Biology Qualitative protocol draft assignment

  Andrews  University  

School  of  Health  Professions   FDNT  560-­‐999:  Health  Research  Methods  

Class  Instructor:  Dr.  Maximino  Mejia,  DrPh,  MS,  RD        

                A  Lifestyle  Intervention  Comparison:  Does  the  addition  of  the  portfolio  diet  to  a  total  vegetarian  

diet  and  physical  activity  intervention  improve  selected  markers  of  metabolic  syndrome  in   Scandinavian  women?  

By  Theresa  Nybo  Jakobsen      

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Abstract     Background:    Metabolic  syndrome  has  become  a  worldwide  problem  reaching  a  prevalence  of   25%.  Though  there  is  an  agreement  that  lifestyle  changes  are  the  first-­‐line  approach,  there  is   not  a  consensus  as  to  which  type  of  diet  and  lifestyle  is  most  effective.  The  purpose  of  this   study  is  to  compare  the  effect  of  the  addition  of  the  portfolio  diet  to  a  total  vegetarian  diet  on   metabolic  syndrome  risk  factors  within  Scandinavian  women  in  a  12-­‐day  lifestyle  intervention.     Methods:  A  12-­‐day,  pre-­‐post  randomized,  test  control  group  design  will  be  used.  The  subjects,   34  female  guests  at  the  Fredheim  Health  Center,  will  be  randomly  assigned  to  either  the   experimental  group,  total  vegetarian  diet  and  exercise  intervention  with  the  addition  of  the   elements  of  the  portfolio  diet,  or  the  control  group,  a  total  vegetarian  diet  and  exercise   intervention.       Hypothesis:  Our  hypothesis  is  that  a  total  vegetarian  diet  will  effectively  reduce  metabolic   syndrome  risk  factors  in  this  population  and  that  the  addition  of  the  four  elements  of  the   portfolio  diet  will  further  reduce  these  risk  factors.    

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Table  of  Contents  

ABSTRACT   2  

TABLE  OF  CONTENTS   3  

INTRODUCTION   4  

LITERATURE  REVIEW   4  

MATERIALS  AND  METHODS   6  

EXPERIMENTAL  UNITS   6   INCLUSION  CRITERIA   6   EXCLUSION  CRITERIA   6   SAMPLING  METHOD   6   SAMPLE  SIZE   7  

RESEARCH  DESIGN   7   TYPE  OF  RESEARCH  DESIGN   7   DIET   7   EXERCISE   7   VARIABLES   7   INSTRUMENTS  AND  DATA  COLLECTION  SYSTEMS   8   STATISTICAL  ANALYSIS   8   RISKS   8   BENEFITS   8   CONFIDENTIALITY   8   TIMELINE   8   BUDGET   8   ETHICS  REVIEW   9   INCENTIVES   9  

CONCLUSION   9  

TABLES   10  

TABLE  1:  INDEPENDENT  VARIABLES   10   TABLE  2:  DEPENDENT  VARIABLES   10   TABLE  3:  CONFOUNDING  VARIABLES   11   TABLE  4:  TIMELINE   11   TABLE  5:  BUDGET   12  

APPENDIX   13  

APPENDIX  1:  INFORMED  CONSENT  FORM   13  

REFERENCES   19  

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Introduction   Metabolic  syndrome  (MetS)  has  become  a  worldwide  problem  with  prevalence  rates  of  up  to   84%  in  some  countries  (as  cited  by  Kaur,  2014).  It  presents  serious  health  risk  problems  (IDF,   2014;  Grundy  et  al,  2004)  and  carries  considerable  economic  costs  (Bourdreau  et  al.,  2009).  Diet   and  lifestyle  changes  are  the  chosen  treatment  plan  (Gurndy  et  al.,  2004,  NIH,  2011),  but  there   is  not  a  unity  as  to  which  diet  or  lifestyle  presents  the  best  results  (Zivkovic,  German  and  Sanyal,   2007).  Previous  studies  have  shown  positive  results  with  the  use  of  a  short-­‐term  plant-­‐based   diet  and  exercise  for  MetS  markers  (Macknin  et  al.,  2014;  Balliett  &  Burke,  2013;  Chen,  Roberts   &  Barnard,  2006;  Sullivan  &  Klein,  2006).  Additionally,  a  dietary  portfolio  of  cholesterol  lowering   foods  has  presented  promise  for  cardiovascular  disease  (CVD)  risk  factors  (Jenkins,  et  al.,  2003;   Jenkins,  et  al.,  2011).     Therefore  the  purpose  of  this  study  is  to  compare  the  effect  of  the  addition  of  the  portfolio  diet   to  a  total  vegetarian  diet  on  metabolic  syndrome  risk  factors  within  Scandinavian  women  in  a   12-­‐day  lifestyle  intervention.  The  objective  is  to  determine  if  the  portfolio  diet  elements   incorporated  into  a  total  vegetarian  diet  and  exercise  intervention  gives  greater  improvements   than  a  total  vegetarian  diet  and  exercise  intervention  alone  on  metabolic  syndrome  risk  factors.   Our  hypothesis  is  that  a  total  vegetarian  diet  will  effectively  reduce  metabolic  syndrome  risk   factors  in  this  population  and  that  the  addition  of  the  four  elements  of  the  portfolio  diet  will   further  reduce  these  risk  factors.  

