediator, Gene expression, Cluster Analysis, Humans, Medicine, Gene Regulatory Networks, Prospective Studies, Treatment Failure, STAT3, Gene, Aged, Regulator gene, Peripheral Vascular Diseases, biology, business.industry, Angioplasty, Bayes Theorem, Arteries, General Medicine, Middle Aged, Phenotype, 030104 developmental biology, Gene Expression Regulation, Lower Extremity, Myeloid Differentiation Factor 88, biology.protein, STAT protein, RNA, Female, business

Abstract

Background: Despite being the definitive treatment for lower extremity peripheral arterial disease, vein bypass grafts fail in half of all cases. Early repair mechanisms after implantation, governed largely by the immune environment, contribute significantly to long-term outcomes. The current study investigates the early response patterns of circulating monocytes as a determinant of graft outcome. Methods: In 48 patients undergoing infrainguinal vein bypass grafting, the transcriptomes of circulating monocytes were analyzed preoperatively and at 1, 7, and 28 days post-operation. Results: Dynamic clustering algorithms identified 50 independent gene response patterns. Three clusters (64 genes) were differentially expressed, with a hyperacute response pattern defining those patients with failed versus patent grafts 12 months post-operation. A second independent data set, comprised of 96 patients subjected to major trauma, confirmed the value of these 64 genes in predicting an uncomplicated versus complicated recovery. Causal network analysis identified 8 upstream elements that regulate these mediator genes, and Bayesian analysis with a priori knowledge of the biological interactions was integrated to create a functional network describing the relationships among the regulatory elements and downstream mediator genes. Linear models predicted the removal of either STAT3 (signal transducer and activator of transcription 3) or MYD88 (myeloid differentiation primary response 88) to shift mediator gene expression levels toward those seen in successful grafts. Conclusions: A novel combination of dynamic gene clustering, linear models, and Bayesian network analysis has identified a core set of regulatory genes whose manipulations could migrate vein grafts toward a more favorable remodeling phenotype.

Published

2018