Pioglitazone to Reduce Sympathetic Overactivity in CKD Patients

Sponsor

The University of Texas at Arlington (Other)

Overall Status

Recruiting

CT.gov ID

NCT03471117

Collaborator

University of Texas, Southwestern Medical Center at Dallas (Other)

Enrollment

Locations

Arms

Anticipated Duration (Months)

Patients Per Site

0.2

Patients Per Site Per Month

Study Details

Study Description

Brief Summary

Chronic kidney disease (CKD) is associated with a higher risk of cardiovascular disease and death. An overactive sympathetic nervous system in CKD patients is one of the major mechanisms increasing the cardiovascular risks in this patient population. Recently, some studies have shown that a drug typically used to improve glucose control (pioglitazone) may also reduce sympathetic nerve activity and improve blood vessel function.

The goal of this study is to determine whether a short-term treatment with pioglitazone can reduce sympathetic nerve impulses throughout the body in CKD patients.

Condition or Disease	Intervention/Treatment	Phase
Chronic Kidney Diseases	Drug: Pioglitazone Other: Placebo	Phase 4

Detailed Description

Chronic Kidney Disease (CKD) is a major health problem affecting more than 26 million Americans. Notably, more patients with CKD die of cardiovascular complications than progress to dialysis. An overactive sympathetic nervous system is a well known cardiovascular risk factor present in CKD. The increase in sympathetic nerve activity (SNA) may not only contribute to hypertension, but also accelerates the progression of end organ damage that is independent of any rise in blood pressure. Indeed, elevated SNA is associated with poor prognosis and increased risk of cardiovascular morbidity and mortality. Thus, the sympathetic nervous system constitutes a primary novel drug target needed for improving cardiovascular outcomes in CKD patients. However, limited effort has been directed at identifying the mechanisms driving sympathetic overactivity in CKD and importantly, SNA remains high in these patients despite standard drug therapy including angiotensin converting enzyme inhibitors and angiotensin II receptor blockers. Thus, a better understanding of the mechanism(s) of the elevated SNA would enable us to devise more effective countermeasures and help reduce the subsequent morbidity and mortality among CKD patients. A potential signal driving SNA involves accumulation of the endogenous nitric oxide synthase inhibitor asymmetric dimethylarginine (ADMA). ADMA is elevated in CKD and is a strong, independent predictor of future cardiovascular events in these patients. Much of the work with ADMA has been correlational in nature with a focus on the well-known vascular endothelial properties of nitric oxide. However, increasing functional evidence indicates that nitric oxide is also a key signaling molecule involved in the tonic restraint of sympathetic outflow from the brainstem. Indeed, the investigators have recently demonstrated that systemic experimental inhibition of nitric oxide synthase causes sympathetic activation in healthy humans. In the current study, the investigators will target the pathophysiological nitric oxide synthase inhibition caused by elevated ADMA concentrations in CKD and its role in mediating sympathetic overactivity. Recent work has reported that thiazolidinediones, such as pioglitazone, reduce ADMA likely by upregulating dimethylarginine dimethylamino-hydrolase (DDAH), the enzyme responsible for the breakdown of ADMA. Indeed, analysis of the DDAH gene revealed the presence of a thiazolidinedione binding site, implying that thiazolidinediones can directly regulate DDAH expression and subsequently ADMA levels. Thus, thiazolidinediones may provide a promising therapy in CKD. Indeed, in a recent study, CKD patients treated with pioglitazone were less likely to reach the composite end points of cardiovascular morbidity and mortality. Importantly, this effect was independent of the level of renal impairment suggesting protective effects even in moderate CKD. However, the mechanisms for these improvements remain unclear. In this study, the investigators hypothesize that these favorable cardiovascular effects are through a lowering of ADMA and SNA. Thus, the ability of pioglitazone to reduce ADMA and SNA in CKD patients will be tested.

Study Design

Study Type:

Interventional

Anticipated Enrollment :

28 participants

Allocation:

Randomized

Intervention Model:

Crossover Assignment

Intervention Model Description:

This will be a randomized, placebo-controlled crossover design studyThis will be a randomized, placebo-controlled crossover design study

Masking:

Single (Participant)

Masking Description:

Subjects will either receive placebo or pioglitazone pills in a randomized order. Placebo pills will be sugar pills of same shape and size as the pioglitazone pills. The randomization for study drugs will be carried out by research personnel. All treatments will be encapsulated so that pills are identical and patients cannot identify the treatment arm.

