| Researcher | Institute | Project Title |
| Dr Dragana Dragoljevic |
Baker Heart and Diabetes Institute |
Determining if diabetes interacts with clonal haematopoiesis to promote atherosclerotic cardiovascular disease. |
| Dr Arpeeta Sharma | Baker Heart and Diabetes Institute |
Modulating soluble guanylate cyclase activity to improve type 2 diabetic and hypertensive heart function. |
| Assoc Professor Michelle Keske |
Deakin University | Home‐based vascular therapy for improving exercise tolerance and glycaemia in type 2 diabetes |
| Assoc Professor Peter van Wijngaarden |
Centre for Eye Research Australia |
Novel imaging & artificial intelligence for improved diabetic retinopathy screening. |
| Dr Gunveen Kaur | Deakin University | Does short‐term high‐calorie high‐fat feeding impair skeletal muscle microvascular blood flow and increase the risk of pre‐diabetes in humans? |
| Dr Greg Kowalski | Deakin University | A novel 'liquid biopsy' to study in vivo beta‐cell insulin synthesis in humans. |
| Dr Amelia Lake | Deakin University | Implementing quarterly professional‐mode flash glucose monitoring in a collaborative care model for type 2 diabetes: exploration of clinician/patient dyads in the GP‐OSMOTIC qualitative sub‐study. |
| Professor Bodil Rasmussen |
Deakin University | Psychosocial well‐being among new mothers with type 1 or type 2 diabetes: Refining and testing a novel screening tool derived from the Postnatal Wellbeing Transition Questionnaire. |
| Dr Chris Shaw | Deakin University | Deciphering the mechanisms of postprandial glucose disposal. |
| Dr Michael De Silva | La Trobe University | Cell therapy for the treatment of obesity‐induced brain injury and cognitive impairment. |
| Dr Miles De Blasio | Monash University | Targeting cardiac adiponectin signalling as a novel treatment for cardiac lipotoxicity. |
| Professor Mark Febbraio |
Monash University | Role of extracellular vesicles in exercise‐induced protection of liver steatosis and insulin resistance. |
| Professor Karin Jandeleit‐Dahm |
Monash University | Point of care detection of early kidney disease using infrared spectroscopy. |
| Dr Sarah Marshal | Monash University | Sulforaphane, a vasoprotective compound to reduce maternal vascular complications in human gestational diabetes. |
| Dr Muthukumar Mohan |
Monash University | A pro‐resolving approach as a novel interventional treatment against the vascular complications of diabetes. |
| Dr Chengxue (Helena) Qin |
Monash University | Resolving inflammation to treat vessel stiffness in diabetes. |
| Dr Adam Rose | Monash University | Investigating a novel hepatic glucagon signalling node. |
| Dr Carlos Rosado | Monash University | Exploring the intracrine effects of GLP‐1 peptides. |
| Dr Jacqueline Schiesser |
Murdoch Children's Research Institute |
A scorecard for human islets. |
| Dr Kim Loh | St Vincent’s Institute of Medical Research |
SIK3 as a new therapeutic target for improving ß‐cell function in diabetes. |
| Dr Andrew Sutherland |
St Vincent’s Institute of Medical Research |
IL‐17RC regulated mechanisms of type 1 diabetes protection: the role of gut microbiota. |
| Professor Helen Thomas |
St Vincent’s Institute of Medical Research |
New ways to treat checkpoint inhibitor induced type 1 diabetes. |
| Assoc Professor John Wentworth |
The Walter and Eliza Hall Institute of Medical Research |
In‐home islet autoantibody testing to empower families to prevent type 1 diabetes. |
| Dr Aleena Ali | University of Melbourne | Genetics in diabetes: towards precision medicine. |
| Dr Devy Deliyanti | University of Melbourne | Regulatory B cells for the treatment of diabetic retinopathy. |
| Professor Lea Delbridge |
University of Melbourne | Developing cardioprotective SGLT leads – especially for women. |
| Dr Helen Jiao | University of Melbourne | Reducing vision loss in diabetic retinopathy by protecting the outer blood‐retinal barrier. |
| Dr Magdalene Montgomery |
University of Melbourne | EMILIN1 ‐ A novel therapeutic target for glycaemic control and liver disease. |
| Dr Benjamin Parker |
University of Melbourne | Identification of C18ORF25 as a novel exercise regulated signalling factor for glycaemic control and insulin resistance. |
| Professor Matthew Watt |
University of Melbourne | Targeting lipid droplet metabolism to improve insulin sensitivity and glycaemic control. |
| Dr Mervyn Kyi | The Royal Melbourne Hospital |
Specialist Treatment of Inpatients: Caring for Diabetes ‐ Type 1 (STOIC‐D T1) |
Grants funded by Diabetes Victoria for 2022
Craig Bennet speaks about the Diabetes Australia Research Program
Melbourne’s brilliant capacity and record in undertaking world-class health and medical research has again been proven with 31 Victorian-based researchers securing more than $2 million from the 2022 Diabetes Australia Research Program (DARP).
Diabetes Victoria CEO Craig Bennett said: “Each year, the most outstanding projects covering a range of basic, clinical, psychosocial and translational diabetes-related research are selected on merit and supported in the order of approximately $70,000 each to further their research.”
“Every dollar directed towards research is critical. Each research project to receive funding may hold a vital key to the next development or breakthrough, potentially helping to make a real difference to many lives,” he said.
There is always hope
Diabetes research continues to bring hope to people living with all types of diabetes, and there’s no time to wait as diabetes is now the fastest-growing chronic condition in Victoria.
“Almost 370,000 Victorians live with diabetes and we estimate that some 125,000 more live with undiagnosed type 2 diabetes,” he said.
The Victorian recipients of the 2022 Diabetes Australia Research Program general grants come from many of Melbourne’s most well-known institutions including Monash University, the University of Melbourne, Deakin University, St Vincent’s Institute of Medical Research, Baker Heart & Diabetes Institute, the Centre for Eye Research Australia, La Trobe University, the Murdoch Children’s Research Institute, the Royal Melbourne Hospital and the Walter and Eliza Hall Institute of Medical Research.
Mr Bennett said, “Each of the supported research projects is important and will throw light on the causes and consequences of the different types of diabetes. There are three projects in particular that are fascinating.
“The first is a home-based vascular therapy for improving exercise tolerance and glycaemia in type 2 diabetes, to be undertaken by Associate Professor Michelle Keske at Deakin University,” he said.
Exercise intolerance means a decreased ability to perform physical exercise. This is common in people with type 2 diabetes and significantly reduces quality of life, making independent living difficult.
Mr Bennett said, “The other is led by Associate Professor John Wentworth from the Walter and Eliza Hall Institute of Medical Research. Associate Professor Wentworth is working on an in-home islet autoantibody test for detecting type 1 diabetes.
“Similar to COVID-19 Rapid Antigen Tests, this could mean a new way to identify type 1 diabetes in children and young adults who are at high risk quickly, easily, and at a lower cost.
“The third project has the potential to identify a new drug therapy to improve the lives of people living with diabetes with hard-to-treat hypertension and heart failure, by Doctor Arpeeta Sharma,” he said.
2022 DARP recipients
