Thursday, January 29, 2026

Researchers advance understanding of female sexual anatomy to improve pelvic cancer radiotherapy

The Mount Sinai Hospital / Mount Sinai School of Medicine

NEW YORK, (January 27, 2026) – Researchers at the Icahn School of Medicine at Mount Sinai, in collaboration with other leading institutions across the country, have published an innovative study that provides radiation oncologists with practical guidance to identify and protect female sexual organs during pelvic cancer treatment.

Published in the latest issue of Practical Radiation Oncology, this study addresses a long-standing gap in cancer care by bringing key female sexual anatomy into consideration during routine radiotherapy planning and survivorship research.

The study, “Getting c-literate: Bulboclitoris functional anatomy and its implications for radiotherapy,” synthesizes current scientific knowledge and pairs it with original anatomic dissection, histology, and advanced imaging analysis. The work focuses on the bulboclitoris, a female erectile organ (consisting of the clitoris and the vestibular bulbs) that plays a central role in sexual arousal and orgasm and can be exposed to radiation during treatment for pelvic cancers.

“Pelvic radiotherapy can be life-saving, but it can also affect sexual function and quality of life,” said Deborah Marshall, MD, MAS, Assistant Professor, Departments of Radiation Oncology and Population Health Science and Policy at the Icahn School of Medicine at Mount Sinai; Division Chief of Women’s Health, Department of Population Health Science and Policy; and senior author of the study. “Compared to male sexual anatomy, female erectile structures have been largely invisible in standard radiation workflows. Our goal was to provide clinicians with a practical anatomy-grounded way to change that.”

Using detailed anatomic and radiologic correlation, the research team demonstrates how the bulboclitoris and related neurovascular structures can be identified on standard CT and MRI scans and consistently outlined (or “contoured”) for radiotherapy planning. This step-by-step guidance makes it feasible for clinicians to measure radiation dose to these tissues and begin linking exposure to patient-reported outcomes related to arousal and orgasm.

“This work builds upon our previous knowledge that the clitoris is not just an external structure,” Dr. Marshall said. “It includes an entire internal organ comprised of erectile tissues located just outside the pelvis, and those tissues matter for sexual health and, in particular, for female sexual pleasure. Once clinicians can reliably see and measure them, we can begin to ask better questions, have better conversations with patients, and ultimately deliver better care.”

Sexual function outcomes after pelvic radiotherapy have historically been understudied in women, limiting counseling, toxicity prevention strategies, and equitable survivorship care. By establishing a shared, standardized approach to identifying the bulboclitoris, the study lays the groundwork for future research to develop dose-volume constraints and mitigation strategies, as other organs at risk are managed in radiation oncology.

For clinicians, the framework enables routine contouring and dose reporting using CT alone when necessary, with MRI improving soft-tissue visualization when available. In the absence of prospective dose-response data, the authors recommend minimizing radiation dose to the bulboclitoris when oncologically appropriate, using an “as low as reasonably achievable” approach.

For patients, the work supports more informed conversations about potential sexual side effects of pelvic radiotherapy, including changes in arousal, sensation, orgasm, lubrication, or pain. This research also promotes more personalized treatment planning that considers female sexual health and pleasure as a legitimate and important component of cancer survivorship.

Next steps include prospective research through Mount Sinai’s STAR program, deeper mapping of neurovascular anatomy relevant to sexual function, expanded educational resources for oncology and radiology teams, and improved patient-reported outcome measures that reflect diverse sexual practices and experiences.

The multi-institutional study includes researchers from the Marshall Lab at the Icahn School of Medicine at Mount Sinai, Massachusetts Institute of Technology, University of Wisconsin–Madison, Memorial Sloan Kettering Cancer Center, NYU Langone, NYU Grossman School of Medicine, and NewYork-Presbyterian/Weill Cornell Medical Center. Mount Sinai medical student authors include Lucy Greenwald, Margaret Downes, and Amarachi Okorom.

The research was supported by the National Institutes of Health, Office of the Director (DP5OD031876; Early Independence Award), and the National Cancer Institute (L30CA274758 and P30CA196521).

Full study: https://www.sciencedirect.com/science/article/pii/S1879850025003248?dgcid=author

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About the Icahn School of Medicine at Mount Sinai

The Icahn School of Medicine at Mount Sinai is internationally renowned for its outstanding research, educational, and clinical care programs. It is the sole academic partner for the seven member hospitals* of the Mount Sinai Health System, one of the largest academic health systems in the United States, providing care to New York City’s large and diverse patient population.

The Icahn School of Medicine at Mount Sinai offers highly competitive MD, PhD, MD-PhD, and master’s degree programs, with enrollment of more than 1,200 students. It has the largest graduate medical education program in the country, with more than 2,600 clinical residents and fellows training throughout the Health System. Its Graduate School of Biomedical Sciences offers 13 degree-granting programs, conducts innovative basic and translational research, and trains more than 560 postdoctoral research fellows.

Ranked 11th nationwide in National Institutes of Health (NIH) funding, the Icahn School of Medicine at Mount Sinai is among the 99th percentile in research dollars per investigator according to the Association of American Medical Colleges. More than 4,500 scientists, educators, and clinicians work within and across dozens of academic departments and multidisciplinary institutes with an emphasis on translational research and therapeutics. Through Mount Sinai Innovation Partners (MSIP), the Health System facilitates the real-world application and commercialization of medical breakthroughs made at Mount Sinai.

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* Mount Sinai Health System member hospitals: The Mount Sinai Hospital; Mount Sinai Brooklyn; Mount Sinai Morningside; Mount Sinai Queens; Mount Sinai South Nassau; Mount Sinai West; and New York Eye and Ear Infirmary of Mount Sinai.

