Pregnancy Clinical Trial
Official title:
The Impact of Pregnancy and Pregnancy-associated Hypertension on Human Uterine Myometrial Artery Reactivity
The investigators seek to describe the composition, architecture, and electrical conduction properties of the human uterine myometrial artery and their impact on vascular reactivity upon exposure to hypertensive stress. Non-pregnant women and pregnant women with and without hypertensive complications will be studied to evaluate the influence of these states on the myometrial arteries. Vascular over-reactivity and disruption of the normal pregnancy-associated physiologic changes of relaxed vascular tone possess the potential for non-compensated blood flow to the uterus and placenta that is insufficient to meet the metabolic demands of a growing placenta. With an understanding of these changes, the research team will be able to propose basic mechanistic changes of pathologic myogenic tone that may ultimately be investigated as potentially modifiable processes to reduce the development and/or severity of these pregnancy complications (gestational hypertension, preeclampsia, eclampsia, small for gestational age, intrauterine growth restriction and intrauterine fetal demise. ).
The experiments proposed here seek to identify mechanisms underlying changes in the human
uterine myometrial artery reactivity during pregnancy. The first series of experiments will
be to address the changes that have been observed in stress-strain relationships and arterial
remodeling during pregnancy. The second series of experiments will address the endothelial
dependency of augmented pregnancy-induced vasoconstriction in myometrial arteries during
pregnancy. Finally, the third series of experiments will be to address the unique
relationship between resting membrane potential, calcium (Ca2+) signaling, and vascular
reactivity in myometrial arteries from non-pregnant and pregnant women.
Blood Draw Venous blood samples will be collected from all patients for measurement of
circulating hormone and inflammatory marker levels, so that vascular reactivity changes
related to these components can be appropriately controlled for so as to correctly
characterize similar changes attributed to either pregnancy and/or exposure to hypertensive
stress.
Tissue/Amniotic Fluid Collection Samples from Cesarean section: This research protocol will
include collection of the following samples at time of cesarean section - amniotic fluid
specimen, fetal membranes and placental biopsy, and a full-thickness uterine biopsy specimen.
There are no associated risks with collection of amniotic fluid at time of
hysterotomy/amniotomy during a cesarean section or collection of the otherwise discarded
placenta and fetal membranes. Generally, the risk of taking the uterine biopsy samples is no
greater that of a cesarean section alone. At this time, there is no known risk of the small
amount of tissue that is to be taken by biopsy. A slight increase in the incidence and
magnitude of bleeding may occur. Performing these procedures under direct observation further
limits this bleeding risk. Obtaining this uterine sample will add only minimal operating time
and all physicians with Obstetrics & Gynecology training should be able to perform this
procedure easily. A copy of the informed consent that is in place is included for review, as
is a formal biopsy protocol detailing the procedure, specimen site, specimen size, storage,
etc. for completing the tissue collection at time of cesarean section.
Myometrial samples from elective hysterectomy: These patients will be undergoing an elective
hysterectomy that is independent of our study. Research personnel will isolate the tissue
sample following surgical removal of the uterus. A copy of the informed consent that is in
place for our proposed study has been included for review, as is a formal protocol
documenting instructions for completing the tissue collection at time of benign, elective
hysterectomy.
Laboratory Analysis Upon acquisition of collected tissue specimens, tissue will be
immediately placed in containers of cold physiologic saline solution (PSS) until transport to
the laboratory at Midwestern University can be arranged. Upon arrival to the laboratory,
resistance-sized myometrial and placental arteries (~250 micrometers) will be dissected in
cold physiologic saline solution aerated with gas containing 21% oxygen (O2), 74% nitrogen
(N2), and 5% carbon dioxide (CO2).
A 1-2 mm length will be dissected, cleaned of connective tissue, and transferred to the well
of a 2 mL arteriograph. The arteries are cannulated at one end, secured with suture, gently
flushed free of blood and then cannulated at the distal end. The data is recorded
continuously using data acquisition software (IonOptix Inc., Milton, Massachusetts, United
States of America).
A pressure-servo system connected to the proximal cannula maintains a stable intraluminal
pressure. Pressurized arteries are continuously superfused with physiologic saline solution
(8-10 milliliters/minute) aerated with gas containing 21% O2, 74% N2 and 5% CO2 at 37 Celsius
(C). After equilibration for a 120 min to obtain a stable baseline lumen diameter (LD), the
myometrial artery will be constricted with 50 millimolar (mM) potassium chloride (KCl) and in
the presence of 50 mM KCl, dilated with bradykinin (1 micromolar (uM)) to demonstrate intact
vascular smooth muscle (VSM) and endothelial function, respectively. Vessels that do not
exhibit KCl-induced constriction and/or endothelium-dependent responses will be excluded from
further study. At the end of each experiment, the passive diameter of the vessel is
determined by exposing the vessel to Ca2+-free PSS and diltiazem (80 mM), a L-type
Ca2+-channel inhibitor.