Literature  Review   MetS  is  a  multifaceted  risk  factor  for  cardiovascular  disease,  as  well  as  type  2  diabetes  (T2D)   (Grundy,  Brewer,  Cleeman,  Smith,  &  Lenfant,  2004).  This  syndrome  represents  serious  health   risks.  According  to  Alberti  et  al.  (2009),  MetS  presents  a  5-­‐fold  increase  in  the  risk  of  T2D  and  a   2-­‐fold  increase  in  the  risk  of  CVD  within  5  to  10  years  compared  with  individuals  not  having   MetS.  Additionally,  those  with  MetS  have  a  risk  of  dying  from  heart  attack  or  stroke  that  is   twice  that  of  those  without  MetS  and  they  are  three  times  as  likely  to  have  a  heart  attack  or   stroke  in  the  first  place  (International  Diabetes  Federation  [IDF],  2014).  Furthermore,  there  are   other  conditions  that  present  themselves  more  often  in  those  with  MetS,  namely:  polycystic   ovary  syndrome,  fatty  liver,  cholesterol  gallstones,  asthma,  sleep  disturbances,  as  well  as  some   forms  of  cancer  (Grundy  et  al.,  2004).       MetS  is  a  cluster  of  different  risk  factors  that  occur  simultaneously.  Though  there  are  several   different  variations  of  a  definition  for  MetS  given  by  different  organizations,  all  agree  that  there   are  five  components  that  constitute  the  syndrome  (Kaur,  2014).  These  are:  central  obesity   (increased  waist  circumference),  elevated  triglycerides,  reduced  HDL  cholesterol,  elevated   blood  pressure,  and  elevated  fasting  glucose  (Alberti  et  al.,  2009).  A  commonly  used  definition   in  clinical  practice  is  the  National  Cholesterol  Education  Program  Adult  Treatment  Panel  III  (ATP   III).  The  ATP  III  classifies  individuals  as  having  MetS  when  they  have  at  least  three  out  of  the  five   above-­‐mentioned  components  (Alberti  et  al.,  2009).  Another  internationally  recognized  

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definition  is  given  by  the  International  Diabetes  Federation  (IDF).  This  definition  requires  that   an  individual  must  have  central  obesity,  plus  any  two  of  the  four  remaining  factors  (IDF,  2006).     MetS  has  become  a  worldwide  problem.  The  prevalence  of  MetS  ranges  from  less  than  10%  to   up  around  84%  in  the  different  regions  of  the  world,  depending  on  the  diagnostic  criteria  used   (as  cited  by  Kaur,  2014).  On  a  worldwide  basis  according  to  the  IDF  about  25%  of  the  population   has  MetS  (IDF,  2014).  Looking  more  locally,  a  study  from  2007  found  that  the  prevalence  of   MetS  in  Norway  was  29.6%  using  the  IDF  definition  or  25.9%  using  the  ATP  III  definition   (Hildrum,  Mykletun,  Hole,  Midthjell,  &  Dahl,  2007).  Either  percentage  represents  a  serious   health  problem  that  needs  to  be  addressed.    Additionally,  the  prevalence  of  MetS  increases   with  age  (Hidlrum  et  al.,  2007).  With  an  increasingly  aging  population,  the  prevalence  of  MetS   can  only  be  expected  to  increase.       The  economic  burden  that  MetS  presents  is  substantial.  As  MetS  is  a  cluster  of  components,   each  component  adds  its  burden  to  the  increased  risk  for  future  health  care  costs  (Nichols  &   Moler,  2011).  Overall,  Bourdreau  et  al.  (2009)  found  that  healthcare  costs  increased  by  24%   with  the  addition  of  each  component  of  the  MetS.  Additionally,  individuals  with  MetS  had  a   statistically  higher  usage  and  cost  for  health  care  services  than  those  without  (Bourdreau  et  al.,   2009).  The  average  annual  cost  in  the  US  for  those  with  MetS  was  1.6  greater  than  those  not   having  the  syndrome  (Bourdreau  et  al.,  2009).       Looking  at  several  of  the  individual  components  of  MetS  or  related  problems,  we  can  get  a   better  understanding  of  the  global  costs.  Gaziano,  Bitton,  Anand,  Weinstein  and  the   International  Society  of  Hypertension  (2009)  found  that  globally  the  direct  cost  of  hypertension   in  2001  was  $370  billion.  They  further  estimated  that  over  a  10-­‐year  period  this  amount  could   rise  to  $1.0  trillion  and  with  the  addition  of  all  indirect  costs  adding  up  to  a  whopping  $3.6   trillion  (Gaziano  et  al.,  2009).  Though  not  specifically  abdominal  obesity,  the  global  economic   cost  for  caring  for  all  types  of  obesity  is  an  incredible  $2.0  trillion  (Dobbs  et  al.,  2014).  According   to  the  IDF  (2013),  global  spending  to  treat  and  manage  diabetes  in  2013  was  $548  billion  and   this  figure  is  expected  to  rise  to  over  $627  billion  by  2035.  Prediabetes  or  elevated  fasting   glucose  levels,  a  component  of  MetS,  comes  to  a  cost  of  $44  billion  in  the  US  alone,  according   to  a  press  release  from  the  American  Diabetes  Association  (Trimble,  2014).  These  figures   represent  a  considerable  economic  cost  for  MetS.     The  increased  health  risk  factors,  the  existing  health  problems  and  the  financial  burden  of  MetS   cry  out  for  a  solution  for  this  public  health  problem.  According  to  conference  participants  from   the  National  Heart,  Lung,  and  Blood  Institute/American  Heart  Association  Conference  of  2004,     “therapeutic  lifestyle  change,  with  emphasis  on  weight  reduction,  constitutes  first-­‐line  therapy   for  metabolic  syndrome”  (Grundy  et  al.,  2004,  p.  438).  The  NIH  is  in  agreement  with  this  and   states  that  aggressive  lifestyle  changes  include  weight  loss,  dietary  improvement,  physical   activity  and  smoking  cessation  (NIH,  2011).  If  lifestyle  changes  are  insufficient,  medicines  may   be  prescribed  to  control  one  or  more  of  the  different  components  of  MetS  (NIH,  2011).   However,  lifestyle  changes  are  both  cost-­‐effective  and  relatively  simple  to  perform.  

