Research Transforming Pelvic Organ Prolapse Treatments

Hudson Institute

It's the most common medical condition you've never spoken about.

A condition affecting 40 per cent of all women, to varying degrees.

A condition that costs the Australian healthcare system $200 million each year.

A condition that can leave sufferers with drastically reduced quality of life - unable to run, play with or even lift their kids - and STILL it is rarely, if ever, discussed in public forums.

Pelvic Organ Prolapse (POP) is as old as motherhood itself and is crying out for contemporary solutions.

World-leading POP science

Dr Shayanti Mukherjee, Head of Hudson Institute's Translational Tissue Engineering lab, specialises in innovative cell-based therapies for pelvic floor disorders and birth trauma injuries.

"There is no adequate treatment for POP and no treatment that can prevent its onset following a vaginal birth injury," said Dr Mukherjee. "So, women suffer in silence for years to decades, with new solutions desperately needed to improve their quality of life." Dr Mukherjee brings a unique 21st century skillset and a fierce determination to this challenge, with a PhD in nanostructured biomaterials and a commitment to advancing women's health utilising biomedical engineering.

"A defining moment in my career was learning that my materials engineering and nanotechnology background could change the lives of women," she said. Her research merges multiple disciplines to understand how chronic pelvic floor disorders manifest after childbirth injury and she applies her knowledge to develop novel cell-based tissue-engineered therapies for pelvic reconstruction to

advance maternal urogynaecological health.

"My vision is to break this impasse for women by introducing new paradigms in pelvic reconstruction that will reduce suffering due to birth injury," said Dr Mukherjee.

POP | Images showing cellular expression on 3D printed degradable pelvic meshes
Cellular expression on 3D printed degradable pelvic meshes

Revolutionary treatment approaches: 3D-printed degradable mesh

Dr Mukherjee's research uses a woman's own stem cells to create a 3D-printed degradable mesh, promising to avoid the complications that have plagued previous synthetic non-degradable meshes.

The aim is a simple one - a one-step safe and effective surgical treatment for POP, providing hope for millions of women worldwide.

"By integrating cutting-edge techniques like electrospinning and 3D printing of materials and cells, I aim to revolutionise maternal urogynaecological health, offering transformative solutions and improving the wellbeing of women affected by this prevalent issue."

"This research has the potential to revolutionise therapies for pelvic floor regeneration and enable personalised medicine for women," she said.

Prevention and cure: a holistic approach

Dr Mukherjee's research is as much about prevention as a cure. She is also developing an understanding of how chronic pelvic floor disorders develop after a childbirth injury and improving awareness of birth injuries among obstetricians and midwives.

"We have discovered that early therapy, given soon after childbirth, can heal signs of birth injury and prevent prolapse later in life, giving hope that women will not have to suffer in silence for years," she said.

A remarkable year

Dr Mukherjee describes her achievements in 2023 as significant - not just scientific milestones but a beacon of hope for herself, her team and all women. Among the highlights were the granting of nearly $4 million in research funding for her POP research, including a Victorian Medical Research Acceleration Fund Grant, an NHMRC Ideas Grant and a Rebecca L Cooper Foundation Fellowship. Dr Mukherjee also gained valuable industry experience with pharmaceutical and biotechnology company, Moderna, during a six-month full-time fellowship with the company.

"Without this funding, we could not take this research further. Taking it further means bringing these new techniques from the lab, through pre-clinical trials and eventually into the clinic, potentially benefitting millions of women," she said.

A future of hope and health for women

"By advancing innovative cell-based therapies, we are on the brink of transforming the landscape of maternal urogynaecological health, promising a brighter and healthier future for women across the globe," said Dr Mukherjee.

"It represents a leap towards a future where groundbreaking research transforms healthcare, ensuring better lives and equitable wellbeing for our community."

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