Appendix E-1: Study Protocol

Total Page:16

File Type:pdf, Size:1020Kb

Appendix E-1: Study Protocol APPENDIX E-1: STUDY PROTOCOL This document is the property of Merck and Merck owns the copyright. Merck’s policy on posting of study protocols on journal websites is described at the following link: http://www.merck.com/research/discovery-and-development/clinical- development/Merck-Guidelines-for-Publication-of-Clinical-Trials-and-Related- Works.pdf For publicly posted protocols, Merck redacts the background and rationale sections because these sections may contain proprietary information. Merck also redacts the names of any individuals due to privacy issues. The appendices are generally not provided because they may be lengthy and contain non-essential information. The publicly posted protocol includes all the key sections that are relevant to evaluating the study, specifically those sections describing the study objectives and hypotheses, the patient inclusion and exclusion criteria, the study design and procedures, the efficacy and safety measures, the statistical analysis plan, and amendments relating to those sections. 1 006-02 A Phase IIb, Multicenter, Randomized, Double-Blind Placebo- Controlled, 2-Period Adaptive Crossover Polysomnography Study to Evaluate the Safety and Efficacy of MK-4305 in Patients with Primary Insomnia 4305, Protocol 006-02 Issue Date: 03-Apr-2009 2 Product: MK-4305 Protocol/Amendment No.: 006-02 THIS PROTOCOL AND ALL OF THE INFORMATION RELATING TO IT ARE CONFIDENTIAL AND PROPRIETARY PROPERTY OF MERCK & CO., INC., WHITEHOUSE STATION, NJ, U.S.A. THIS PROTOCOL REPLACES THE ORIGINAL PROTOCOL AND ANY SUBSEQUENT AMENDMENTS AND SHOULD BE SIGNED BY ALL INVESTIGATORS SIGNING THE ORIGINAL PROTOCOL. SPONSOR: Merck & Co., Inc. (hereafter referred to as the SPONSOR) One Merck Drive P.O. Box 100 Whitehouse Station, NJ, 08889-0100, U.S.A. Protocol-specific Sponsor Contact information can be found in the Administrative Binder. TITLE: A Phase IIb, Multicenter, Randomized, Double-Blind Placebo-Controlled, 2-Period Adaptive Crossover Polysomnography Study to Evaluate the Safety and Efficacy of MK-4305 in Patients with Primary Insomnia INVESTIGATOR: PRIMARY: CLINICAL PHASE: IIb US IND NUMBER: 101,847 SITE: INSTITUTIONAL REVIEW BOARD/ETHICS REVIEW COMMITTEE: 4305_006-02_ProtTitle VERSION 3.1 APPROVED 03-Apr-2009 Worldwide Restricted Confidential – Limited Access 4305, Protocol 006-02 Issue Date: 03-Apr-2009 3 Product: MK-4305 1 Protocol/Amendment No.: 006-02 SUMMARY OF CHANGES PRIMARY REASON FOR THIS AMENDMENT: The primary reason for this amendment is to clarify that the siDMC review of the interim analyses will involve unblinding of patient level data from the ex-Japan stratum only, e.g. all Japan stratum data will remain blinded until the final data analysis following full study completion. Affected Sections and revised text: 1.4, 2.7, 3.5.1, 3.5.6, 3.5.9.1, 3.5.9.2 OTHER CHANGES INCLUDED IN THE AMENDMENT: Global Clarifications were made to stratification of Japanese patients. Stratification of Japanese patients will be by geographic region (Japan vs. ex-Japan). Affected Sections and revised text: 1.4, 1.6, 2.4.1, 2.4.2, 2.7, 3.2.3.3, 3.2.3.4.3, 3.5.1, 3.5.5.1, 3.5.6, 3.5.9.1 and 3.5.9.2 Modifications to the statistical model for the analysis of primary, secondary and exploratory efficacy endpoints: Section 2.7: Added a term to the model for geographic region (Japan vs. ex- Japan). Section 3.5.5.1: Specified a completely unstructured covariance matrix for the mixed effects model and removed the random subject effect; if this model does not converge then a model with a random subject