Energy-free Liquid Crystal-based Bacterial Instrument

  • NOVA University Lisbon
  • From Portugal
  • Responsive
  • Patents for licensing

Summary of the technology

A portable, energy-free liquid crystal-based optical instrument that uses engineered proteins to detect bacteria at point of use. This technology refers to engineered recombinant proteins that bind to peptidoglycan (PG), a structure unique and ubiquitous to bacteria.

NOVA University Lisbon

Background

The presence of unwanted bacteria is directly responsible for diverse public health issues worldwide, from poor treatment of drinking water to uncontrolled clinical infections associated with high rates of mortality and morbidity. A specific indicator of the presence of bacteria in clinical products, environmental sources or sterile environments is the detection of free muropeptides (MR), which are universal breakdown products of peptidoglycan (PG), a structure unique and ubiquitous to bacteria and the major component of the cell wall. However, MRs were never used as a diagnostic target to sense bacteria.

Early detection of any type of infectious disease is crucial for the success of the clinical treatment adopted and is still the best approach to improve survival rates. In particular, the early and rapid identification of bacteria as infectious agents and its differentiation from other agents such as virus and fungi is of primary importance for a fast empirical therapeutic decision-making and treatment success. Examples of diseases in which fast diagnosis can save lives are meningitis, multidrug resistant bacterial infection outbreaks in hospitals, and cholera or gonorrhoea epidemics in developing countries. Other applications in which a fast diagnosis would provide a major economic and health advantage would be in blood banks and food safety screenings and water and environmental quality control.

However, currently available diagnostic tests do not answer the need for a prompt response, as they have long response times, require invasive procedures, complex sample preparation and laboratory manipulation, lack sensitivity, and can be too specific, restricting its application to a particular microorganism or disease.

Therefore, the development of a non-invasive and portable blood test effective in detecting early infection would represent a relevant step forward in clinical diagnostic and environmental control.

Technology Overview

This technology refers to engineered recombinant proteins that bind to peptidoglycan (PG), a structure unique and ubiquitous to bacteria. The technology here described uses this capability to bind bacteria and thus produce a bacterial instrument. The system is internally coated by an activated matrix with immobilized PG-binding protein and is externally sandwiched by two crossed polarizers. After sample application, the cell is filled with a liquid crystal (LC) that interacts with the incident light and transduces the result. Without analyte, the homeotropically aligned LC molecules do not interfere with the incoming polarized light that is extinct by the outlet-crossed polarizer (negative result). With analyte, the PG-binding protein binds to MRs and misaligns the LC molecules, randomly rotating the polarization of light that is no longer extinct by the second polarizer (positive result). The research team have already successfully built a working instrument prototype, able to detect Staphylococcus aureus cells, peptidoglycan and muropeptide.

Benefits

  • Fast diagnostic method;
  • Energy independent (no power source needed);
  • Usable in clinical context, as well as in remote regions with no available health-care facilities;
  • Non-invasive;
  • Selectivity towards the analyte;
  • Early stage detection;
  • Portable;
  • Easy to operate;
  • Low manufacturing costs;
  • Miniaturisable (using microfluidics).

Applications

  • Human Bacterial Infection detection (sterile fluids);
  • Animal Bacterial Infection detection (sterile fluids);
  • Screening of blood banks for bacterial contaminations;
  • Bacterial detection in sterile fluids such as pharmaceutical products, injectables, etc.;
  • Bacterial detection in sterile surfaces (medical devices, catheters, prosthesis, medical instruments, laboratory material, hospital environmental surfaces);
  • Water treatment (Mineral/drinking water quality assessment);
  • Beverage industry;
  • Food industry.

Current development status

Laboratory prototypes

Intellectual property status

  • Patent already applied for
  • Patent application number :PT118398

Related Keywords

  • Biological Sciences
  • Biology / Biotechnology
  • Protein Engineering
  • Protecting Man and Environment
  • Genetic Engineering / Molecular Biology

About NOVA University Lisbon

Founded in 1973, NOVA University Lisbon encompasses nine schools that offer a wide variety of degrees in all areas of knowledge and constitute an incontestable cultural, artistic, academic, and technological resource. NOVA has a strong tradition of work in areas of innovation, with corresponding outcomes in the economy, services, and in extracurricular training, establishing important protocols with its peers, both nationally and internationally.

Innovation and Entrepreneurship are embedded in NOVA’s culture, being widely promoted within the University’s ecosystem as a way of fostering knowledge transfer and transforming research results into social and economic value, focuses particularly on promoting a knowledge-based and high-impact value creation activity, through collaborations with industry and society.

The NOVA Impact office contributes to the University’s societal benefit by working with academics, researchers and students to apply and maximize the impact of their expertise and research, to foster knowledge transfer and transform innovative results in social and economic value.

We support and develop initiatives that add social or economic value, based on the knowledge produced at NOVA, promoting a knowledge-based and high-impact value creation activity through collaborations with society and industry. We set up new programs to encourage entrepreneurship and new cross-cutting initiatives to strengthen collaboration with businesses.

We help NOVA innovators and entrepreneurs to develop their ideas for the benefit of society, the economy, themselves, and the University.

Typical activities and support include the IP protection, development and commercialization of ideas/technology, entrepreneurship training, new company or social enterprise creation, and liaising with industry or other organizations to partner up towards impact-driven projects and initiatives.

NOVA University Lisbon

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