Primary Purpose:

Basic Science

Official Title:

Targeting ADMA With Pioglitazone to Reduce Sympathetic Overactivity in CKD Patients

Actual Study Start Date :

Apr 1, 2018

Anticipated Primary Completion Date :

Apr 1, 2023

Anticipated Study Completion Date :

Apr 1, 2023

Arms and Interventions

Arm	Intervention/Treatment
Active Comparator: Pioglitazone The subjects will be given 1 month supply of Pioglitazone pills. Pioglitazone is a class of anti-diabetic drugs called thiazolidinediones that are primarily used in the treatment of type 2 diabetes. The aim of the study is to determine if Pioglitazone also reduces ADMA and sympathetic nerve activity in CKD patients. This drug will be taken orally as a pill or capsule for one month. The dosage is 15 mg/day. This is on the lower dosage side for pioglitazone with the maximum dosage being 45mg/day. The research subjects are not responsible for the cost of the drug or for drug administration costs. The subjects will be verbally instructed to take 1 pill everyday by mouth, for 1 month. In addition, the pill bottle will be labeled with the same instructions.	Drug: Pioglitazone Pioglitazone 15mg daily for 1 month
Placebo Comparator: Placebo Placebo pills are made of avicel microcrystalline cellulose and magnesium stearate, which are inactive ingredients in the Pioglitazone pills. The placebo pills will be of similar color and appearance as the Pioglitazone pills	Other: Placebo Placebo pills for 1 month

Arm

Intervention/Treatment

Active Comparator: Pioglitazone

The subjects will be given 1 month supply of Pioglitazone pills. Pioglitazone is a class of anti-diabetic drugs called thiazolidinediones that are primarily used in the treatment of type 2 diabetes. The aim of the study is to determine if Pioglitazone also reduces ADMA and sympathetic nerve activity in CKD patients. This drug will be taken orally as a pill or capsule for one month. The dosage is 15 mg/day. This is on the lower dosage side for pioglitazone with the maximum dosage being 45mg/day. The research subjects are not responsible for the cost of the drug or for drug administration costs. The subjects will be verbally instructed to take 1 pill everyday by mouth, for 1 month. In addition, the pill bottle will be labeled with the same instructions.

Drug: Pioglitazone

Pioglitazone 15mg daily for 1 month

Placebo Comparator: Placebo

Placebo pills are made of avicel microcrystalline cellulose and magnesium stearate, which are inactive ingredients in the Pioglitazone pills. The placebo pills will be of similar color and appearance as the Pioglitazone pills

Other: Placebo

Placebo pills for 1 month

Outcome Measures

Primary Outcome Measures

Muscle sympathetic nerve activity (MSNA) will be reduced after 1 month of treatment with pioglitazone [1 month]
Multiunit postganglionic MSNA will be recorded using standard microneurographic techniques. Briefly, a unipolar tungsten microelectrode will be inserted into the peroneal nerve near the fibular head of the leg. Neural signals will be amplified, filtered (bandwidth, 700-2,000 Hz), rectified, and integrated (time constant, 0.1 s) to obtain mean voltage neurograms.

Eligibility Criteria

Criteria

Ages Eligible for Study:

35 Years to 70 Years

Sexes Eligible for Study:

All

Accepts Healthy Volunteers:

Inclusion Criteria:

CKD patients classified as Stage 3 and 4 of National Kidney Foundation Classification with estimated glomerular filtration rate (GFR) between 15 and 59 mL/min/1.73 m2 according to the Modification of Diet in Renal Disease (MDRD) formula based on serum creatinine, age, gender, and race.
Men and women 35 to 70 years of age

Exclusion Criteria:

Allergy to Glitazones
Myocardial infarction
Heart failure
Angina
History of kidney stones
Liver disease (abnormal liver enzymes)
Anemia (hemoglobin <8 g/dl)
Cancer with current treatment
Previous organ transplantation
Immunosuppressant therapy
Human immunodeficiency virus infection
Pregnancy or lactating
Current tobacco use
Dilantin and oral contraceptive usage due to potential drug interaction with glitazones
Self-identified history of hypoglycemia