Pressure-induced constrictions (PIC, 10 to 100mmHg) are expressed as a percent decrease of
the fully dilated diameter of individual arteries at the same intravascular pressure.
Diameter values will be analyzed as percent constriction or percent reversal in tone. These
values will be obtained using the following equations: % constriction = [(passive diameter -
active diameter) / passive diameter] X 100]; where passive represents the passive diameter of
the artery in Ca2+-free PSS containing 80 mM diltiazem, and active diameter represents the
diameter of the artery in response in Ca2+-containing PSS. The remaining experiments will be
performed at a single intraluminal pressure of 60 millimeters of mercury (mm Hg). Whenever
possible, vascular diameter will be determined simultaneously with [Ca2+] and/or
intracellular electromyographic (Em) recordings.
Experimental design to assess the effect of the following inhibitors on pressure-induced
constriction: L-NAME (L-nitro arginine methyl ester; to inhibit NOS), Indomethacin (INDO, to
inhibit cyclooxygenase (COX)), GM6001 (to inhibit matrix metalloproteinases (MMPs)) and
potassium (K+)-channel inhibitors on pressure-induced constriction. After confirming
myometrial artery viability, the myometrial artery will be pressurized to 60 mm Hg, incubated
for 30 minutes in the presence of one of the above inhibitors, and pressure-induced
constriction (PIC) assessed. The response of the vessel in the presence of the inhibitor will
be analyzed for PIC as described above and the effect of inhibitor by comparing vascular
responses in its presence vs. absence.
Stress vs. strain: The contribution of elastin and collagen will be examined in myometrial
artery (MA) to determine whether changes in arterial wall structure contribute to the
leftward shift observed in our preliminary data. These experiments will be conducted in a
manner similar to that described by Briones and colleagues. Since many of the MMPs (MMP 1, 8
and 12) act as collagenases or elastases, this will assess the contribution of MMPs on
non-pregnant and pregnant MA using the non-specific MMP inhibitor, GM600157. Briefly, after
obtaining control pressure curves at intraluminal pressures from 10 mmHg to 140 mmHg at 37C,
in a 0 mM Ca2+ containing Krebs solution, tissues will be returned to an intraluminal
pressure of 60 mmHg, re-introduced to Ca2+-containing Krebs containing elastase, collagenase
or the non-specific MMP inhibitor GM6001 for 60 min, then returned to 0 mM Ca2+ containing
Krebs solution plus the inhibitor for 20 min, and pressure curves will be reassessed.
Pressure curves in the absence and presence of inhibitors will be compared by calculating
vessel wall thickness (WT) and change wall tension (delta-T). Using the edge detection
software and confirmed by histological techniques, WT will be calculated as (outer diameter -
inner diameter)/2; where WT represents wall thickness (uM) and outer diameter and inner
diameter represent arteriolar outer and inner diameter, respectively (micro-meter). As
described by Phillips et. al.63, delta-T will be calculated as -1,333 X intraluminal pressure
(PIL) X [(0.5 X Active inner diameter) - (0.5 X passive inner diameter)] X 0.0001 ; where
delta-T (dynes/cm) represents the difference in wall tension between "passive" (Ca2+-free
PSS) vs. "active" (Ca2+-containing PSS) conditions at a given intraluminal pressure (PIL;
mmHg), and the constants 1,333 and 0.0001 are factors for converting pressure in mmHg to
dynes/centimeter squared and from µm to cm, respectively. As such, delta-T represents the
absolute value describing the amount by which the passive tension in the vascular wall would
be increased if all active contractile mechanisms were inhibited at a given intraluminal
pressure. Finally, to confirm functional studies, histological and molecular biology
approaches will be employed to assess protein expression. Arterial wall thickness and wall
tension will be assessed in all experiments.
Arterial wall Ca2+ measurement: To monitor changes in cytosolic Ca2+, myometrial artery will
be mounted in a 2-milliliter (mL0 arteriograph and allowed to equilibrate as described above.
Endothelial cell loading will be achieved by perfusing the artery intraluminally with Fura-2
(2 micro-M) and Pluronic acid (0.05%) for 5 min at room temperature. The lumen will be
immediately rinsed with PSS for an additional 10 min to remove Fura-2 from the lumen and
prevent vascular smooth muscle cell loading. Vascular smooth muscle cell loading will be
achieved by placing Fura-2 (2 micro-M) in the vessel chamber at room temperature for 30 min.
