Preventing Preterm Birth With a Negative Pressure Cervical Cup: a Feasibility Study

NCT ID: NCT05512052

Last Updated: 2022-08-26

Basic Information

• Recruitment Status: UNKNOWN
• Clinical Phase: PHASE1
• Total Enrollment: 40 participants
• Study Classification: INTERVENTIONAL
• Study Start Date: 2023-04-30
• Study Completion Date: 2024-04-30

Brief Summary

The goal of this Phase I clinical trial is to generate proof-of-concept data to demonstrate that a cervical cup in combination with vacuum application will create negative pressure on uterine cervical tissue, thereby creating immediate cervical stiffness in order to prevent cervical ripening that is associated with spontaneous preterm birth.

Aim #1: Conduct a Phase I clinical study.

1A: Evaluate the ability of a cervical cup to improve cervical tissue physiology of uterine cervices in vivo for nonpregnant women.

1B: Evaluate the ability of a cervical cup to be safely placed and removed on uterine cervices in vivo for nonpregnant women.

Detailed Description

Preterm birth (PTB), occurring at 20-36 weeks gestation, is a crisis. Out of 15M babies born preterm, 1.1M pass away yearly worldwide. Survivors face short- and long-term medical and neurodevelopmental complications. PTB contributes to long and frequent hospital stays. The World Health Organization (WHO) and the National Institute of Health (NIH) support initiatives that enable better care of maternal-infant dyad at risk for PTB. PTB costs the US $25B per year. Racial disparities (Black-14.39%, White-9.26%, and Hispanic-9.97%), suggest organizational and interpersonal biases.

All Spontaneous Preterm Birth (SPTB) results from early cervical change created by numerous biologic pathways causing contractions (preterm labor), lack of contractions (cervical insufficiency), or early amnion rupture (PPROM). Preterm labor, contractions leading to early cervical change, is experienced by 200,000 US women yearly resulting in PTB and PPROM affects 120,000 US mothers yearly. Cervical insufficiency, cervical change without contractions, has varied rates among reports. Current care (cerclage, progesterone, and tocolytics) centers on expectant rather than active management.

Cervical cerclage is a surgical procedure tying the cervix closed. Drawbacks include invasiveness, a tendency to tear through the cervix, the need for anesthesia during placement, and low rates of efficacy (18% for all types). Progesterone, a hormone given to prevent SPTB, is most strongly supported as a vaginal supplement, although this route isn't FDA approved. In 2003, it was recommended that IM hydroxyprogesterone caproate (17-OHPC) be given to women with a prior PTB to prevent SPTB. Following implementation, use hasn't shown benefit although it is still the only FDA approved medication. In 2019, the FDA motioned to begin removing 17-OHPC from the market. It is estimated that progesterone use lowers the risk of SPTB by only 0.01%. Tocolytics are medications used to prevent contractions and include magnesium sulfate, calcium channel blockers, betamimetics, and nonsteroidal anti-inflammatories (NSAIDs). Although tocolytics may, in some instances decrease preterm contractions, they have not been proven to be effective in preventing SPTB nor demonstrated improved neonatal outcomes. Tocolytic are associated with side effects, the most serious of which include fetal stroke, and maternal death. Tocolytics only temporarily address preterm contractions, cause harmful side effects, do not improve neonatal outcomes, and are ineffective at preventing SPTB.

No past interventions have effectively addressed early cervical change, even though premature cervical change is the commonality of all SPTB. Therefore, focusing on cervical change is the best place to concentrate in order to prevent SPTB, since it is the last step prior to birth.

Galena Innovations has created a medical device, the Hannah Cervical Cup, that addresses the unmet medical need in SPTB by focusing on preventing or reversing early cervical change. In every pregnancy, the cervix retains the fetus in the uterus and then allows delivery. The internal cervical os contracts closed with cervical stiffness. Through pregnancy, collagen breakdown crafts softening, enabling internal cervical os relaxation, leading to cervical change, which culminates in birth. However, in SPTB, this process happens earlier than is optimal. For those at risk for SPTB, the process of cervical softening can be prevented or reversed with an increase in cervical stiffness. The Hannah Cervical Cup is designed to improve cervical function both through an improvement in immediate cervical stiffness and long-term improvement in collagen function.

