Design of patient bio-hazard suit

My approach is committed to solve existing problems with supply shortage of single use protective equipment for medical personnel facing Covid19 outbreak. Problem for personal protective equipment is with excessive need for regular change between treating patients, even in the case the patients are infected with same disease due to existing medical protocols, which are made to prohibit secondary infections, and due to possible damage and failure of equipment in prolong use. My system would isolate infected patient in low-medium level bio-hazard suite. That suit would be additionally equipped with bio-safety designed access gates for excrement removal, introduction of medicines, water and food, and medical examinations. It could be equipped with oxygen level saturation probe, but also with oxygen support system with creation of oxygen enriched higher pressure atmosphere and thermal regulation. System would benefit patient, but also reduce need for medical protective equipment, and possibly expand hospital treatment areas.  

My approach would solve the problem of protective equipment shortage, but also shortage of intensive care unit beds during Covid19 pandemic. Patients are affected due to high influx of corona patients and overwhelming of national Medical systems. Patients who are not infected with virus have problem of accessing needed medical care and intensive care units. That problem is global. So far over 3.5 million people have been tested positive on Covid19 virus, and over 300000 have succumbed to disease, many of whom unnecessarily just because of overwhelmed medical systems. Problem is generated with high infection rate of virus and fast spread that is effecting high percentage of population simultaneously.   

My solution is personal disposable isolation low-medium level bio protective suit for patients. It is isolating patient in own protective cocoon, from the first moment of diagnose and required medical treatment. It can be made of cheap materials similar to standard protective equipment, with additional elements for monitoring patients, creating oxygen rich atmosphere and ports of safe access for introduction of medicines, food and nursing. System could increase safety for medical professionals, but also for patients without virus who could potentially be treated in same intensive care wards without danger. 

Solution is addressing stress on medical workers who need to follow strict bio-safety procedures. It would reduce, or even eliminate need for exchangeable single use protective equipment, reduce time between procedures, and open possibility for medical professionals to nurse multiple patients in same time. It would benefit infected patients, due to creation of simple oxygenated and controllable surrounding and possibly improve final outcome of disease. It would also benefit non infected patients who could be simultaneously treated in same ICUs. Thru engagement with medical practitioners, I will define needs that needs to be implemented in design. Also the required level of protection that would be sufficient for this level of bio-hazard.       

System that I am suggesting is made from simple concept of reversing approach to existing problem and its standard solution. Using existing technologies and solutions and reshape them and quickly create alternative approach. This approach is out of box, but due its simplicity and obvious benefits, it is very applicable as solution for problems. It is aligning to Challenge requirements because it is addressing one of most urgent and most peril problem of today. Bio-hazard safety. 

Out of the box approach of reuse of existing designs and technologies for simple solution of widespread problem. Innovative is from the fact that that approach is so far never used, accordingly to present literature.

Existing bio-hazard protective technologies are implemented with existing medical monitoring and sensor equipment for monitoring and nursing covid patients in safe and controlled conditions generated by this suite. System is made from existing materials and using standard manufacturing and production technologies.

Similar suit system is already widely used in low-medium level bio-hazard protective equipment, and monitoring sensors and oxygen supply systems are standard medical equipment. Excrement removal systems are various and widely implemented. Access ports for medicine and food intake need to be designed in line with medical standards and cost effectiveness. But there are many preexisting solutions that could give us solution or idea for implementation.

My solution would increase effectiveness of medical teams in tending patients because it will wipe off or reduce time between interventions severely affected by bio-hazard situations and necessary implementations of medical protocols. It will open access of ICUs for non corona patients and possibly increase chance of positive outcome for corona patients.

In this phase it is only concept that, if implemented, would eventually serve millions of patients and medical professionals all over the world. 

My idea would be realised thru collaborative work of institutions and industry. It would be realised thru innovative research programs of my and other universities with external funding.

Financial barriers due the lack of research grants in face of Corona virus pandemic and recession. 

I will apply for research support finding and grants, and cooperation with government, institutions and industry.

Monash University, is going to be base for my research.

So far, in concept stage I am only one involved

I am mechatronics engineer with over 20 years of industrial design practice. I am chief engineer in Pathfinder Australia. I recently started my PhD research with Monash University in Melbourne Australia, on topic of medical engineering.

Monash University

Based on Charity and research grants

Donations and research grants