Pediatric Nutrition: A Multidisciplinary Approach
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Transcript Pediatric Nutrition: A Multidisciplinary Approach
The Science of Effective
Pediatric Inpatient
Nutrition 2005
Kevin M. Creamer M.D., FAAP
Medical Director, PICU WRAMC
Chief, Pediatric Nutrition Support Team
A hypothetical case
Starvin
Marvin is a 2 y.o. who presents with
a 2-3 week Hx of fevers, weight loss, pallor,
decreased energy, appetite and activity
PE reveals Wt 13kg , down 1.5 kg, pallor,
petechia,+ HSM
Labs reveal WBC 26 K with 50% blasts,
anemia and thrombocytopenia
Hospital Course
Day
1 - NPO, IVFs, labs, Xrays
Day 2 – NPO for BM and LP, as well as
Hickman
Day 3- Chemo, picky PO
Day 4-6 - continued poor PO, with emesis
occasionally
Day 7-10 – emesis resolves, PO inadequate
Day 12 – pancytopenia, sepsis with GNR
Teaching points
Nutritionally-at-risk
from the word GO
• Debilitated Ortho spine patient
• Recurrent bowel obstruction patient
No
nutrition plan, No monitoring, No
intervention
Hope is not a method
Could sepsis event been avoided??
Inpatient Nutrition Goals
Think about nutritional status on every patient
Outline the dynamic between illness,
nutritional state and secondary morbidity
Recognize need to estimate/calculate goals
calories in order to reach the goal
•
Individualized goals for time course, and disease
process
Institute effective nutrition support with the
help of Pediatric nutritionist
Acute Stress
The 5 W’s of Inpatient Nutrition
Why, Who, When, Where, What ?
Acute Stress
Major
Surgery, Sepsis, Burns, Trauma
• Result in massive outpouring of catechols,
ACTH, GH, ADH, glucagon, somatomedins
– Insulin inhibition, elevation of glucose and free fatty
acids
• ↑ Inflammatory Cytokines: TNF, IL 1, IL-6
– PMN release and degranulation Mucosal permeability
hormones and mediators ↑ release of
cAMP which down-regulate lymphoid
immune activity
Stress
Acute Stress
NPO
state starves gut mucosa
• Gut mass 50% in 7 days of fasting
• Gut contains 80% of body’s immune tissue
– “GALT and MALT”
• Intestinal sIgA ↓ in 5 days
• ↑ Th1 pro-inflammatory lymphocytes
Major
stress doubles protein turnover
• Skeletal muscle cannibalized for fuel for
enterocytes (glutamine)
Stechmiller JK, Am J Crit Care, 1997
Bacterial Translocation
Disruption of mucosal
barrier
• Ischemia-reperfusion during
shock risk of ulceration
and permeability
Bacterial translocation
• Culture(-), found bacterial
DNA in blood stream
Cytokine amplification
in lymphatics and liver
Bacterial Translocation
Enteral
nutrition can prevent translocation
• Trophic feeds stimulate gut hormones and nourish
mucosa, increase blood flow, re-energize tight
junctions, improve brush border
• Enteral vs. Parenteral feeds - postop septic related
complications
Enteral
feeds stimulate Th2 lymphocytes which
PMN adhesion in lung
Deitch EA, Ann Surg, 1987, 1990;Border JR, AnnSurg, 1987; Carrico CJ, Arch Surg,
1986; Alverdy JC, Surgery, 1988; Moore J, JPEN, 1991,Kudsk,Am J Surg, 2002
WHY ?
Is nutrition such a big deal?