Journal

Practical Radiation Oncology

DOI

10.1016/j.prro.2025.11.013

Method of Research

Meta-analysis

Subject of Research

Human tissue samples

Article Title

Getting c-Literate: Bulboclitoris Functional Anatomy and Its Implications for Radiation Therapy

Article Publication Date

22-Jan-2026

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297 pages

Fossilized plankton study gives long-term hope for oxygen depleted oceans

University of Southampton

Microscope image of fossilised plankton — image:
Scanning electron image of fossilised planktonic foraminifera.
view more
Credit: Anya Hess

Key findings

Arabian Sea was better oxygenated 16 million years ago than it is today, despite warmer climate conditions.

Monsoons, ocean circulation, and ocean gateways play an important role, adding complexity as we try to predict future ocean oxygenation.

In the very long-term, future sea oxygenation may improve, with unknown consequences for marine biology.

A new study suggests the world’s oxygen depleted seas may have a chance of returning to higher oxygen concentrations in the centuries to come, despite our increasingly warming climate.

Researchers at the University of Southampton (UK) and Rutgers University (USA) examined fossilised plankton from the Arabian Sea and found that despite dramatic global warming 16 million years ago, oxygen levels were higher than today. The sea only became truly oxygen deficient four million years later, as the climate cooled.

In addition, the team revealed the region, off the west coast of India, behaved differently than a similar low-oxygen area in the Pacific, suggesting other local systems, such as strong winds, ocean currents, and outflow from marginal seas may have delayed the process.

The scientists’ findings are published in the Nature journal Communications Earth & Environment.

“Oxygen dissolved in our oceans is essential for sustaining marine life, promoting greater biodiversity and stronger ecosystems. However, over the past 50 years, two percent of oxygen in the seas worldwide has been lost each decade as global temperatures rise,” explains co-lead author, Dr Alexandra Auderset of the University of Southampton and formerly of Max Planck Institute of Chemistry, Mainz.

She adds: “The Miocene Climatic Optimum (MCO), a period approximately 17 to 14 million years ago, had similar temperatures and atmospheric conditions to those we predict will occur after 2100. We have taken a snapshot of sea oxygenation during the MCO to help understand how things might develop a-hundred years or more from now.”

The scientists examined tiny fossilised plankton called foraminifera (forams) extracted from core samples provided by the Ocean Drilling Program (ODP). The remains of these creatures hold important chemical information that can indicate oxygen concentrations in sea water over millions of years.

The researchers found that an Oxygen Minimum Zone (OMZ) existed in the Arabian Sea, with oxygen levels below about 100 micromol per kilogram of water, from the early Miocene (19 million years ago) to around 12 million years ago.

However, the oxygen levels at this time were not so low as to trigger a process where nitrogen is expelled from the water and into the atmosphere – a state that is observed nowadays in the Arabian Sea. Rather, this process was delayed and did not occur until later, after the 12 million year mark and beyond.

“Today parts of the Arabian sea are ‘suboxic’, supporting only limited marine life due to minimal oxygenation. This same region during the MCO, under similar climatic conditions, was hypoxic – so comparatively moderate oxygen content, supporting a wider range of organisms,” says Dr. Auderset.

Co-lead-author, Dr Anya Hess of George Mason University, and formerly of Rutgers University and Woods Hole Oceanographic Institution, adds: “The MCO is the closest comparison we have to climate warming beyond 2100 under a high-emissions scenario. One of our previous studies shows the eastern tropical Pacific was actually well oxygenated during this period, in contrast to the deoxygenation trend we see today.

“The Arabian Sea was also better oxygenated during the MCO, but not as much as the Pacific, with moderate oxygenation and an eventual decline that lagged behind the Pacific by about 2 million years.”

Dr Auderset concludes: “Our results suggest that ocean oxygen loss, already underway today, is strongly shaped by local oceanography. Global models that focus solely on climate warming, risk not capturing the regional factors that may either amplify or counteract those more general trends.

“Our research shows ocean response to climate warming is complex, and this means that we will need to be ready to adapt to changing ocean conditions.”

Ends

Notes to editors

The paper ‘Contrasting evolution of the Arabian Sea and Pacific Ocean oxygen minimum zones during the Miocene’ is published in the journal Communications Earth & Environment: https://www.nature.com/articles/s43247-025-03112-4
For interview or further info contact Peter Franklin, Media Manager, University of Southampton. press@soton.ac.uk +44 23 8059 3212
Download images here: https://safesend.soton.ac.uk/pickup?claimID=MPwt2BeKMrpdqqe4&claimPasscode=ptdNzvynfPSYQvHj&emailAddr=259933
More about Ocean and Earth Science at the University of Southampton can be found here: https://www.southampton.ac.uk/about/faculties-schools-departments/school-of-ocean-and-earth-science
The University of Southampton drives original thinking, turns knowledge into action and impact, and creates solutions to the world’s challenges. We are among the top 100 institutions globally (QS World University Rankings 2026). Our academics are leaders in their fields, forging links with high-profile international businesses and organisations, and inspiring a 25,000-strong community of exceptional students, from over 135 countries worldwide. Through our high-quality education, the University helps students on a journey of discovery to realise their potential and join our global network of over 300,000 alumni. www.southampton.ac.uk
For more about Rutgers University visit: https://www.rutgers.edu/

Alexandra Auderset and Alfredo Martinez-Garcia in laboratory at Max Planck Institute for Chemistry.

Credit

Simone Moretti

Graphic showing modern (top) and MCO (bottom) oxygenation.

Credit

University of Southampton