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Title: COFFEE, DIABETES


1
COFFEE, DIABETES WEIGHT LOSS
James Greenberg, PhD.,
Brooklyn College of the City University of New
York.
2
OUTLINE
. coffee promises to decrease diabetes risk
. coffee can be hazardous to persons with
diabetes
. biological mechanisms that may explain coffees
promise
. coffee constituents that may explain coffees
promise
. weight loss may also play a role
. gaps in the knowledge base
. Conclusions.
3
COFFEE PROMISES TO DECREASE DIABETES RISK.
. Based on results of about 20 epidemiological
studies (Greenberg et al, 2006 Pereira et al,
2006 Paynter et al, 2006)
. both caffeinated decaf coffee exhibit the
effect
. non-caffeine constituents maybe caffeine
appear to be involved.
4
COFFEE PROMISES TO DECREASE DIABETES RISK.
There is considerable interest in investigating
harnessing coffees potential to decrease
diabetes risk.
. Most Americans drink coffee (Lundberg, 1998)
. diabetes is widespread burgeoning (CDC,
2005 CDC, 2006).
. estimated 24 million diabetics 57 million
prediabetics in U.S. in 2005 (Amer Diabetes
Assoc)
. Diabetes incidence increased gt200 between 1980
2005
. sixth leading cause of death in the U.S. in
2002
. serious complications including CVD, blindness,
kidney failure, and limb amputations.
5
COFFEE CAN BE HAZARDOUS TO PERSONS WITH DIABETES
AND PREDIABETES.
. caffeine caffeinated coffee acutely impair
glucose metabolism (Greenberg et al, 2006
Lane et al, 2008)
. causes repeated bouts of poor glycemic control
6
from Battram et al (2006)
7
COFFEE CAN BE HAZARDOUS TO PERSONS WITH DIABETES
AND PREDIABETES.
Some types of decaf may acutely impair glucose
Metabolism
. four human trials found that instant decaf had
no acute effects on glucose metabolism
(Johnston et al, 2003 Thom, 2007 van Dijk et
al, 2009 Louie et al, 2008)
. Battram et al (2006) found that ground decaf
acutely enhanced glucose metabolism
. Greenberg et al (2009) found that ground decaf
acutely impaired glucose metabolism.
8
from Battram et al (2006)
9
from Greenberg et al (2009)
10
COFFEE CAN BE HAZARDOUS TO PERSONS WITH DIABETES
AND PREDIABETES.
It is possible that some types of decaf have
. higher concentrations of constituents that
enhance glucose metabolism
. lower concentrations of constituents that
impair glucose metabolism.
11
BIOLOGICAL MECHANISMS THAT MAY EXPLAIN
COFFEES PROMISE
. adiponectin, an adipokine polypeptide.
Caffeinated coffee increased adiponectin in an
epidemiological study (e.g. Williams et al,
2008)
. inflammation. Caffeinated decaffeinated
coffee decreased markers of inflammation in
epidemiological studies (e.g. Lopez-Garcia
et al, 2006 Kotani et al, 2008)
. oxidative Stress. Coffee is a major source of
antioxidants (Halvorsen et al, 2006)
12
COFFEE CONSTITUENTS THAT MAY EXPLAIN
COFFEES PROMISE
. chlorogenic acids, polyphenols, e.g.
5-caffeoylquinic acid (e.g. van Dijk et al,
2009 Thom, 2007)
. trigonelline a nonphenolic phytochemical,
N-methylnicotinic acid (e.g. van Dijk et al,
2009 Mishkinsky et al, 1967)
13
from van Dijk et al (2009).
14
COFFEE CONSTITUENTS THAT MAY EXPLAIN
COFFEES PROMISE
. chlorogenic acids, polyphenols, e.g.