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Unfortunately,  according  to  Zivkovic,  German  and  Sanyal  (2007)  there  is  no  consensus  as  to  the   best  diet  or  lifestyle  approach  to  prevent  or  treat  MetS  and  further  study  needs  to  be  done.       One  dietary  approach  that  presents  several  promising  aspects  for  MetS  is  a  whole-­‐food,  plant-­‐ based  diet.  This  type  of  diet  emphasizes  eating  unrefined  plant  foods  such  as  fruits,  vegetables,   legumes,  seeds  and  nuts,  while  limiting  or  eliminating  animal  products  and  refined,  processed   foods  (Tuso,  Ismail,  Ha  &  Bartolotto,  2013).  This  type  of  diet  can  be  found  in  a  well-­‐balanced   vegetarian  or  vegan  diet.       Well-­‐balanced  vegetarian  diets  provide  high  quality  nutrition  while  being  low  in  energy  (Clarys   et  al,  2014;  Turner-­‐McGrievy  &  Harris,  2014)  and  they  tend  to  have  a  high  level  of  satiety  similar   to  that  of  animal  origin  (Neacsu,  Fyfe,  Horgan  &  Johnstone,  2014).  Additionally,  Lea,  Crawford   and  Worsley  (2006)  found  that  the  perceived  barriers  to  eating  a  plant-­‐based  diet  were  low.   These  features  make  adoption  and  sustainability  of  this  type  of  dietary  easier  and  suitable  to  be   used  in  interventions  for  MetS.     Another  dietary  approach,  focusing  specifically  on  the  CVD  risk  factors  of  MetS,  is  the  dietary   portfolio  of  cholesterol  lowering  foods  or  the  portfolio  diet  (Jenkins,  et  al.,  2003,  Jenkins,  et  al.,   2011).  This  diet  includes  cholesterol-­‐lowering  foods  that  are  recommended  by  the  US  Food  and   Drug  Administration  (Jenkins,  et  al.,  2011).  Specifically,  these  foods  are  plant  sterols,  soy   proteins,  viscous  fibers  and  nuts  (Jenkins,  et  al.,  2011).  

Materials  and  Methods  

Experimental  Units   The  experimental  units  in  this  study  will  be  patients  at  the  Fredheim  Health  Center  in   Kongsberg,  Norway,  taken  over  10  health  sessions.  

Inclusion  criteria   Women   Age:  65+   BMI:  25  -­‐  45  

Exclusion  criteria   Allergy  to  nuts  or  any  other  component  of  the  intervention  diets   Taking  antihypertensive  medication   Taking  cholesterol  reducing  medication   Taking  diabetes  medication  

Sampling  Method   Patients  will  be  randomly  assigned  to  the  total  vegetarian  diet  and  exercise  program,  control   group,  or  the  total  vegetarian  diet  and  exercise  program  with  the  addition  of  the  portfolio  diet,   experimental  group.  

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Sample  Size   A  sample  size  was  calculated  using  G*Power  3.1.  A  F-­‐test,  ANOVA:  Repeated  measures,  within-­‐ between  interaction  was  used.  The  effect  size  used  is  a  medium  size,  25%;  the  alpha  error   probability  used  is  5%;  and  the  Power  (1-­‐beta  error  probability  used  is  80%.  

Research  Design  

Type  of  Research  Design     A  12-­‐day,  pre-­‐post  randomized,  test  control  group  design  will  be  used.  The  subjects  will  be   randomly  assigned  to  either  the  experimental  group  or  the  control  group.  

Diet   The  total  vegetarian  diet  (~60%  of  calories  from  carbohydrates,  15%  protein,  and  25%  fat)  will   consist  of  whole  grains,  legumes,  vegetables,  fruits,  nuts  and  seeds.  Animal  products  will  not  be   served.       The  Portfolio  diet  will  contain  the  same  elements  of  the  total  vegetarian  diet  (~60%  of  energy   from  carbohydrates,  15%  protein  and  25%  fat)  with  the  incorporation  of  the  following   elements:     0.94  g  of  plant  sterols  per  1000  kcal  of  diet  in  a  plant  sterol  ester–enriched  margarine,   22.5  g  of  soy  protein  per  1000  kcal  as  soymilk,  tofu,  and  soy  meat  analogues,   9.8  g  of  viscous  fibers  per  1000  kcal  of  diet  from  oats,  barley,  and  psyllium,  and   22.5  g  of  nuts  (including  tree  nuts  and  peanuts)  per  1000  kcal  of  diet.     All  food  will  be  provided  by  the  Fredheim  Health  Center  and  records  will  be  kept  for  each   participant’s  food  consumption  in  a  daily  dietary  record.    

Exercise   Arranged  walk/hikes  or  cross-­‐country  ski  trips  (depending  on  the  time  of  year)  for  between  1  –   1.5  hours  will  be  arranged  6  days  per  week.  Morning  gymnastics  for  30  minutes  will  be   arranged  5  days  a  week  and  an  afternoon  chair  gymnastics  of  30  minutes  for  2  days  a  week.   Additionally  participants  will  be  encouraged  to  walk  after  every  meal.       Physical  activity  will  be  assessed  by  pedometer  (Omrom,  Kyoto,  Japan)  and  records  kept  of   participation  in  all  arranged  physical  activities.  

Variables   The  following  independent  variables  will  be  used  in  this  study:  control  diet  and  experimental   diet.  See  Table  1:  Independent  Variables.  The  following  dependent  variables  will  be  used:   metabolic  syndrome  diagnosis,  weight,  BMI,  waist  circumference,  tryglycerides,  HDL   cholesterol,  LDL  cholesterol,  total  cholesterol,  blood  pressure,  blood  glucose,  HbA1c.  See  Table   2:  Dependent  Variables.  This  study  also  has  confounding  variables,  which  are  controlled  for  in   the  research  design.  They  are  as  follows:  gender,  age,  antihypertensive  medication,  anti-­‐ hyperlipidemia  medication,  and  diabetes  medication.  See  Table  3:  Confounding  Variables.  

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Instruments  and  data  collection  systems     All  measures  will  be  performed  on  day  2  of  the  program  (Monday  morning  after  arrival)  and  on   day  12  (Friday  morning  prior  to  departure)  after  10-­‐  to  12-­‐h  overnight  fasting  with  only  tap   water  allowed  ad  libitum.  Weight  will  be  measured  using  a  periodically  calibrated  scale  accurate   to  0.1  kg  with  participants  in  light  clothing  and  no  shoes.  Height  will  be  measured  using  a   standard  measuring  tape  and  the  participant  will  have  no  shoes.  Body  mass  index  will  be   calculated  from  measured  body  weight  and  height  (kg/m2).  Waist  circumference  will  be   measured  using  a  tape  measure  placed  at  the  midpoint  between  the  lowest  rib  and  the  upper   part  of  the  iliac  bone.  Blood  pressure  and  heart  rate  will  be  measured  after  participants  have   rested  5  minutes  using  a  digital  blood  pressure  monitor  (Omron,  Kyoto,  Japan).  Three   measurements  will  be  taken  2  minutes  apart.  The  first  measurement  will  be  disregarded  and  a   mean  value  will  be  calculated  for  the  remaining  two  measurements.  All  laboratory   measurements  will  be  taken  according  to  standard  techniques  and  processed  at  Fürst   Medisinsk  Laboratorium,  Oslo,  Norway.  

