SBIR-STTR Award

Most training curricula for first responders and Skilled Service Personnel (SSP) has been focused on chemical, biological, natural disaster (hurricane, flood), and pandemic response. However, training curricula regarding response to radiological events has been limited. Although some basic training exists for small radiological events, training that focuses on the screening and triaging of large numbers of potential victims seeking medical services after a catastrophic nuclear event, i.e., the detonation of an Improvised Nuclear Device and even an Explosive Dispersal Device, is nonexistent. First responders are ill prepared to deal with an overwhelming large number of victims and worried-well resulting from such a catastrophic event, and current guidelines and training curricula from federal sources such as the REMM and the REAC/TS focus only on small events, i.e., nuclear power plant accidents. Nicolalde R&D LLC in collaboration with Dartmouth College, proposes to develop (in Phase 1) an e-training curricula for First Responders, Skilled Service Personnel (SSP), and volunteers to respond to a catastrophic nuclear event that requires the screening and medical triage of larger numbers of potential victims, following our proprietary methodology for developing, implementing and evaluating new operating procedures and technologies for emergency response. The current literature regarding Standard Operating Procedures and federal guidelines for responding and mitigating the effects of radiation exposures, for any size of radiological event, relies on unreliable and poorly tested methods for measuring radiation exposure at the individual level, i.e., time to emesis, and serial lymphocyte count over a period of several days, and assumes that the medical system will have the capacity to admit every potential victim. These guidelines will not provide the needed capabilities to screen large numbers of potential victims, which will most likely overwhelm the medical system. The federal government has been spending significant amounts of money on grants (U19 CMCR) and contracts (BARDAs) to support the development and implementation of high throughput and rapid biodosimetry technologies that can be available through the national stockpile. We propose to include in our training curricula the use of these novel biodosimetry technologies that can screen and triage potential victims efficiently and reliably. Electron Paramagnetic Resonance dosimetry (EPR) is one of such technologies capable of providing the needed capability. Another example of such technologies is a blood assay based on genetic markers that can be used rapidly in the field. Curricula for the use of any of these fast dosimetry techniques is not existent. In phase 1 we will develop the training curricula (content) in two languages, English and Spanish. We will also explore the feasibility to deliver the content using some of the currently available methods to deliver e-training such as the Just-In-Time Training for Emergency Incidents System (JITTEIS), or through interactive DVD format, or through interactive video games. We will explore these alternatives and make the appropriate contacts to potentially test the training program using the selected alternative in Phase 2. The application is rated at a priority score level of 49.

Thesaurus Terms:
Acute;Assay;Bioassay;Biologic Assays;Biological;Biological Assay;Blood;Blood Reticuloendothelial System;Chemicals;Collaborations;Communication;Communities;Contracting Opportunities;Contracts;Curriculum;Development;Development And Research;Devices;Disasters;Dose;Epr Spectroscopy;Esr Spectroscopy;Educational Curriculum;Electron Paramagnetic Resonance;Electron Spin Resonance;Electron Spin Resonance Spectroscopy;Electronics;Emergencies;Emergency Situation;Emesis;English Language;Evaluation;Event;Exercise;Federal Government;Feedback;Flooding;Floods;Focus Groups;Funding;General Population;General Public;Genetic Markers;Goals;Government;Grant;Guidelines;Human Resources;Hurricane;Individual;Loinc Axis 4 System;Learning;Literature;Lymphocyte Count;Lymphocyte Number;Maintenance;Manpower;Mass Screening;Measures;Medical;Method Loinc Axis 6;Methodology;Methods;National Government;Natural Disasters;Nuclear;Nuclear Power Plant Accident;Paramagnetic Resonance;Performance;Phase;Physical Exercise;Population;Procedures;Process;R &D;R&D;Radiation;Radiation Syndromes;Sbir;Sbirs (R43/44);Screening Procedure;Services;Site;Small Business Innovation Research;Small Business Innovation Research Grant;Source;System;Techniques;Technology;Testing;Time;Total Lymphocyte Count;Training;Training Programs;Triage;Video Games;Vomiting;Base;Biodosimetry;College;Collegiate;Design;Designing;Developmental;Dosimetry;Electron Paramagnetic Resonance Spectroscopy;Emergency Service Personnel;Emergency Service Responder;Emergency Service/First Responder;First Responder;Novel;Operation;Pandemic;Pandemic Disease;Personnel;Population Based;Programs;Radiation Effect;Ray (Radiation);Research And Development;Response;Screening;Screenings;Simulation;Volunteer

There is a need to be able to deliver just-in-time training and reference materials for first responders and skilled support personnel. Mobile computing platforms are becoming ubiquitous and provide an ideal means to reach users at any time in any location. The process of translating existing reference materials into mobile-friendly formats is currently manual and very labor intensive. Nicolalde R&D LLC is well under way to commercialize its mTraining mobile technology and service prototyped during a phase I SBIR from NIEHS. The mTraining technology is an objective and checklist-based method for delivering just-in-time training and reference materials, making it an effective Electronic Performance Support System (EPSS) for providing workers easy access to information after training, and on site prior to or during an assignment. It provides short, incident specific awareness and safety training that can be delivered prior to responding to an emergency situation. The proposed development under this phase II SBIR includes: a) a back-end document processing engine that is able to automatically parse, analyze, mark-up, and organize documents so that their content is easily cross-referenced, linked and re-organized for effective delivery on a mobile training platform or other electronic medium. This will be connected to a server and database architecture to facilitate its operation and support storing and accessing content; b) the front-end interface for the mobile training platform (mTraining) was prototyped in Phase I of this project for delivering training content to emergency responders, skilled support personnel, and volunteers before or during an incident. The improved back-end architecture will support intelligent search capabilities for a large repository of training documents with different structures. This capability relies on the document processing engine's ability to semi-automatically extract relevant data and automatically translate this data into a structured format. This data can then be used for display in the mobile application, stored into databases, and automatically populated into ontologies. Throughout this project the participatory-based design paradigm has been used for facilitating the integration of user requirements and the fast prototyping and testing of design alternatives. This approach will continue to be utilized in Phase 2 of the project.

Public Health Relevance Statement:


Public Health Relevance:
The proposed research and development will advance the field of environmental health and safety training by bringing to it new and innovative advanced training technologies that are based on the mobile and just-in-time paradigm. Furthermore, the research and development proposed herein will advance the mobile information technology field by developing robust and scalable tools for processing and linking information residing in different source documents that are semantically related.

Project Terms:
Access to Information; Architecture; Awareness; Back; base; Case Study; computer based Semantic Analysis; Data; Databases; design; Development; Educational Curriculum; Educational Materials; Electronics; emergency service/first responder; Emergency Situation; Environmental Health; Focus Groups; Human Resources; improved; Information Technology; innovation; interest; Link; Location; Manuals; Medical; Medical Students; Methodology; Methods; National Institute of Environmental Health Sciences; Natural Language Processing; Ontology; operation; Performance; Phase; Process; Provider; public health relevance; repository; research and development; Research Infrastructure; response; Retrieval; Safety; Semantics; Services; Simulate; Site; Small Business Innovation Research Grant; Source; Specific qualifier value; Structure; Support System; Technology; Testing; Time; Time Management; tool; Training; Training and Education; Translating; Update; usability; volunteer