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Glutamine and the gut
GAGTROENTEROLOGY 1994;107:l999-1901
Editorials Glutamine and the Gut compared See artlcle on page
1595.
with
showed that critically supplementation
G
lutamine
is one of the most abundant
acids in the body and central
ways of intermediary tionally
metabolism.
been thought
and
was considered
from all parenteral stored in liquid
dispensable,
solutions
glutamine
served as a precursor biosynthesis.
required
holme
showed similar
and, during
excluded
and tube feedings the first
studies showed that
for both purine
In addition,
that glutamine
energy
acid;
was essential for cell proliferation
systems,’ and subsequent
Glutamine
amino
while in solution
it has been
in culture rimidine
has tradi-
form. Eagle et al. were among
to show that glutamine
gested
to many of the path-
and cyclites
nutrient
free amino
Glutamine
of as a nonessential
because it slowly degrades
provided
by enterocytes,”
and py-
Windmueller
a major
sug-
portion
and Ardawi
of the
and News-
released from skeletal muscle,
serious illness, glutamine
from muscle are increased lease from the periphery
2-3-fold. is matched
synthesis
and efflux
This accelerated by increased
re-
uptake
by the intestinal tract, liver, lymphoid tissue, and kidneys. If the illness is prolonged, the tissue consumption of glutamine
typically
exceeds skeletal
tion, and plasma and intracellular amino
acid decrease.
under these conditions
Provision
muscle
concentrations of exogenous
improves
tissue structure
and function.
nitrogen
The paper by Tremel
of this
glutamine
balance, and enhances
As a result, glutamine
recently been thought of as a conditionally amino acid during critical illness associated flammation and injury.4 TEROLOGY
produc-
restores amino acid concentrations
toward normal,
similar cantly
Pharmacokinetic
ill patients
to normals,
whereas
below limits
accepted
has
essential with in-
et al.’ in this issue of GASTROENinformation to our under-
adds additional
for normal
D-Xylose is a rather nonspecific absorption;
rather heterogeneous
group
data should
be interpreted
glutamine
characteristics
the controls
uate gastrointestinal
evaluation
undergoing
had D-xylose absorption
were signifiabsorption.
substance therefore,
of critically cautiously.
used to evalin this small,
ill patients,
the
Assessment
using
an index of illness severity (such as an APACHE
II score)
would have been helpful to insure comparability
between
groups. However, when examining glutamine-supplemented patients
the available data, the appear to have more
organ dysfunction than the controls (creatinine clearance was lower and bilirubin levels were higher in the test group than controls). tion and excretion
This should favor enhanced of D-XyhSe in the control
not the glutamine-supplemented
effects in colonocytes3
is constantly
controls.
in patient
selection
mine. Additionally, entry would in absorption
but
group. Thus, the biases
do not favor the patients an initial
absorp-
group
given gluta-
test of all patients
at study
have ensured that the groups were similar characteristics. However, this is quite dif-
ficult to achieve in ventilated
patients
with ileus.
Despite these concerns, this paper brings important new information to the field when considered in the perspective of other human studies. First, two randomized prospective double-blinded trials in patients with bowel
injury
have observed
mine-supplemented length of hospital
beneficial
effects of gluta-
nutrition6” Infection rates and stay were reduced in patients given
glutamine compared with patients undergoing standard therapy in both studies. Second, patients with inflammatory bowel disease given glutamine-supplemented tion maintained mucosal cellularity and enhanced function
(as determined
by measurement
of the lactulose/
standing of the conditionally indispensable nature of glutamine and its role in maintaining gut function. Twelve critically ill patients given standard or glutamine-en-
mannitol
excretion
standard
parenteral
riched amino acid solutions in their total parenteral nutrition (TPN) were evaluated after 8-9 days ofparenteral feedings. D-Xylose absorption tests performed at the end of parenteral support showed that urinary excretion of
their remnant intestine. In some patients, the need for TPN has been eliminated.’ Fourth, premature infants
D-xylose over 5 hours after an oral load was about twice as great in the patients administered glutamine when
ratio) compared
nutribarrier
nutrition.’
with controls
Third,
short bowel syndrome given glutamine mone have shown enhanced nutrient
patients
given
with the
and growth horabsorption from
given glutamine-supplemented nutrition require less time on TPN and the ventilator and achieve full enteral feedings in fewer days than control infants given standard
1886
EDITORIALS
intravenous tients
GASTROENTEROLOGY Vol. 107, No. 6
nutrition.”
