Multicenter Phenotype-Genotype Analysis of Vascular Stains to Optimize Treatment Utilizing Optical Coherence Tomography

Study Description

Brief Summary

The purpose of this research study is to develop a better understanding of vascular stains and to improve the usual laser treatment for vascular stain by using optical coherence tomography (OCT). This study is being done at the University of Wisconsin-Madison (UW-Madison) and University of California, Irvine. A total of about 115 people will participate in this study.

Detailed Description

Vascular stains, commonly called "port wine birthmarks," are vascular anomalies that affect 0.3-0.5% of newborns; they impact quality of life due to soft tissue overgrowth, nodularity and life-altering, stigmatizing disfigurement. Laser treatment is the standard of care and relies on photocoagulation of vessels. Yet less than 25% are reported to clear entirely; the reason for this lack of response is poorly understood. Recently, mosaic mutations in genes that control cell-cycle regulation including GNAQ, GNA11, PiK3CA and others were elucidated as a genetic cause for these birthmarks. This finding has transformed our fundamental understanding of their pathophysiology. It provides a molecular explanation for limited responsiveness to laser, as these genes share oncogenic pathways that result in synchronous, tightly regulated cellular proliferation and growth. Most importantly, this discovery has unlocked the potential to utilize pharmacologic blockade of activated downstream pathways to improve outcomes.

This proposal aims to utilize novel imaging to highlight differences in the vasculature of vascular birthmarks with genotyping and deep, paired clinical phenotyping, and to create a targeted laser algorithm based on genotype and age. In a small subset of patients with confirmed GNAQ/GNA11 genotyping, the investigators will utilize single cell spatial transcriptome profiling of affected tissue to drive drug discovery. Upon completion of this project, the investigators will have refined genotype-phenotype correlations enhanced by novel imaging of targeted tissue, elucidating differences in the vasculature by genotype, all of which may accelerate precision-based treatments to prevent disfigurement and improve quality of life. These results will provide critical data for implementation of clinical trials that will shift treatment paradigms from a single, ineffective destructive treatment modality to a targeted pharmacologic intervention coupled with light.

The investigators hypothesize that clearance of port wine birthmarks will require: 1) A precision-based approach including optimal laser dosimetry informed by novel angiographic imaging, age, and genotype, and 2) pathway specific-targeted pharmacologic blockade of activated pathways informed by investigation of downstream effectors. The long-term goal is to shift treatment paradigms from a single ineffective destructive modality to a targeted laser source coupled with targeted topical therapy.

Aim 1: Correlate genotype with clinical phenotype

• 1.1 Correlate genotype with comprehensive phenotyping on available participants in Strata A and Strata B. When stratified by participant age, the hypothesis is that genotype will influence vessel size, with greater cell-cycle activation associated with larger median vessel diameter and depth on OCT.

• 1.2 Correlate clinical phenotype with dynamic optical coherence tomography (OCT) in Strata A and Strata B. The investigators hypothesize that participant age will be the greatest predictor of median vessel size and depth on OCT. The investigators expect to see diversity in the architecture and patterning of the vasculature based on genotype. The hypothesis is GNAQ mutated patients will demonstrate significant vascular distortion, with drop out and vascular dilation as has been reported in the ocular OCT literature in patients with Sturge Weber Syndrome.

• 1.3 Collect both quantitative and qualitative outcomes in participants treated with OCT to evaluate the participant experience utilizing this adjuvant modality in treatment in Strata B.

• 1.4 Integrate OCT data to create a targeted laser algorithm by age and/or genotype to optimize photo-coagulation of mutated cells in Strata B.

Aim 2: Determine the molecular mechanism of facial vascular stains to develop pathway-specific therapies

• 2.1 In 4-6 children with confirmed GNAQ/GNA11 mutations in Strata A or Strata B, perform biopsies from affected and normal tissue, collect blood and saliva samples, to facilitate targeted high-depth next generation sequencing (NGS)

• 2.2 Identify novel downstream genotype-specific targets using unbiased spatial transcriptomic analysis through single cell genotyping of participants in Strata A or Strata B with targeted evaluation of 3 pathways for which topical inhibitors are currently in development (PiK3CA, mTOR, and MEK/ERK).

Research Design:

Once informed consent has been obtained, a visual skin exam will be done by the study dermatologist to document the cutaneous findings and photographs of the affected area(s) will be taken for this study. The photographs will be used to determine the genotype-phenotype correlations and will be shared with the coordinating center.

