Survey
* Your assessment is very important for improving the workof artificial intelligence, which forms the content of this project
Download Research Proposal
Document related concepts
Transcript
3/13/15 9:09 AM RESEARCH PROPOSAL1 FOOD DESERTS, BEHAVIORAL HEALTH AND COMMUNITY VIOLENCE Prepared by Lynn C. Todman, PhD, MCP Research Affiliate, Community Innovators Laboratory (CoLab) Department of Urban Studies and Planning Massachusetts Institute of Technology Cambridge, MA & Project Manager, Lakeland Regional Health System St. Joseph, MI In Collaboration with Section of Nutritional Neurosciences Laboratory of Membrane and Biophysics National Institute on Alcohol Abuse and Alcoholism National Institutes of Health Bethesda, MD & Department of Public Health, Nutrition & Wellness School of Health Professions Andrews University Berrien Springs, MI 1 This project is being supported by contributions from Barlean’s Inc. (e.g., smoothie emulsion product containing 1500 mg per serving (15 ml) of the omega-3 EPA and DHA and Superfruit Greens fortified with minerals, vitamins and contains the antioxidant power of 8 servings of fruits and vegetables); Rose Acres Farms (omega-3 fortified eggs); and Omega Foods (i.e., pasta sauces, salad dressings, and spreads such as mayonnaise and peanut butter). Other in-kind contributions include staff time from Lakeland Regional Health System; National Institutes of Health; Southwest Michigan Meals on Wheels; and Belovo, Inc. 2 Table of Contents I. Statement of the Problem 3 II. Research Question 3 III. Proposal 3 IV. Rationale for use of the selected participant population 6 V. Literature relevant to this proposal 7 VI. Project activities 11 VII. Procedures 12 VIII. Benefits and Risks 18 IX. Project Staff, Affiliations and Roles 21 X. References 24 XI. Appendices 29 3 Statement of the Problem Communities throughout the United States are enduring unprecedented levels of aggression, violence and other forms of anti-social behaviors among children, adolescents, and young adults. This is evident in highly-publicized events such as the attacks at Columbine High School (Colorado), Sandy Hook Elementary School (Connecticut), Horning Middle School (“Slender Man” - Wisconsin), and Reynolds High School (Oregon). As of this writing, a shooting at a high school in Washington State has claimed the lives of four children (as well as that of the shooter). There are numerous other less well-publicized acts of such behavior playing out in schools and communities nationwide. These behavioral trends have adverse educational (e.g., truancy, suspension, expulsion and drop out) and carceral (e.g., arrest, detention and incarceration) implications. They also have serious long-term social and economic implications because poor educational and carceral outcomes undermine employment prospects in adulthood that, in turn, lead to low incomes and poverty, and economically, socially and politically distressed communities. Nationwide, enormous amounts of money, human and other resources have been expended on efforts to enhance school and community safety. Some efforts have worked; many have not. Hence, the problem persists. Moreover, it appears to be worsening. One possible approach to addressing the problem of aggression, violence and other forms of anti-social behaviors among children, adolescents, and young adults involves changes in diet and nutrition. There is considerable scientific evidence to suggest that poor dietary and nutritional status has adverse effects on mental health. Research Question: Might improved nutrition and exercise be part of the solution to the problem? The basic and clinical science is increasingly clear: nutrition is an important component of mental health. While it has long been understood that nutrition and exercise are important determinants of physical health (e.g., diabetes, hypertension, obesity), by comparison, we are only beginning to understand the profound impacts of nutrition on mental health. Might that understanding inform efforts to help address behavioral health problems that are increasingly present in children, adolescents and young adults? Proposal We propose to implement a beta test to assess the feasibility of a community-based clinical trial designed to determine the efficacy of nutritionally-enhanced school breakfast and lunch meals, and nutrition and physical education programming in positively impacting the oppositional and anti-social behaviors of students enrolled in an alternative school in Benton Harbor, Michigan. Phase One of a two-phase initiative, the beta test will be used to develop and refine processes and methods for addressing administrative, logistical, procedural, legal, contractual, cultural, scientific, political and other variables that must be managed to ensure success of a Phase Two implementation of a more comprehensive community-based trial. Ultimately, the aim of the project is to lay the foundation for a progressive, evidence-based approach to addressing oppositional and anti-social behaviors in children, adolescents and young adults. This is a very complex initiative that brings together numerous disciplinary frameworks and professional perspectives (e.g., urban planning, public health, education, biosciences, nutritional neurosciences, psychology, psychiatry and supply chain management) to address a “wicked” problem. Wicked problems, such as high and persistent rates of community violence, are difficult to solve because, among other things: they are interconnected with other complex problems; information and knowledge about them is incomplete and often contradictory; their resolution requires the insights, skills, mental frames and other 4 attributes of multiple stakeholders; and they have numerous possible causes that are obscure and hard to discern, and solutions that are not simple or straightforward. This investigation has its origins in observations by the Principal Investigator (P.I.) of a seemingly strong association between the location of food deserts2 – i.e., places without ready access to fresh, healthy, and affordable food – in the city of Chicago, and the geographical distribution of violence in the city. Two Chicago maps – one showing the distribution of violent crime incidents in Chicago (Map 1) between January 2014 and January 2015, and another showing the distribution of the city’s food deserts in 2014 (Map 2) – suggest that many of the city’s most violent communities are also food deserts. Undoubtedly, there are confounding variables. However, similarities in the two maps are striking, merit serious consideration, and may have significant implications for community violence. Map 1 Chicago Incidents of Violent Crime: January 2014-January 2015 Map 2 Chicago Food Deserts: 2015 Source: Chicago Police Department, CLEARMAP Crime Summary (2015) Source: USDA Food Deserts Research Atlas (last updated October 31, 2014) In addition, this proposed investigation is informed by decades of clinical research – i.e., peer-reviewed epidemiological, ecological investigations, case-controlled studies, randomized controlled trials and meta analytic reviews – demonstrating that nutritional interventions with omega-3 highly unsaturated fatty acids, vitamins and trace-elements may positively improve scores of aggression, violence, mood and 2 Food deserts are defined by the United States Department of Agriculture (USDA) as “…urban neighborhoods and rural towns without ready access to fresh, healthy, and affordable food. Instead of supermarkets and grocery stores, these communities may have no food access or are served only by fast food restaurants and convenience stores that offer few healthy, affordable food options.” (The United States Department of Agriculture. “Food Deserts.” Agricultural Marketing Service. http://apps.ams.usda.gov/fooddeserts/fooddeserts.aspx . (Accessed February 11, 2015). 5 conduct disorders, and symptoms of Attention Deficit Hyperactivity Disorder (ADHD) such as an inability to sit still, listen, follow instructions, and self-monitor. It is also informed by community opinion. When questioned in a 2012 focus group discussion about the sources of violence in their neighborhood, a resident of Chicago’s Washington Park – one of the city’s most violent communities – noted, “…this food is making us crazy.” In the proposed beta test, students enrolled in The Alternative Education School at Sorter (Sorter) in the Benton Harbor Area School District (BHAS) will receive nutritionally upgraded breakfasts and lunches for an 8-week period starting on Monday, April 13, 2015 extending to Friday, June 5, 2015. The meals will adhere to United States Department of Agriculture (USDA) guidelines for the National School Lunch and School Breakfast Program (http://www.fns.usda.gov/nslp/national-school-lunchprogram-nslp) and the USDA Dietary Guidelines for Americans (http://www.health.gov/dietaryguidelines/2015.asp). The meals will provide essential vitamins and nutrients, specifically omega-3 fatty acids (omega-3), known to be essential for optimal brain health. The enhanced menus and meal recipes were developed by Janelle Bennett, RD, MS, registered dietitian at Lakeland Regional Health System (Lakeland), under the guidance of Dr. Sherine Brown-Fraser, PhD, RD, CPT, Department Chair of Public Health, Nutrition & Wellness, School of Health Professions, Andrews University (Andrews). Breakfast and lunch menus were first analyzed for nutrient levels using USDA’s online nutrient analysis database known as Supertracker. Both the original (currently used by the school) and the updated (new) menu were analyzed to quantify levels of omega-3 (α-Linolenic Acid, EPA, & DHA), omega-6 (α-Linoleic Acid), and omega 6:3 ratios for each food item within the menu. Daily, weekly and monthly averages were calculated for each omega fatty acid study variable. The meals will be prepared under the guidance of Jeff Thomas, Executive Chef at Lakeland with assistance from Jodie Hardesty, Manager of Nutritional Services at Lakeland. The meals will be transported from Lakeland facilities to Sorter by Southwest Michigan Meals on Wheels, which specializes in the transport of prepared foods. A 10-week (January 21 through April 9, 2015) nutrition and physical education program precedes the meal intervention (i.e., the nutritionally-enhanced school breakfasts and lunches). The program serves multiple purposes. It helps build trust between the project staff, and the students, teachers and staff at Sorter. It provides valuable information and insights that will help ensure that the initiative is implemented in a manner that is culturally sensitive and relevant. It also provides data critical to the success of the beta. Significantly, it facilitates the project team understanding of some of the procedural and logistical challenges associated with working in a severely under-resourced environment. The program is administered by Jasel McCoy – Program Director of Fitness and Exercise Science, and Gretchen Krivak – Director of the Didactic Program in Dietetics. Both are faculty in the Department of Public Health, Nutrition & Wellness at Andrews. Under the supervision of Dr. Brown-Fraser, Ms. McCoy and Ms. Krivak developed a curriculum that is based on the Michigan Model for Health for K-12 education. (http://www.emc.cmich.edu/EMC_Orchard/michigan-model-for-health). The Michigan Model for Health is a comprehensive, skills-based health education curriculum that shares the goal of helping young people live happier and healthier lives. This nationally recognized curriculum is research based, and aligned to standards. This means teachers who follow the easy-to-use sequential lesson plans are meeting their instructional requirements, while at the same time building the knowledge and skills students need to be successful in school and in life. Using a building-block approach to health education, the Michigan Model for Health™ addresses the major youth health risk behavior at every grade level, with age-appropriate instructional activities. 