diabetes care mm tai .pdf



Nom original: diabetes care mm tai.pdf

Ce document au format PDF 1.6 a été généré par HP Scanjet N6310 Doc TWAIN / Adobe Acrobat 9.33 Paper Capture Plug-in, et a été envoyé sur fichier-pdf.fr le 30/03/2016 à 14:40, depuis l'adresse IP 129.199.x.x. La présente page de téléchargement du fichier a été vue 472 fois.
Taille du document: 296 Ko (3 pages).
Confidentialité: fichier public


Aperçu du document


SHORT

REPORT

A Mathematical Model for the
Determination of Total Area
Under Glucose Tolerance and
Other Metabolic Curves
MARy M. TAl,

However, except for Wolever et al.'s for­
mula, other formulas tend to under- or
overestimate the total area under a met­
abohc curve by a large margin.

_lARCH DESIGN AND
MDIIODS
Tai's mathematical model

MS, EDD

Tai's model was developed to correct the
deficiency of under- or overestimation of
the total area under a metabohc curve.
This formula also allows calculating the
OIUICTIYE- To develop a mathematical model for the determination of total area under a curve with unequal units on
areas under curves from various metabohc studies.
the X-axis. The strategy of this mathe­
matical model is to divide the total area
RUIARCH DIIIGN AND MDIIODS - In Tai's Model, the total area under a under a curve into individual small seg­
curve is computed by dividing the area under the curve between twO designated ments such as squares, rectangles, and m­
values on the X-axis (abscissas) into small segments (rectangles and triangles) whose angles, whose areas can be precisely deter- .
areas can be accurately calculated from their respective geometrical formulas. The mined according to existing geomemc
total sum of these individual areas thus represents the total area under the curve. formulas. The area of the individual seg­
Vahdity of the model is established by comparing total areas obtained from this ments are then added to obtain the total
model to these same areas obtained from graphic method Oess than ::to.4%). Other area under the curve. As shown in Fig. I,
formulas widelyapphed by researchers under- or overestimated total area under a the total area can be expressed as:
metabolic curve by a great margin.
Total area = triangle a + rectangle b +
triangle c + rectangle d + triangle e +
RESULTS - Tai's model proves to be able to 1) determine total area under a curve rectanglef + triangle g + rectangle h +...
with precision; 2) calculate area with varied shapes that mayor may not intercept on If Y = height, x = width
..
one or both X/Y axes; 3) estimate total area under a curve plotted against varied time Area (square) =.0 or y2 = y);
intervals (abscissas), whereas other formulas only allow the same time interval; and Area (rectangle) = >:)';
i) compare total areas of metabolic curves produced by different studies.
Area (triangle) = >:)'f2
Let: Xl = X2 - Xl;X2 = X3 - X2
CONCLUSIONS - The Tai model allows flexibility in experimental conditions, which X3 = Xi - X3; Xi = X5
- Xi;

means, in the case of the glucose-response curve, samples can be taken with differing rime
Xn - l = -"n - Xn-l

intervals and total area under the curve can still be determined with precision.
Total Area = ~Xl (Y2 - YI) + X1Yl +