In this study,
given glutamine-supplemented
hanced given
absorption standard
these studies glutamine
of D-xylose parenteral
enhances
considered
compared
nutrition.
all indicate
gastrointestinal
normal
with
an essential
en-
controls
Taken
structure
ill pa-
showed
that parenterally
tract in humans.
is clearly beneficial
critically TPN
together,
administered
and function
of the
As such, it should
nutrient
in these situations
from the standpoint
be and
of cost-effective
therapy.” On a practical
note,
Tremel
et al. used glutamine
dipeptides in their study, and these substances will not be available for general use in the United States for several years. However, several hospitals and selective home care companies are supplementing commercially available formulas
with
mine.
Europe,
Unlike
the crystalline
allow daily or weekly mixing tions,
and,
when
glutamine
degradation
(amount) itation
at &‘C,
that should
studies performed
ing other
amino
Increased
with
benefits
in animals,
from increasing
acids to maintain
effects
approximately
Because
skeletal
acid nitrogen acid solution glutamine
the only lim-
over a wide
dose range,
when
glutamine
releases
25 % - 35%
of amino
we have found that an amino
provides
comparable
optimal
effects. If a patient
proportions
body wt, then 0.37-0.5
be glutamine.
com-
acids infused.
that
total should
test
and func-
provides
1.5 g protein/kg
dose
caused by reduc-
structural
achieved
as glutamine,
In
glutamine
33% of the amino
muscle
the dose
isonitrogenous
and sustained
were observed
maximal
prised
are minimal.12
be administered.
was related to the amino acid imbalance solutions.
solu-
the effects of
in such mixtures
we have observed
tional
regulations nutrient
should be made concerning
of glutamine
dose-response
acid, L-gluta-
pharmacy
of parenteral
refrigerated
A final comment
amino
the U.S.
In patients
of
requires
g/kg of this
who weigh
50-
70 kg, this would provide 19-35 g, a dose slightly greater than that proposed by the authors. This dose may not only insure the intestinal
more normal
structure
tract but also enhance
and function
function
of
of the im-
munologic tissue and achieve adequate synthesis of the hepatic antioxidant glutathione, another vital biochemi-
cal product
that is enhanced
during
glutamine
adminis-
tration. DOUGLAS W. WILMORE Department of Surgq Brigham and Women’s Hospital Boston, Massachusetts Referencers 1. Eagle H, Oyama VI, Levy M, Horton CL, Fleischman, R. The growth response of mammalian cells in tissue culture to Lglutamine and L-glutamic acid. J Biol Chem 1956;218:607-616. Windmueller GH. Glutamlne utilization by the small intestine. Adv Enzymol 1982;53:201-237. Ardawi MSM, Newsholme EA. Fuel utilization in colonocytes of the rat. Biochem J 1985;231:713-719. Lacey JM, Wilmore DW. Is glutamine a conditionally essential amino acid? Nutr Rev 1990;48:297-309. Tremel H, Kienle B, Weilemann LS, Stehle P, FUrst P. Glutamine dipeptide-supplemented parenteral nutrition maintains intestinal function in the critically ill. Gastroenterology 1994;107: 1595-1601. 6. Zielger TR, Young LS, Benfell K, Scheltinga M, Hortos K, Bye R, Morrow FD, Jacobs DO, Smith RJ, Antin JH, Wilmore DW. Clinical and metabolic efficacy of glutamine-supplemented parenteral nutrition after bone marrow transplantation. A randomized, double blind, controlled study. Ann Intern Med 1992;116:821-828. 7. Schloerb PR, Amare M. Total parenteral nutrition with glutamine in bone marrow transplantation and other clinical applications (a randomized, double-blind study). J Parenter General Nutr 1993; 17407-413. 8. Van der Hulst RRWJ, Van Kreel BK, Von Meyenfeldt MF, Brummer R-JM, Arends J-W, Deutz NEP, Soeters PB. Glutamine and the preservation of gut integrity. Lancet 1993;341:1363-1365. 