6 Undergraduate students enrolled in Andrews HLED 412 Community Health and Fitness II and FDNT 422 Community Nutrition II courses also staff the program. It is being implemented at the school twice weekly for one hour – one hour for middle school students on Wednesday, and one hour for high school students on Thursday. In the program, students rotate through a series of hands-on activities that expose them to new concepts and ideas, which teach them the importance of nutrition and physical activity to their wellbeing and development. Baseline information on students’ understanding of nutrition and physical activity has been collected and will be compared to data collected at the end of the program to determine program effectiveness in increasing students healthy behaviors and knowledge of nutrition & physical exercise. The data collected will be entered and coded by Andrews and NIH project staff. It is also anticipated that the educational programming will result in increased parental and child awareness of the pending meal intervention initiative and engagement in the initiative once it is launched. Rationale for use of the selected participant population People, especially children who reside in food deserts (i.e., places where people have limited access to foods that are nutrient-rich/calorie balanced, yet ample access to nutritionally-poor/high calorie foods) are at heightened risk for poor diet and nutrition and, theoretically, the associated behavioral health problems. This is because those essential vitamins and nutrients (i.e., omega-3, B vitamins) that have been shown to support mental health are found in foods, such as marine fish, dark leafy greens, fruits, whole grains, lean meats, nuts, seeds and beans - foods that are not readily available in food deserts. Moreover, “food-like substances” that are associated with poor behavioral health, such as sugar, preservatives, colorings, trans fats, are found in fast and other highly processed foods that are amply (and cheaply) available in food deserts. The relative lack of nutrient-dense/calorie balanced foods, combined with an abundance of nutritionally-deplete/high calorie foods, creates a problematic cocktail that may be implicated in a range of behavioral problems that undermine the success of children who live in food deserts. These facts lead us back to the research question posed earlier: Can improved nutrition be part of the solution to the problem of aggression, violence and other forms of anti-social behaviors among children, adolescents, and young adults? One rationale for the population selected is that they are residents of a food desert. According to the USDA’s Designated Food Desert Census Tracts, Benton Harbor is located in a food desert (USDA Food Access Research Atlas). The second rationale is that the students selected for this project have been identified by the Benton Harbor Area School (BHAS) District as those with the most problematic behavioral challenges. These challenges undermine their educational performance, place them at risk for contact with the juvenile justice systems, and set them up for long-term social and economic disadvantage. Because they live in a food desert, the food they consume at home, and in their community, is likely to be of poor quality, leaving them nutritionally impoverished. Moreover, early analysis of the nutritional content of the breakfasts and lunches served to them at school suggests that their intake of sodium and sugar substantially exceeds Recommended Daily Allowances (RDAs), and the omega 6:3 ratio is very low and out of balance. The school meals further place them at risk for nutritional insufficiency and the associated behavioral and academic problems. It also places them at an increased risk for developing obesity, type-2 diabetes, cancer, heart disease and other chronic aliments later in life. Children enrolled at Sorter are middle (6th to 8th grade) and high (9th to 12th grade) school students. Their ages are between 11-18 years. Between September 3, 2013 and March 1, 2014 according to the school’s 2013 Discipline Infraction Summary, a cohort of 92 Sorter students committed more than 625 disciplinary infractions including being disruptive (111), showing disrespect (106), using profanity/vulgarity (93), disrupting educational processes (92), fighting (53), truancy (29), destruction of school property (18), 7 horseplay (13), and threatening harm to others (12). Other infractions included weapons violations, arson, aggravated/felonious assault, and larceny/theft. Among Sorter students, all are members of families that live below the poverty line and all qualify for free or reduced breakfast and lunch. More than 50% of the students are male. More that 90% are African American. Some students are under court supervision (e.g., probation). Many have family members who are incarcerated. Based on data collected in a 2012-2013 District Needs Assessment that was conducted by teachers and staff, a disproportionately high number of Sorter students are victims of either child abuse, neglect, have anger management issues and histories of violence, are depressed or withdrawn, and have been incarcerated. All had been expelled or had multiple suspensions and have histories of discipline problems. A large number of Sorter students have mental health diagnoses including mood, conduct and oppositional defiance disorder. Literature relevant to this proposal There is a substantial body of literature linking nutrition to behavioral health in children, adolescents and young adults. Within the scientific literature, epidemiological studies have shown associations between increased aggression, and vitamin and mineral deficiency (Breakey 1997; Gesch et al. 2002). In addition, several lines of research have confirmed associations between low levels of zinc and/or iron deficiency, and the presence of externalizing behaviors in childhood (Liu & Raine 2006; Liu 2004). Externalizing behaviors refer to conduct problems and a range of anti-social behaviors, which are manifested in outward actions of children reacting negatively to their external environment (Liu 2004). Externalizing behaviors include aggression, delinquency, and hyperactivity. In addition, there are countless reports confirming the effects of nutritional deficiencies to global measurements of cognition, including decreased learning ability; low IQ; and interruptions of regulatory processes, including the sleep-wake cycle and social-emotional behaviors. For instance, malnutrition at age 3 has been reported linked to lower IQ at age 3 and age 11 in a longitudinal study in Mauritius (Liu et al. 2003). Notably, the peak vulnerability to harm from nutritional deficiencies occurs during pregnancy. During the last trimester of pregnancy, there is a preferential uptake of the omega-3 docosahexaenoic acid or DHA and Arachidonic acid (AA) across the placenta to the fetus and then post birth via the transfer of human milk via the mother. Other critical micronutrients (including vitamins and minerals) for the development of the central nervous system during pregnancy include selenium, zinc, iodine, iron, copper, vitamins A, C, E, the B-family of vitamins especially B6 and B12, folate, polyphenols and other antioxidants and longchain omega-3 HUFAs. One significant implication emanating from these relationships is the finding that male children born to nutritionally deprived women during pregnancy, for which the risk is high among pregnant women in Benton Harbor, have been found to have 2.5 times the average rate of antisocial personality in adulthood (Neugebauer et al. 1999). Omega-3 Highly Unsaturated Fatty Acids (HUFAs). About 50 to 60% of the dry weight of an adult brain is comprised of lipid (i.e. fat), and at least 35% of the lipid content is made up of highly unsaturated fatty acids (HUFAs). HUFAs are a dietary essential: they cannot be synthesized de novo but must be either ingested directly from dietary sources or metabolized from essential polyunsaturated fatty acid (PUFA) precursors (Innis 2008; Haag 2003; Elmadfa & Kornsteiner 2009). These fatty acids are highly specialized, with very specific metabolic functions and unique biophysical properties. The parent compounds for the large number of HUFAs are two PUFAs: α-Linolenic acid (ALA) is the precursor for the omega-3 fatty acids, and linoleic acid (LA) is the precursor for the omega-6 fatty acids. 8 Omega-3 fatty acids (ALA) are readily available in vegetable sources and, in particular, can be found in green leafy vegetables, plants, vegetable oils such as canola (9%), walnut (10%), and flaxseed (57%), along with nuts and seeds such as flaxseed and walnuts. The richest direct source of Omega-3 fatty acids (Eicosapentaenoic [EPA] acid and Docosahexaenoic acid [DHA] are fish such as mackerel, salmon, herring, sardine and other seafood. These are foods not easily accessible in many communities, especially low-income communities such as Benton Harbor. Omega-6 fatty acids are the most abundant polyunsaturated fatty acid (PUFA) in the modern American diet. They play a critical role in brain health. Omega-6 is primarily sourced from commercially available manufactured foods and vegetable oils such as soybean, corn, and sunflower oil (Blasbalg et al. 2011). Typical intake of omega-6 PUFAs in American diets is excessive in relation to omega-3 intake and is thought to be in the region of 12 to 17 grams daily (Rett & Whelan 2011). The modern Western diet has contributed to an imbalance between omega-3 and omega-6 in the brain, which is thought to negatively affect a range of significant biological processes. Omega-3 HUFAs constitute major structural components of neuronal membranes and are essential for cell signaling and brain function. In addition, they are involved in nerve function, cell division and growth (Chalon 2006). The omega-3 DHA increases neuronal responses by enhancing the flexibility of cell membranes and, as a result, improving magnocellular functions (Stein 2001). DHA also fulfills a pivotal function in serotonergic and dopaminergic function (Zimmer et al. 2000; Block & Edwards 1987). Most of the accumulation of DHA takes place during prenatal and early postnatal development, which coincides with synaptic formation (Haag 2003). EPA converts into signaling molecules called eicosanoids, which are generated by the oxygenation of twenty-carbon essential fatty acids. There are four families of eicosanoids - thromboxanes, prostaglandins, leukotrienes and resolvins - that derive from either an omega-6 or omega-3 fatty acids. They possess varying complex functions including inflammation, immunity and messengers in the central nervous system (Haag 2003; Calder 2006). Omega-3 fatty acids and Child Development. The Avon Longitudinal Study of Parents and Children (ALSPAC), which is also known also as Children of the 90s, is a