Publications by authors named "Christopher M Ferguson"

Atherosclerotic renal artery stenosis (ARAS) is associated with irreversible parenchymal renal disease and regenerative stem cell therapies may improve renal outcomes. Hypoxia preconditioning (HPC) may improve the regenerative functions of adipose tissue-derived mesenchymal stem cells (AMSC) by affecting DNA 5-hydroxymethylcytosine (5hmC) marks in angiogenic genes. Here, we investigated using a porcine ARAS model, whether growth of ARAS AMSCs in hypoxia (Hx) versus normoxia (Nx) would enhance renal tissue repair, and comprehensively analyze how HPC modifies DNA hydroxymethylation compared to untreated ARAS and healthy/normal pigs (n=5 each).

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Clinical translation of mesenchymal stem/stromal cell (MSC) therapy has been impeded by the heterogenous nature and limited replicative potential of adult-derived MSCs. Human embryonic stem cell-derived MSCs (hESC-MSCs) that differentiate from immortal cell lines are phenotypically uniform and have shown promise in-vitro and in many disease models. Similarly, adipose tissue-derived MSCs (MSC(AT)) possess potent reparative properties.

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To explore the impact of obesity on reparative potency of adipose tissue-derived mesenchymal stromal/stem cells (A-MSC) in hypertensive cardiomyopathy, A-MSC were harvested from subcutaneous fat of obese and age-matched non-obese human subjects during bariatric or kidney donation surgeries, and then injected into mice 2 weeks after inducing renovascular hypertension (RVH) or sham surgery. Two weeks later, left ventricular (LV) function and deformation were estimated in vivo by micro-magnetic resonance imaging and myocardial damage ex vivo. Blood pressure and myocardial wall thickening were elevated in RVH + Vehicle and normalized only by lean-A-MSC.

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Background: Renal artery stenosis (RAS) is an important cause of chronic kidney disease and secondary hypertension. In animal models, renal ischemia leads to downregulation of growth factor expression and loss of intrarenal microcirculation. However, little is known about the sequelae of large-vessel occlusive disease on the microcirculation within human kidneys.

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Introduction: Obesity is a health burden that impairs cellular processes. Mesenchymal stem/stromal cells (MSCs) are endowed with reparative properties and can ameliorate renal injury. Obesity impairs human MSC function in-vitro, but its effect on their in-vivo reparative potency remains unknown.

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Background: Perioperative hip and knee arthroplasty complications remain a significant clinical and financial burden. Our institution has shifted to developing protocols to decrease these perioperative complications. This study focuses on acute kidney injury (AKI) rate status post primary total joint arthroplasty (TJA).

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Objectives: Quantitative magnetization transfer (qMT) is useful for measurement of murine renal fibrosis at high and ultrahigh field strengths. However, its utility at clinical field strengths and in human-like kidneys remains unknown. We tested the hypothesis that qMT would successfully detect fibrosis in swine kidneys with unilateral renal artery stenosis (RAS) at 3.

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Percutaneous transluminal renal angioplasty (PTRA) may improve cardiac function in renovascular hypertension (RVH), but its effect on the biological mechanisms implicated in cardiac damage remains unknown. We hypothesized that restoration of kidney function by PTRA ameliorates myocardial mitochondrial damage and preserves cardiac function in pigs with metabolic syndrome (MetS) and RVH. Pigs were studied after 16 weeks of MetS+RVH, MetS+RVH treated 4 weeks earlier with PTRA, and Lean and MetS Sham controls (n=6 each).

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Background: Percutaneous transluminal renal angioplasty (PTRA) confers clinical and mortality benefits in select 'high-risk' patients with renovascular disease (RVD). Intra-renal-delivered extracellular vesicles (EVs) released from mesenchymal stem/stromal cells (MSCs) protect the kidney in experimental RVD, but have not been compared side-by-side to clinically applied interventions, such as PTRA. We hypothesized that MSC-derived EVs can comparably protect the post-stenotic kidney via direct tissue effects.

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Global consumption of high-fat diets (HFD) is associated with an increased incidence of cardiometabolic syndrome and cardiac injury, warranting identification of cardioprotective strategies. Cardioprotective effects of quercetin (Q) have mostly been evaluated in ischemic heart disease models and attributed to senolysis. We hypothesized that Q could alleviate murine cardiac damage caused by HFD by restoring the myocardial microcirculation.

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Article Synopsis
  • Researchers measured magnetization transfer ratios (MTRs) of stenotic and contralateral kidneys in pigs with renal vascular disease (RVD) before and after percutaneous transluminal renal angioplasty (PTRA) to assess kidney function.
  • Results indicated that while blood pressure and renal perfusion remained unchanged post-PTRA, glomerular filtration rate (GFR) and renal blood flow (RBF) improved, showing that baseline MTRs could predict these changes.
  • The study concluded that STK-MTR, especially at a 600 Hz offset, is an effective noninvasive method for assessing kidney function and recovery following revascularization in cases of RVD.
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Objective: Renovascular hypertension (RVH) induces hemodynamic and humoral aberrations that may impair cardiac function, structure and mechanics, including cardiac twist and deformation. Revascularization of a stenotic renal artery can decrease blood pressure (BP), but its ability to restore cardiac mechanics in RVH remains unclear. We hypothesized that percutaneous transluminal renal angioplasty (PTRA) would improve cardiac function and left ventricular (LV) deformation in swine RVH.

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Scattered tubular-like cells (STCs), dedifferentiated renal tubular epithelial cells, contribute to renal self-healing, but severe injury might blunt their effectiveness. We hypothesized that ischemic renovascular disease (RVD) induces senescence in STC and impairs their reparative potency. CD24+/CD133+ STCs were isolated from swine kidneys after 16 weeks of RVD or healthy controls.