effect and an unstructured covariance within patient and time will be used. S 3 3 1 12 R yz Cover and Title Pages: Corrected protocol title Summary of Changes 006-01 PRIMARY REASON FOR THIS AMENDMENT (006-01): The primary reason for this amendment is to allow for an extension of the treatment period visit window with dosing beyond 28 days. The global revision consists of changing the original 28 days of treatment to the updated 28 ± 2 days of treatment. Affected Sections and revised text: 1.4, 1.7, 2.4.1, 2.4.2, and 3.2.3.4.3 4305_006-02_ProtSoC VERSION 3.0 APPROVED 03-Apr-2009 Worldwide Restricted Confidential – Limited Access 4305, Protocol 006-02 Issue Date: 03-Apr-2009 4 Product: MK-4305 2 Protocol/Amendment No.: 006-02 OTHER CHANGES INCLUDED IN THE AMENDMENT (006-01): Global Clarifications were made to enrollment and stratification of Japanese patients. Affected Sections and revised text: 1.4, 1.5, 1.6, 2.4.1, 2.4.2, 2.7, 3.2.3.3, 3.2.3.4.3, 3.5.1, and 3.5.7 Sections 1.6, 2.4.1, and 3.2.3.4.2: The time window of 5 to 10 minutes was added to the protocol sections where oral administration of MK-4305 is specified to occur immediately (within 5 to 10 minutes) prior to bedtime on non-PSG nights. Section 1.7 and 3.4.1.5: Footnote § On PSG Visits, weight should be collected at both PM and AM time points, during assessment of vitals. Footnote : Added collection of serum βhCG samples for females of child-bearing potential at Visit 1 in addition to standard urine pregnancy test. Revised text in 3.4.1.5, paragraph 4, Appendix 6.5-footnote † Footnote Clarified procedure for positive alcohol breath tests at Visit 4 and post randomization Revised text in 3.4.1.5, paragraph 5 Footnote †††† and Clarified timing of assessments is consistent for each type of visit, i.e. PSG visit or non-PSG visit. Section 2.2, Prestudy Inclusion Criteria 1p: Changed barrier c c to effective forms of contraception," modified and added additional examples of contraception: status post-vasectomy and hormonal contraceptives; Add a statement to allow a female patient to use 2 effective forms of contraception to meet criteria, if a male partner cannot use an effective form of contraception. Section 2.3 Prestudy Exclusion Criteria 1.h: The specific QTc interval of QTcB (Bazett’s correction), as determined by the ECG reading center, should be used to meet criteria 1.h. Screening PSG Exclusion Criteria 2a: Added an to clarify that patient must meet either 2.a.a. or 2.a.b 4305_006-02_ProtSoC VERSION 3.0 APPROVED 03-Apr-2009 Worldwide Restricted Confidential – Limited Access 4305, Protocol 006-02 Issue Date: 03-Apr-2009 5 Product: MK-4305 3 Protocol/Amendment No.: 006-02 Section 2.4.1, 3.2.2.2, 3.2.3.4.1, 3.2.3.4.2, and 3.3.1.4: Several statements were added to clarify site’s and patient’s responsibility in regards to eDiary reporting, monitoring, and compliance. Section 3.2.1 and Table 3-1: Clarified use of non-prohibited concomitant medication and concurrent medication, and initiation of new medications during the course of the study -1 to be consistent with Table 2-1. Section 3.2.3.4.2 and 3.4.1.5: Corrected the urine pregnancy test collection time point. The urine pregnancy test will not be collected at Visit 2. Section 3.2.3.4.3 and Table 3-4: Corrected the blood sample for genetic analysis (DNA) collection time point. No genetic sample will be collected at V6. Section 3.3.1.2b: Removed 3rd paragraph regarding the timing of PSG electrode calibrations and replaced with: For the timing of electrode calibrations and other PSG activities, refer to the PSG SOP. Section 3.3.1.7: Clarified the scoring of the WRAT-4. A patient should