9. Byrne TA, Morrissey TB, Ziegler TR, Gatzen C, Young LS, Wilmore DW. Growth hormone, glutamine, and fiber enhance adaptation of remnant bowel following massive intestinal resection. Surg Forum 1992;43:151-153. 10. Lacey J, Crouch J, Benfell K, Ringer S, Wilmore K, Maguire D, Wilmore D. The effects of glutamine-supplemented parenteral nutrition in premature infants. J Pediatr (submitted). 11. MacBurney M, Young L, Ziegler TR, Wilmore DW. A cost-evalua tion of glutaminesupplemented parenteral nutrition in adult bone marrow transplant patients. J Am Diet Assoc 1994;94:12631266. 12. Hardy G, Bevan SJ, McElroy B, Palmer TE, Griffiths RD, Braidwood C. Stability of glutamine in parenteral feeding solutions (letter). Lancet 1993;342:186. Address requests for reprints to: Douglas W. Wilmore, M.D., Department of Surgery, Brigham and Women’s Hospital, 75 Francis Street, Boston, Massachusetts. Fax: (617) 732-5506. 0 1994 by the American Gastroenterological Association 0016-5085/94/$3.00
Irritable Bowel Syndrome: Just a Pain in the Butt? See article
S
on page 1666.
ince the recognition of irritable bowel syndrome (IBS) as a distinct disease entity, considerable efforts have been made to understand its etiology and identify
objective criteria for its diagnosis. The generally agreed symptom cluster includes abdominal pain often relieved by defecation, distention of the abdomen, disordered bowel habit (diarrhea or constipation), a frequent feeling of incomplete evacuation, mucus in the stool, looser stools with pain onset, and more frequent stools with
Editorials Glutamine and the Gut compared See artlcle on page
1595.
with
showed that critically supplementation
G
lutamine
is one of the most abundant
acids in the body and central
ways of intermediary tionally
metabolism.
been thought
and
was considered
from all parenteral stored in liquid
dispensable,
solutions
glutamine
served as a precursor biosynthesis.
required
holme
showed similar
and, during
excluded
and tube feedings the first
studies showed that
for both purine
In addition,
that glutamine
energy
acid;
was essential for cell proliferation
systems,’ and subsequent
Glutamine
amino
while in solution
it has been
in culture rimidine
has tradi-
form. Eagle et al. were among
to show that glutamine
gested
to many of the path-
and cyclites
nutrient
free amino
Glutamine
of as a nonessential
because it slowly degrades
provided
by enterocytes,”
and py-
Windmueller
a major
sug-
portion
and Ardawi
of the
and News-
released from skeletal muscle,
serious illness, glutamine
from muscle are increased lease from the periphery
2-3-fold. is matched
synthesis
and efflux
This accelerated by increased
re-
uptake
by the intestinal tract, liver, lymphoid tissue, and kidneys. If the illness is prolonged, the tissue consumption of glutamine
typically
exceeds skeletal
tion, and plasma and intracellular amino
acid decrease.
under these conditions
Provision
muscle
concentrations of exogenous
improves
tissue structure
and function.
nitrogen
The paper by Tremel
of this
glutamine
balance, and enhances
As a result, glutamine
recently been thought of as a conditionally amino acid during critical illness associated flammation and injury.4 TEROLOGY
produc-
restores amino acid concentrations
toward normal,
similar cantly
Pharmacokinetic
ill patients
to normals,
whereas
below limits
accepted
has
essential with in-
et al.’ in this issue of GASTROENinformation to our under-
adds additional
for normal
D-Xylose is a rather nonspecific absorption;
rather heterogeneous
group
data should
be interpreted
glutamine
characteristics
the controls
uate gastrointestinal
evaluation
undergoing
had D-xylose absorption
were signifiabsorption.