long-term health research project conducted by Bristol University in the United Kingdom. The project enrolled more than 14,000 pregnant women in 1991 and 1992, and the health and development of their children has been since followed in great detail. Dr. Hibbeln (Associate Investigator [AI] on the beta test that is the subject of this IRB application) and colleagues reported that low levels of maternal seafood intake during pregnancy (i.e., less than 340 g per week) was associated with, among other developmental problems, increased risks of low verbal intelligence quotient (IQ) compared with mothers who consumed adequate amounts of seafood (i.e., more than 340 g per week). Low maternal seafood intake was also associated with increased risk of suboptimum outcomes for prosocial behavior and social development scores. In other words, the lower the intake of seafood during pregnancy, the higher the risk of suboptimum child developmental outcome (Hibbeln et al. 2007). In contrast, early dietary intervention with the Omega-3, DHA, resulted in improved problem-solving skills (Willatts et al. 1998). Maternal fish intake during pregnancy and the duration of breastfeeding was also associated with improved early developmental outcomes (Oken et al. 2008). Omega-3 HUFA and Delinquent Behaviors. Diets that are inadequate in omega-3 fatty acids are associated with an elevated risk of mental health disorders including depression, bipolar, schizophrenia, dyslexia, dementia and attention-deficit hyperactivity disorder (Richardson et al. 2005; Freeman et al. 2006; Jazayeri et al. 2008; Peet & Horrobin 2002; Edwards et al. 1998; Clayton et al. 2009; Martins 2009; Stoll et al. 1999). A recent meta-analysis by Bloch and Qawasmi evaluated the data from 10 randomized, placebo-controlled trials in 699 children and confirmed a potential role for omega-3 in reducing clinical and core symptoms of ADHD, namely inattention, hyperactivity and impulsivity (Bloch & Qawasmi 9 2011). Abnormal omega-3 levels have also been found in the erythrocytes of young people with ADHD (Gow et al. 2013; Young & Maharaj 2004). In relation to conduct disorder and delinquent behavior, Gow and colleagues reported significant negative associations between low Omega-3 levels in the blood and scores of callous-unemotional (CU) traits in a small cohort of children/adolescents with symptoms of ADHD. In other words, the lower the omega-3 status, in particular EPA, the higher the scores of conductdisordered related behaviors. CU traits are a sizeable risk factor for the later development of psychopathy and anti-social behaviors. In 2002, Gesch and colleagues conducted a randomized controlled trial to determine whether anti-social behaviors in 221 incarcerated young offenders could be improved through dietary interventions with omega-6/3 fatty acids in conjunction with multi-vitamins and minerals. Their findings showed a 37% reduction in felony violent offenses compared to placebo (Gesch et al. 2002). This was later replicated in 2010 by Zaalberg and colleagues in the Netherlands in a similar prison setting (n = 221) with comparable results: a 30% reduction in conduct (Zaalberg 2010). The results of both of these trials are very promising given the intervention is nutritional and not pharmacological, and highlights the need for further investment in the potential mediating role of nutrition in anti-social behaviors. Schoenthaler and Bier (2000) investigated the efficacy of vitamin and mineral supplementation in juvenile delinquency in a randomized, double-blind, placebo-controlled study of 468 children aged 6-12 years. Vitamins and minerals were given daily at 50% of the U.S. recommended daily allowance. Half of the children received a placebo. The outcome measure was the number of violent and non-violent delinquent acts as measured by the school’s official disciplinary records. The findings demonstrated a 47% decrease in anti-social behaviors and violent acts including threats/fighting, conduct problems, defiance, obscene behavior, refusal to engage, being a risk to others, and vandalism in those children taking the vitamins and minerals compared to the placebo group (Schoenthaler et al. 2000). The same investigator substantially reduced the sugar content in the diets of 3000 imprisoned juveniles in U.S. by replacing unhealthy snacks with healthier options and reducing both sugar and refined foods. The findings over a 12-month period demonstrated a 21% reduction in anti-social behavior, 25% reduction in assaults, 75% reduction in physical restraints by staff and a 100% reduction in suicides (Schoenthaler 1991). A host of other studies find links between nutritional status and behaviors. For instance, Liu et al. (2004) found that in a birth cohort of 1795 children who showed signs of malnutrition (i.e., inadequate intake of vital nutrients and vitamins) at age 3 were more aggressive or hyperactive at age 8 years, had more externalizing problems at age 11, and had greater conduct disorders and excessive motor activity at age 17 than a comparison group of 1206 children. In 2005, Itomura and colleagues conducted a placebocontrolled, double-blind study of 166 children between the ages of 9-12 and found that girls fed fish oilfortified foods committed fewer acts of aggression as compared to a control group. In the Norwegian Mother and Child Cohort Study (more than 23,000 women and children), Magnus and colleagues found that high consumption of junk foods during the first 5 years of life predicted externalizing problems such as aggression, hyperactivity, or tantrums among children, independent of other confounding factors and of the childhood diet (Magnus et al. 2006). Moore et al. (2009) found that children who ate confectionary daily at age 10 years were significantly more likely to have been convicted for violence at age 34 years. Schoenthaler and colleagues conducted a double-blind experimental design over a 2-year period with a sample of 276 incarcerated juveniles and found that a reduction in the amount of sugar consumed was associated with a 48% reduction in anti-social behavior. Schoenthaler and colleagues also conducted a randomized, controlled, double-blind trial over a 3-month period with 62 confined youth aged 13 to 17 years and found that the 32 youth who received a vitaminmineral supplementation committed 28% fewer rule infractions than the 30 youth who received a placebo. Solnick and colleagues surveyed Boston high school students and found that adolescents who drank more than five cans of sugary soft drinks per week were significantly more likely to have carried a weapon and 10 to have been violent with peers, family members, and dates than those who did not (Solnick & Hemenway 2012). Iribarren et al. (2004) conducted a cross sectional observational cohort study of 3581 urban white and black young adults and found that high dietary intake of DHA omega-3 fatty acid and consumption of fish rich in n-3 fatty acids may be related to a lower likelihood of high hostility in young adulthood. Long et al. (2013) conducted a double-blind randomized trial in which four groups of young adult men, without histories of aggressive or impulsive behavior, received either a placebo, multivitamins/minerals, DHA (fish oils) or both for 3 months and found that DHA decreased the display of aggressive behavior and impulsivity. Other studies that focused on adult populations find strong associations between high intake of linoleic acid (e.g., omega-6 fatty acids found in soy, corn, and canola oils) and homicide (Hibbeln 2001); low levels of EFAs and impulsivity disorders (Hallahan et al. 2006); low intake of fish oils, and hostility and aggression (Hamazaki & Hamazaki 2008); high intake of trans fats and aggression (Golomb 2012); and B vitamins and folate deficits and aggression (Herbison et al. 2012). In recent decades, there have been radical changes in the American food supply resulting in being replete with preservatives, artificial chemicals, flavorings, high fructose corn syrup, high intakes of soybean and corn oils as well as a falling ratio of omega-3 to omega-6. Arguably, the most vulnerable consumers of these substances are children, especially low-income children. A direct consequence of these changes has been micronutrient (e.g., zinc, iodine, iron and omega-3 highly unsaturated fatty acids) deficient diets that are associated with a range of neurodevelopmental disorders such as ADHD and externalizing behavior problems that include aggression and hyperactivity in children. Ideally, for healthy brain states, the intake of omega-3 and omega-6 should be 1:1. However, due to a high intake of processed foods, the children’s diet (comprised of foods eaten both in and outside of school) likely has elevated levels of pro-inflammatory omega-6 relative to omega-3. In fact, a detailed nutritional analysis of the current school’s meals reveals an average ratio of 8:1. (See Appendix A for the results of the nutritional analysis of the baseline Sorter menu.) It is important to note that an intake of excessive omega-6 can create an imbalance of omega-3 and omega-6 in the brain. The brain requires a balance of omega-3 and omega-6 for optimal brain health. Table 1 displays the omega 6:3 content of commonly used oils. Table 1 Source: Kresser 2015. 3 In consideration of this imbalance, the school breakfasts and lunches provided in this project will include omega-3 supplementation in the form of a dessert flavored smoothie emulsion (e.g., Barlean’s organic 3 Extracted from http://chriskresser.com/how-too-much-omega-6-and-not-enough-omega-3-is-making-us-sick. Cross-referenced sources cited in The Nutrition Source, Harvard School of Public Health. 11 key lime swirl) plus trace elements, vitamins and minerals (in foods) which work synergistically with omega-3 to maximize its absorption. The intervention study will occur over an 8-week period from Monday, April 13, 2015 to Friday June 05, 2015. Project activities4 See Appendix B for a complete Project Management spreadsheet. Key project activities are listed below. October – November 2014: Analysis of the nutritional content of baseline (i.e. Fall 2014) school breakfast and lunch menu December 2014 – May 2015: Develop, implement, revise, and evaluate nutrition and physical education curriculum January – March 2015: Revise project budget and secure funding Launch nutrition and physical education program (January 21) Conduct Nutrition and Fitness Education Survey (pre-assessment) Develop intervention study (revised) menus to deliver enhanced nutrition including an improved omega 6:3 ratio (See Appendix C for revised menu.) Develop and standardize recipes for intervention study menus (See Appendix D for revised recipes.) Draft Standard Operating Procedures (SOP) manual Prepare and submit IRB revisions, including changes in aims; start date; duration; menus; recipes; budget; neuropsychological pre- and post-assessment instruments, nutritional, fitness, behavioral and process assessments; and project staff February – March 2015: Plan and conduct Parent Information Sessions (February 25; March 11, 25, & 26) Obtain parent/guardian consent and student assent (March 23 – 27; April 6-7) Screen students for participation (March 26 – 27) April – June 2015: Continue screening of students for participation (April 6-7) Gather baseline academic and behavioral information (March 30 - April 9) Conclude Nutrition and Fitness Education (April 16) Conduct post-assessment Nutrition and Fitness Education Survey (April 16) Launch meal intervention study (April 13) Administer Menu Acceptability Survey (April 13 – June 5) Conduct formative process evaluation (March 16 – June 5) Collect, analyze and store Daily Progress Reports (April 13 – June 5) 24-hour recall training for Andrews faculty and staff (May 18 – 22) Conduct 24-Hr Recall and Food Frequency Questionnaire (June 4-5) Administer end-point and post neuropsychological assessment instruments (June 8-9) 4 In January 2014, numerous planning meetings commenced with the BHAS Superintendent, Director of Curriculum and Instruction, Food Services, Parent University, Development; Sorter School Administrator, Student Advocate and Director of Supplemental Instructional Services. Additional planning meetings took place between Dr. Lynn Todman, and Dr. Joseph Hibbeln and Dr. Rachel Gow of the National Institutes of Health (NIH). In May 2014, Dr. Todman presented the project to the Benton Harbor School Board and won approval to move forward. In June 2014, Dr. Hibbeln and Dr. Gow visited Benton Harbor to meet Sorter administrators and students. 