receive a score of 48 out of 70 to meet criteria. Section 3.4.1.8: Amended paragraph to clarify the use of the MCQ to assess a single episode of a patient’s spontaneously-reported cataplexy-like behavior. The MCQ must also be assessed by either the Primary Investigator (PI) or a Sub-PI. Section 3.5.8, Table 3-13: Removed United Kingdom and Australia. Appendix 6.10: Corrected the location to which plasma samples should be shipped. Appendix 6.7: Clarified that blood pressure measurements are collected both in the sitting and standing positions and that the instructions provided in the Appendix are only a guide for sitting blood pressure measurements. 4305_006-02_ProtSoC VERSION 3.0 APPROVED 03-Apr-2009 Worldwide Restricted Confidential – Limited Access 4305, Protocol 006-02 Issue Date: 03-Apr-2009 6 PROTOCOL A Phase IIb, Multicenter, Randomized, Double-Blind Placebo- Controlled, 2-Period Adaptive Crossover Polysomnography Study to Evaluate the Safety and Efficacy of MK-4305 in Patients with Primary Insomnia TABLE OF CONTENTS Application Starting Contents Page Summary of Changes 3 PRIMARY REASON FOR THIS AMENDMENT: 3 OTHER CHANGES INCLUDED IN THE AMENDMENT: 3 PRIMARY REASON FOR THIS AMENDMENT (006-01): 3 OTHER CHANGES INCLUDED IN THE AMENDMENT 4 (006-01): 1. SUMMARY 13 1.1 Title 13 1.2 Indication 13 1.3 Summary of Rationale 13 1.4 Summary of Study Design 13 1.5 Sample 14 1.6 Dosage/Dosage Form, Route, and Dose Regimen 14 1.7 Study Flow Chart 16 2. CORE PROTOCOL 19 2.1 Objectives and Hypotheses 19 2.1.1 Primary 19 2.1.2 Secondary 19 2.1.3 Exploratory Objectives 20 2.2 Subject/Patient Inclusion Criteria 20 2.3 Subject/Patient Exclusion Criteria 22 2.4 Study Design and Duration 27 4305, Protocol 006-02 Issue Date: 03-Apr-2009 7 TABLE OF CONTENTS (CONT.) Application Starting Contents Page 2.4.1 Summary of Study Design 27 2.4.2 Treatment Plan 30 2.5 List of Efficacy/Pharmacokinetic/Immunogenicity, etc., 31 Measurements 2.6 List of Safety Measurements 31 2.7 Data Analysis Summary 32 3.
Recommended publications
  • Developing a Protocol
    FACILITATOR/MENTOR GUIDE Developing a Protocol Created: 2013 Developing a Protocol. Atlanta, GA: Centers for Disease Control and Prevention (CDC), 2013. DEVELOPING A PROTOCOL Table of Contents LEARNING OBJECTIVES ................................................................................................... 3 ESTIMATED COMPLETION TIME ........................................................................................ 3 TARGET AUDIENCE ......................................................................................................... 3 PRE-WORK AND PREREQUISITES ..................................................................................... 3 MATERIALS .................................................................................................................... 4 OPTIONS FOR FACILITATING THIS TRAINING ....................................................................... 4 ICON GLOSSARY ............................................................................................................ 5 ACKNOWLEDGEMENTS .................................................................................................... 5 FACILITATOR RESPONSIBILITIES ...................................................................................... 7 SECTIONS 1 & 2: INTRODUCTION AND OVERVIEW .............................................................. 8 SECTION 3: WRITING A PROPOSAL OR CONCEPT PAPER ..................................................... 9 SECTION 4: WRITING A DRAFT OF THE PROTOCOL ...........................................................