Statistical  analysis   Repeated  measures  MANOVA  models  with  between-­‐subject  and  within-­‐subject  factors  and   interactions  will  be  used.  Data  will  be  organized  and  cleaned  using  Microsoft  Excel  for  Mac   software.  Statistical  analysis  will  be  performed  using  SPSS  23  for  Mac  software  (SPSS  Inc.,   Chicago,  IL,  USA).  A  P  value  of  less  than  0.05  will  be  considered  statistically  significant.    

Risks   There  are  no  anticipated  risks  to  the  participants  with  this  intervention,  aside  from  the  risk  of   unknown  food  allergies.  In  the  event  of  a  participant  manifesting  a  food  allergy,  appropriate   medical  attention  will  be  provided.  

Benefits   This  study  will  enhance  human  knowledge  by  providing  additional  information  on  the  effects  of   lifestyle  interventions  for  metabolic  syndrome.  

Confidentiality   So  as  to  insure  confidentiality,  all  data  collected  will  be  numerically  coded  and  all  personal   identifiers  will  be  removed.  The  data  will  be  securely  stored  with  password  protection  on  all   files.  Only  the  researcher  and  those  assisting  with  statistical  analysis  will  have  access  to  the   coded  data.  

Timeline   This  study  is  calculated  to  take  16  months  to  complete.  This  time  period  could  be  shorter  or   longer  depending  on  the  amount  of  time  needed  for  approval  from  the  appropriate  ethics   review  board.  See  Table  4:  Timeline.    

Budget   This  research  study  is  budgeted  to  cost  502  000  Swedish  crowns.  Grants  and  donations  will  be   sought  to  cover  the  majority  of  this  budget.  See  Table  5:  Budget.  

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Ethics  Review   This  study  protocol  will  be  submitted  to  the  appropriate  ethics  review  board,  prior  to   implementation.  Informed  voluntary  consent  will  be  obtained  from  each  participant  prior  to   participation.  The  informed  consent  form  is  adapted  from  WHO  templates  for  informed   consent  (WHO,  2015).  See  Appendix  1:  Informed  Consent  Form.  These  informed  consent  forms   will  be  kept  by  the  researcher  in  a  locked  cabinet  for  a  minimum  of  three  years.  

Incentives   Incentives  in  the  form  of  free  pre  and  post  blood  testing  will  be  offered  each  participant  in  this   study.    

Conclusion   It  is  expected  that  the  results  of  this  study  will  support  our  hypothesis  that  significant  changes   can  be  made  in  MetS  markers  as  a  result  of  a  short-­‐term  total  vegetarian  diet  and  exercise   intervention  among  a  population  of  Scandinavian  women.  Additional  improvements  are   expected  in  those  women  consuming  the  additional  elements  of  the  portfolio  diet.  Therefore,   this  could  be  a  very  promising,  economical  program  for  MetS  treatment.        

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Tables  

Table  1:  Independent  Variables   Variable   Type   Measured   Measurement  

Control  Diet   Continuous   Detailed  menus  with  recipes  and  food  consumed   diaries  

%  fat,  protein,  carbohydrates  

Experimental  Diet   Continuous   Detailed  menus  with  recipes  and  food  consumed   diaries  

%  fat,  protein,  carbohydrates  

Table  2:  Dependent  Variables   Variable   Type   Measured   Measurement  

Metabolic  syndrome   diagnosis  

Binomial   National  Cholesterol  Education  Program  Adult   Treatment  Panel  III  (ATP  III)  

Number  of  components  of  MetS  

Weight   Continuous   Calibrated  scale  accurate  to  0.1  kg     Kg   BMI   Continuous   Calculated  from  measured  body  weight  and  height     kg/m2   Waist  circumference   Continuous   Tape  measure  placed  at  the  midpoint  between  the  

lowest  rib  and  the  upper  part  of  the  iliac  bone   cm  

Triglycerides   Continuous   Taken  according  to  standard  techniques  and   processed  at  Fürst  Medisinsk  Laboratorium,  Oslo,   Norway  

mmol/L  

HDL  cholesterol   Continuous   Taken  according  to  standard  techniques  and   processed  at  Fürst  Medisinsk  Laboratorium,  Oslo,   Norway  

mmol/L  

LDL  cholesterol   Continuous   Taken  according  to  standard  techniques  and   processed  at  Fürst  Medisinsk  Laboratorium,  Oslo,   Norway  

mmol/L  

Total  cholesterol   Continuous   Taken  according  to  standard  techniques  and   processed  at  Fürst  Medisinsk  Laboratorium,  Oslo,   Norway  

mmol/L  

Blood  pressure   Continuous   After  participants  have  rested  5  minutes  using  a   digital  blood  pressure  monitor  (Omron,  Kyoto,   Japan).  Three  measurements  will  be  taken  2  minutes   apart.  The  first  measurement  will  be  disregarded  and   a  mean  value  will  be  calculated  for  the  remaining   two  measurements  

mm  Hg  

Blood  glucose   Continuous   Taken  according  to  standard  techniques  and   processed  at  Fürst  Medisinsk  Laboratorium,  Oslo,   Norway  

mmol/L  

HbA1c   Continuous   Taken  according  to  standard  techniques  and   processed  at  Fürst  Medisinsk  Laboratorium,  Oslo,   Norway  

%  

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Table  3:  Confounding  Variables   Variable   Type   Measured   Rationale   Controlled   Eliminated  

Gender   Binomial   Medical  Record   Men  and  women  have   different  risks  for  MetS   and  could  react   differently  to  the   intervention    

Research   design  

Only  women  will  be   part  of  this  study  

Age   Continuous   Medical  record   Pre-­‐menopausal  women   and  post-­‐menopausal   women  have  different  risk   factors  for  CVD  and  could   react  differently  to  the   intervention  

Research   design    

Only  women  older   than  65  (after   menopause)  will  be   part  of  this  study  