12 Last day of school year (June 10) June – September 2015: Project team will convene to review all of the raw data collected during the beta period Analyze and document all survey and assessment findings Develop recommendations for Phase 2 October 2015: Complete draft of final report Distribute final report for comment Brief key stakeholders (i.e., students, parents, guardians, teachers, BHAS central administration and Board of Trustees, Lakeland and other regional entities engaged in population health management) on findings November - December 2015: Revised and complete final report Submit to key stakeholders Procedures This proposed beta test seeks to assess the feasibility of executing a community-based clinical trial to determine the efficacy of nutritionally enhanced school meals, and nutrition and physical education programming in positively impacting the oppositional and anti-social behaviors of students enrolled in an alternative school in Benton Harbor, Michigan. The beta test will be used to identify and to develop processes and methods for addressing administrative, logistical, procedural, legal, contractual, cultural, scientific, political and other variables that must be managed in the implementation of a full communitybased trial. In addition to assessing the feasibility of a full trial, this beta test will assess the potential of a community based trial to test a potential hypothesis that nutritionally-enhanced school meals, and nutrition and physical education may be a part of a solution to the problem of oppositional and anti-social behaviors among children, adolescents and young adults. This pilot will provide information and data that may inform the implementation of more robust real-world investigations in the future. The nutrient content of the breakfasts and lunches served to Sorter students will be enhanced to increase their intake of essential vitamins, nutrients and omega-3 fatty acids. Changes in behaviors and academic performance will be assessed by comparing baseline and final measures. Currently, children at Sorter are provided meals by national food vendor Sodexo-Magic. The meals are intended to meet the USDA National School Lunch and School Breakfast Programs. However, sample evaluations of published school menus indicate that these guidelines may not be currently met. Specifically, a detailed nutritional analysis of the school breakfasts and lunches found that, on any given day, the meals provide in excess of 100 grams of sugar and 3500 milligrams of sodium. This does not follow the American Heart Association recommendation of 3 to 4 teaspoons (or not more than 16 grams) of sugar and the 1500 mg of sodium recommended in the USDA Dietary Guidelines for Americans (Dietary Guidelines for Americans). While the USDA guidelines do not make specific recommendations for intakes of omega-3 and omega-6 fats, the menus indicate that the meals are lacking in omega-3 fatty acids. In fact, the analysis suggests that, on many days, the meals yield a ratio in excess of 20:1 omega-6 to omega-3 loading. To address these nutritional issues, the menus have been modified on the basis of the nutrient analysis conducted by Registered Dietitians, Janelle Bennett, RD, MS (Lakeland) and Dr. Sherine Brown-Fraser, PhD, RD, CPT (Andrews). 13 The menus will conform to guidelines put forth by the USDA National School Lunch and School Breakfast Program and the USDA Dietary Guidelines for Americans. Weekly and daily requirements were met for fruits, vegetables, grains, meat/meat alternatives, and milk. They will also include higher intakes of omega-3 fats and lower intakes of omega-6 fats. The new menu has been designed to achieve the ideal 1:1 omega 6:3 ratio. Practically, this has meant a ratio of anywhere from 2:1 to 4:1 which is significantly lower than the 8:1 ratio in the current menu. More specifically, the one-month lunch menus were planned to improve nutrition content of the diet, specifically including more foods with high levels of omega-3 (α-Linolenic Acid) and limiting omega-6 (α-Linoleic Acid) in the diet. Furthermore, the omega 6:3 ratio has been considerably reduced from the 8:1 ratio analyzed in the original school menu to a 3:1 ratio in the newly modified menu. The reduction in the omega 6:3 ratio will be accomplished, in part, through food swap outs. That is, where possible, menu items that are familiar to the students (e.g., chicken, veggie pizza) will be prepared with ingredients with higher omega-3 and lower omega-6 fats. In addition, foods with high omega 6:3 ratios (e.g., corn and soybean oils) will be swapped for foods with lower omega 6:3 ratios (e.g., flax seeds and omega-3 fortified chicken, eggs and condiments). This approach has been recently used in three federallyadministered clinical trials without adverse effects. The recipes selected for the menu are a modified compilation of kid-friendly, tasteful, and nutritious recipes taken from various local and state school standardized recipes. The recipes will also be standardized to the serving size based on the number of students enrolled in the study. Breakfast will include a smoothie plus a grain product and a fluid milk per national breakfast requirements. (See Appendix E for recent USDA Guidance on the use of smoothies in child nutrition programs.) The breakfast smoothie menus were developed to include a variety of fruits and vegetables along with an omega-3 supplement called Barlean’s Swirl. The two-month menu has select smoothies for each day of the week (see recipes). Each smoothie will have 1400-1500 mg of EPA/DHA, which are values of omega-3s previously shown to demonstrate improvements in externalizing and internalizing behavior problems. In addition, the children will be provided with the equivalent of 1 tablespoon per day (each serving contains 1500 mg of omega-3 EPA and DHA) of supplemental omega-3 fats in the form of Barlean’s Citrus Sorbet Omega Swirl or 4 teaspoons of the Barlean’s Mango-Peach Swirl or Piña Colada Swirl (providing 1440 mg of omega-3 EPA and DHA), which will be added to a breakfast smoothie that will comprise fresh fruits and a greens supplement. All omega-3 fatty acids provided will be within FDA Generally Recognized as Safe (GRAS) limits of 3 g/d." The revised menu will not only improve the balance of omega 6:3 ratios, but will also substantially reduce (and, where possible, eliminate) the following: industrially produced seed oils including soybean oils, fried foods, trans-fats; artificial food additives, preservatives and chemicals; added sugars and sodium; highly processed foods; and foods containing high fructose corn syrup. Cycle Menu Manager Software will be used to modify recipe yield to adjust serving sizes. This software is also capable of providing standardized recipes, options to enter new recipes, basic nutrient values (%DV), along with generating a shopping list based on recipes selected. Cycle Menu Manager will be accessed through Lakeland HealthCare’s Gordon’s Food Service Management computer system. In order to ensure the integrity of the intervention study, all meals will be prepared in kitchens managed by Lakeland – Hanson Hospice Center – under the guidance of Executive Chef Jeff Thomas with assistance from Manager of Nutrition Services, Jodie Hardesty. The meals will be transported daily in Cambros (i.e., a company that manufactures insulated boxes used for food transport) by Southwest 14 Michigan Meals on Wheels. To ensure food safety and palatability, a food time and temperature form will be completed for each meal. The form will document: the time the food is picked up at the kitchen; the temperature the food is when picked up; and the temperature of the food when it arrives at the school. It will also be used to generate feedback on the meals and to refine the menus by revising, eliminating or adding menu items based on comments. (See Appendix F for Sample Time and Temperature form.) Data collection and analysis. Process and outcome evaluation data will be collected throughout the duration of the beta test. Process Evaluation. The main purpose of this beta test is to assess the feasibility of a community-based clinical trial designed to determine the efficacy of nutritionally enhanced school breakfast and lunch meals, and nutrition and physical education programming in positively impacting oppositional and antisocial behaviors of students enrolled in an alternative school in Benton Harbor, Michigan. This beta will be used to develop and refine processes and methods for addressing administrative, logistical, procedural, legal, contractual, cultural, scientific, and political and other variables that must be managed to ensure the success of a later, more comprehensive, community-based trial. Thus, a critical component of this beta is a formative process evaluation. Throughout the lifecycle of the beta, the project team will evaluate the effectiveness of the many processes and procedures required to successfully execute the objectives of this beta study. Formative evaluation of program activities will provide the project team with data that can be used to make program improvements or adjustments. The process evaluation will address questions such as: What unforeseen problems, glitches, complications were encountered in executing the initiative? How might they be overcome in a full-scale initiative? What fortuitous events took place that enhanced the initiative? How might they be replicated in a full-scale initiative? The project team will use Lean methodology to measure, assess, and improve the end-to-end process. The Value Stream Map will be utilized to document, analyze and improve the flow of information, materials, services, people, and the execution of the numerous activities required to complete the feasibility study. A Value Stream Map (i.e., end-to-end process map) will be used to take into account not only the activities and steps of the process, but the management and information of the multiple systems that support the basic process. Value Stream Mapping is a paper and pencil tool that assists in the visualization and understanding of the flow of all inputs through a very complex, multi-layer process. Value Stream Mapping is typically used in process assessment and evaluation in the following four ways: 1) It gathers and displays a far broader range of information than a typical process map. 2) It tends to be at a higher level than many process maps. 3) It tends to be used at a broader level, i.e. from receiving of recipe ingredients to consumption of food to daily evaluation. 