Up to 50% of patients having surgery take regular medications and almost half of these patients have their medications stopped at the time of surgery. The interruption of their regular medications during this period exposes patients to associated complications. The project aims to improve the management of patients’ regular medications at the time of surgery, especially when they are fasting or nil by mouth, via a bundle of interventions that include education, reminders and audit/feedback.
Perioperative Beta-blockade To Prevent Cardiac Morbidity In High-risk Patients Undergoing Surgery (The POISE Study)
Funder
National Health and Medical Research Council
Funding Amount
$189,625.00
Summary
Non-cardiac surgery is associated with significant risk of complications and death, particularly in elderly patients who are known to have heart disease, or who have risk factors for it (ie smoking, high blood pressure). About 11% of the Australian population are currently taking medications for heart disease or high blood pressure and about 80% have at least one risk factor for heart disease. As more than 2 million Australians have general anaesthesia for non-cardiac surgery every year, a subst ....Non-cardiac surgery is associated with significant risk of complications and death, particularly in elderly patients who are known to have heart disease, or who have risk factors for it (ie smoking, high blood pressure). About 11% of the Australian population are currently taking medications for heart disease or high blood pressure and about 80% have at least one risk factor for heart disease. As more than 2 million Australians have general anaesthesia for non-cardiac surgery every year, a substantial group of patients are therefore at risk of an adverse outcome following surgery. Despite the magnitude of this problem, however, few studies have established treatments to decrease the risk of complications and death following surgery. Beta-blockers are a group of drugs which have been used for decades in the treatment of heart disease and high blood pressure. Beta-blockers are known to improve the way the heart copes with the stress of surgery. They decrease the heart rate, make the heart more efficient at using energy and reduce the likelihood of imbalance between oxygen supply and demand. Some previous studies showed that beta-blockers may reduce the risk of heart attack and death for up to 2 years after surgery. However, other studies have shown no effect of beta-blockers on outcome. These previous studies have involved small numbers of patients who may not represent the broader population having surgery. We therefore propose to undertake a large trial to definitively answer the question about whether beta-blockers improve the outcome after non-cardiac surgery in patients with, or at risk of, heart disease. Even if the effect of beta-blockers is relatively modest, because such large numbers of patients with heart disease have surgery, the overall effect on the rate of complications and death in the population could be very significant. The results of this study could have major implications for the success of, and cost of, surgery worldwide.Read moreRead less
Reevaluation Of The Anatomy Of The Human Lymphatic Vessel Network
Funder
National Health and Medical Research Council
Funding Amount
$539,750.00
Summary
The mode of spread of cancer cells from a primary tumour to other parts of the body is still not completely understood, although the lymphatic system is known to be important in this process. Lymph vessels are tiny transparent channels that form a network over the entire body. They transport tissue fluid to regional lymph glands in the neck, armpits, groin, chest and abdomen where the immune response maybe initiated to combat foreign agents such as bacteria and cancer cells. Current knowledge of ....The mode of spread of cancer cells from a primary tumour to other parts of the body is still not completely understood, although the lymphatic system is known to be important in this process. Lymph vessels are tiny transparent channels that form a network over the entire body. They transport tissue fluid to regional lymph glands in the neck, armpits, groin, chest and abdomen where the immune response maybe initiated to combat foreign agents such as bacteria and cancer cells. Current knowledge of the anatomy of these tiny vessels is based on work done by Sappey more than a century ago. There is an urgent need to update this work as many of his conclusions have been found to be inaccurate. We will use our pioneering methods of microsurgical tissue transfer- now being used worldwide - and our extensive experience in delineating fine channels, to address some of the basic questions about the anatomical pathways of spread of cancer. We hope to discover for example: why cancer on one side of the back can spread to glands in the opposite groin or armpit, thought by Sappey to be impossible; why cancer on one side of the tongue can spread to lymph glands on the opposite side of the neck; and why there is sometimes swelling of the limbs following lymph gland ablation by surgery or radiotherapy of glands in the groin or armpit. Currently it is thought that the only major connections with the venous system are at the base of the neck. Our initial work has shown unexpected connections with blood vessels in the periphery and unreported lymphatic vessel pathways between the skin and deep tissues. The results of this research will give information that will aid in localizing and treating the spread of malignancies and will underlie future treatment of obstructed lymph vessels that are the cause of painful, disabling swelling (lymphoedema) of the limbs.Read moreRead less