Effect of Ephedrine, Phenylepinephrine, and Norepinephrine on Myometrial Contractility in Pregnant People With Type II and Gestational Diabetes During Cesarean Section: An In-vitro Study

The global prevalence of diabetes has increased drastically over the past 20 years, with 1.5 million new cases each year. The prevalence of Type II diabetes in women of childbearing age has shown the greatest increase, in the United States alone rising from 33% in 1990-1998 to 70% in 2020. Additionally, the worldwide rate of cesarean delivery (CD) follows a similar trend. CD procedures can be both elective and emergent, with the rate of elective CD increasing by 30% in Canada since 2001. Neuraxial anesthesia administered during elective CD has been known to induce hypotension as a side effect, which is then countered by administering vasopressors such as epinephrine, norepinephrine, and phenylephrine that act on adrenergic alpha and beta receptors on smooth muscle tissue. However, since these receptors are expressed on the smooth muscle layer of the uterus called the myometrium, vasopressors can elicit changes in myometrial contractility. Inadequate myometrial contractility during CD can expose the mother to postpartum hemorrhage (PPH) which is a leading cause of maternal mortality worldwide.

Additionally, diabetic women undergoing CD are often obese (BMI > 30 kg/m2) or have macrosomia (larger than average baby), which are independent risk factors for PPH. However, there is still a 2.5-fold increased risk in PPH in Type II diabetic patients, even when adjusted for diabetic-associated obesity. Type II diabetics undergoing elective CD also display a reduced contractile profile (as previously explored through in-vitro calcium signaling), which may contribute to their increased risk of PPH. Current research on myometrial contractility shows that throughout the gestational period, the adrenergic receptor subtypes on the myometrial tissue may transition to more pro-contractile phenotypes, which may react differently to administered vasopressors and thus affect induced contractility during CD. Oxytocin, a uterotonic, is the standard treatment for preventing PPH administered immediately after delivery.

There is currently no literature on the unique effects of vasopressors to manage hypotension in obstetric patients who are diagnosed with Type II and gestational diabetes. The increased risk of PPH at CD seen in type II and Gestational diabetics mothers may be due to differences in adrenergic receptor distribution, which have different affinities to the vasopressors administered. No studies thus far have directly explored the role of vasopressors on myometrial contractions in this patient population.

As the use of a standardized vasopressor dosage becomes more routine during elective CD, it is important to understand how this will affect the myometrial contractility of women with Type II and gestational diabetes. The investigators hypothesize that administration of vasopressors in full term pregnant women with type II and gestational diabetes will cause decreased myometrial contractility compared to healthy controls, and that the diabetic tissue will possess a different adrenergic receptor subtype profile compared to controls.

Aim 1: Investigate the differences in myometrial contractility of type II and gestational diabetic vs. control term pregnant patients with administration of vasopressors

Aim 2: Determine the expression of adrenergic receptor subtypes on myometrium of term pregnant type II and gestational diabetic patients

Aim 3: Investigate the difference in downstream adrenergic pathways proteins in myometrial of type II and gestational diabetics vs control patients with administration of vasopressors