Antihypertensive   medication  

Binomial   Medical  Record     Medication  could   influence  the  results  

Research   design  

Excluded  from  study    

Cholesterol  reducing   medication  

Binomial   Medical  Record   Medication  could   influence  the  results  

Research   design  

Excluded  from  study  

Diabetes  medication   Binomial   Medical  Record   Medication  could   influence  the  results  

Research   design  

Excluded  from  study  

Table  4:  Timeline   Time  Allotted   Starting  Dates   Process   Dates   Specific   Responsible  

4  months   September  2015   Ethics  Review   August  26,   2015  

Protocol  turned  in  to   appropriate  ethics   review  board  

Researcher    

8  months   January  2016   Recruit  and  Collect   Data  

January  4  –  8,   2016  

Assist  in  establishing   data  collection   protocols    

Researcher  

January  4,   2016  –  July  31,   2016  

Collection  of  data   Fredheim  staff  

April  11  –  13,   2016  

Midpoint  check  on   data  collection  

Researcher  

August  1  –  3,   2016  

Final  check  on  data   collection  

Researcher  

1  month   August  2015   Enter  &  Clean  Data   August  4  –  10,   2016  

Entering  data  /   double  data  entry  

Researcher  

August  11  –   31,  2016  

Cleaning  data   Researcher  

1  month   September  2016   Analyze  Data   September  1  –   30,  2016  

Analyze  Data   Researcher  &   Statistician  

2  months   October  2016   Write  and  Report   October  3  –   31,  2016  

Write  Report   Researcher  

16  months   TOTAL          

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Table  5:  Budget     Cost  per  patient  /  

unit   Amount   Committed   Requested   Provider    

Blood  Tests  (40  patients)      2  400  sek      96  000  sek        96  000  sek   Grant  

Additional  food  Required  (40   patients)  

   1  000  sek      40  000  sek        40  000  sek   Grant  

Researcher  travel  costs  (3   trips)  

10  000  sek      30  000  sek        30  000  sek   Grant  

Intervention   11  000  sek   440  000  sek   440  000  sek     Fredheim  Patients  

Researcher  Salary  (16   months  x  20  hours  /  month)  

16  000  sek   256  000  sek     256  000  sek   Grant  

Office  Space  &  Materials   Computer/Phone  

   5  000  sek      80  000  sek        80  000  sek   Grant  

Total  Requested         502  000  sek   Grant  

Abbreviations:  sek  =  Swedish  kronor,  ~8  sek  =  ~1  USD  

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Appendix  

Appendix  1:  Informed  Consent  Form      

Informed  Consent  form  for  women  patients  at  the  Fredheim  Health  Center  who  are  invited  to   participate  in  research  on  metabolic  syndrome.  

  The  title  of  our  research  project  is  “Does  the  addition  of  the  portfolio  diet  to  a  total  vegetarian   diet  and  physical  activity  intervention  improve  selected  markers  of  metabolic  syndrome  in   Scandinavian  women?”       Researcher:  Theresa  Nybo  Jakobsen,  MPH   Organization:  LifeStyleTV,  Fredheim  Health  Center   Sponsor:  Grant  provider   Proposal:  “Does  the  addition  of  the  portfolio  diet  to  a  total  vegetarian  diet  and  physical  activity   intervention  improve  selected  markers  of  metabolic  syndrome  in  Scandinavian  women?”       This  Informed  Consent  Form  has  two  parts:  

• Information  Sheet  (to  share  information  about  the  research  with  you)   • Certificate  of  Consent  (for  signatures  if  you  agree  to  take  part)    

You  will  be  given  a  copy  of  the  full  Informed  Consent  Form      

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PART  I:  Information  Sheet   A.  Introduction   LifeStyleTV   in   conjunction   with   Fredheim   Health   Center   are   conducting   research   on   the   risk   factors  for  the  metabolic  syndrome.  We  will  provide  you  with  information  and  invite  you  to  be   part   of   this   research.   You   are   free   to   talk   with   anyone   you   wish   before   you   decide   to   participate.       There  may  be  some  words  that  you  do  not  understand.  Please  ask  to  stop  as  we  go  through  the   information  and  an  explanation  will  be  given.  If  you  have  questions  later,  you  can  ask  them  the   staff.     Purpose  of  the  research   Metabolic  syndrome  has  become  a  worldwide  problem  with  prevalence  rates  of  up  to  84%  in   some  countries  (as  cited  by  Kaur,  2014).  It  presents  serious  health  risk  problems  (IDF,  2014;   Grundy  et  al,  2004)  and  carries  considerable  economic  costs  (Bourdreau  et  al.,  2009).  Diet  and   lifestyle  changes  are  the  chosen  treatment  plan  (Gurndy  et  al.,  2004,  NIH,  2011),  but  there  is   not  a  unity  as  to  which  diet  or  lifestyle  presents  the  best  results  (Zivkovic,  German  and  Sanyal,   2007).  Previous  studies  have  shown  positive  results  with  the  use  of  a  plant-­‐based  diet  and   exercise  for  the  components  of  metabolic  syndrome  (Macknin  et  al.,  2014;  Balliett  &  Burke,   2013;  Chen,  Roberts  &  Barnard,  2006;  Sullivan  &  Klein,  2006).  Additionally,  a  dietary  portfolio  of   cholesterol  lowering  foods  has  presented  promise  for  cardiovascular  disease  risk  factors,  one   particular  component  of  metabolic  syndrome  (Jenkins,  et  al.,  2003;  Jenkins,  et  al.,  2011).     Therefore  the  purpose  of  this  study  is  to  compare  the  effect  of  the  addition  of  the  portfolio  diet   to  a  total  vegetarian  diet  on  metabolic  syndrome  risk  factors  within  Scandinavian  women  in  a   12-­‐day   lifestyle   program.   The   objective   is   to   determine   if   the   portfolio   diet   gives   greater   improvements   than   a   total   vegetarian   diet   and   exercise   alone   on   metabolic   syndrome   risk   factors.     Type  of  Research  Intervention   This   research   will   include   the   total   vegetarian   diet   offered   at   Fredheim,   including   four   components  of  the  portfolio  diet.     Plant  sterols  such  as  a  plant  sterol  ester–enriched  margarine   Soy  protein  such  as  soymilk,  tofu,  and  soy  meat  analogues     Viscous  fibers  such  as  oats,  barley,  and  psyllium   Nuts  (including  tree  nuts  and  peanuts)     Participant  selection   We  are  inviting  all  women  attending  Fredheim  Health  Center  during  this  session  to  participate   in  this  research  on  metabolic  syndrome.        