4) It tends to be used to identify where to focus future projects, subprojects, and/or kaizen events. In addition, the project team will conduct twice-monthly self-assessments to evaluate fidelity to the original project plan, and to ensure that changes are made with a clear intent; and brief surveys administered to students, parents, teachers, and staff at approximately weeks 3 and 9 to assess their levels of engagement and canvass their observations about the project. (See Appendix G for Process Evaluation Survey questions.) Outcome Evaluation. There are six elements of the outcome evaluation. They include the following. 1. School-administered Daily Progress Report (DPR): The DPR tracks student behaviors and academic performance. Teachers and staff will complete DPRs each day for every student in the school. Students may receive scores ranging from 1 (Needs Improvement) to 4 (Excellent) on a range of 15 indicators including classwork, homework, adherence to class rules and directions, being respectful, and overall behavior. De-identified raw data (i.e., teachers’ and staffs’ completed forms) will be collected from the school on a weekly basis, transported by hand to Cali Gregory, Operational Excellence and Business Transformation Consultant at Lakeland, who will analyze the data to determine if there are any changes in student behaviors and/or academic performance over the course of the beta. A request will be made to access historical data to enable comparisons between student behaviors and academic performance during the time (preceding the meal intervention) of the nutrition and physical education programming (i.e., January 21 through April 5), and student behaviors and academic performance during the period of the meal intervention (i.e., April 13 through June 5). Copies of the raw data will also be stored in a secure place at Lakeland. (See Appendix H for DPR forms.) 2. Current and historical data will also be collected on student tardiness, attendance, suspensions and expulsions. 3. Menu Acceptability Survey: Encouraging children and teens to enjoy nutritious foods early in life is a vital step to a lifetime of making healthy, smart choices. Over time, food preferences may change and leaning about what students enjoy or dislike on school menus can be beneficial. When modifying any menu to determine preferences, it is important to implement a menu acceptability survey to understand specific food preferences and aversions; this will help to identify any shifts in preferences over a given period of time. The reasons for using a menu acceptability survey are numerous. A few worth noting include the following. • Children/teens taste preferences change and mature over time (what is enjoyed one month or day, may not be liked later on). • Children/teens can be picky eaters and we can’t assume that they will like everything that we offer. Surveys can help to identify meals that they like and dislike. • Can allow for making healthy changes to menus at minimum cost. The Menu Acceptability Survey developed by Dr. Brown-Fraser and colleagues will determine preferences in appearance, taste, aroma, texture, temperature and overall acceptability. Students will fill out the Menu Acceptability Form daily, for the purpose of assessing whether or not the students like the meals, how they might be reformulated to increase acceptability, and to ensure that they eat the enhanced meals. During the beta, the survey will be administered at the following frequency: three times per week (Monday, Wednesday, Friday) in April and two times per week (Tuesday and Thursday) in May and June. Shannon Carlock will collect these data and will supervise the volunteers who will distribute the surveys to the students. Ms. Carlock will give the collected data to Cali Gregory for storage in a locked cabinet in her office and for distribution to Dr. Brown-Fraser and Ms. Janelle Bennett who will do the analysis. (See Appendix I for Menu Acceptability Survey.) 4. Nutrition and Physical Activity Education Intervention & Survey: A 10-week educational curriculum and weekly lesson plans (based on the curriculum) were co-developed by Andrews’ faculty and students. In an effort to determine and quantify the outcomes of the intervention, a 20-question preand post-survey (questionnaire) was developed and will be administered to participating Sorter students at the beginning and at the end of both the pilot and main study. In addition, a pre-and postphysical activity assessment (test) will be conducted to determine fitness levels of the students at the beginning and at the end of both the pilot and beta as well. These data will be entered and analyzed by Dr. Brown Fraser, Ms. McCoy and Ms. Krivak and coded by NIH. (See Appendix J for Nutrition and Fitness Surveys.) 16 5. A statistical analysis will be conducted of pre- and post- mood and behavior scores on selected scales. The neuropsychological assessment will be administered in March and June, and will include the following instruments: i. Kaufman Brief Intelligence Test (K-BIT) assesses verbal and nonverbal ability; ii. Conners Parent and Teacher Rating Scales (CPRS-R and CTRS-R) (administered to parents and teachers) measures changes in symptoms such as inattentive, restless, impulsive and hyperactive behaviors; iii. Inventory of Callous and Unemotional Traits which measures changes in conduct-disorder related behaviors, i.e. callousness, uncaring, and unemotional traits; iv. Antisocial Process Screening Device assesses callous-unemotional traits, narcissism and impulsivity; v. Reactive and Proactive Questionnaire (RPQ) assesses proactive and reactive aggression; vi. Strengths and Difficulties Questionnaire (SDQ) assesses emotional symptoms, conduct problems, hyperactivity/inattention, peer relationship problems, and pro-social behavior; vii. Beck Youth Inventories™ -Second Edition (BYI-II) assesses thoughts, feelings, and behaviors associated with emotional and social impairment in youth; viii. Conners Continuous Performance Test 3rd Edition™ (Conners CPT 3™) assesses inattentiveness, impulsivity, sustained attention, and vigilance. (See Appendix K for a detailed list of the neuropsychological assessment instruments that will be used.) The statistical analysis will involve comparisons of scores on the DPRs occurring at the start (baseline) and end-point of the beta. This will be conducted using the statistical IBM software SPSS package version 20 employing a one-way repeated measures analysis of variance (ANOVA). The within-subjects factor will be baseline and end-point time-points t-tests will be conducted across all standardized behavioral and clinical questionnaires to access changes in scores between baseline and end-point. Following examination of the distribution of scores by the Kolmogorov-Smirnov test either Pearson coefficients or Spearmans will be conducted between food frequency and clinical behavioral scores. All analysis will be conducted using the statistical IBM software SPSS package version 20 using secure computers on data that has no personally identifiable information for each participant. The data collected through the neuropsychological assessments will be analyzed by the NIH project staff once the Reliance Agreement is finalized by NIH. This process will commence once the Lakeland IRB has issued an approval for the amended protocol. Additional evaluative tools include two types of Dietary Intake Assessments – 24 Recall and Food Frequency Questionnaire. Assessing nutrient intake provides a detailed account of a person’s dietary practices, which often includes an interview about recent food intake (i.e. 24hr Recall) and a survey of usual food choices (i.e., FFQ). The 24-hour Recall is a guided interview in which the foods and beverages consumed in a 24-hr period are described in detail. Results can be obtained quickly and method is relativity easy to conduct, yet it’s reliant on memory and underestimations or overestimations can occur. (See Appendix L for 24-hour Recall Survey.) The Food Frequency Questionnaire (FFQ) is a written survey of food consumption during a specific period of time (i.e., 3 months or one year). The FFQ examines long-term food intake, and is typically inexpensive to administer, however it relies on memory and typically includes common foods only1. For this project, a computer assisted 24-hr recall interview and a FFQ will be administered to Sorter Students by Andrews University faculty. The specific FFQ used will be the Diet History Questionnaire II (DHQ) used and validated by National Health and Nutrition Examination Survey (NHANES). Dr. Diane M. DellaValle will train Andrews’ faculty on the computer system. (See Appendix M for Food Frequency Survey.) 17 Dietary assessments help to detect current or potential nutrition problems, as well as patterns of eating behavior (Rolfes, Pinna, and Whitney 2011). Furthermore, dietary/nutrient assessments are valuable in helping to identify populations, sub-groups or individuals who are malnourished or at nutritional risk (http://ocw.tufts.edu/data/47/534622.pdf). At the end of the 8-week meal intervention, the project team will collectively review all of the raw data collected during the beta as a part of cross-checking process. Dissemination of evaluation and assessment findings. The results of the process and outcome evaluations will be shared with all key stakeholders of the beta including Sorter school students, parents, guardians, teachers and staff; other (non-Sorter) students, parents, guardians, teachers in staff in BHAS; the Central Administration and Board of Directors of BHAS; Lakeland and other regional health entities engaged in population health management in a presentation to be held in October 2015. Privacy protections. All data collected from student participants will be de-identified through a coding system (i.e., Safe Harbor Method) that removes all but three identifiers (i.e., age [11 to 17]; gender [1 = female, 2 = male 3 = transgender]; and grade) from the data that collected. No other potential identifiers (e.g., telephone numbers, addresses, social security numbers) will be noted. Such a system will reduce identity disclosure risk while at the same time provide the data required to meet the goal and objective of the project. All data will be entered by Cali Gregory into a password protected excel spreadsheet. Only project staff with human subjects training will have passwords. All data will be stored in a locked cabinet in the office of Lynn Todman at Lakeland. Inclusion and Exclusion Criteria. While all children enrolled at Sorter will be offered the opportunity to have the nutritionally enhanced meals, only those who meet the inclusion and exclusion criteria provide Informed Assent, and whose parents or guardians sign the Informed Consent form, may participate in the meal intervention. The criteria for inclusion in the intervention includes the following: Enrolled in the Alternative Education Center at Sorter in the Benton Harbor Area School District during the winter term of the 2014-2015 academic year Has the capacity to provide Informed Assent (i.e., ability to understand the risks, benefits) Children aged