~X2 (Y3 - Y2) + X2Y2 +

~X3 (y... - y-) + X3Y3

stimation of total areas under curves under a glucose-tolerance or an energy­
of metabolic studies has become an expenditure curve (1,2). Three formulas + ~Xi (Y5 - y~ + X4Yi + ....
increasingly popular tool for evalu­
have been developed by Alder (3), Vec­
+ ~Xn - 1 (yn - Yn - 1) + x" -lYn 1
ating results from clinical trials as well as cruo et al. (4), and Wolever et al. (5) to = (XlYl + X 1Y2 + XV'2 + XV'3 + XjYJ +
research investigations, such as total area calculate the total area under a curve. X:!Yi + X4Yi + X4Y5 + ... + Xn-lYn-l
+ Xn-lYn) = ~ [X1(Y1 + Y2) + X 2 (Y2 +y,J
••••••••••••••••••••••••••••••••••••••••••••••••••••••••• + X3 (Y3 + y~ + Xi (Yi + Y;> + ....
From the ObeSity Research Center, St. Luke's-Roosevelt Hospital Center, New York; and the x,,-1 O'n-l + Yn)l
If the curve passes the Origin, If2[XOY1)
Department of Nutrition, New York University, New York, New York.
should
be added to above formula. If the
Address correspondence and reprint requests to Mary M. Tai, MS, EdD, Department of
curve
intercepts
at Yo at the Y-axis, let
Nutrition, New York University, Education Building #1077, 35 West 4th Street, New York,
Xo Xl - "0, If2[Xo(yo + Yl») should be
NY 10012.
Received for publication 18 February 1993 and accepted in revised fonn 23 September added to the above formula; Tai,s fonnula
1993.
apphed to different conditions:

ex

E

i

=

152

DIABETES

CARE,

VOLUME

17,

NUMBER

2,

FEBRUARY

1994

CIlIVI

indi(
mod
of th

Tai

v,.
y"

Y"
1

I

!

I
!
!
ol-t:::1:::::l.--+-'--+-'--+-'--f--'-""-+­
!

i

\ X10!X11

~;

o

1 10 X'1

X12

Figure I-Total area under the curve is the
sum of individual areas if triangles a, c, e, and g

,(~~~,:f,::~,

CONCWSIONS

t

t~

l
~

,

.~

"

f

(.

1I.

t

When me curve passes the origin: Xo =
Yo = 0, Xo = Xl - 0;
When me curve intercepts Y-axis at yo:
Xo = Xl - 0
When me curve neither passes the origin
nor intercepts at y-axis: Xo = Yo = 0
Example using Tai's model:
Blood glucose determined at six time

~~di)~~~~;~~~~~~~~
Xo = 30 - 0

Xo :::

Xl -

Xl:::

60-30

===

= 30 ;

30; X2 = X3 .., 30

1
Area =: '2[30(95 + 147) + (147 + 124)

+ (124 + 111) + (111 + 101)1

f

= 14400 mgldl/120 min

I

!
f I

(Tai's formula)

i=1

.:.~ ~
.
•.

+yJ

formulas to a standard (true value),
which is obtained by plotting the curve
on graph paper and counting the num­
ber of small units under the curve. The
sum of these units represents the actual
total area under the curve. Results are
ptesented in Table 1. From Table 1, it is
evident that total area I can not be ob­
tained from Alder's formula. Total area II
has underestimated the total area under a
metabolic curve by a large margin. Total
area 1I1 corresponds well (- 6.1 %) with
the actual area estimated from the plot
(total area V). However, this formula
only permits a single t value, which means
the time interval has to be the same.

RlSuLIS
COlD.parison of Tai's formula to
other formulas

F'

~ve sets of laboratory data from the pre-

I

~ous experiments of the author are used

r

~urve using the four different formulas as

ere for calculating the total area under a

Indicated above. The validity of each
model was verified through comparison
of the total area obtained from the above

Verification of Tai's mathematical
model
From Table 1, it is dear that Tai's for­
mula (total area IV) has the most accu-

rate estimation of the total area under a
curve. Total area N agrees extremely
well with actual total area obtained from
the graph (+ 0.1 %). Because no statisti­
cally significant differences were found
between areas from these two methods,
the validity of Tai's model can thus be
established.
This formula also permits accu­
rate determination of total area under the
curve when the curve intercepts with
Y-axis, as well as when the curve passes
the origin. Furthermore, in this formula,
values on X-axis do not have to be the
same as the t in Wolever et al.'s formula. It
allows flexibility in experimental condi­
tions, which means, in the case of glucose­
response curve, samples can be taken wim
differing time intervals and the total area
under me curve can still be determined
wim precision. Thus, if different aumors
estimate me total area under a curve from

Table I-Summary of results: (% area: % of total area V)
Total area
Test
Glucose
TIF (SM)
TIF (LM)
RMR (1.)