Malnutrition Prevalence
Nutrition Status and Outcomes
Gut Bacterial Translocation
Malnutrition Prevalence
15
to 50 % of hospitalized pediatric
inpatients are malnourished on
presentation (down from 35-65%)
• 15 to 20 % of critically ill patients
• 33% patients with congenital heart disease
• 39% awaiting elective surgery
Parsons, AJCN,1980; Mize, Nutr Supt Ser, 1984; Merritt, Am J Clin Nutr, 1979, Huddleston
KC, CC Clin of NA, 1993, Cameron, Arch Ped 1995, Cooper, J Ped Surg 1981
Malnutrition Snapshot
Inpatient
population of Boston Children’s
Hospital was surveyed Sept 24,1992
• 268 children ages 0-18 years
Using
Waterlow criteria:
• 25% were acutely malnourished, 27% were
chronically malnourished
Of
17 ICU patients, 4 (24%) were classified
with severe PEM
Hendricks, Arch Ped Adol Med, 1995
Nutrition and Outcome
State of nutrition vs. LOS and Cost
18
16
14
12
10
8
6
4
2
0
$16,691
$14,118
$7,692
Normal
Borderline
Malnourished
Robinson G, JPEN, 1987
Nutrition and Outcome
Low Prealbumin 95%
specific, in 147
consecutive admissions
8 measures of malnutrition
in 134 patients
50 cardiac surgery patients
assessed
• Low Prealbumin
predictive post-op
infectious complication
20
18
16
14
12
10
8
6
4
2
0
PCM
No PCM
PCM*
No PCM*
LOS
Mortality (%)
Potter, Clin Invest Med, 1999; Weinsier,Am J Clin Nut, 2005 Leite, Rev Paul Med, 1995
Parameter Low Risk High Risk
Hosp. Days
7
13.5
Mech. Vent.
0
8.5
NPO days
3
8.5
Days on O2
4
20
P< 0.02
Nutrition Screen predictive of outcome
in 25 RSV PICU admits
Mezoff, Pediatrics, 1996
Nutrition and Outcome
60
PICU patients had nutrition status
evaluated, with PSI, and TISS applied
Acute PEM associated (P<0.01) with
physiologic instability, mortality and
quantity of care
Malnutrition can result in delayed wound
healing, respiratory failure, increased
potential for infection, death
Pollack MM, JPEN, 1985
Nutrition and Outcome
Ventilator
Patients:
Weaned Died
No Specific
Nutrition Plan
18
15
Focused
Nutrtional Care
13
1
Bassili HR, JPEN,1980
Nutrition and Outcome
PICU
Outcomes in 323 patients after
Nutrition support team instituted
• Use of Enteral nutrition (EN) in medical
patients increased 25% to 67%
Mortality
risk decreased 83% for those
receiving EN >50% of LOS
• EN independent predictor of survival in
multiple regression analysis.
Gurgueira, JPEN, 2005
WHO ?
Needs to know?
Gets assessed?
ALL Physicians!
ALL Patients!
Nutrition Dichotomy
79
FP residents
• Nutrition Interest (72.2%) vs. Perceived
Knowledge
– Parenteral and enteral nutrition 34.2%, Infant
nutrition 27.5 %, Nutrition assessment 17.7%
3416 Primary Care physicians
• < 40% practiced what they preached
Lasswell AB, J of Med Ed, 1984, Levine BS, Am J Clin Nut, 1993
Nutrition Practice: Uphill battle
Adult
ICU group found their patients only
received 52% of goal calories
• Reasons included physician under ordering,
frequent cessations, and slow advancement
Designed
a protocol but only 58% went
on it
Spain, JPEN, 1999
I wonder if I’m
missing out on
some critical
piece of
information
Nutrition Screen
Should
be completed within 24 hours of
admission
High risk surgical patients should be
screened weeks to months ahead of
planned surgery
In your continuity clinic
• Multidisciplinary team
• Supplement , reassess, or reschedule
Nutritionally-at-risk
Weight for age < 10th % tile
Weight for Height < 10th % tile
Acute weight loss > 5% over 1 month or >10% total
Birth weight < 2 SD below mean for gestational age
Increased metabolic requirements 2 chronic disease
Impaired ability to ingest or tolerate oral feeds
Weight % tile crossing 2 contour lines over time
(FTT)
Prealbumin
Transthyretin
has nothing to do with
albumin
• Small body pool and half life of 2 days
makes prealbumin an reasonable monitor of
visceral protein homeostasis
Drops
during the first 3-5 days of stress
it should rise thereafter
Daily rise of 1mg/dl indicates anabolism
Plasma Protein Stress Response
CRP
Prealbumin
Fleck, A. Br J Clin Pract, 1988
Prealbumin as a predictor
Surgically
stressed Infants
• Prolonged ↑ CRP with ↓ Prealbumin had ↑
mortality
– Strongest predictor POD#5 prealbumin depression
Prealbumin
ideal nutrition screen for:
• 50 children with solid tumors
– before and during chemo
• 86 Adult post-op patients requiring TPN
Chwals WJ, Surg Clin NA, 1992, Elhasid, Cancer, 1999, Erstad, Pharmaco, 1994
Prealbumin
Measure
twice weekly
Once 65% of needs met expect levels
to rise 1mg/dl a day
If weekly rise is less than 4mg/dl
• check N2 balance and CRP to determine
if cause is nutritional inadequacy or
ongoing SIRS
Expert roundtable, 10th World
Congress of Gastroenterolgy
WHEN?