substance therefore,
of critically cautiously.
used to evalin this small,
ill patients,
the
Assessment
using
an index of illness severity (such as an APACHE
II score)
would have been helpful to insure comparability
between
groups. However, when examining glutamine-supplemented patients
the available data, the appear to have more
organ dysfunction than the controls (creatinine clearance was lower and bilirubin levels were higher in the test group than controls). tion and excretion
This should favor enhanced of D-XyhSe in the control
not the glutamine-supplemented
effects in colonocytes3
is constantly
controls.
in patient
selection
mine. Additionally, entry would in absorption
but
group. Thus, the biases
do not favor the patients an initial
absorp-
group
given gluta-
test of all patients
at study
have ensured that the groups were similar characteristics. However, this is quite dif-
ficult to achieve in ventilated
patients
with ileus.
Despite these concerns, this paper brings important new information to the field when considered in the perspective of other human studies. First, two randomized prospective double-blinded trials in patients with bowel
injury
have observed
mine-supplemented length of hospital
beneficial
effects of gluta-
nutrition6” Infection rates and stay were reduced in patients given
glutamine compared with patients undergoing standard therapy in both studies. Second, patients with inflammatory bowel disease given glutamine-supplemented tion maintained mucosal cellularity and enhanced function
(as determined
by measurement
of the lactulose/
standing of the conditionally indispensable nature of glutamine and its role in maintaining gut function. Twelve critically ill patients given standard or glutamine-en-
mannitol
excretion
standard
parenteral
riched amino acid solutions in their total parenteral nutrition (TPN) were evaluated after 8-9 days ofparenteral feedings. D-Xylose absorption tests performed at the end of parenteral support showed that urinary excretion of
their remnant intestine. In some patients, the need for TPN has been eliminated.’ Fourth, premature infants
D-xylose over 5 hours after an oral load was about twice as great in the patients administered glutamine when
ratio) compared
nutribarrier
nutrition.’
with controls
Third,
short bowel syndrome given glutamine mone have shown enhanced nutrient
patients
given
with the
and growth horabsorption from
given glutamine-supplemented nutrition require less time on TPN and the ventilator and achieve full enteral feedings in fewer days than control infants given standard
1886
EDITORIALS
intravenous tients
GASTROENTEROLOGY Vol. 107, No. 6
nutrition.”
In this study,
given glutamine-supplemented
hanced given
absorption standard
these studies glutamine
of D-xylose parenteral
enhances
considered
compared
nutrition.
all indicate
gastrointestinal
normal
with
an essential
en-
controls
Taken
structure
ill pa-
showed
that parenterally
tract in humans.
is clearly beneficial
critically TPN
together,
administered
and function
of the
As such, it should
nutrient
in these situations
from the standpoint
be and
of cost-effective
therapy.” On a practical
note,
Tremel
et al. used glutamine
dipeptides in their study, and these substances will not be available for general use in the United States for several years. However, several hospitals and selective home care companies are supplementing commercially available formulas
with
mine.
Europe,
Unlike
the crystalline
allow daily or weekly mixing tions,
and,
when
glutamine
degradation
(amount) itation
at &‘C,
that should
studies performed
ing other
amino
Increased
with
benefits
in animals,
from increasing
acids to maintain
effects
approximately
Because
skeletal
acid nitrogen acid solution glutamine
the only lim-
over a wide
dose range,
when
glutamine
releases
25 % - 35%
of amino
we have found that an amino
provides
comparable
optimal
effects. If a patient
proportions
body wt, then 0.37-0.5
be glutamine.
com-
acids infused.
that
total should
test
and func-
provides
1.5 g protein/kg
dose
caused by reduc-
structural
achieved
as glutamine,
In
glutamine
33% of the amino
muscle
the dose
isonitrogenous
and sustained
were observed
maximal
prised
are minimal.12
be administered.
was related to the amino acid imbalance solutions.
solu-
the effects of
in such mixtures
we have observed
tional
regulations nutrient
should be made concerning
of glutamine
dose-response
acid, L-gluta-
pharmacy
of parenteral
refrigerated
A final comment
amino
the U.S.
