Coeus Lite was originally developed for the occasional Coeus Proposal Development user, but is now used only for Conflict of Interest disclosures, and submitting their human subject’s protocols for IRB review. Please refer to the COI website for more information.
Do investigators need to complete Financial Conflict of Interest training before a new award or change to an existing NIH award can be set up in Kuali Coeus and SAP?
Yes, the new CITI training on COI will need to be completed.
Additionally, at time of award, a new COI disclosure will be required as part of the annual COI disclosure, for yearly continuations, Renewals and New awards. The Significant Financial Interest (SFI) threshold has been lowered so will need to be done under the new regulations. For more information go to http://coi.mit.edu.
Who must complete Responsible Conduct of Research training?
The NSF expects institutions to be able to verify that those students (undergraduates and graduates) and postdoctoral researchers who receive NSF funds (support from salary and/or stipends to conduct research on NSF grants) will obtain RCR training. However, NSF anticipates that institutions will develop their RCR training programs in a manner that helps prepare the next generation of researchers, including the consideration of risks or other factors associated with student and postdoctoral researcher participation in research. For more information go to http://osp.mit.edu/compliance/responsible-conduct-research
Must the RCR training be completed on an annual basis?
Does the Responsible Conduct of Research requirement flow down to any subawardee identified on the project?
Yes. The RCR training requirement does flow down to all subawardees, at any tier. MIT must therefore ensure that these RCR requirements are appropriately met.
Are there types of proposals/awards that are exempt from the RCR requirement?
The RCR training requirement applies to new proposals submitted, or due, on or after January 4, 2010, to conduct research, which excludes, for example, conference, symposium, workshop, or travel proposals.
What is an export?
An export is the actual shipment or transmission of items, services, or technical data subject to either the EAR or the ITAR out of the United States, or the release of technology, software, or technical data subject to either EAR or ITAR to a foreign national in the United States. Technology, software, or technical data is “released” for export through:
visual inspection by a foreign national of U.S.-origin equipment and facilities,
oral exchanges of information in the United States or abroad,
transfer or shipment via any means (physical or electronic) to a foreign entity
providing a service, or the application to situations abroad of personal knowledge or technical experience acquired in the United States
What is export control?
Export control is composed of federal laws and regulations that restrict the flow of certain materials, devices, and technical information related to such materials and devices outside the United States. They are set forth in the Arms Export Control Act, the International Traffic in Arms Regulations (ITAR) implemented by the Department of State, the Export Administration Regulations (EAR) implemented by the Bureau of Industry and Security (BIS) of the Commerce Department, the laws and regulations implemented by the U.S. Department of the Treasury’s Office of Foreign Assets Control (OFAC), the U.S. Nuclear Regulatory Commission (NRC), and the laws and regulations implemented by the Department of Energy (DOE).
What should I do if I think export controls may apply to a research project?
Do everything you can to make sure that the work research performed at MIT falls within the parameters of the following exclusions:
Fundamental Research Exclusion: Both ITAR and EAR include language that excludes the results of “fundamental research” from export requirements for export licenses or other government approvals. The exclusion applies for basic and applied research in science and engineering performed by universities so long as that research is carried out openly and without restrictions on publication, foreign national access, and dissemination.
Educational Information Exclusion: Authorizes the disclosure, without a license, of educational information released by instruction in catalog courses and associated teaching laboratories of academic institutions. This information includes general scientific, mathematical, or engineering principles commonly taught in universities.
Publicly Available Information Exclusion: Applies if the information is in the public domain, i.e., if it is publicly available technology and software that is generally accessible to the public through unlimited and unrestricted distribution. Special rules apply to encryption software even if “open source” or publicly available software is being developed.
If you are unsure if your activity falls under one of these exclusions or if you have any questions, please contact Janet Johnston, Export Control Officer, Office of Sponsored Programs, at 253-2762 or via e-mail at email@example.com, or stop by NE18-901.
How do I know if export controls apply to a research project?
Export controls apply if the topic of the research appears on either the U.S. Munitions List (ITAR) or the Commerce Control List (EAR). There are exclusions and exceptions to the application of the regulations.
Furthermore, it depends on both the technologies (i.e., the work scope) and the countries (either foreign destinations or foreign personnel) involved. ITAR applies if the subject of the research appears on the ITAR munitions list. Under ITAR, the country of destination is irrelevant; export of a controlled item to any foreign country or any foreign national would be in violation of the law.
The application of EAR is more complicated. It depends on both the technology involved and the country of destination. For example, you might have a technology that can be exported to Canada but not to Venezuela. In most cases, technologies are very precisely defined, and the definitions affect the applicability of the law. For example, telecommunications equipment involving lasers that transmit at wavelengths above 1750 nm may be controlled, while similar equipment using a smaller wavelength is not controlled.