Should I start?
Early Enteral vs Standard timing
Enteral Contraindications
Intubation/extubation planned within 4°
Hemodynamic instability requiring
escalation in therapy
Intestinal obstruction
Massive UGI bleed
Gut ischemia
I’m nervous about this kid
Early feeds vs. Standard
Adults
with gut malignancies and
neurotrauma has shorter LOS and fewer
infections when fed early
19 controlled studies (24° vs 3-5 days)
• 16/19 studies showed improved outcome
• Improved healing, complications and LOS
• Recommended for critically ill surgical pts
Braga, CCM, 2001 Grahm T, Neurosurgery, 1989 Taylor, CCM 1999 Heyland
DK, CC Clin of NA, 1998 Zaloga. CCM 1999
Early feeds: Pediatrics
Tolerated
pediatric burn patients
42 ventilated children (76% on vasoactive
meds)
• Transpyloric feeding tubes placed at bedside
• 74% of patients reached full feeds within 24
hrs, rest within 48 hrs
– No complications
Chellis MJ, JPEN, 1996, Trocki, Burns, 1995
All is Not Rosy
All
Mechanical Ventilated patients
Lots of exclusions
Group Early (75) Late (75)
p
VAP
49.3%
30.7%
.02
C diff
13.3%
4.0%
.042
ICU stay 13.6± 14.2 9.8 ± 7.4
.043
Mortality
20%
26.7%
.334
Ibraham, JPEN, 2002
WHERE?
In the gut do I put the food?
Oral vs.Tube feeding
Gastric vs. Transpyloric feeds
Tube Feeding Considerations
Nutritionally-at-risk with inadequate
oral intake for the past 3-5 days.
Meeting <50% estimated needs orally
for previous 7-10 days.
• Shorten to 3-5 days if traumatized or
severely catabolic
Disease
state preventing adequate P.O.
intake for >5 days
Gastric vs. Transpyloric
No
aspiration difference in 54 patients receiving
gastric vs transpyloric radiolabeled feeds
33 mechanicaly ventilated Micro-aspiration
7.5 >> 3.9% in NJ fed patients
80 adult trauma victims
• Duodenally fed patients reached goal calories 34 vs.
44 hours with had less pneumonia 27% vs 42%*
80
ventilated adults randomized
• gastric feeds + E-mycin 200 mg q8 (55% / 74%)
• Transpyloric feeds (44% / 67%)
Esparza, Intens C Med, 2001,Kortbeek, J Trauma, 1999, Heyland, CCM, 2001, Boivin, CCM, 2001
Transpyloric
59
ventilated children randomized to
receive continuous or interrupted
transpyloric feeds during the day
before and of extubation
• Continuous group got >90% goal calories
both day vs 73% and 46%
• No aspiration events or difference in
adverse events
Lyons, JPEN, 2002
Neuromuscular blockade and ECMO?
May
decreased REE by 10-15 %
Primary Neurotransmitter in Gut is VIP not
acetylcholine
• Neuromuscular blockade work via AcH receptors
By
what mechanism do neuromuscularly
blocked patients become intolerant of enteral
feeds?
• Gastric atony 2° Benzodiazepines and narcotics
Enteral
feeds for Pediatric ECMO patients is
safe with trends toward improved survival
Pettignano, CCM, 1998
Enteral Pitfalls
2
adult studies with 95 ICU pts, had 66%-78% of
goal feeds prescribed, 52%- 71% delivered
• Gastric Intolerance (Residuals #1)
– BZD and Narcs effect stomach > intestine
• Airway management
– 22/26 PICU pts had feeds held for extubation that only 5 got
• Diagnostic procedures
– Some ventilated patients fed right up to OR
McClave SA, CCM, 1999,DeJonghe, CCM,
2001, Fry-Brower +McCunn, CCM(a), 2002,
WHAT?
Amount of calories do I Feed
Them?