In patients
of
requires
g/kg of this
who weigh
50-
70 kg, this would provide 19-35 g, a dose slightly greater than that proposed by the authors. This dose may not only insure the intestinal
more normal
structure
tract but also enhance
and function
function
of
of the im-
munologic tissue and achieve adequate synthesis of the hepatic antioxidant glutathione, another vital biochemi-
cal product
that is enhanced
during
glutamine
adminis-
tration. DOUGLAS W. WILMORE Department of Surgq Brigham and Women’s Hospital Boston, Massachusetts Referencers 1. Eagle H, Oyama VI, Levy M, Horton CL, Fleischman, R. The growth response of mammalian cells in tissue culture to Lglutamine and L-glutamic acid. J Biol Chem 1956;218:607-616. Windmueller GH. Glutamlne utilization by the small intestine. Adv Enzymol 1982;53:201-237. Ardawi MSM, Newsholme EA. Fuel utilization in colonocytes of the rat. Biochem J 1985;231:713-719. Lacey JM, Wilmore DW. Is glutamine a conditionally essential amino acid? Nutr Rev 1990;48:297-309. Tremel H, Kienle B, Weilemann LS, Stehle P, FUrst P. Glutamine dipeptide-supplemented parenteral nutrition maintains intestinal function in the critically ill. Gastroenterology 1994;107: 1595-1601. 6. Zielger TR, Young LS, Benfell K, Scheltinga M, Hortos K, Bye R, Morrow FD, Jacobs DO, Smith RJ, Antin JH, Wilmore DW. Clinical and metabolic efficacy of glutamine-supplemented parenteral nutrition after bone marrow transplantation. A randomized, double blind, controlled study. Ann Intern Med 1992;116:821-828. 7. Schloerb PR, Amare M. Total parenteral nutrition with glutamine in bone marrow transplantation and other clinical applications (a randomized, double-blind study). J Parenter General Nutr 1993; 17407-413. 8. Van der Hulst RRWJ, Van Kreel BK, Von Meyenfeldt MF, Brummer R-JM, Arends J-W, Deutz NEP, Soeters PB. Glutamine and the preservation of gut integrity. Lancet 1993;341:1363-1365. 9. Byrne TA, Morrissey TB, Ziegler TR, Gatzen C, Young LS, Wilmore DW. Growth hormone, glutamine, and fiber enhance adaptation of remnant bowel following massive intestinal resection. Surg Forum 1992;43:151-153. 10. Lacey J, Crouch J, Benfell K, Ringer S, Wilmore K, Maguire D, Wilmore D. The effects of glutamine-supplemented parenteral nutrition in premature infants. J Pediatr (submitted). 11. MacBurney M, Young L, Ziegler TR, Wilmore DW. A cost-evalua tion of glutaminesupplemented parenteral nutrition in adult bone marrow transplant patients. J Am Diet Assoc 1994;94:12631266. 12. Hardy G, Bevan SJ, McElroy B, Palmer TE, Griffiths RD, Braidwood C. Stability of glutamine in parenteral feeding solutions (letter). Lancet 1993;342:186. Address requests for reprints to: Douglas W. Wilmore, M.D., Department of Surgery, Brigham and Women’s Hospital, 75 Francis Street, Boston, Massachusetts. Fax: (617) 732-5506. 0 1994 by the American Gastroenterological Association 0016-5085/94/$3.00
Irritable Bowel Syndrome: Just a Pain in the Butt? See article
S
on page 1666.
ince the recognition of irritable bowel syndrome (IBS) as a distinct disease entity, considerable efforts have been made to understand its etiology and identify
objective criteria for its diagnosis. The generally agreed symptom cluster includes abdominal pain often relieved by defecation, distention of the abdomen, disordered bowel habit (diarrhea or constipation), a frequent feeling of incomplete evacuation, mucus in the stool, looser stools with pain onset, and more frequent stools with