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Voluntary  Participation   Your  participation  in  this  research  is  entirely  voluntary.  It  is  your  choice  whether  to  participate   or  not.  Whether  you  choose  to  participate  or  not,  all  the  services  you  receive  at  Fredheim  will   continue  and  nothing  will  change.  If  you  choose  not  to  participate  in  this  research  project,  you   will  be  offered  the  treatment  that  is  routinely  offered  at  Fredheim.  You  may  change  your  mind   later  and  stop  participating  even  if  you  agreed  earlier.     Information  on  the  Portfolio  Diet     The  lifestyle  program  we  are  testing  in  this  research  is  called  the  portfolio  diet.  It  has  been  tested  before   with  people  with  high  blood  lipids  or  fats.  We  now  want  to  test  this  diet  in  combination  with  a  total   vegetarian  diet  to  see  its  effect  on  metabolic  syndrome.  No  negative  effects  have  been  seen  for  this  dietary   treatment,  aside  from  allergic  reactions  to  specific  elements  of  the  diet  among  sensitive  participants.     Some   participants   in   the   research   will   not   be   given   the   portfolio   diet   that   we   are   testing.   Instead,  they  will  be  given  the  total  vegetarian  diet  offered  at  Fredheim  Health  Center.     Procedures  and  Protocol   Metabolic  syndrome  is  a  cluster  of  risk  factors  for  heart  disease  and  diabetes.  These  include:   increased  waist  circumference,  elevated  triglyceride  levels,  reduced  HDL  cholesterol,  elevated   blood  pressure,  elevated  blood  sugar  levels.  In  order  to  test  the  different  components  of   metabolic  syndrome,  we  take  measurements  and  tests  on  Monday  morning,  after  your  arrival   and  on  Friday  morning,  the  day  of  your  departure  (the  last  day  of  your  stay  at  Fredheim).       We  will  take  the  following  measurements  on  you  in  the  following  ways:  

1. Weight  –  measured  in  light  clothing,  without  shoes   2. Height  –  measured  without  shoes   3. Waist  circumference  –  measuring  the  midpoint  between  your  lowest  rib  and  your  hip  

bone   4. Blood  pressure  –  taken  after  5  minutes  of  rest.  Three  measurements  will  be  taken  2  

minutes  apart  and  the  first  measurement  will  be  disregarded  and  the  last  two   measurements  will  be  averaged.  

  We  will   also   take  blood   from  your  arm  using  a   syringe  and  needle.  Each   time   (twice)  we  will   take  a  small  amount  of  blood.  At   the  end  of   the  research,  any   left  over  blood  sample  will  be   destroyed.  The  following  blood  tests  will  be  taken:  

1. Triglycerides   2. HDL  cholesterol   3. LDL  cholesterol   4. Blood  glucose   5. HbA1c  –  shows  the  average  blood  sugar  level  over  the  previous  three  months.    

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B.  Description  of  the  Process   During   this   research   study,   you   and   the   other  women  participating  will   be   randomly   divided   into  two  groups.  One  group  will  continue  eating  the  regular  diet  that  Fredheim  Health  Center   offers  to  all   it  guests  without  nuts.  The  other  group  will  be  eating  the  regular  diet  at  Freheim   with  four  elements  added  to  the  diet.  These  are  specifically:     Plant  sterols  such  as  a  plant  sterol  ester–enriched  margarine,   Soy  protein  such  as  soymilk,  tofu,  and  soy  meat  analogues,   Viscous  fibers  such  as  oats,  barley,  and  psyllium,  and   Nuts  (including  tree  nuts  and  peanuts).     All  other  features  of  the  Fredheim  Health  Center  will  be  the  same  for  both  groups  of   participants.     Duration     This  research  will  take  place  while  you  are  at  Fredheim  Health  Center,  during  the  12  days  of  the   health  session.       Side  Effects   There  are  no  known  side  effects  for  eating  the  portfolio  diet.     Risks   There  are  no  anticipated  risks  for  participation  in  this  research  project,  aside  from  the  risk  of   unknown  food  allergies.  In  the  event  of  a  participant  manifesting  a  food  allergy,  appropriate   medical  attention  will  be  provided.     Benefits     If  you  participate  in  this  research,  you  will  have  the  following  benefits:  free  blood  tests  at  the   beginning  of  your  stay  at  Fredheim  and  at  the  completion  of  your  stay  there,  12  days  later.     Confidentiality   The  information  that  we  collect  from  this  research  project  will  be  kept  confidential.  Information   about   you   that   will   be   collected   during   the   research   will   be   put   away   and   no   one   but   the   researchers  will  be  able  to  see  it.  Any  information  about  you  will  have  a  number  on  it  instead  of   your   name.   Only   the   researchers   will   know   what   your   number   is   and   we   will   lock   that   information   securely   stored  with   password   protection.   It  will   not   be   shared  with   or   given   to   anyone  except  those  in  the  research  team  and  those  helping  with  analyzing  the  study  material.     Sharing  the  Results   The   knowledge   that   we   get   from   doing   this   research   will   be   shared   with   you   through   the   Fredheim  newsletter  before  it  is  made  widely  available  to  the  public.  Confidential  information   will  not  be  shared.  After   sharing   this   information   in   the  Fredheim  newsletter,  we  will  publish   the  results  in  order  that  other  interested  people  may  learn  from  our  research.        