After rinsing with PSS, the vessel will be allowed to re-equilibrate for 30 min at 37
Celsius, permitting Fura-2 to de-esterify. Specificity of endothelial and smooth muscle loads
will be determined using 1 micro-M bradykinin and 50 mM KCl. If the endothelium has been
successfully loaded with Fura-2, bradykinin will elicit a rise in endothelial cell Ca2+ and
arterial dilation. If the smooth muscle has been successfully loaded with Fura-2, bradykinin
will elicit a decrease in arterial wall Ca2+ and subsequent dilation. Addition of 50 mM K+
will constrict the vessel and increase arterial wall Ca2+. The relative change in cytosolic
Ca2+ will be monitored using IonOptix micro-fluorimetry equipment and changes in [Ca2+] will
be calculated from the ratio of the 340 nm/380 nm excitation signal.
Electrophysiology - intracellular membrane recordings: myometrial artery segments will be
cannulated similar to the method described above. Intracellular measurements will be made
through the adventitial surface with micro-electrodes filled with 3 molar KCl using a Duo 773
electrometer. Successful impalements will be judged on the basis of a rapid drop in potential
upon entering the cell, a low noise level and minimal change in the electrode resistance and
zero potential before and after impalement. Signals will be viewed on a digital oscilloscope
(Hitachi), recorded and stored for later playback using IonOptix acquisition/analysis
software.
Records Review Upon participant enrollment, the medical records of each study subject will be
accessed by the primary investigator. The participant will be given a study subject
identification number that will be linked to the patient's medical record number only in the
'Study Participant Master List' excel spreadsheet, maintained on a password-protected,
encrypted universal serial bus drive. Relevant data elements will then be reviewed and
abstracted into the 'Data Collection Tool' excel spreadsheet.
Data Analysis Data analysis will be performed by the study investigators with the assistance
of the Department of Biostatistics at the University of Arizona College of Medicine -
Phoenix. Subject characteristics will be compared using t-tests or chi square and reported as
mean ± standard error of the mean (SEM) or 95% confidence intervals as appropriate.
Measurements of intrinsic vessel contractility will be compared between all subject groups
under the various study conditions using t-tests, chi-square, and regression analysis where
appropriate. Interim analysis will take place only when a sample size of at least 10 complete
studies is obtained for each group (case and control).
;
Status | Clinical Trial | Phase | |
---|---|---|---|
Completed |
NCT03442582 -
Afluria Pregnancy Registry
|
||
Terminated |
NCT02161861 -
Improvement of IVF Fertilization Rates, by the Cyclic Tripeptide FEE - Prospective Randomized Study
|
N/A | |
Not yet recruiting |
NCT05934318 -
L-ArGinine to pRevent advErse prEgnancy Outcomes (AGREE)
|
N/A | |
Enrolling by invitation |
NCT05415371 -
Persistent Poverty Counties Pregnant Women With Medicaid
|
N/A | |
Completed |
NCT04548102 -
Effects of Fetal Movement Counting on Maternal and Fetal Outcome Among High Risk Pregnant Woman
|
N/A | |
Completed |
NCT03218956 -
Protein Requirement During Lactation
|
N/A | |
Completed |
NCT02191605 -
Computer-delivered Screening & Brief Intervention for Marijuana Use in Pregnancy
|
N/A | |
Completed |
NCT02223637 -
Meningococcal Quadrivalent CRM-197 Conjugate Vaccine Pregnancy Registry
|
||
Recruiting |
NCT06049953 -
Maternal And Infant Antipsychotic Study
|
||
Completed |
NCT02577536 -
PregSource: Crowdsourcing to Understand Pregnancy
|
||
Not yet recruiting |
NCT06336434 -
CREATE - Cabotegravir & Rilpivirine Antiretroviral Therapy in Pregnancy
|
Phase 1/Phase 2 | |
Not yet recruiting |
NCT05412238 -
Formulation and Evaluation of the Efficacy of Macro- and Micronutrient Sachets on Pregnant Mothers and Children Aged 6-60 Months
|
N/A | |
Not yet recruiting |
NCT04786587 -
Alcohol Self-reporting During Pregnancy. AUTOQUEST Study.
|
||
Not yet recruiting |
NCT05028387 -
Telemedicine Medical Abortion Service Using the "No-test" Protocol in Ukraine and Uzbekistan.
|
||
Completed |
NCT02783170 -
Safety and Immunogenicity of Simultaneous Tdap and IIV in Pregnant Women
|
Phase 4 | |
Completed |
NCT02683005 -
Study of Hepatitis C Treatment During Pregnancy
|
Phase 1 | |
Recruiting |
NCT02564250 -
Maternal Metabolism and Pregnancy Outcomes in Obese Pregnant Women
|
N/A | |
Recruiting |
NCT02507180 -
Safely Ruling Out Deep Vein Thrombosis in Pregnancy With the LEFt Clinical Decision Rule and D-Dimer
|
||
Recruiting |
NCT02619188 -
Nutritional Markers in Normal and Hyperemesis Pregnancies
|
N/A | |
Completed |
NCT02528136 -
The Clinical Carbetocin Myocardium Trial
|
Phase 4 |