RMR CO)
Ave

NA*
NA*
NA*
NA*
N.A.*

II

III

IV

V

480 (3.3%)
336 (3.2%)
452 (3.2%)
1157 (3.9%)
1636 (4.6%)
(Hi%)

13517 (94.3%)
9588 (92.6%)
13367 (94.7%)
NAt
NAt
(93.9%)

14400 (lOO.4%)·
10326 (99.8%)
14163 (100.3)
30040 (100.0%)
35733 (100.0%)
(100.1%)

14337
10349
14115
30047
35725

t tests: II;V P < 0.005; I1I:V NS; IV:V NS

Area I: Alder (3)"'; Area II: Vecchio et al. (4);

Area Ill: Wolever et al. (5);
Area IV: Tai's Model

Area: V: Graphic Method;


Metabolic studies:
Test I
Blood glucose at six time periods before and after a glucose load: (blood glucose: x,
mgldl; time interval between tests t == 30 min; obese women: n = 6) (6)
Test II and III
Thermic effect of food at ten time periods after one large meal (LM: 750 kca1) or six
small meals (SM: 125 kcaD
(TEF: i, 10 - 2 kcal· min - 1 • kg - 1 LBM; t == 30 min; lean women: n == 7) (2)
Test IV and V
Resting metabolic rate of lean (L) and obese (0) women.
(RMR: 10 - 2 kg. min - 1 • kg - 1 LBM; L: n == 7, 0: n == 8; tl = t2 == 20 min; t3 == 25
min; t4 == t;; t(; 30 min) (6)
•Nonapplicable because of the irregular shape of the curve.

x

= =

tNonapplicable because of the uneven time intervals.

~r~~~--~----~~~--~~~---------------------------------------------------.
ETEs Cue, VOLUME 17, NUMBER 2, FEBRUARY 1994

A mathematical model for total area under curves

Tai's formula, comparisons can be made
between areas under curves produced un­
der different experimental conditions.

University for his expen review and Mrs. Y.
Dam for her anwork.

References
1. Wolever TMS: How imponant is predic­

Acknowledgments-1 would like to dedi­
cate Tai's Model to my late parents Mr. ~d
Mrs. T. C. Tai. I gratefully acknowledge Dr. F.
X Pi-Sunyer and Dr. H. Dowling from the
Obesity Research Center for their suppon
and encouragement, Dr. R. Kuc from Yale

IS4

tion of glycemic responses? Diabetes Care
12:591-93, 1989
2. Tai MM, Castillo P, Pi-Sunyer FX: Meal size
and frequency: effect on the thermic effect
of food. Am] din Nutr 54:783-87, 1991
3. Alder I: A New Look at Geometry. New

DlABErES

York, The John Day Company, 1966
4. Vecchio 1], Oster HL, Smith 0: Oral so­
dium, tolbutamide and glucose tolerance
tests. Arch Intern Med 115:161-66, 1965
5. Wolever TMS, Jenkins DJA, Jenkins AL,
J osse AG: The glycemic index: method­
ology and clinical implications. Am] Gin
Nutr 54:846-54, 1991
6. Tai MM, Pi-Sunyer FX: Effect of exercise
on thennic effect of food (TEF) in lean
(L) and obese (0) women (Abstract). Int
] Obesity 11:461A, 1987

CARE,

VOLUME

17,

NUMBER

2,


diabetes care mm tai.pdf - page 1/3
diabetes care mm tai.pdf - page 2/3
diabetes care mm tai.pdf - page 3/3


Télécharger le fichier (PDF)

diabetes care mm tai.pdf (PDF, 296 Ko)

Télécharger
Formats alternatifs: ZIP







Documents similaires


diabetes care mm tai
spiering2004
ibhm 722 728
mgce
mva 2015 rl7
mva 2015 mgce

Sur le même sujet..