5-caffeoylquinic acid (e.g. van Dijk et al,
2009 Thom, 2007)
. trigonelline a nonphenolic phytochemical,
N-methylnicotinic acid (e.g. van Dijk et al,
2009 Mishkinsky et al, 1967)
. quinides, nonacidic quinolactones, e.g. the
synthetic quinidine, 3,4- diferuloyl-1,5-quini
de (e.g. Shearer et al, 2003)
. magnesium (e.g. Lopez-Ridaura et al, 2004
Rodriguez-Moran
Guerrero-Romero, 2003)
15
COFFEE CONSTITUENTS THAT MAY EXPLAIN
COFFEES PROMISE
. Some possible biological mechanisms
. chlorogenic acid (e.g. Johnston et al, 2003)
quinides (e.g. Shearer et al, 2003) may
decrease hepatic glucose production by
inhibiting glucose-6-phosphatase
. chlorogenic acid may decrease intestinal
glucose absorption (e.g. Bassoli et al, 2008)
preserve beta-cell function by antioxidant
action (e.g. McCarty, 2004)
. magnesium may increases tyrosine kinase
activity in muscle cells and adipocytes (e.g.
Yokota et a, 2004)
16
WEIGHT LOSS MAY ALSO PLAY A ROLE.
There is empirical evidence
. caffeinated decaf coffee drinking gt decrease
in diabetes risk, only for subjects with prior
weight loss it was a dose-response relation
(Greenberg et al, 2005)
17
from Greenberg et al (2005).
18
WEIGHT LOSS MAY ALSO PLAY A ROLE.
There is empirical evidence
. caffeinated decaf coffee drinking gt decrease
in diabetes risk, only for subjects with prior
weight loss it was a dose-response relation
(Greenberg et al, 2005)
. Increase in caffeinated decaf coffee drinking
ltgt moderate weight loss over 12-years
(Lopez-Garcia et al, 2006)
. a large trial (N1,079) found that a relatively
small weight loss of 5.3 body weight gt 55
decrease in diabetes risk in a 3.2 yr follow
up (Hamman et al, 2006)
19
WEIGHT LOSS MAY ALSO PLAY A ROLE.
There is randomized human trial evidence
. a French trial (N50) found that a decaf
extract of green coffee beans, high in
chlorogenic acid gt weight loss of 2.8 of
body weight in 60 days (Dellalibaria et al, 2006)
. a Norwegian trial (N32) found that the same
decaf extract gt weight loss of 4.3 of body
weight in 84 days (Thom, 2007)
20
WEIGHT LOSS MAY ALSO PLAY A ROLE.
An empirically-based hypothesis. Weight loss gt
. decrease in risk of diabetes (e.g. Hamman et
al, 2006)
. increase in adiponectin (e.g. Heinonen et al,
2009)
. decrease in inflammation (e.g.
Barinas-Mitchell et al, 2006)
. decrease in oxidative stress (e.g. Rector et
al, 2007)
21
WEIGHT LOSS MAY ALSO PLAY A ROLE.
Coffees potential to induce weight loss is
important
. about 2/3 of Americans are overweight and about
1/3 are obese (Flegal et al, 2002)
. obesity decreases longevity (Fontaine et al,
2003) quality of life (Fontaine et al,
2000), increases medical costs (CDC, 2005)
. obesity is a serious burgeoning world-wide
public health problem (WHO, 2009)
22
GAPS IN THE KNOWLEDGE BASE
We lack adequate knowledge of which
constituents which underlying biological
mechanisms explain
. coffees acute effects on glucose metabolism
long-term effects on diabetes risk
. coffees acute and long-term effects on
appetite, food intake body weight
. differences between the acute and long-term
effects
23
CONCLUSION
We need more research on coffees constituents.
24
(No Transcript)
25
REFERENCES . American
Diabetes Association. http//www.diabetes.org/abou
t-diabetes.jsp. . Barinas-Mitchell E, Kuller LH,
Sutton-Tyrrell K, Hegazi R, Harper P, Mancino J,
Kelley DE. Effect of weight loss and nutritional
intervention on arterial stiffness in type 2
diabetes. Diabetes Care. 2006 Oct29(10)2218-22.