between 11 and 18 Ability to provide oral informed assent to participate (i.e., ability to understand the risks, benefits, etc. of the initiative) Provision of written informed consent by parental or legal guardian All male, female and transgender students, all ethnic and racial backgrounds, and all incomes will be included No students enrolled in the school will be excluded from the study unless they opt to not participate or if they meet the criteria for exclusion The criteria for exclusion from the project includes the following: Intellectual or cognitive impairment sufficient to impair capacity to provide oral Informed Assent Lack of parent/guardian signature on Informed Consent Known or suspected allergies to fish (including shellfish) Unstable medical or psychiatric conditions severe enough to impair ability to participate IQ lower than 70 by the Kaufman Brief Intelligence test (K-BIT) Use of fish oil supplementation in last 3 months Major medical problems of concern to the investigators 18 Process for obtaining Informed Consent. Dr. Lynn Todman (PI), Dr. Sherine Brown- Fraser (Co-PI) and Ms. Keesha McKee and Mr. Will Bledsoe (onsite Medical Monitors) will oversee the distribution and collection of Informed Assent from the students and Informed Consent from parents and guardians. Care will be taken to ensure that the consent process is culturally sensitive and reflects an understanding of the historical and sociocultural context of the relationship between communities of color, and medical personnel and researchers. To that end, the process will be multi-faceted and, to some extent, flexible and open-ended. First, it will involve an invitation to parents from school administrators to attend one of four special meetings on school premises at times that are deemed convenient for them. (See Appendix N for Parent Invitation flyer & Informed Consent form.) To accommodate all parents/guardian schedules, meetings will take place before the school day begins, after school has ended, and during after-school, parentteacher meetings. At the meetings, the PI and other project staff will present oral descriptions of the project and share key project materials such as the menus and menu assessment survey. The presentations will describe the intent of the project, the research on which it is based, its relationship to the behavioral and academic issues that present in their children, and the specific project activities that will take place (i.e., educational programming, foods served, their composition, meal frequency, assessments) as well as the timeline, and expectations and requirements for their participation. They will also be walked through the Informed Consent form, allowed to ask questions, and asked to sign if they are willing to have their children participate. Students will be asked to provide a verbal Informed Assent. In addition, we expect that a number of parents and guardians will not be able to attend meetings at the school. In instances where feasible, project staff will contact the parent or guardian by phone to ask if they may come to their home or some other convenient location to describe the project and request consent. In other instances, written descriptions of the initiative and the Informed Consent will be sent home with the students, who will be asked to get their parents’ or guardians’ signatures. Finally, the project staff will have to be flexible and creative in obtaining Informed Consent given the challenges of reaching parents and guardians of some of the children enrolled at Sorter. Many work multiple jobs, have high demands placed on them as single parents, and/or have had bad experiences with the school system. They are, therefore, likely to be difficult to reach and engage. Extra care and efforts will have to be employed in such circumstances. All project participants will be compensated for their participation in beta. Each parent will receive $100.00 (2 x $50) gift cards for completing pre- and post-neuropsychological assessments. Each student will receive $50.00 (2 x $25) gift cards for completing the pre- and post- neuropsychological assessments. Each teacher will receive $50 (2 x $25) gift cards for completing the pre- and post-neuropsychological assessment. Benefits and Risks Participants are likely to experience direct benefits as a result of taking part in this beta test. Such benefits include: increased education and awareness of the advantages of good nutrition, healthy food choices, and physical activity; improved nutritional content of school meals; and, possibly, improved behavioral health, cognition and physical health (e.g., lower the risk of diabetes, obesity, hypertension). They may also benefit to the extent that the aforementioned health improvements, in turn, enhance their educational performance and decrease their risk for contact with the juvenile and adult justice systems. It is also possible that they may not directly benefit from this intervention. 19 The potential benefits to the larger community of which the project participants are a part (i.e., the Benton Harbor community) includes: a better understanding of the effects of nutrition and physical exercise on behavioral health, physical health and academic performance; increased awareness of the possible efficacy of nutritional strategies in addressing anti-social behaviors in children and adolescents; and evidence supporting a potential strategy for the reduction of detention, incarceration, truancy and dropout rates of some of the most challenged young residents of the community. In the longer term, information gleaned from this initiative may help inform efforts to enhance community safety. The potential benefits to society emanate from a beta test that may ultimately inform the creation of an innovative, evidence-based intervention (demonstrated in a Phase 2 community-based trial) that is part of a larger portfolio of strategies and tactics employed to address the national epidemic of school-based and community-based aggression, violence and other forms of anti-social behaviors among children and adolescents. As such, this beta test may constitute early empirical work that serves as the basis for the development violence prevention legislation, policy and programs that reflects a better understanding and appreciation of the social determinants of violence; that helps improve educational and carceral outcomes of youth in socially disadvantaged communities, improve community/society-wide safety, and increased social and economic equity. Risk Management. This beta test involves a nutrition and physical education program that is based on the Michigan Model for Health and the enhanced menus are in accordance with USDA National School Lunch and School Breakfast Program and the USDA Dietary Guidelines for Americans. Thus, there is no more than minimal risk. Although the approach employed in this project was recently used in three federally-administered clinical trials without adverse effects, some minimal risks might include mild gastric upset and/or mild allergic reactions. There may also be minimal psychological risks, such as stress and anxiousness associated with the completing the neuropsychological assessments. Some risk will be mitigated by erecting protections in response to a health questionnaire that all Sorter students, including those who elect to participate in the project, must have completed prior to enrolling in the school. The questionnaire includes questions about known health issues, including allergies. There may be unexpected risks such as reactions to previously unknown allergens. Three onsite Medical Monitors – Ms. Keesha McKee, Mr. Will Bledsoe, and Ms. Shannon Carlock – will ensure that unexpected risks are addressed in accordance to the protocol outlined below. All risks for potentially Adverse Events (AE) will be monitored and managed by the three Medical Monitors. Both have undergone Office for Human Research Protections Human Subjects Assurance Training in the Office of the Assistant Secretary for Health, Office of the Secretary, U.S. Department of Health and Human Services. In addition, two of the Medical Monitors (McKee and Carlock) have undergone basic first aid training administered by Lakeland (Heartsaver First Aid). (See Appendix O for copies of Heartsaver First Aid certification.) As noted, AE are unlikely, but may include mild gastric and allergic reactions (e.g., respiratory symptoms, hives or other rash, or other symptoms of food allergies). It is not anticipated that participants will develop gastric upset or allergic reactions. There may also be expressions of foreign tastes and food textures as the children are exposed to foods that are less heavily salted and sweetened, or to a range of fruits, vegetables, whole grains, nuts, legumes, and other foods with which they may be unfamiliar. An AE that occurs at school and is not deemed serious by at least one of three onsite Medical Monitors and the PI, but is possibly related to participation in the beta, will be reported by the PI and at least one of the Medical Monitors to the IRB Chair by phone within 5 working days after the PI first learns of the event. In addition, the parents and guardians of the students who participate in the pilot will have the PI’s contact information (on the copy of the consent form that they will have signed) and will be encouraged 20 to report to the PI any non-serious AE that may be related to the beta, but that occurs outside of school hours. The PI and at least one of the Medical Monitors will also report that AE to the IRB Chair by phone within 5 working days after first learning of such an event. In both instances a non serious AE – on that occurs on school premises and one the occurs off school premises – the PI will also provide a written report to the IRB Chair within 10 working days of learning about the event. An AE that occurs at the school and is deemed serious (e.g., a severe allergic reaction) by at least one of the Medical Monitors and the PI will result in the participant being escorted to the Lakeland Emergency Room (ER) by one of the three Medical Monitors. If a serious AE occurs out-of-school hours, the parents and guardians of the participants, who will have the PI’s contact information, will be advised to contact the PI and to go immediately to the Lakeland ER. For any serious AE, the PI will contact the IRB Chair by phone within 24 hours of learning of the event. Within 5 working days, the PI will submit to the IRB Chair an unbiased, fact-based written report on the event, its relationship to the pilot, and its outcome. It is critical to note that this study involves a nutrition and physical education program that is based on the K-12 Michigan Model for Health, and is in accordance with USDA National School Lunch and School Breakfast Program as well as the USDA Dietary Guidelines for Americans. It is important to note that the physical education program involves mild levels of physical activity. The nutrition program will comprise foods that are less heavily salted, sweetened, and processed, and will include a range of fresh of fruits, vegetables, proteins, whole grains, nuts, and legumes that are essential for good physical and mental health. Thus, the study involves no more than minimal risk (i.e., mild stomach upset, mild allergic reactions, and/or some mild stress associated with the filling out the questionnaires). Three Medical Monitors – Ms. Keesha McKee, Mr. Will Bledsoe and Ms. Shannon Carlock – will ensure that any unexpected and/or serious reactions are promptly addressed in the same way that any other mild or serious health-related issue that arises as a result of school-based physical activity or food service would be addressed: students will be escorted to their primary provider, the Lakeland ER, or Lakeland Walk-in Clinic, and their care will be paid for according to the normal financial assistance process. Monitoring. Teachers and staff will monitor participants for any unusual health conditions, including changes in their health status, through daily observations. Participants will also be instructed to report any changes to the PI and one of the Medical Monitors, especially if the changes are related to the pilot’s exclusion criteria. (All teachers and staff will be given a list of the inclusion and exclusion criteria.) Such changes will be verified by the PI and the Medical Monitor in collaboration with the participants’ primary care provider. In the event the child does not have a primary care provider, verification will be sought at a walk-in clinic (e.g., Lakeland Affiliate, Southwestern Medical Clinic in Stevensville, MI). It is the hope of the project team that the beta serves, not only as the basis of a Phase Two implementation of a more comprehensive community-based trial, but that it also serves as impetus for discussion in Benton Harbor and other communities about the impact of diet on behavioral health and on the social and economic welfare and development of under-resourced communities. 