The goal of this Phase I project is to generate proof-of-concept data to establish that the Hannah Cervical Cup in combination with peristaltic vacuum pump application will safely create negative pressure on uterine cervical tissue, thereby creating immediate cervical stiffness in order to prevent cervical ripening that is associated with SPTB and to establish its feasibility as a treatment for SPTB. At the time of hysterectomy, prior to uterine removal, varying cup sizes will be applied to the cervix of 24-30 non-pregnant women with vacuum application over short-term exposures (10-15 minutes) and compared 8-10 control subjects.

Conditions

Preterm Birth; Cervical Incompetence; Cervical Insufficiency; Short Cervix; Soft Cervix

Study Design

• Allocation Method: RANDOMIZED
• Intervention Model: PARALLEL
• Primary Study Purpose: DEVICE_FEASIBILITY
• Blinding Strategy: TRIPLE

Study Groups

Hannah Cervical Cup (2 mm)

Group Type: EXPERIMENTAL

Hannah Cervical Cup (2 mm Delta)

Intervention Type: DEVICE

The Hannah Cervical Cup reverses and prevents early cervical change by improving cervical collagen function. It applies negative pressure to the cervix, placing it in a tensile strain. Collagen under tension elicits fibers to realign, creating initial stiffness. This enables the cervix to remain closed. Over time, the extracellular matrix becomes strengthened as tension increases collagen strength and synthesis, and decreases degradation and adhesions. It also decreases prostaglandins--inflammatory mediators that facilitate birth. The Hannah Cervical Cup will create stiffness and length in the cervix, provide a treatment for early rupture of fetal membranes, and will offer a mode of medication administration. It is simple in nature, non-invasive, may be used in low-income, low-resource settings, can be placed by a physician in inpatient and outpatient settings, and does not require anesthesia during placement. The Hannah Cervical Cup (2 mm Delta) displaces the cervical tissue by 2 mm.

Hannah Cervical Cup (4 mm)

Group Type: EXPERIMENTAL

Hannah Cervical Cup (4 mm Delta)

Intervention Type: DEVICE

The Hannah Cervical Cup reverses and prevents early cervical change by improving cervical collagen function. It applies negative pressure to the cervix, placing it in a tensile strain. Collagen under tension elicits fibers to realign, creating initial stiffness. This enables the cervix to remain closed. Over time, the extracellular matrix becomes strengthened as tension increases collagen strength and synthesis, and decreases degradation and adhesions. It also decreases prostaglandins--inflammatory mediators that facilitate birth. The Hannah Cervical Cup will create stiffness and length in the cervix, provide a treatment for early rupture of fetal membranes, and will offer a mode of medication administration. It is simple in nature, non-invasive, may be used in low-income, low-resource settings, can be placed by a physician in inpatient and outpatient settings, and does not require anesthesia during placement. The Hannah Cervical Cup (4 mm Delta) displaces the cervical tissue by 4 mm.

Hannah Cervical Cup (6 mm)

Group Type: EXPERIMENTAL

Hannah Cervical Cup (6 mm Delta)

Intervention Type: DEVICE

The Hannah Cervical Cup reverses and prevents early cervical change by improving cervical collagen function. It applies negative pressure to the cervix, placing it in a tensile strain. Collagen under tension elicits fibers to realign, creating initial stiffness. This enables the cervix to remain closed. Over time, the extracellular matrix becomes strengthened as tension increases collagen strength and synthesis, and decreases degradation and adhesions. It also decreases prostaglandins--inflammatory mediators that facilitate birth. The Hannah Cervical Cup will create stiffness and length in the cervix, provide a treatment for early rupture of fetal membranes, and will offer a mode of medication administration. It is simple in nature, non-invasive, may be used in low-income, low-resource settings, can be placed by a physician in inpatient and outpatient settings, and does not require anesthesia during placement. The Hannah Cervical Cup (6 mm Delta) displaces the cervical tissue by 6 mm.