. Bassoli BK, Cassolla P, Borba-Murad GR et al.
(2008) Chlorogenic acid reduces the plasma
glucose peak in the oral glucose tolerance test
effects on hepatic glucose release and glycaemia.
Cell Biochem Funct 26, 320-328. . Battram DS,
Arthur R, Weekes A et al. (2006) The glucose
intolerance induced by caffeinated coffee
ingestion is less pronounced than that due to
alkaloid caffeine in men. J Nutr 136, 1276-80. .
Centers for Disease Control and Prevention.
National Diabetes Fact Sheet General Information
and National Estimates on Diabetes in the United
States, 2005. Rev Ed. Atlanta (GA) US Department
of Health and Human Services, Centers for Disease
Control and Prevention 2005. . Centers for
Disease Control and Prevention. Diabetes
Disabling, Deadly, and on the Rise, 2006. Rev Ed.
Atlanta (GA) US Department of Health and Human
Services, Centers for Disease Control and
Prevention 2006. . Dellalibera O, Lemaire B,
Lafay S.Le Svetol, un extrait de caf vert
decafine, induit une perte de poids et augmente
le ratio masse maigre sur masse grasse chez des
volontaires en surcharge ponderale..
Phytotherapie 20064194-197.
26
REFERENCES (continued) . Flegal,
KM, Carroll MD, Oglen CI, Johnson CI. Prevalence
and trends in obesity among US adults, 1999-2000.
JAMA 2002288(14)1723-1727. . Fontaine KR,
Redden DT, Wang C, Westfall AO, Allison DB. Years
of life lost due to obesity. JAMA
2003289187-193. . Fontaine KR, Bartlett SJ,
Barofsky I. Health-related quality of life among
obese persons seeking and not currently seeking
treatment. Int J Eat Disord 200027(1)101-105. .
Greenberg JA, Owen DR, Geliebter A. Coffee,
glucose metabolism and diabetes, a randomized
clinical trial (in review, 2009) . Greenberg JA,
Geliebter A Boozer CN. Coffee and diabetes a
review of the literature. Am. J. Clin. Nutrition
200684682-693. . Greenberg JA, Axen KV, Schnoll
R et al. (2005) Coffee, tea and diabetes the
role of weight loss and caffeine. Int J Obes
Relat Metab Disord 29, 1121-9. . Hamman RF, Wing
RR, Edelstein SL, Lachin JM, Bray GA, Delahanty
L, Hoskin M, Kriska AM, Mayer-Davis EJ, Pi-Sunyer
X, Regensteiner J, Venditti B, Wylie-Rosett J.
Effect of weight loss with lifestyle intervention
on risk of diabetes. Diabetes Care.
200629(9)2102-7. . Halvorsen BL, Carlsen MH,
Phillips KM, Bohn SK, Holte K, Jacobs DR Jr,
Blomhoff R. Content of redox-active compounds
(ie, antioxidants) in foods consumed in the
United States. Am J Clin Nutr 20068495-135.
27
REFERENCES (continued) . Heinonen
MV, Laaksonen DE, Karhu T, Karhunen L, Laitinen
T, Kainulainen S, Rissanen A, Niskanen L, Herzig
KH. Effect of diet-induced weight loss on plasma
apelin and cytokine levels in individuals with
the metabolic syndrome. Nutr Metab Cardiovasc
Dis. 2009 Mar 9. Epub ahead of print . Johnston
KL, Clifford MN, Morgan LM (2003) Coffee acutely
modifies gastrointestinal hormone secretion and
glucose tolerance in humans glycemic effects of
chlorogenic acid and caffeine. Am J Clin Nutr 78,
728 33. .Kotani K, Tsuzaki K, Sano Y, Maekawa M,
Fujiwara S, Hamada T, Sakane N. The
relationship between usual coffee consumption and
serum C-reactive protein level in a Japanese
female population. Clin Chem Lab Med.