21 Project Staff, Affiliations and Roles All project staff will be asked to do the following: Please keep communications with the staff and students of The Alternative Education School at Sorter positive and respectful. Remember that this is a vulnerable student population where cultural competency and sensitivity is critical for all interactions. These students are learning and their positive experiences with you will encourage cooperation and continued interest in the goals of this study. If any questions arise, please contact Ms. Keesha McKee. (See Appendix P for copies of all staff resumés and certifications.) Lynn C. Todman (Lakeland) (PI) Lynn C. Todman, PhD, MCP is a Project Manager for Lakeland HealthCare and Research Affiliate at Community Innovators Laboratory (CoLab) at the Massachusetts Institutes of Technology (MIT) in Cambridge, Massachusetts. Dr. Todman’s role in the project is to provide general project oversight and management, including IRB development and submission, fundraising, and distillation of policy implications. Joseph R Hibbeln (NIH) (Associate Investigator) Joseph R. Hibbeln, MD, USPHS (United States Public Health Service) is an Acting Chief in the Section of Nutritional Neurosciences in the Laboratory of Membrane Biochemistry and Biophysics, National Institute on Alcohol Abuse and Alcoholism at the National Institutes of Health (NIH). Dr. Hibbeln’s roles are to assist with protocol design and to serve as the senior scientific advisor to help ensure that the project protocol accurately reflects the nutritional neuroscience. Sherine Brown-Fraser (Andrews) (Co-PI) Sherine Brown-Fraser, PhD, RD, CPT, Chair, Department of Public Health, Nutrition, and Wellness, Associate Professor, School of Health Professions, Andrews University. Dr. Brown-Fraser’s role is to assist with the IRB application and development of protocol; oversee the nutritional analysis of baseline and upgraded menus while improving the fatty acid profile; collaborate on menu and recipe design; and ensure that the pilot is designed and implemented in a manner that is culturally appropriate. She will also supervise the development and implementation of the project’s physical activity & nutritional education programming and assessments. Lakeland Regional Health System Cali Gregory, NHA, MHA, Operational Excellence and Business Transformation Consultant, Lakeland HealthCare. Ms. Gregory serves as Project Manager and will provide general oversight of data collection and documentation. Janelle Bennett, MS, RD, Clinical Dietitian, Lakeland Healthcare. Ms. Bennett serves as the lead designer of project menus that meet the National School Lunch Program and School Breakfast Program requirements, while also improving the fatty acid profile that is specific to this project. Jeff Thomas, Executive Chef, Lakeland Regional Health System. Mr. Thomas will serve as the supervisor of meal preparation. Jodie Hardesty, Manager of Nutritional Services, Lakeland HealthCare. Ms. Hardesty will assist with meal preparation. 22 NIH Rachel V. Gow, PhD, post-doctoral researcher in the Section of Nutritional Neurosciences, Laboratory of Membrane Biochemistry and Biophysics, National Institute on Alcohol Abuse and Alcoholism at the National Institutes of Health. Dr. Gow has worked with child/adolescent psychiatric groups and specializes in ADHD. She has researched, written and published in the topic of omega-3 fats and behavior and assessments of brain function. Dr. Gow’s role in this study will be to assist with the IRB application; assist in the development and design of the protocol including scientific writing for the background information/rationale of the project; project-management of the Standard Operating Procedures manual; supervising general administrative support from the Section team at the NIH; and data analysis. Sharon Majchrzak-Hong, MS is a research chemist in the Section of Nutritional Neurosciences, NIH. Ms. Majchrzak-Hong will provide administrative and data management support to Drs. Hibbeln and Gow. Melanie Lozano, is a student of psychology and research assistant to Dr. Rachel V Gow. Mrs. Lozano’s role is to assist with administrative work involving the IRB application and to support Dr. Gow with data analysis. Andrews University Jasel McCoy, MS, MBA is an Assistant Professor in the Department of Public Health, Nutrition & Wellness and the Program Director of Fitness and Exercise Studies. Ms. McCoy will design and deliver fitness assessments and weekly physical educational programming. Gretchen Krivak, MS, RD is an Assistant Professor and Director of the Didactic Program in the Dietetics Office, Department of Public Health & Wellness. Ms. Krivak will design and deliver nutrition assessments and weekly nutrition educational programming. The Alternative Education School at Sorter Will Bledsoe, Director at Sorter. Mr. Bledsoe serves as an onsite Medical Monitor who will observe student reactions to the foods served. He will also oversee the collection of data on student behavior and academic performance. Keesha McKee, Student Advocate and Project Liaison at Sorter. Ms. McKee will provide onsite supervision of the pilot and serves as an onsite Medical Monitor who will observe student reactions to the foods served. She will also oversee the collection of data on student behavior and academic performance. Communications/PR Mari Pat Varga, President, Varga & Associates, Inc., Ms. Varga serves as the project’s communication consultant and message strategist. Jill O’Mahony Stewart, Principal, Stewart Communications, Ltd. Visiting Lecturer, DePaul University, College of Communication. Ms. Stewart provides communications consulting and media outreach. Independent Nataka Moore, PsyD, MA. Core Faculty, Chicago Campus, Adler University. Dr. Moore will conduct neuropsychological assessments and assist with their analyses. Teresa Barttrum, PsyD, MA. Dr. Barttrum will assist Dr. Moore in conducting the neuropsychological assessments and assist with their analyses. Ruth Shim, MD, MPH, Vice Chair, Education and Faculty Development Department of Psychiatry, Lenox Hill Hospital, NY. Dr. Shim will assist with process evaluation. 23 Michael R. Hawes, President of Belovo, Inc. Mr. Hawes assists with menu development, most specifically with the omega-3 fortified foods that are consistent with all USDA and FDA Code of Federal Regulations for Good Manufacturing Practices. Mr. Hawes also acts as vendor coordinator of food procurement. Linda K. Strohl, Executive Director, Meals on Wheels of SW Michigan. Ms. Strohl oversees and advises on the logistics of transportation for all project meals from Lakeland Medical Center to Sorter. Diane DellaValle, PhD, Assistant Professor, Dept. of Medicine at Medical University of South Carolina. Dr. Dellavalle’s role is to provide training of the 24-hour recall assessments. Blythe Handy, Executive Administrator, Whirlpool Corporation. Ms. Handy provides project management spreadsheet assistance. Shannon Carlock, Project Coordinator. Ms. Carlock provides administrative coordination and onsite project assistance at Sorter. She will also serve as one of the three onsite Medical Monitors. Volunteers (Whirlpool) Volunteers will assist with the following: meal set up; distribution of meal assessment surveys; completing Time and Temperature Forms; distribution of meals; post-meal cleanup; and errands runner as needed. Volunteers will not require Office of Human Research Protection (OHRP) certification because the BHAS has its own processes for vetting all district volunteers. (See Appendix Q for Volunteer job description & BAHS Volunteer program form.) 24 References Antalis, C.J., L.J. Stevens, M. Campbell, R. Pazdro, K. Ericson, J.R. Burgess. 2006. “Omega-3 fatty acid status in attention-deficit/hyperactivity disorder.” Prostaglandins, Leukotrienes and Essential Fatty Acids 75: 299-308. Blasbalg, T.L., J.R. Hibbeln, C.E. Ramsden, S.F. Majchrzak, R.R. Rawlings. 2011. “Changes in consumption of omega-3 and omega-6 fatty acids in the United States during the 20th century.” The American Journal of Clinical Nutrition 93 (May): 950-962. doi: 10.3945/ajcn.110.006643. Bloch, M.H., A. Qawasmi. 2011. “Omega-3 fatty acid supplementation for the treatment of children with attention-deficit/hyperactivity disorder symptomatology: systematic review and meta-analysis.” Journal of the American Academy of Child & Adolescent Psychiatry, 50: 991-1000. Block, E.R., D. Edwards. 1987. “Effect of plasma membrane fluidity on serotonin transport by endothelial cells.” The American Journal of Physiology, 253: C672-678. Breakey, J. 1997. “The role of diet and behavior in childhood.” Journal of Pediatrics and Child Health 33: 190-194. Calder, P.C. 2006. “n-3 polyunsaturated fatty acids, inflammation, and inflammatory diseases.” The American Journal of Clinical Nutrition, 83: 1505S-1519S. Chalon, S. 2006. “Omega-3 fatty acids and monoamine neurotransmission.” Prostglandins, Leukotrienes, and Essential Fatty Acids 75: 259-269. Clayton, E.H., T.L. Hanstock, S.J. Hirneth, C.J. Kable, M.L. Garg, P.L. Hazell. 2009. “Reduced mania and depression in juvenile bipolar disorder associated with long-chain omega-3 polyunsaturated fatty acid supplementation.” European Journal of Clinical Nutrition 63: 1037-1040. Edwards, R., M. Peet, J. Shay, D. Horrobin. 1998. “Omega-3 polyunsaturated fatty acid levels in the diet and in red blood cell membranes of depressed patients.” Journal of Affective Disorders 48: 149-155. Elmadfa, I., M. Kornsteiner. 2009. “Fats and fatty acid requirements for adults.” Annals of Nutrition & Metabolism 55: 56-75. Freeman, M.P., J.R. Hibbeln, K.L. Wisner, J.M. Davis, D. Mischoulon, M. Peet, P.E. Keck, Jr., L.B. Marangell, A.J. Richardson, J. Lake, A.L. Stoll. 2006. “Omega-3 fatty acids: evidence basis for treatment and future research in psychiatry.” The Journal of Clinical Psychiatry 67: 1954-1967. Garland, Malcolm R. and Brian Hallahan. 