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Right  to  Refuse  or  Withdraw   Example:  You  do  not  have  to  take  part  in  this  research  if  you  do  not  wish  to  do  so.  You  may  also   stop  participating  in  the  research  at  any  time  you  choose.  It  is  your  choice  and  all  of  your  rights   will  still  be  respected.     Alternatives  to  Participating   If  you  do  not  wish  to  take  part  in  the  research,  you  will  be  provided  with  the  established   standard  treatment  available  at  the  Fredheim  health  center.       Who  to  Contact     If  you  have  any  questions  you  may  ask  them  now  or  later,  even  after  the  study  has  started.  If   you  wish  to  ask  questions  later,  you  may  contact  any  of  the  staff  at  Fredheim  Health  Center  or   the  primary  researcher  via  telephone  or  email.   Theresa  Nybo  Jakobsen   Telephone  #     This  proposal  has  been  reviewed  and  approved  by  the   local  ethics  committee  (IRB),  which  is  a   committee  whose  task  it  is  to  make  sure  that  research  participants  are  protected  from  harm.    If   you  wish  to  find  about  more  about  the  IRB,  contact  [name,  address,  telephone  number.]).      

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PART  II:  Certificate  of  Consent   I  have  read  the  foregoing  information,  or  it  has  been  read  to  me.  I  have  had  the  opportunity  to   ask   questions   about   it   and   any   questions   that   I   have   asked   have   been   answered   to   my   satisfaction.    I  consent  voluntarily  to  participate  as  a  participant  in  this  research.     Print  Name  of  Participant__________________            

Signature  of  Participant  ___________________  

Date  ___________________________     Day/month/year        

            Statement  by  the  researcher/person  taking  consent   I  confirm  that  the  participant  was  given  an  opportunity  to  ask  questions  about  the  study,  and  all   the  questions   asked   by   the   participant   have   been   answered   correctly   and   to   the   best   of  my   ability.  I  confirm  that  the  individual  has  not  been  coerced  into  giving  consent,  and  the  consent   has  been  given  freely  and  voluntarily.            A  copy  of  this  informed  consent  form  has  been  provided  to  the  participant.    

Print  Name  of  Researcher  /  person  taking  the  consent________________________    

Signature  of  Researcher  /  person  taking  the  consent__________________________  

Date  ___________________________                                          Day/month/year          

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  Mayneris-­‐Perxachs,  J.,  Sala-­‐Vila,  A.,  Chisaguano,  M.,  Castellote,  A.  I.,  Estruch,  R.,  Covas,  M.  I.,  

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  Razavi,  M.,  Fournier,  S.,  Shepard,  D.  S.,  Ritter,  G.,  Strickler,  G.  K.,  Stason,  W.  B.  (2014)  Effects  of  

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eating,  fish-­‐eating,  vegetarian  and  vegan  men  and  women  in  EPOC-­‐Oxford.  International   Journal  of  Obesity.  30(9):1389-­‐1396.  DOI:http://dx.doi.org/10.1038/sj.ijo.0803305  

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How to Create an Informed Consent Form The informed Consent Form must be a separate document from other documents. Except as provided in

sections 4, 5 and 6 below, informed consent shall be documented by the use of a written consent form

approved by the IRB and signed by the subject or the subjects' legally authorized representative. A copy

shall be given to the person signing the form. The full informed consent form must include:

Content of the written consent form

1. Statement that the activity involves research and a description of where the research activity will

occur.

2. An explanation of the scope, aims, and purposes of the research, and the procedures to be followed

(including identification of any treatments or procedures which are experimental) and the nature of

the expected duration of the subjects' participation.

3. Description of any reasonably foreseeable benefits, if any, to the subjects or others that may result

from the research.

4. A disclosure of appropriate alternative procedures or course of treatment (in instances where

therapeutic procedures are involved), if any that might be advantageous to the subjects.

5. A statement describing the extent to which confidentiality or records identifying the subjects will be

maintained except in unusual cases.

6. An offer to answer any questions the subjects may have about the research, the subject's rights or

related matters, and the name of the person (together with address and telephone number) to

whom the subjects may direct questions or must report an injury.

7. A Statement that participation is voluntary, that refusal to participate involves no penalty or loss of

benefit to which the subjects are otherwise entitled, and that the subjects may discontinue

participation at any time without penalty or loss to which the subjects are otherwise entitled if they

had completed their participation in the research.

8. For research which may involve more than minimal risk of injury the subject should be informed of

the following statement which must appear in the consent form: (to be modified for off-campus

research). "In the unlikely event of injury resulting from this research, Andrews University

is not able to offer financial compensation nor to absorb the costs of medical treatment.

However, assistance will be provided to research subjects in obtaining emergency

treatment and professional services that are available to the community generally at

nearby facilities. My signature below acknowledges my consent to voluntarily participate

in this research project. Such participation does not release the investigator(s),

sponsor(s) or granting agency (ies) from their professional and ethical responsibility to

me."

9. A space for the dated signatures of the subject, the principal investigator, and a witness. In the case

of a minor (the child must also sign if seven years of age or older) or a person unable to sign, a

second authorizing signature is required from the parent, guardian, or other responsible person. The

relationship must be specified.

In addition there is need to pay special attention to the following two definitions in your Informed

Consent, since lack of coercion and confidentiality are required for approval:

a) Coercion

Coercion means to compel or force someone to participate in or perform an action that would not

ordinarily be done of the individual's own free choice. Coercion may be present when recruiting

subjects for research. Participation should be free and voluntary, with no overriding statements. The

following are ways that coercion can be introduced: The researcher is the supervisor or pastor of the

participants. Telling subjects or their parents (when children are involved) how much they will be

helping the investigator by participating in research can be interpreted as coercive. Mentioning a

relationship that exists between the researcher and the potential subjects may be coercive. Subjects

may feel obligated to participate because they know or have seen the researcher at various times.

In cases of infants and children, mentioning that the researcher cares for or has cared for the child

puts parents in a very awkward and unfair position. Face-to-face recruitment has the potential to be

coercive. It is difficult for individuals to say no to someone who is directly in front of them and

talking about his or her research. Inflection, tone of voice, and nonverbal cues can inadvertently slip

into the recruitment process without the researcher's awareness. Coercion can be reduced if an

impartial third party presents the request for participation. Subjects should be protected from

coercion. If subjects are not protected, the IRB application must include an explanation of why

coercion is necessary as well as any possible repercussions of the coercion. The methods to be used

for coercing subjects must be detailed in the research proposal. A plan for informing subjects at the

end of the research of how and why they were coerced must be fully explained (see Debriefing).