200846(10)1434-7. . Lane JD, Feinglos MN,
Surwit RS. Caffeine increases ambulatory glucose
and postprandial responses in coffee drinkers
with type 2 diabetes. Diabetes Care
200831(2)221-222. . Lopez-Garcia E, van Dam RM,
Qi L, Hu FB. Coffee consumption and markers of
inflammation and endothelial dysfunction in
healthy and diabetic women. Am J Clin Nutr.
200684(4)888-93. . Lopez-Ridaura R, Willett
WC,Rimm EB,et al. Magnesium intake and risk of
type 2 diabetes in men and women. Diabetes Care
20042713440. . Louie JC, Atkinson F, Petocz P,
Brand-Miller JC. Delayed effects of coffee, tea
and sucrose on postprandial glycemia in lean,
young, healthy adults. Asia Pac J Clin Nutr.
200817(4)657-62.
28
REFERENCES (continued) .
Lundsberg LS. Caffeine consumption. In Spiller
GA, ed. Caffeine. Boca Raton, FL CRC Press,
1998199224. McCarty, M. F. (2005). A
chlorogenic acid-induced increase in GLP-1
production may mediate the impact of heavy coffee
consumption on diabetes risk Electronic
version. Medical Hypotheses, 64, 848-853. .
Mishkinsky J, Joseph B, Sulman FG et al. (1967)
Hypoglycaemic effect of trigonelline. Lancet 2,
1311-1312. . Pereira MA, Parker ED, Folsom AR.
Coffee consumption and risk of type 2 diabetes
mellitus an 11-year prospective study of 28 812
postmenopausal women. Arch Intern Med.
2006166(12)1311-6. . Paynter NP, Yeh HC,
Voutilainen S, Schmidt MI, Heiss G, Folsom AR,
Brancati FL, Kao WH. Coffee and sweetened
beverage consumption and the risk of type 2
diabetes mellitus the atherosclerosis risk in
communities study. Am J Epidemiol.
2006164(11)1075-84. . Rector RS, Warner SO, Liu
Y, Hinton PS, Sun GY, Cox RH, Stump CS, Laughlin
MH, Dellsperger KC, Thomas TR. Exercise and diet
induced weight loss improves measures of
oxidative stress and insulin sensitivity in
adults with characteristics of the metabolic
syndrome. Am J Physiol Endocrinol Metab. 2007
Aug293(2)E500-6. Epub 2007 May 1.
29
REFERENCES (continued) .
Rodriguez-Moran M, Guerrero-Romero F Oral
magnesium supplementation improves insulin
sensitivity and metabolic control in type 2
diabetic subjects a randomized double-blind
controlled trial. Diabetes Care
2003261147-1152. . Shearer J, Farah A, de
Paulis R, et al. Quinides of roasted coffee
enhance insulin action in conscious rats. J Nutr
200313335293532. . Thom E. The Effect of
Chlorogenic Acid enriched coffee on glucose
absorption in healthy volunteers and its effect
on body mass. J Int Med Res 200735900-908. .
van Dijk AE, Olthof MR, Meeuse JC, Seebus E, Rob
J Heine RJ, Rob M van Dam RM. Acute Effects Of
Decaffeinated Coffee And The Major Coffee
Components Chlorogenic Acid And Trigonelline On
Glucose Tolerance. Diabetes Care 2009 . Williams
CJ, Fargnoli JL, Hwang JJ, van Dam RM, Blackburn
GL, Hu FB, Mantzoros CS. Coffee consumption is
associated with higher plasma adiponectin
concentrations in women with or without type 2
diabetes a prospective cohort study. Diabetes
Care. 200831(3)504-7. . W.H.O.,
http//www.who.int/dietphysicalactivity/publicatio
ns/facts/obesity/en/ . Yokota K, Kato M, Lister
F, Ii H, Hayakawa T, Kikuta T, Kageyama S, Tajima
N. Clinical efficacy of magnesium supplementation
in patients with type 2 diabetes. J Am Coll Nutr.
2004 Oct23(5)506S-509S.
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