    [Show full text]
  • Sample Size for Clinical Trials Martin Bland Prof
    British Standards Institution Study Day Sample size for clinical trials Martin Bland Prof. of Health Statistics University of York http://martinbland.co.uk Outcome variables for trials An outcome variable is one which we hope to change, predict or estimate in a trial. Examples: • Systolic blood pressure in a hypertension trial • Caesarean section rate in an obstetric trial • Survival time in a cancer trial How many outcome variables should I have? If we have many outcome variables: • all possibilities would be covered, • we would be less likely to miss something, • the risk of false positives, finding an apparent effect when there is none in reality, would be increased. If we have few outcome variables: • the trial would be easier and quicker to check and analyse, • the trial would be cheaper, • the trial would be easier for research subjects, • we would avoid multiple testing and the high risk of a false positive result. We get round the problem of multiple testing by having one outcome variable on which the main conclusion stands or falls, the primary outcome variable. If we do not find an effect for this variable, the study has a negative result. Usually we have several secondary outcome variables, to answer secondary questions. A significant difference for one of these would generate further questions to investigate rather than provide clear evidence for a treatment effect. The primary outcome variable must relate to the main aim of the study. Choose one and stick to it. How large a sample should I take? A significance test for comparing two means is more likely to detect a large difference between two populations than a small one.
    [Show full text]
  • Phase 3 Clinical Study Protocol
    ModernaTX, Inc. 20 Aug 2020 Protocol mRNA-1273-P301, Amendment 3 mRNA-1273 CLINICAL STUDY PROTOCOL Protocol Title: A Phase 3, Randomized, Stratified, Observer-Blind, Placebo-Controlled Study to Evaluate the Efficacy, Safety, and Immunogenicity of mRNA-1273 SARS-CoV-2 Vaccine in Adults Aged 18 Years and Older Protocol Number: mRNA-1273-P301 Sponsor Name: ModernaTX, Inc. Legal Registered Address: 200 Technology Square Cambridge, MA 02139 Sponsor Contact and Tal Zaks, MD, PhD, Chief Medical Officer Medical Monitor: ModernaTX, Inc. 200 Technology Square, Cambridge, MA 02139 Telephone: 1-617-209-5906 e-mail: [email protected] Regulatory Agency Identifier Number(s): IND: 19745 Amendment Number: 3 Date of Amendment 3: 20 Aug 2020 Date of Amendment 2: 31 Jul 2020 Date of Amendment 1: 26 Jun 2020 Date of Original Protocol: 15 Jun 2020 CONFIDENTIAL All financial and nonfinancial support for this study will be provided by ModernaTX, Inc. The concepts and information contained in this document or generated during the study are considered proprietary and may not be disclosed in whole or in part without the expressed written consent of ModernaTX, Inc. The study will be conducted according to the International Council for Harmonisation (ICH) Technical Requirements for Registration of Pharmaceuticals for Human Use, E6(R2) Good Clinical Practice (GCP) Guidance. Confidential Page 1 ModernaTX, Inc. 20 Aug 2020 Protocol mRNA-1273-P301, Amendment 3 mRNA-1273 PROTOCOL APPROVAL – SPONSOR SIGNATORY Study Title: A Phase 3, Randomized, Stratified, Observer-Blind, Placebo-Controlled Study to Evaluate the Efficacy, Safety, and Immunogenicity of mRNA-1273 SARS-CoV-2 Vaccine in Adults Aged 18 Years and Older Protocol Number: mRNA-1273-P301 Protocol Version Date: 20 Aug 2020 Protocol accepted and approved by: See esignature and date signed on last page of document.