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Percutaneous transluminal renal angioplasty (PTRA) has been used to treat renovascular disease (RVD), a chronic condition characterized by renal ischemia and metabolic abnormalities. Mitochondrial injury has been implicated as a central pathogenic mechanism in RVD, but whether it can be reversed by PTRA remains uncertain. We hypothesized that PTRA attenuates mitochondrial damage, renal injury, and dysfunction in pigs with coexisting renal artery stenosis (RAS) and metabolic syndrome (MetS).

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Article Synopsis
  • Tissue fibrosis is a key indicator of the progression of kidney diseases, and diffusion-weighted MRI (DWI-MRI) can assess how water moves through kidney tissues, potentially indicating renal injury.
  • Researchers studied the effects of medical therapy alone or in combination with renal angioplasty in patients with renovascular disease (RVD) and found that while certain kidney functions improved, the apparent diffusion coefficient (ADC) remained unchanged.
  • The study suggests that lower ADC values might indicate kidney injury, but further research is necessary to explore better ways to measure kidney recovery after treatment.
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Background: Renal fibrosis is a common pathway in tubulointerstitial injury and a major determinant of renal insufficiency. Collagen deposition, a key feature of renal fibrosis, may serve as an imaging biomarker to differentiate scarred from healthy kidneys.

Purpose: To test the feasibility of using quantitative magnetization transfer (qMT), which assesses tissue macromolecule content, to measure renal fibrosis.

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Novel therapies are needed to address the increasing prevalence of chronic kidney disease. Mesenchymal stem/stromal cells (MSCs) and MSC-derived extracellular vesicles (EVs) augment tissue repair. We tested the hypothesis that EVs are as effective as MSCs in protecting the stenotic kidney, but target different injury pathways.

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Aims: Mesenchymal stromal/stem cell (MSC)-derived extracellular vesicles (EVs) shuttle select MSC contents and are endowed with an ability to repair ischemic tissues. We hypothesized that exposure to cardiovascular risk factors may alter the microRNA cargo of MSC-derived EVs, blunting their capacity to repair the post-stenotic kidney in pigs with metabolic syndrome (MetS) and renal artery stenosis (RAS).

Methods: Porcine MSCs were harvested from abdominal fat after 16wks of Lean- or MetS-diet, and their EVs isolated and characterized using microRNA-sequencing.

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The significance of peristenotic collateral circulation (PCC) development around a stenotic renal artery is unknown. We tested the hypothesis that PCC is linked to loss of kidney function and recovery potential in patients with atherosclerotic renovascular disease (ARVD). Thirty-four patients with ARVD were assigned to medical-therapy with or without revascularization based on clinical indications.

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Cellular senescence, a permanent arrest of cell proliferation, is characterized by a senescence-associated secretory phenotype (SASP), which reinforces senescence and exerts noxious effects on adjacent cells. Recent studies have suggested that transplanting small numbers of senescent cells suffices to provoke tissue inflammation. We hypothesized that senescent cells can directly augment renal injury.

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Background: Heart rate variability (HRV) and pulse rate variability are indices of autonomic cardiac modulation. Increased pericardial fat is associated with worse cardiovascular outcomes. We hypothesized that progressive increases in pericardial fat volume and inflammation prospectively dampen HRV in hypercholesterolemic pigs.

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Article Synopsis
  • A study was conducted on patients with atherosclerotic renovascular disease (ARVD) to evaluate the effects of autologous mesenchymal stem cell infusion, which aims to improve kidney function.
  • Thirty-nine patients participated, with 21 receiving stem cell infusions at varying doses, while 18 others received only medical therapy for comparison.
  • Results showed that stem cell treatment significantly increased renal blood flow, improved glomerular filtration rate (GFR), and reduced inflammation, with higher doses leading to better outcomes, highlighting the potential for stem cells in treating ARVD.
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Extracellular vesicles (EVs) deliver genes and proteins to recipient cells, and mediate paracrine actions of their parent cells. Intrarenal delivery of mesenchymal stem cell (MSC)-derived EVs preserves stenotic-kidney function and reduces release of pro-inflammatory cytokines in a swine model of coexisting metabolic syndrome (MetS) and renal artery stenosis (RAS). We hypothesized that this approach is also capable of blunting cardiac injury and dysfunction.

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Objectives: To validate and adapt a modified two-compartment model, originally developed for magnetic resonance imaging, for measuring human single-kidney glomerular filtration rate (GFR) and perfusion using dynamic contrast-enhanced computed tomography (DCE-CT).

Methods: This prospective study was approved by the institutional review board, and written informed consent was obtained from all patients. Thirty-eight patients with essential hypertension (EH, n = 13) or atherosclerotic renal artery stenosis (ARAS, n = 25) underwent renal DCE-CT for GFR and perfusion measurement using a modified two-compartment model.

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Synopsis of recent research by authors named "Christopher M Ferguson"

  • Christopher M. Ferguson's recent research primarily focuses on the role of mesenchymal stem cells (MSCs) in renal and cardiovascular health, exploring their efficacy in various experimental models of disease, including atherosclerotic renal artery stenosis and obesity-related conditions.!
  • His studies demonstrate that preconditioning of MSCs in hypoxic environments may enhance their regenerative abilities, while findings suggest that obesity diminishes the reparative potency of these cells, highlighting the complexities in clinical applications of stem cell therapies.!
  • Notably, Ferguson's work also investigates innovative imaging techniques for assessing kidney function and structure, aiming to improve therapeutic strategies for chronic kidney disease and associated cardiovascular complications, emphasizing the need for targeted approaches in treating such interconnected conditions.!

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