Potential physical and/or psychological risks that may be incurred by subjects due to the coercion

must be identified, and procedures for addressing the risks must be established as part of the

debriefing procedures.

b) Confidentiality

Confidentiality refers to protection of subjects' privacy so that information collected about them, as

part of the research process, is not disclosed. Information may be revealed in group form, or as

individual examples, but not in a way that an individual may be identified. If the investigator collects

information on subjects over a period of time, such as in test-retest reliability or in

Pretest-posttest study designs, there must be a mechanism to relate various data to the same

subject. This may be done by using codes or identifiers (e.g., subject ID numbers) on both sets of

data that only the researcher can trace to a master name-number list. Because names and numbers

can be related, this list must be kept confidential by storing it in a private and secure location, such

as a locked file cabinet. If data are recorded in cases where the researcher personally knows

subjects, it must be acknowledged that the researcher knows the subjects personally, and the data

must be treated confidentially, because anonymity is not possible. The data must be collected in

such a way that the identity is not recorded. All data should be stored in a way that the person is

not identified when the identity is not crucial for the research objectives. In other words, the IRB will

require that data be collected in the least intrusive and most confidential way to serve the purpose

of the research. In a focus group situation, it must be acknowledged that there is a lack of

confidentiality due to the group situation. The consequences of this lack of confidentiality must be

outlined. It is important to acknowledge

It is important to acknowledge that subjects may waive the right of confidentiality. This may occur,

for example, when a subject specifically requests to be quoted. In the United States, all confidential

data must be stored by the researcher for 3 years. In Canada, data must be stored for 6 years.

Consider also that ethical research requires that the researcher is qualified to do the research they

are proposing.

Format of the Written Consent Form

1. The consent form should clearly identify the relationship of the researcher to Andrews University.

The name of Andrews University should appear centered at the top of the consent form together

with the name of the department with which the researcher is affiliated. In cases where an

anonymously returned questionnaire substitutes as a form of implied consent, the cover letter

accompanying the questionnaire should clearly identify how the research is connected with Andrews

University and one of its academic departments.

2. The consent from should clearly indicate the name, address, and phone number of the investigator

and an advisor or impartial third party whom the research subject may contact for additional

information if desired.

3. Places for the dated signatures of the subject (and/or parent/guardian, if applicable), investigator,

and witness should be included at the bottom of the consent form.

Retention of the Signed Informed Consent Form

1. A copy of the Informed Consent Form should be returned to the subject or the person legally

appointed to sign the Informed Consent Form to retain for his/her review.

2. The responsibility for retaining signed copies of the Informed Consent Form lies with the principal

investigator(s). These Informed Consent Forms should be kept in a secure depository along with the

researcher's other records for a reasonable amount of time (not normally to exceed three years).

Use of Alternate and/or Simplified Consent Forms

Certain situations may justify the use of alternate and/or simplified consent forms. However, in all cases the

investigator must demonstrate how the anonymity or confidentiality of the subject and his/her voluntary

participation in the project will be assured and maintained.

1. Oral Instructions Read to a Group. In the case of no risk or minimal risk research where

instructions are read to a group of subjects (e.g. a questionnaire passed out in a classroom setting,

with prior written authorization of the instructor), a short form to document the oral instructions

presented to the subjects may be used. A witness who heard the oral instructions read to the group

must co-sign the short form along with the researcher. A written copy of the oral instructions that

are to be read to the group must be submitted with the protocol. The items listed in Section 1 above

should be included in the oral instructions.

Research using surveys or questionnaires and dealing with sensitive areas of the respondent's own

behavior (illegal conduct, drug/alcohol use, sexual behavior, etc. See Appendix A, Exempt Review,

item 4) require special consideration. Although the purpose and use of surveys or questionnaires in

such research may be explained in a classroom setting (with prior documented permission of the

instructor(s) involved), requesting respondents to actually complete survey instruments in the

classroom setting is not recommended. Alternative methods of collecting forms completed at the

discretion of the respondent and which thus insure the respondent's anonymity should be employed.

2. Anonymous Surveys or Questionnaires. In the case of risk or minimal risk research involving

the use of surveys or questionnaires which are distributed individually and returned anonymously,

the cover letter explaining the purposes and procedures of the research project may substitute for

the consent form. Such a cover letter must be submitted with the protocol and should contain

reference to the items mentioned in section 1 above. It should state in the cover letter as well as on

the survey form itself that the return of the survey or questionnaire serves as a form of implied

consent.

3. Simplified Oral Interviews. Investigators conducting simple oral interviews, the content of which

qualifies as exempt from review, may submit an alternate form of written documentation in place of

an informed consent form. Such documentation should describe how the interviewer will explain

his/her research to the interviewee and how the researcher is prepared to insure the interviewee's

confidentiality and his/her right to refuse participation in the interview.

In all cases, the researcher is responsible for the filing of all proof of compliance with the above

procedures and to keep them for a period of three years

Waiving of Signed Consent Documentation

The IRB may waive the requirement for the investigator to obtain a signed consent form for some or all

subjects if it finds that either of the following conditions exists:

1. The only record linking the subject and the research would be the consent document and the

principal risk would be potential harm resulting from a breach of confidentiality. Each subject will be

asked whether he/she wants documentation linking the subject with the research, and the subject's

wishes will govern.

2. The research presents no more than minimal risk of harm to subjects and involves no procedures for

which written consent is normally required outside of the research context.

Waiving the Consent Process

The IRB may under certain special circumstances approve a consent procedure which does not include or

which alters some or all of the elements motioned above or may waive the requirement to obtain consent

provided the Board verifies and documents each of the following items:

1. The research involves no more than minimal risk to the subjects

2. The waiver or alteration of consent will not adversely affect the rights and welfare of the subjects.

3. The research could not practicably be carried out without the waiver or alteration.

4. Whenever appropriate, the subjects will be provided with additional pertinent information after

participation.

Consent form from Attending Physician and/or Other Health Care Professionals

In situations where an individual is currently being treated/evaluated by a physician and/or other health

care professional for a condition related to the objective of the research study, the researcher is required to

obtain the consent of the physician and/or health care professional prior to involving such research subjects

in the study.

Or faxed to attention IRB: (269) 471-6543

E-mail Letters: Letters may be sent as scanned email attachments to [email protected].