    [Show full text]
  • Chapter 13*: EPIDEMIOLOGY
    Monitoring Bathing Waters - A Practical Guide to the Design and Implementation of Assessments and Monitoring Programmes Edited by Jamie Bartram and Gareth Rees © 2000 WHO. ISBN 0-419-24390-1 Chapter 13*: EPIDEMIOLOGY * This chapter was prepared by D. Kay and A. Dufour Epidemiological data are frequently used to provide a basis for public health decisions and as an aid to the regulatory process. This is certainly true when developing safeguards for recreational waters where hazardous substances or pathogens discharged to coastal and inland waters may pose a serious risk of illness to individuals who use the waters. Epidemiological studies of human populations not only provide evidence that swimming-associated illness is related to environmental exposure, but also can establish an exposure-response gradient which is essential for developing risk- based regulations. Epidemiology has played a significant role in providing information that characterises risks associated with exposure to faeces contaminated recreational waters. The use of epidemiological studies to define risk associated with swimming in contaminated waters has been criticised because the approach used to collect the data is not experimental in nature. This perception is unlikely to change, given the highly variable environments where recreational exposures take place. Although the variables may be difficult to control, it is possible to carry out credible studies by following certain standard practices that are given below. This Chapter discusses the place of epidemiological investigations in providing information to support recreational water management and the scientific basis of "health-based" regulation. 13.1 Methods employed in recreational water studies Epidemiology is the scientific study of disease patterns in time and space.
    [Show full text]
  • Sample Research Protocol
    Protocol REVITA 2018 April 9, 2018 A Clinical Investigation Evaluating Efficacy of a Full- Thickness Placental Allograft (Revita®) in Lumbar Microdiscectomy Outcomes Primary Investigator: Thomas Morrison III, MD Northside Hospital 1000 Johnson Ferry RD. N.E., Atlanta, GA 30342 Phone: 404-256-2633 Fax: 404-255-6532 Sponsor: StimLabs 1225 Northmeadow Parkway, Suite 104, Roswell, GA 30076 Phone: 888-346-9802 Fax: 470-719-2085 Confidential Page 1 of 19 Protocol REVITA 2018 April 9, 2018 STUDY SUMMARY A Clinical Investigation Evaluating Efficacy of a Full-Thickness Title Placental Allograft (Revita) in Lumbar Microdiscectomy Outcomes Methodology Randomized, controlled trial, blind study Estimated duration for the main protocol (e.g. from start of Study Duration screening to last subject processed and finishing the study) is approximately 2.5 years Multi-center (Polaris Spine and Neurosurgery Center, Atlanta, GA Study Center(s) and Northside Hospital, Atlanta, GA) Primary Objective: To evaluate the efficacy of Revita full thickness placental allograft in improving back and leg pain post- microdiscectomy Objectives Secondary Objectives: To evaluate post-microdiscectomy reherniation rate in patients treated with Revita Number of 182 randomized patients in two arms; Treatment and Control Subjects Inclusion Criteria - Male and female patients, 18-70 years old, in any distribution. - Symptomatic with radiating low back and leg pain for greater than 6 months prior to surgery with a clinical diagnosis of lumbar protruding disc. Diagnosis and - Consent and compliance with all aspects of the study Main Inclusion protocol, methods, providing data during follow-up contact Criteria - See methods section for full list of inclusion criteria Exclusion Criteria - Male and female patients younger than 18 years old or older than 70 years old.