2006. “Essential Fatty Acids and Their Role in Conditions Characterized by Impulsivity.” International Review of Psychiatry 18 (2): 99–105. doi:10.1080/09540260600582009. Gesch, C. Bernard, Sean M. Hammond, Sarah E. Hampson, Anita Eves, and Martin J. Crowder. 2002. “Influence of Supplementary Vitamins, Minerals and Essential Fatty Acids on the Antisocial Behavior of Young Adult Prisoners. Randomized, Placebo-Controlled Trial.” The British Journal of Psychiatry: The Journal of Mental Science 181 (July): 22–28. Golomb, Beatrice A., Marcella A. Evans, Halbert L. White, and Joel E. Dimsdale. 2012. “Trans Fat Consumption and Aggression.” PLoS ONE 7 (3): e32175. doi:10.1371/journal.pone.0032175. 25 Gow, Rachel V., and Joseph R. Hibbeln. 2014. “Omega-3 Fatty Acid and Nutrient Deficits in Adverse Neurodevelopment and Childhood Behaviors.” Child and Adolescent Psychiatric Clinics of North America 23 (3): 555–90. doi:10.1016/j.chc.2014.02.002. Gow, R.V., A. Sumich, F. Vallee-Tourangeau, M.A. Crawford, K. Ghebremeskel, A.A. Bueno, J.R. Hibbeln, E. Taylor, D.A. Wilson, K. Rubia. 2013. “Omega-3 fatty acids are related to abnormal emotion processing in adolescent boys with attention deficit hyperactivity disorder.” Prostaglandins, Leukotrienes, and Essential Fatty Acids, 88: 419-429. Gow, Rachel V., Frederic Vallee-Tourangeau, Michael A. Crawford, Eric Taylor, Kebreab Ghebremeskel, Allain A. Bueno, Joseph R. Hibbeln, Alexander Sumich, and Katya Rubia. 2013. “Omega-3 Fatty Acids Are Inversely Related to Callous and Unemotional Traits in Adolescent Boys with Attention Deficit Hyperactivity Disorder.” Prostaglandins, Leukotrienes, and Essential Fatty Acids 88 (6): 411–18. doi:10.1016/j.plefa.2013.03.009. Haag, M. 2003. “Essential fatty acids and the brain.” Canadian Journal of Psychiatry: Revue Canadienne de Psychiatrie 48: 195-203. Hamazaki, Tomito, and Kei Hamazaki. 2008. “Fish oils and aggression or hostility.” Progress in Lipid Research 47 (4): 221-232. doi:10.1016/j.plipres.2008.02.001 Herbison, Carly E., Siobhan Hickling, Karina L. Allen, Therese A. O’Sullivan, Monique Robinson, Alexandra P. Bremner, Rae-Chi Huang, Lawrence J. Beilin, Trevor A. Mori, and Wendy H. Oddy. 2012. “Low Intake of B-Vitamins Is Associated with Poor Adolescent Mental Health and Behavior.” Preventive Medicine 55 (6): 634–38. doi:10.1016/j.ypmed.2012.09.014. Hibbeln, Joseph R. 2000. “Seafood Consumption and Homicide Mortality.” In World Review of Nutrition and Dietetics, edited by T. Hamazaki and H. Okuyama, 88:41–46. Basel: KARGER. http://www.karger.com/doi/10.1159/000059747. ———. 2007. “From Homicide to Happiness--a Commentary on Omega-3 Fatty Acids in Human Society. Cleave Award Lecture.” Nutrition and Health 19 (1-2): 9–19. Hibbeln, J.R., J.M. Davis, C. Steer, P. Emmett, I. Rogers, C. Williams, J. Golding. 2007. “Maternal seafood consumption in pregnancy and neurodevelopment outcomes in childhood (ALSPAC Study): an observational cohort study.” Lancet, 369: 578-585. Hibbeln, Joseph R., Levi R. G. Nieminen, and William E. M. Lands. 2004. “Increasing Homicide Rates and Linoleic Acid Consumption among Five Western Countries, 1961-2000.” Lipids 39 (12): 1207– 13. Innis, S.M. 2008. “Dietary omega 3 fatty acids and the developing brain.” Brain Research, 1237: 35-43. Iribarren, C., J. H. Markovitz, D. R. Jacobs, P. J. Schreiner, M. Daviglus, and J. R. Hibbeln. 2004. “Dietary Intake of N-3, N-6 Fatty Acids and Fish: Relationship with Hostility in Young Adults—the CARDIA Study.” European Journal of Clinical Nutrition 58 (1): 24–31. doi:10.1038/sj.ejcn.1601739. Jazayeri, S., M. Tehrani-Doost, S.A. Keshavarz, M. Hosseini, A. Djazayery, H. Amini, M. Jalali, M. Peet. 2008. “Comparison of therapeutic effects of omega-3 fatty acid eicosapentaenoic acid and fluoxetine, separately and in combination, in major depressive disorder.” The Australian and New Zealand Journal of Psychiatry 42: 192-198. 26 Kresser, C. 2015. How too much omega-6 and not enough omega-3 is making us sick? http://chriskresser.com/how-too-much-omega-6-and-not-enough-omega-3-is-making-us-sick Liu, Jianghong. 2004. “Childhood Externalizing Behavior: Theory and Implications.” Journal of Child and Adolescent Psychiatric Nursing 17 (3): 93–103. Liu, J., A. Raine. 2006. “The effect of childhood malnutrition on externalizing behavior.” Current Opinion in Pediatrics 18: 565-570. Liu, Jianghong, Adrian Raine, Peter H. Venables, and Sarnoff A. Mednick. 2004. “Malnutrition at Age 3 Years and Externalizing Behavior Problems at Ages 8, 11, and 17 Years.” The American Journal of Psychiatry 161 (11): 2005–13. doi:10.1176/appi.ajp.161.11.2005. Long, S.J., D. Benton. 2013. “A double-blind trial of the effect of docosahexaenoic acid and vitamin and mineral supplementation on aggression, impulsivity, and stress.” Human Psychopharmacology: Clinical and Experimental, 28: 238-247. Magnus, Per, Lorentz M. Irgens, Kjell Haug, Wenche Nystad, Rolv Skjærven, and Camilla Stoltenberg. 2006. “Cohort Profile: The Norwegian Mother and Child Cohort Study (MoBa).” International Journal of Epidemiology 35 (5): 1146–50. doi:10.1093/ije/dyl170. Martins, J.G. 2009. “EPA but not DHA appears to be responsible for the efficacy of omega-3 long chain polyunsaturated fatty acid supplementation in depression: Evidence from a meta-analysis of randomized controlled trials.” Journal of the American College of Nutrition 28: 525-542. Moore, Simon C., Lisa M. Carter, and Stephanie van Goozen. 2009. “Confectionery Consumption in Childhood and Adult Violence.” The British Journal of Psychiatry 195 (4): 366–67. doi:10.1192/bjp.bp.108.061820. Neugebauer, R., H. W. Hoek, and E. Susser. 1999. “Prenatal Exposure to Wartime Famine and Development of Antisocial Personality Disorder in Early Adulthood.” JAMA 282 (5): 455–62. Oken, E., M.L. Osterdal, M.W. Gillman, V.K. Knudsen, T.I. Halldorsson, M. Strom, D.C. Bellinger, M. Hadders-Algra, K.F. Michaelsen, and S.F. Olsen. 2008. “Associations of maternal fish intake during pregnancy and breastfeeding duration with attainment of developmental milestones in early childhood: a study from the Danish National Birth Cohort.” The American Journal of Clinical Nutrition 88: 789796. Peet, M., D.F. Horrobin. 2002. “A dose-ranging study of the effects of ethyl-eicosapentaenoate in patients with ongoing depression despite apparently adequate treatment with standard drugs.” General Psychiatry 59: 913-919. Raine, Adrian, Jill Portnoy, Jianghong Liu, Tashneem Mahoomed, and Joseph R. Hibbeln. 2014. “Reduction in Behavior Problems with Omega-3 Supplementation in Children Aged 8-16 Years: A Randomized, Double-Blind, Placebo-Controlled, Stratified, Parallel-Group Trial.” Journal of Child Psychology and Psychiatry, and Allied Disciplines, August. doi:10.1111/jcpp.12314. Rett, B.S., J. Whelan. 2011. “Increasing dietary linoleic acid does not increase tissue arachidonic acid content in adults consuming Western-type diets: a systematic review.” Nutrition & Metabolism 8: 36. 27 Richardson, A.J., P. Montgomery. 2005. “The Oxford-Durham study: a randomized, controlled trial of dietary supplementation with fatty acids in children with developmental coordination disorder.” Pediatrics 115: 1360-1366. Rolfes, Sharon Rady, Kathryn Pinna, and Ellie Whitney. 2011. Understanding Normal and Clinical Nutrition. 9th edition. Australia; United States: Cengage Learning. 576-577. Schoenthaler, Stephen J. 1983a. “Diet and Crime: An Empirical Examination of the Value of Nutrition in the Control and Treatment of Incarcerated Juvenile Offenders.” International Journal of Biosocial Research 4 (1): 25–39. ———. 1983b. “The Alabama Diet-Behavior Program: An Empirical Evaluation at the Coosa Valley Regional Detention Center.” International Journal of Biosocial Research 5 (2): 79–87. ———. 1991. “The Northern California diet-behavior program: An empirical evaluation of 3000 incarcerated juveniles in Stanislaus county juvenile hall.” Personality and Individual Differences 12: 337. Schoenthaler, Stephen J., Stephen Amos, Walter Doraz, Mary-Ann Kelly, George Muedeking, and James Wakefield, Jr. 1997. “The Effect of Randomized Vitamin-Mineral Supplementation on Violent and Non-Violent Antisocial Behavior Among Incarcerated Juveniles.” Journal of Nutritional and Environmental Medicine 7 (4): 343–52. Schoenthaler, Stephen J., I. D. Bier, K. Young, D. Nichols, and S. Jansenns. 2000. “The Effect of Vitamin-Mineral Supplementation on the Intelligence of American Schoolchildren: A Randomized, Double-Blind Placebo-Controlled Trial.” Journal of Alternative and Complementary Medicine (New York, N.Y.) 6 (1): 19–29. Solnick, Sara J., and David Hemenway. 2012. “The ‘Twinkie Defense’: The Relationship between Carbonated Non-Diet Soft Drinks and Violence Perpetration among Boston High School Students.” Injury Prevention: Journal of the International Society for Child and Adolescent Injury Prevention 18 (4): 259–63. doi:10.1136/injuryprev-2011-040117. Stein, J. 2001. “The magnocellular theory of developmental dyslexia.” Dyslexia 7: 12-36. Stevens, L.J., S.S. Zentall, J.L. Deck, M.L. Abate, B.A. Watkins, S.R. Lipp, J.R. Burgess. 1995. “Essential fatty acid metabolism in boys with attention-deficit hyperactivity disorder.” The American Journal of Clinical Nutrition 62: 761-768. Stoll, A.L., W.E. Severus, M.P. Freeman, S. Rueter, H.A. Zboyan, E. Diamond, K.K. Cress, L.B. Marangell. 1999. “Omega 3 fatty acids in bipolar disorder: a preliminary double-blind, placebocontrolled trial.” General Psychiatry 56: 407-412. The United States Department of Agriculture. “Food Deserts.” Agricultural Marketing Service. http://apps.ams.usda.gov/fooddeserts/fooddeserts.aspx (Accessed February 11, 2015). Willatts, P., J.S. Forsyth, M.K. DiModugno, S. Varma, M. Colvin. 1998. “Effect of long-chain polyunsaturated fatty acids in infant formula on problem solving at 10 months of age.” Lancet 352: 688-691. Woods, Margo N. Nutrition Assessment I & II. Tufts University School of Medicine. http://ocw.tufts.edu/data/47/534622.pdf (Accessed March 3, 2015) 28 Young, G.S., N.J. Maharaj. (2004). “Conquer, blood phospholipid fatty acid analysis of adults with and without attention deficit/hyperactivity disorder.” Lipids, 39: 117-123. Zaalberg, A., Henk Nijman, Erik Bulten, Luwe Stroosma, and Cees van der Staak. 2010. “Effects of Nutritional Supplements on Aggression, Rule-Breaking, and Psychopathology among Young Adult Prisoners.” Aggressive Behavior 36 (2): 117-26. doi: 10.1002/ab.20335. Zimmer, L., S. Delion-Vancassel, G. Durand, D. Guilloteau, S. Bodard, J.C. Besnard, S. Chalon. 2000. “Modification of dopamine neurotransmission in the nucleus accumbens of rats deficient in n-3 polyunsaturated fatty acids.” Journal of Lipid Research 41: 32-40. 29 Appendices A. B. C. D. E. F. G. H. I. J. K. L. M. N. O. P. Q. Results of the baseline Sorter student nutritional analysis Project management spreadsheet Revised menu Revised menu recipes Memo on recent USDA Guidance on the use of smoothies in child nutrition programs Sample Time and Temperature form Process Evaluation Survey Daily Progress Report (DPR) forms Menu Acceptability Survey Nutrition and Fitness Surveys Neuropsychological assessment instruments 24-hour Recall Survey Food Frequency Survey Parent Invitation flyer & Informed Consent form First Aid certifications Staff resumés and assurances certifications Volunteer job description & BAHS volunteer program form