Photographs will be stored electronically in a secure HIPAA compliant manner according to each site's policies.

At the time of enrollment or at a subsequent visit, but only once during participation in the study, subjects can agree to provide any of the following non-medically necessary samples for genetic studies: blood sample, saliva sample, skin punch biopsy (normal skin or affected skin), surgical tissue specimens, paraffin-embedded tissue samples (from previous surgeries). Collection of any of these samples is optional.

At the time of enrollment participants will be placed onto Strata Arm A - one time OCT measurements or Strata B - serial OCT measurements that are taken in association with standard of care laser treatment.

Participants who will proceed onto Strata A will have one-time OCT measurements of their vascular stain if they choose not to/are not eligible for/have previously undergone standard of care laser treatment for their vascular stain at the time of enrollment. The indication for Strata A is that some patients will elect not to undergo laser treatment, particularly if they have been extensively treated with laser previously, or have a light pink vascular stain that has been stable.

Participants who will proceed onto Strata B will have serial OCT measurements of their vascular stain performed prior to the start of standard of care laser treatment. OCT will be performed prior to each standard of care laser treatment if the participant has elected to have standard of care laser treatment as treatment of their vascular stain at the time of enrollment.

Participants who are enrolled to Strata A and undergo a one time OCT measurement may go onto Strata B if, at a later time they decide to undergo standard of care laser treatment for their vascular stain. These participants will still only be able to participate in the above sample collections one time during their participation. Transition from Strata A to Strata B is not considered a second enrollment.

All participants will remain on study until the study has been closed. Participants will be able to perform sample collections at any visit while on study.

Clinical phenotyping of participants will be augmented through use of dynamic OCT to characterize the mean diameter and depth of blood vessels. OCT is a non-invasive, skin specific technology that enables rapid identification of the mode blood vessel diameter, vessel density and depth within the area scanned. It is effectively like placing an ultrasound probe on the participant's skin. The probe is 6 x 6 mm and within 60 seconds of placement, provides the most common (mode) blood vessel diameter detected, along with the depth of the vascular plexus. OCT should be painless and of minimal risk to the participant.

For participants on Strata B, OCT will be performed at baseline and prior to each standard of care laser treatment. Anatomic landmarks for choice of OCT placement will be decided by the study physician, with the goal to image the most prominent area of the stain. In a subset of participants, OCT measurements will also be taken post standard of care laser treatment. Anatomic landmarks for choice in this subset, will be decided by the study physician; the lightest area of the stain will also be imaged to contrast differences between vessel diameter as this would impact the choice of optimal laser settings in differing areas of the stain. The number of areas in which OCT will be performed over the vascular stain will be determined by the treating physician based on the size of the vascular stain. The altered laser settings used for the standard of care laser treatment will be guided by use of the theory of selective photothermolysis to determine optimal pulse duration of the laser based on OCT measurement. This will adhere to acceptable standards of care, and will ultimately be at the discretion of the laser surgeon. The study physician will also aim to measure the same areas prior to each visit, with the expectation that the size of the stain is likely to vary based on treatment resolution of the vascular stain.

For participants on Strata B, a questionnaire will be completed at each visit by the participant and by the parent/guardian of participants ages 8-17 years. The questionnaire will ask how the participants and/or their parent/guardian feel about the results of the laser treatment and how they feel about using OCT in addition to their standard treatment. A questionnaire will not be performed for participants on Strata A.

Study Design

Outcome Measures

Primary Outcome Measures

1. Correlation between blood vessel size measured via OCT and genotype of affected tissues [up to 1 month]

   Targeted next generation sequencing (NGS) using a hybrid capture approach will be performed on DNA samples from affected tissues. OCT measurements of blood vessel size will be compared to genotype derived from biospecimen.

Other Outcome Measures

1. Correlation of genotype with phenotype [up to 1 month]

   Regression analysis will be used to estimate the effect of genotype on clinical phenotype adjusting for age, sex, race, ethnicity, and other potential confounders.

Eligibility Criteria

Criteria

Inclusion Criteria:

• Individual of any age from infant to adult

• Diagnosed with a vascular stain on any anatomic location based on the discretion of the study physician

Exclusion Criteria:

Contacts and Locations

Locations

Sponsors and Collaborators

• University of Wisconsin, Madison

Investigators

• Principal Investigator: Lisa Arkin, MD, University of Wisconsin, Madison

Study Documents (Full-Text)

More Information

Publications