Exosome Cargo From Preeclampsia Patients

Purpose

Although extensively studied, the cause of preeclampsia remains uncertain other than it is thought that the placenta plays a critical role in the development of preeclampsia. Recent data revealed that exosomes released from the placenta could cause preeclampsia by transporting specific cargo responsible for the pathophysiological changes associated with the systemic disease. By isolating these exosomes from maternal blood and placental tissue in patients diagnosed with preeclampsia and studying their biochemical, cellular and molecular mechanism in an animal model, the investigators hope to elucidate the critical role that exosomal cargo plays in the development of preeclampsia and cardiovascular remodeling. This will be accomplished by obtaining patient samples from volunteers delivering at the Women and Infants Center and taking the samples to the lab for quantification, characterization, and identification of key functional roles through in/ex vivo, in vitro, and profiling studies. The investigators believe this work will be valuable as hope exists to define the functional role exosomes play in the development of preeclampsia that leads to cardiovascular remodeling. Data from this study will shed more light on the functional role of exosomal cargo in normal and pathological pregnancies and point towards novel therapeutic intervention strategies for preeclampsia associated with cardiovascular disease.

Condition

  • Preeclampsia

Eligibility

Eligible Ages
Between 18 Years and 45 Years
Eligible Genders
Female
Accepts Healthy Volunteers
Yes

Criteria

Inclusion

1. Preeclampsia patients: Age ≥ 18 years; Diagnosis of preeclampsia with severe
features:

1. BP ≥160/110 after 20 weeks gestation AND ≥300 mg/day proteinuria or
protein/creatinine ratio of 0.3 mg/dL; OR

2. BP ≥160/110 after 20 weeks gestation with any of the following co-conditions:
platelet count less than 100,000 X 109/L, AST/ALT enzymes elevated to twice the
upper limit of normal, serum creatinine ≥1.1 mg/dL or a doubling of the
creatinine from baseline, pulmonary edema, new-onset headache, and/or visual
disturbances.

2. Control patients: Age ≥ 18 years; no diagnosis of preeclampsia or any
pregnancy-induced hypertension disorder.

3. Pre-clampsia patients will be defined as =140 mmHg systolic or =90mmHg diastolic BP
with at least at least 2 occasions 4 hours apart after 20 weeks of gestation in
previously normotensive women with at least one of the following symptoms: =300
mg/day proteinuria, protein/creatinine ratio of 0.3 mg/dL, platelet count < 100,000
X 109/L, elevated liver enzymes, serum creatinine =1.1 mg/dL, pulmonary edema, or
new-onset headache or visual disturbances.

1. >22w 0d gestational age -33w 6d GA (n=16)

2. >= 34 wGA (n=16)

4. Pre-eclampsia with severe features will be defined as blood pressure =160 mmHg
systolic or =110 mmHg diastolic BP at least 2 occasions 4 hours apart after 20 weeks
of gestation with any of the additional diagnostic criteria listed above.

1. >22w 0d gestational age -33w 6d GA (n=16)

2. >= 34 wGA (n=16)

5. Healthy gestational age matched controls:

1. >22w 0d gestational age -33w 6d GA (n=32)

2. >= 34 wGA (n=32)

Exclusion criteria:

1. Preeclampsia patients: Age < 18 years; Any other diagnosis of pregnancy-induced
hypertension that isn't preeclampsia with severe features (i.e. gestational
hypertension or preeclampsia without severe features).

2. Control Patients: Age < 18 years; Any diagnosis of pregnancy-induced hypertension.

Study Design

Phase
Study Type
Observational
Observational Model
Cohort
Time Perspective
Prospective

Arm Groups

ArmDescriptionAssigned Intervention
Healthy Controls
  • Other: Sample collection
    Blood, urine, placental samples, and the patient's vascular reactivity will be collected from each person enrolled in this study.
Preeclampsia Group
  • Other: Sample collection
    Blood, urine, placental samples, and the patient's vascular reactivity will be collected from each person enrolled in this study.

Recruiting Locations

University of Alabama at Birmingham
Birmingham, Alabama 35233
Contact:
Kera N Marshall, BS
205-934-4042
Keramarshall@uabmc.edu

More Details

Status
Recruiting
Sponsor
University of Alabama at Birmingham

Study Contact

Shanna H Graves
205-975-2845
shannagraves@uabmc.edu

Detailed Description

Study Update: In evaluating the contents of the exosome cargo, we have discovered two important biomarkers - vasorin and angiotensin - are inversely correlated in preeclamptic vs. healthy patients. The angiotensin to vasorin (ANG/VASN) ratio is low in healthy patients vs. elevated in preeclamptic patients. We would like to extend this study to collect more samples in an effort to further explore this biomarker relationship in exosome cargo. The device is the VENDYS-II device (Endothelix, Palo Alto, CA). It is a device approved by the FDA to measure vascular reactivity using non-invasive means. The way it detects vascular reactivity is by measuring the peripheral temperature changes in the finger pads of the index fingers before, during, and after arterial occlusion by a blood pressure cuff. A temperature sensor is placed on the finger pad of both the right and left index fingers. A baseline temperature is measured by the device for 5 minutes. Then, a blood pressure cuff will occlude arterial flow to the right arm for 5 minutes. Temperature differences in both index fingers will continue to be measured during this time. After 5 minutes, the cuff deflates, and the device will measure temperature changes in both fingers for a final 5 minutes (15 minutes total). Temperature differences during the ischemia-reperfusion time will be used to calculate the patient's vascular reactivity. The device for its intended purpose as outlined by the FDA. It is non-invasive. The purpose of adding this device is to determine if there is a correlation in vascular dysfunction, as measured by the VENDYS-II device, with our exosome cargo values. After the patient is consented and enrolled in the study, we will place the device on the patient. The device will be used as outlined by the FDA. Finger sensors will be placed on the pads of the index fingers. The blood pressure cuff will be placed on the arm. Baseline measurement by the device will occur for 5 minutes. After this time, the cuff will inflate and occlude arterial blood flow to one of the arms for 5 minutes. It will then deflate. Temperature measurement will occur for 5 more minutes. Patient participation time in this portion of the study will be 15 minutes. Data collected from the device will be securely stored on our HIPAA-compliant, password-protected research file. Date of birth is a required field for each patient on the device. When the data is extracted from the device, it will be de-identified and linked to the patient's samples only by the study identifier (i.e. C-1, C-2, PE-1, PE-2, etc.). As this device is non-invasive, there is minimal risk to the patient. Risks include discomfort to the arm with the blood pressure cuff. This discomfort could be mild pain around the blood pressure cuff and numbness and tingling in the hand during cuff occlusion. There is also a risk for mild bruising around the cuff site.