Obesity, Morbid Clinical Trial
Official title:
Impact of Bariatric Surgery on Circulating Inflammatory and Pro-vascular Progenitor Cell Populations.
Obesity and diabetes are linked to increased risk for health problems such as heart attack,
stroke, and death. At the cellular level, obesity and diabetes increase levels of harmful
inflammatory cells (M1 macrophages) and decreases levels of protective stem cells
(circulating progenitor cells) in the blood.
Bariatric (weight loss) surgery is an effective treatment that leads to significant weight
loss and improved health in patients with obesity. However, it is unknown if weight loss
surgery also replenishes healthy stem cells and decreases inflammatory cells in the body.
Therefore, the purpose of this research study is to compare levels of these stem and
inflammatory cells before and after bariatric surgery, and to compare to a control group of
healthy normal weight participants.
The investigators anticipate that inflammatory cell levels will be reduced and stem cell
levels and function will be restored after bariatric surgery, similar to levels of healthy
normal weight individuals.
The escalating pandemics of obesity and type 2 diabetes mellitus (T2DM) are among the most
devastating health crises worldwide. The prevalence of obesity (body mass index (BMI) >
30kg/m^2) is nearly 1 billion individuals worldwide and estimated by the Center for Disease
Control at 37.7 percent of the adult population in the United States. The International
Diabetes Federation estimates that over 400 million individuals worldwide have T2DM and this
number is expected to increase to over 600 million by the year 2040. Diet, exercise, and
medications such as metformin have long been the cornerstone of T2DM therapy. Unfortunately,
long-term success in the control of T2DM remain disappointing, and even with new medications
such as glucagon-like peptide-1 (GLP-1) analogues (Liraglutide) and sodium-glucose
co-transporter 2 (SGLT2) inhibitors (Gliflozins), adequate glycemic control remains elusive.
Ultimately, T2DM patients will develop severe cardiovascular complications such as peripheral
artery disease, heart attack, and stroke. Due to aging population demographics, and the
paucity of curative therapies in this area, the prevalence and economic burden of obesity and
T2DM is on the rise. Currently, the costs of medical care for obesity-related illnesses in
the United States are estimated at $147 - 185 billion per year. Therefore, the search for
curative therapies to combat obesity and T2DM are continually sought.
Bariatric surgery is increasingly recognized as one of the most effective interventions to
help patients achieve significant and sustained weight loss, and improved metabolic health.
Permanent loss of 20-25 percent body weight (35 - 45 kilograms) is common for patients
receiving Roux-en-y Gastric Bypass (RYGB) or Vertical Sleeve Gastrectomy (VSG) compared to <5
percent in best non-surgical medical therapy patients. The mechanisms of weight loss
following bariatric surgery are multifactorial and include changes in food intake, satiety,
alterations in gut hormones and bile acid adaptations. Such drastic weight loss is also
associated with improvement in chronic inflammatory diseases, including atherosclerosis and
T2DM. Indeed, bariatric surgery leads to improved glycemic control and potential remission of
T2DM. Recently, studies have independently reported significant reductions in fasting blood
glucose and glycated hemoglobin (HbA1C) in >80 percent of patients receiving bariatric
surgery. Amelioration of T2DM commonly occurs within days to weeks of surgery even before
substantial weight loss is observed. Finally, adverse cardiovascular events, usually
associated with obesity and T2DM, were reduced after bariatric surgery compared to
conventional therapies. Despite these phenomenal successes, the mechanisms governing the
reversal of diabetes after bariatric surgery remains largely unknown.
Obesity, atherosclerotic plaque formation and the development of T2DM are all associated with
heightened inflammation. Obesity involves increases in inflammatory immune cells (M1
macrophages) that are present during the remodeling of adipose tissue. In functional
opposition to heightened immunity is the reparative role of tissue-specific stem cells.
Central to all regenerative processes, stem cells can be found within every tissue in the
body with the capacity to self-renew, and to generate new cell types that promote tissue
maintenance or repair. In this capacity, stem cells can be considered "conductors of the
orchestra" that co-ordinate the myriad cells and signals involved in the regenerative
response. However, during chronic diseases such as T2DM, relentless inflammation and
oxidative damage results in stem cell depletion and dysfunction, and the severity of injury
overwhelms the capacity to respond. For example, adipose tissue contains a heterogenous
mixture of stem and progenitor cells which are likely affected by the inflammation associated
with obesity. Similarly, circulating hematopoietic and endothelial progenitor cells, involved
in blood vessel maintenance and repair, show aberrant secretory and vessel formative
functions that are negatively impacted by chronic hyperlipidemia and hyperglycemia. This
concept termed "stem cell exhaustion" is becoming increasingly recognized during chronic
diseases, as circulating stem and progenitor cell number and/or regenerative function is
altered by the inflammatory environment within obesity/T2DM patients.
What remains unclear is whether reduced circulating stem cell number or aberrant regenerative
function can be restored following bariatric surgery. The investigators have recently
established novel methodologies to assess inflammatory status (M1 / M2 macrophage status) and
circulating progenitor cell content and function by performing detailed flow cytometric
analyses using aldehyde dehydrogenase (ALDH, a detoxification enzyme and conserved stem cell
function) in combination with cell surface marker analyses. Notably, the investigators have
shown that circulating progenitor cell content and inflammatory M1 macrophage content are
increased in patients with T2DM compared to age-matched healthy controls. For the first time,
the effectiveness of bariatric surgery at the cellular level can be evaluated and
regenerative stem cell functions that impact obesity and T2DM can be explored. Elucidating
the status of stem cells following bariatric surgery will provide insight into the likelihood
of T2DM relapse or reverting to an obese state and provide a potential mechanism for the
improvements in cardiovascular health. This study will be able to establish a relationship
between the reversal of obesity, T2DM and adverse cardiovascular events with the restoration
of regenerative stem cell associated with anti-inflammatory and pro-angiogenic function.
The investigators hypothesize that bariatric surgery will augment circulating, pro-vascular
progenitor cell content and will reduce systemic inflammation via restoration of M1 / M2
macrophage balance.
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