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3. Electronic submission capability to FDA for academic investigators-the process, challenges, and opportunities affecting the translational research enterprise

Author

Antoinette Azevedo, Kevin J. Weatherwax, Mona Moore, Bill R. Reisdorph, Jeanne Wright, and E Mitchell Seymour

Subjects
Electronic common technical document, Device Approval, Word processing, General Biochemistry, Genetics and Molecular Biology, Electronic mail, Translational Research, Biomedical, Medicine, Humans, Electronic submission, Investigational New Drug Application, General Pharmacology, Toxicology and Pharmaceutics, Prescription Drug User Fee Act, Research Articles, Academic Medical Centers, Electronic Mail, business.industry, United States Food and Drug Administration, General Neuroscience, Investigational New Drug, General Medicine, Research Personnel, United States, Engineering management, Law, Word Processing, business, Software
Abstract

The Prescription Drug User Fee Act (PDUFA) has undergone authorization five times, most recently as part of the FDA Safety and Innovation Act (FDASIA) signed into law on July 9, 2012. PDUFA V covers fiscal years 2013–2017 beginning on October 1, 2012. Section 1136 of FDASIA includes a requirement that submissions to FDA be in electronic format. To implement this requirement, FDA's Center for Drug Evaluation and Research (CDER) and Center for Biologic Evaluation and Research (CBER) issued a Draft Guidance (January 2013) on the standards and format of electronic submissions including electronic Common Technical Document (eCTD) format.1 FDA will issue the Final Guidance no later than 12 months from the close of the 60‐day public comment period upon the Draft Guidance. The Final Guidance and subsequent revisions will be binding on sponsors, applicants, and manufacturers no earlier than 24 months (36 months for Investigational New Drug [IND] submissions) after issuance of the Final Guidance. In short, the transition to mandatory eCTD compliance for drugs and biologic submissions is swiftly approaching. The Center for Devices and Radiologic Health (CDRH) has already issued its Final Guidance for “eCopy” standards in December 2012.2 For drugs and biologics, PDUFA V electronic submission mandates for eCTD do not apply to noncommercial research conducted by academic sponsor‐investigators. However, academics are required to comply with the eCopy guidelines of CDRH. One could then question if eCTD capability for academia is even desirable given that transition from paper can be a resource‐intensive process. The fact is that with PDUFAV mandates, the FDA submission practices of eCTD‐compliant industry and academia will continue to diverge. On a number of levels, this divergence can complicate the translation of academic discoveries into private sector opportunities and biomedical advances. Clinical research at academic medical centers significantly and increasingly contributes to discovery, development, and repurposing of FDA‐approved products. In addition to Institutional Review Board approval, such studies commonly require FDA oversight through IND or Investigational Device Exemption (IDE) submissions to FDA. An increasing number of academic medical centers offer regulatory support for their academic sponsor‐investigators who hold these INDs and IDEs. First described by Dr. Harvey Arbit, these support units offer significant value to investigators and the university; they can reduce regulatory compliance risk while accelerating biomedical advances.3 We propose that like industry, academic regulatory affairs units, technology transfer offices, and the university research enterprise could benefit from the efficiencies and benefits of “eSub” capability. Presently, we describe one high‐volume regulatory support program at a large academic health center and its acquisition of eSub capability for drugs (paper IND to eCTD) and devices (paper IDE to eCopy). We describe the steps involved and their challenges, some of which are likely unique to a non‐industry setting. We also discuss our use of expert technical consulting and software solutions. Finally, we postulate how eSubmissions will impact our regulatory operations metrics, our agency interaction, and our industry interaction. It is our hope that sharing this information will assist other academic health centers that are thoughtfully considering an investment in this technology.

Published
2014

5. Women's perceptions of iron deficiency and anemia prevention and control in eight developing countries

Author

Ruben Grajeda, Nicolas Meda, Javier Rodriquez, Elena Hurtado, Rae Galloway, Chitra Stephen, Shubhada Kanani, Endang Achadi, Neena Raina, Leslie Elder, Jolly Rajaratnam, K Mona Moore, Erin Dusch, Linda Morison, Julie Marsaban, and Mike Favin

Subjects
Adult, Cross-Cultural Comparison, Pediatrics, medicine.medical_specialty, Health Knowledge, Attitudes, Practice, Health (social science), Anemia, Iron, Population, Psychological intervention, Developing country, Pilot Projects, Sampling Studies, Interviews as Topic, Embryonic and Fetal Development, History and Philosophy of Science, Pregnancy, Environmental health, medicine, Humans, education, Developing Countries, Maternal Welfare, education.field_of_study, Anemia, Iron-Deficiency, business.industry, Public health, Prenatal Care, Iron deficiency, Iron Deficiencies, Focus Groups, medicine.disease, Pregnancy Complications, Iron-deficiency anemia, Dietary Supplements, Patient Compliance, Female, business, Iron, Dietary
Abstract

The World Health Organization estimates that 58% of pregnant women in developing countries are anemic. In spite of the fact that most ministries of health in developing countries have policies to provide pregnant women with iron in a supplement form, maternal anemia prevalence has not declined significantly where large-scale programs have been evaluated. During the period 1991-98, the MotherCare Project and its partners conducted qualitative research to determine the major barriers and facilitators of iron supplementation programs for pregnant women in eight developing countries. Research results were used to develop pilot program strategies and interventions to reduce maternal anemia. Across-region results were examined and some differences were found but the similarity in the way women view anemia and react to taking iron tablets was more striking than differences encountered by region, country or ethnic group. While women frequently recognize symptoms of anemia, they do not know the clinical term for anemia. Half of women in all countries consider these symptoms to be a priority health concern that requires action and half do not. Those women who visit prenatal health services are often familiar with iron supplements, but commonly do not know why they are prescribed. Contrary to the belief that women stop taking iron tablets mainly due to negative side effects, only about one-third of women reported that they experienced negative side effects in these studies. During iron supplementation trials in five of the countries, only about one-tenth of the women stopped taking the tablets due to side effects. The major barrier to effective supplementation programs is inadequate supply. Additional barriers include inadequate counseling and distribution of iron tablets, difficult access and poor utilization of prenatal health care services, beliefs against consuming medications during pregnancy, and in most countries, fears that taking too much iron may cause too much blood or a big baby, making delivery more difficult. Facilitators include women's recognition of improved physical well being with the alleviation of symptoms of anemia, particularly fatigue, a better appetite, increased appreciation of benefits for the fetus, and subsequent increased demand for prevention and treatment of iron deficiency and anemia.

Published
2002

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