Interventions

Hannah Cervical Cup (2 mm Delta)

The Hannah Cervical Cup reverses and prevents early cervical change by improving cervical collagen function. It applies negative pressure to the cervix, placing it in a tensile strain. Collagen under tension elicits fibers to realign, creating initial stiffness. This enables the cervix to remain closed. Over time, the extracellular matrix becomes strengthened as tension increases collagen strength and synthesis, and decreases degradation and adhesions. It also decreases prostaglandins--inflammatory mediators that facilitate birth. The Hannah Cervical Cup will create stiffness and length in the cervix, provide a treatment for early rupture of fetal membranes, and will offer a mode of medication administration. It is simple in nature, non-invasive, may be used in low-income, low-resource settings, can be placed by a physician in inpatient and outpatient settings, and does not require anesthesia during placement. The Hannah Cervical Cup (2 mm Delta) displaces the cervical tissue by 2 mm.

Intervention Type: DEVICE

Hannah Cervical Cup (4 mm Delta)

The Hannah Cervical Cup reverses and prevents early cervical change by improving cervical collagen function. It applies negative pressure to the cervix, placing it in a tensile strain. Collagen under tension elicits fibers to realign, creating initial stiffness. This enables the cervix to remain closed. Over time, the extracellular matrix becomes strengthened as tension increases collagen strength and synthesis, and decreases degradation and adhesions. It also decreases prostaglandins--inflammatory mediators that facilitate birth. The Hannah Cervical Cup will create stiffness and length in the cervix, provide a treatment for early rupture of fetal membranes, and will offer a mode of medication administration. It is simple in nature, non-invasive, may be used in low-income, low-resource settings, can be placed by a physician in inpatient and outpatient settings, and does not require anesthesia during placement. The Hannah Cervical Cup (4 mm Delta) displaces the cervical tissue by 4 mm.

Intervention Type: DEVICE

Hannah Cervical Cup (6 mm Delta)

The Hannah Cervical Cup reverses and prevents early cervical change by improving cervical collagen function. It applies negative pressure to the cervix, placing it in a tensile strain. Collagen under tension elicits fibers to realign, creating initial stiffness. This enables the cervix to remain closed. Over time, the extracellular matrix becomes strengthened as tension increases collagen strength and synthesis, and decreases degradation and adhesions. It also decreases prostaglandins--inflammatory mediators that facilitate birth. The Hannah Cervical Cup will create stiffness and length in the cervix, provide a treatment for early rupture of fetal membranes, and will offer a mode of medication administration. It is simple in nature, non-invasive, may be used in low-income, low-resource settings, can be placed by a physician in inpatient and outpatient settings, and does not require anesthesia during placement. The Hannah Cervical Cup (6 mm Delta) displaces the cervical tissue by 6 mm.

Intervention Type: DEVICE

Eligibility Criteria

Inclusion Criteria

• women undergoing hysterectomy

Exclusion Criteria

• if the candidate has undergone previous cervical surgeries or procedures including cerclage, loop electrosurgical excision procedure (LEEP), or cone biopsy
• has been diagnosed with collagen vascular disease
• a diagnosis of malignant or premalignant cervical changes
• a cervical length less than 15mm or greater than 45mm
• a cervical transverse diameter less than 15mm or greater than 35mm

• Minimum Eligible Age: 18 Years
• Maximum Eligible Age: 50 Years
• Eligible Sex: FEMALE
• Accepts Healthy Volunteers: Yes

Sponsors

Galena Innovations, LLC

INDUSTRY

Sponsor Role: lead

Responsible Party

Responsibility Role: SPONSOR

Principal Investigators

Ashley C Crafton

Role: PRINCIPAL_INVESTIGATOR

Galena Innovations

Locations

Intermountain Utah Valley Hospital

Provo, Utah, United States

Countries

United States

Central Contacts

Ashley C Crafton

Role: CONTACT

ashley@galenainnovations.com

208-870-0904

Facility Contacts

Jake Krong

Role: primary

Other Identifiers

1A

Identifier Type: -

Identifier Source: org_study_id