    [Show full text]
  • A Simplified Protocol for Reversing Phenotypic Conversion of Ralstonia
    International Journal of Environmental Research and Public Health Article A Simplified Protocol for Reversing Phenotypic Conversion of Ralstonia solanacearum during Experimentation Pramod Kumar Sahu 1,* , Shailendra Singh 1 , Amrita Gupta 1, Udai B. Singh 1 , Surinder Paul 1 , Diby Paul 2 , Pandiyan Kuppusamy 3, Harsh V. Singh 1 and Anil Kumar Saxena 1 1 ICAR-National Bureau of Agriculturally Important Microorganisms, Maunath Bhanjan UP-275103, India; [email protected] (S.S.); [email protected] (A.G.); [email protected] (U.B.S.); [email protected] (S.P.); drharsh2006@rediffmail.com (H.V.S.); [email protected] (A.K.S.) 2 Pilgram Marpeck School of Science, Technology, Engineering and Mathematics, Truett McConnel University, 100 Alumni Dr. Cleveland, GA 30528, USA; [email protected] 3 ICAR-Central Institute for Research on Cotton Technology, Ginning Training Centre, Nagpur, Maharashtra 440023, India; [email protected] * Corresponding author: [email protected] Received: 16 April 2020; Accepted: 11 June 2020; Published: 15 June 2020 Abstract: Background: Ralstonia solanacearum has the problem of losing the virulence in laboratory conditions, during prolonged experimentation. Since pure colonies of R. solanacearum contain cell fractions differing in virulence, it was considered worthwhile to find a way of selecting the cells with lower attenuation. Therefore, a methodology for inducing virulent-type colonies occurrence in Ralstonia solanacearum was developed. Methods: Nutrient gradient was created by swabbing R. solanacearum culture in a slanted KMTTC medium, and Phyllanthus emblica extract was given by well diffusion. Live–dead cell imaging using BacLight, effects of ascorbic acid on cell viability, and production of virulence factors (exopolysaccharides, cellulase, and pectinase) supported this hypothesis.
    [Show full text]
  • Protocol Template (Protocol)
    Protocol template (Protocol) NN This is a reprint of a Cochrane protocol, prepared and maintained by The Cochrane Collaboration and published in The Cochrane Library 2013, Issue 9 http://www.thecochranelibrary.com For Preview Only Protocol template (Protocol) Copyright © 2013 The Cochrane Collaboration. Published by John Wiley & Sons, Ltd. TABLE OF CONTENTS HEADER....................................... 1 ABSTRACT ...................................... 1 BACKGROUND .................................... 1 OBJECTIVES ..................................... 1 METHODS ...................................... 1 Figure1. ..................................... 3 REFERENCES ..................................... 5 ADDITIONALTABLES. 6 APPENDICES ..................................... 7 CONTRIBUTIONSOFAUTHORS . 21 DECLARATIONSOFINTEREST . 21 For Preview Only Protocol template (Protocol) i Copyright © 2013 The Cochrane Collaboration. Published by John Wiley & Sons, Ltd. [Intervention Protocol] Protocol template NN1 1Not specified Contact address: N N, Not specified. Editorial group: Cochrane Metabolic and Endocrine Disorders Group. Publication status and date: New, published in Issue 9, 2013. Citation: N N. Protocol template. Cochrane Database of Systematic Reviews 2013, Issue 9. Art. No.: CDXXXXXX. DOI: 10.1002/14651858.CDXXXXXX. Copyright © 2013 The Cochrane Collaboration. Published by John Wiley & Sons, Ltd. ABSTRACT This is the protocol for a review and there is no abstract. The objectives are as follows: To assess the effects of ... How the intervention
    [Show full text]
  • Protocol Template: Observational Research Study
    OCR Interventional_Drugs/Device_Protocol_Template Version: 3.0 OCR Template Date: 09-03-13 [TITLE PAGE – REVISED IRB PROTOCOL] PROTOCOL TITLE: A Randomized, Double-Blinded, Placebo-Controlled Study to Determine if Caffeine Citrate Accelerates Emergence from Anesthesia PI: Name: Aaron Fox, Ph.D. Telephone: (773) 702-2667 Fax: E-mail: [email protected] CO-I(S): Name: Zheng (Jimmy) Xie, M.D., Ph.D. Telephone: (773) 702-2667 Fax: E-mail: [email protected] FUNDING: NIH 1R01GM116119 – 01 09/01/2015 – 08/30/2019 PI: Fox Reversing Anesthesia with Caffeine Patients who are anesthetized, wake after their bodies clear the anesthetic. Our preliminary studies found that in rodents that caffeine could dramatically accelerate emergence from anesthesia. Preliminary data from a Pilot study in human subjects suggest that humans show a similar response to caffeine. The goal in this application is to determine the mechanism for the emergence and to test whether caffeine can accelerate emergence from anesthesia in human subjects. SPONSOR: Name: Principal Investigator, Aaron Fox, Ph.D. Address: The University of Chicago Neurobiology, Pharmacology and Physiology 947 E. 58th Street Telephone: (773) 702-2667 TYPE OF RESEARCH: Interventional, drug studies INTERVENTION: Study Drug Caffeine Citrate MANUFACTURER OF INTERVENTION (if applicable): Bedford Labs IND OR IDE # (applicable for IND/IDE-regulated studies): 127863 NAME OF PERSON WHO HOLDS IND OR IDE (if applicable): Aaron Fox, Ph.D. Page 1 of 71 November 3, 2016 Confidential IRB Approval Date: Author(s) IRB approved Version#: OCR Interventional_Drugs/Device_Protocol_Template Version: 3.0 OCR Template Date: 09-03-13 PROTOCOL NUMBER: PROTOCOL VERSION: 2.0 PROTOCOL VERSION DATE: Page 2 of 71 November 3, 2016 Confidential IRB Approval Date: Author(s) IRB approved Version#: OCR Interventional_Drugs/Device_Protocol_Template Version: 3.0 OCR Template Date: 09-03-13 TABLE OF CONTENTS PAGE 1.
    [Show full text]
  • Sample Size Determination for Clinical Trials
    Sample Size Determination for Clinical Trials Paivand Jalalian Advisor: Professor Kelly McConville May 17, 2014 Abstract An important component of clinical trials is determining the smallest sample size that provides accurate inferences. The Frequentist approach to determining sample size is most common; however there has been a recent shift towards using a Bayesian ap- proach due to its flexibility. This paper will review both the Frequentist and Bayesian branches of statistics and their respective approaches to sample size determination. As well, the advantages and disadvantages of using each method will be considered. Finally, along with the Bayesian approach to sample size determination, we will also discuss a Bayesian adaptive design for clinical trials that allows for sample size adjust- ments during the trial. 1 Introduction Clinical trials are research studies used to gain insight about new treatments or interventions, for example drugs, procedures, medical devices, etc. Clinical trials are an important part of the development process of new interventions because they determine and confirm the efficacy, as well as the safety, of an intervention. Conducting a clinical trial requires a lot of preparation, and an important aspect of de- signing a clinical trial is determining the correct sample size for that trial. Having the correct sample size limits unneeded exposure to possible harmful treatments, while ensuring accu- rate results. Additionally, determining the correct sample size saves money and resources. There are many ways in which sample size can be calculated, and all these methods aim to find the \best" sample size, or the smallest sample size necessary to get accurate and inference worthy results.
    [Show full text]
  • Treating the Field As a Lab: a Basic Guide to Conducting Economic
    Angelino C. G. Viceisza TREATING the FIELD as a LAB A Basic Guide to Conducting Economics Experiments for Policymaking ABOUT IFPRI The International Food Policy Research Institute (IFPRI®) was established in 1975 to identify and analyze alternative national and international strat- egies and policies for meeting food needs of the developing world on a sus- tainable basis, with particular emphasis on low-income countries and on the poorer groups in those countries. While the research effort is geared to the precise objective of contributing to the reduction of hunger and malnu- trition, the factors involved are many and wide-ranging, requiring analy- sis of underlying processes and extending beyond a narrowly defined food sector. The Institute’s research program reflects worldwide collaboration with governments and private and public institutions interested in increas- ing food production and improving the equity of its distribution. Research results are disseminated to policymakers, opinion formers, administrators, policy analysts, researchers, and others concerned with national and inter- national food and agricultural policy. IFPRI is a member of the CGIAR Consortium. ABOUT IFPRI FOOD SECURITY IN PRACTICE The Food Security in Practice technical guide series is designed for devel- opment practitioners. The guides are meant to enrich the research skills of project personnel in the field. Each volume addresses informational and methodological issues that practitioners may confront during the life of a project, explaining relevant research and operational concepts in easy- to-understand ways. All manuscripts submitted for publication as IFPRI technical guides undergo an extensive review procedure that is managed by IFPRI’s Publications Review Committee (PRC).
    [Show full text]
  • FDA Guidance for Clinical Trial Sponsors
    Guidance for Clinical Trial Sponsors Establishment and Operation of Clinical Trial Data Monitoring Committees For questions on the content of this guidance, contact the Office of Communication, Training, and Manufacturers Assistance (CBER) at 800-835-4709 or 301-827-1800. U.S. Department of Health and Human Services Food and Drug Administration Center for Biologics Evaluation and Research (CBER) Center for Drug Evaluation and Research (CDER) Center for Devices and Radiological Health (CDRH) March 2006 OMB Control No. 0910-0581 Expiration Date: 10/31/2021 See additional PRA statement in Section 8 of this guidance Contains Nonbinding Recommendations Guidance for Clinical Trial Sponsors Establishment and Operation of Clinical Trial Data Monitoring Committees Additional copies of this guidance are available from: Office of Communication, Training and Manufacturers Assistance, HFM-40 Center for Biologics Evaluation and Research Food and Drug Administration 1401 Rockville Pike, Rockville, MD 20852-1448 Phone: 800-835-4709 or 301-827-1800 Internet: http://www.fda.gov/cber/guidelines.htm or Office of Training and Communication Division of Communications Management Drug Information Branch, HFD-210 Center for Drug Evaluation and Research Food and Drug Administration 5600 Fishers Lane, Rockville, MD 20857 Phone: 301-827-4573 Internet: http://www.fda.gov/cder/guidance/index.htm or The Division of Small Manufacturers, International, and Consumer Assistance (DSMICA) Center for Devices and Radiological Health Food and Drug Administration 1350 Piccard Drive, Rockville, MD 20850 Phone: 800-638-2041 or 301-443-6597 Internet: http://www.fda.gov/cdrh Email: [email protected] Facts-on-Demand (faxback): 800-899-0381 or 301-827-0111 Contains Nonbinding Recommendations Table of Contents 1.
    [Show full text]
  • Registration of Observational Studies
    Registration of Observational Studies July 2013 Deborah A. Zarin, M.D. Director, ClinicalTrials.gov National Library of Medicine http://ClinicalTrials.gov1 ClinicalTrials.gov Definitions • Observational Study: “studies in human beings in which biomedical and/or health outcomes are assessed in pre- defined groups of individuals. Subjects in the study may receive diagnostic, therapeutic, or other interventions, but the investigator does not assign specific interventions to the subjects of the study.” • Interventional Study: “studies in human beings in which individuals are assigned by an investigator based on a protocol to receive specific interventions. Subjects may receive diagnostic, therapeutic or other types of interventions. The assignment of the intervention may or may not be random. The individuals are then followed and biomedical and/or health outcomes are assessed.” 2 http://prsinfo.clinicaltrials.gov/definitions.html Key Policies for Interventional Studies • ICMJE (Registration only) – Interventional trials • All intervention types – All phases • FDAAA (Registration and Results) – Interventional trials • Drugs, biologics, devices – Not phase 1 – US FDA jurisdiction (e.g., IND/IDE or US site) – Specific enforcement mechanisms • European Medicines Agency (EMA) (Registration and Results) 3 Reasons to Register Clinical Trials and Report Results • Human Subject Protections – Allows potential participants to find studies – Assists ethical review boards and others to determine appropriateness of studies being reviewed (e.g., harms, benefits, redundancy) – Promote fulfillment of ethical responsibility to human volunteers – research contributes to medical knowledge • Research Integrity – Facilitates tracking of protocol changes – Increases transparency of research enterprise • Evidence Based Medicine – Facilitates tracking of studies and outcome measures – Allows for more complete identification of relevant studies • Allocation of Resources – Promotes more efficient allocation of resources 4 4 5 Williams et al.
    [Show full text]