How much to feed
Trophic feeds
Enteral vs. Parenteral
Lipid phobia
Caloric Goals?
Brazilian
PICU reviewed 37 charts
Only 3 had an assessment done in 425
days
No Patient had caloric goals set
• Only 29.7% met goals
• 80.5 % fed Parenterally
Leite, Rev Assoc Med Bras, 1996
Steady State Energy Requirements
120
Calories per Kilogram
100
Activity
Growth
BMR
80
60
40
20
0
0
1
2
3
4
5
6
7 8 9 10 11 12 13 14 15 16
Age in Years
Energy Requirements
Calorie
needs change during the course of the
hospitalization.
• Hemodynamically unstable?
• Ventilated vs Extubated
Ebb
phase (Hypometabolic): obligate (–)
nitrogen balance during acute critical illness
• No need for growth calories (BMR may suffice?)
• Watch out for overfeeding
– Steatosis, Hyperglycemia, Hypertriglyceridemia
Therapeutic window
187
critically ill adults >96º in ICU
• Tertiles of % ACCP recommended caloric intake
Patients
receiving 33-65% goal Vs. <33%
(18kcal/kg)
• OR survival 1.22, discharge without sepsis 1.2,
without vent 1.8
• Patients > 65% goal OR 0.82, 0.75, 0.69
Sickest
patients (SAPS>50)
• Did worse when they received >33% goal
Krishnan, Chest, 2003
Energy Requirements
Flow phase (Hypermetabolic)
• As the child improves and becomes
anabolic, calorie needs for growth and
activity must be included
Underestimating
needs can increase
risk for infection, poor wound healing,
poor growth, and overall poor outcome
Energy Requirements
12
Septic and 12 Traumatized patients
• Total energy expenditure and REE
measured for 2 separate 5-day periods
• TEE Sepsis 25kcal/kg >>> 47kcal/kg
• TEE Trauma 31kcal/kg >>> 59kcal/kg
Second
week TEE: indirect calorimetry
X1.8
TEE remained elevated for weeks
Uehara, CCM,1999
1º Fever
↑12%
Trophic Feeds
fed 15% calories enterally had
permeability and bacterial translocation
10 post-op infants fed trophically (21cal/kg/d)
had improved Staph killing vs TPN alone
Rats
• 37% vs. 52% vs. 65% (Controls)
– Related to production of TNFα
>
6kcal/kg (>25% ACCP cal goals) in 138
adult MICU patients reduced BSI (relative
hazard 0.24)
Omura, Ann Surg, 2000, Okada, J Ped Surg, Robinson,CCM, 2004
Trophic feeds
Feed type # Patients Mortality
SMR
Enteral
167
25%
.71
Parenteral
26
54%
1.4
Parenteral
+ Trickle
24
38%
.9
Trophic feeds are stress ulcer and antibiotic prophylaxis
rolled into one
Marik, CCM(a), 2002
Trophic Feeds Vs. TPN
100
90
80
70
60
50
40
30
20
10
0
92.4
70.3
36.1
32.6
14.1
20.2
Assisted Vent
20.6
PN
24.8
Full Enteral
Hosp.
Discharge
McClure RJ, Arch Dis child , 2000
Enteral Feeds vs. TPN
Enteral
feeds in Critically ill population
• improve wound healing, mucosal
permeability
>
10 studies show enteral feeds are safe,
feasible and cheaper than TPN
Meta analysis adult ICU patients Enteral
feeds vs. TPN RR infection 0.66
Schroeder D, JPEN, 1991, Hadfield R, Am J Resp Crit Care Med, 1995 Robert Dimand, UC
Davis, Peds CC Update 2002, Gramlich, Nutrition, 2004
TPN vs. Hope
Meta Analysis
26 studies (210 reviewed)
• 2211 patients
• Trend toward reduced complications in TPN
patients (risk ratio 0.84)
4
studies used TPN > 3 weeks
• Mortality in TPN pts was 6.8% vs. 12.4%
Meta Analysis
11 studies
• Parenteral nutrition vs. delayed enteral improved
mortality
• Increased infectious risk (OR 1.65 CI1.1-2,5) in
PN vs. all enteral
Heyland DK, JAMA, 1999, Simpson, Int Care Med, 2005, Doig, CCM(A) 2005
Parenteral Considerations
Nutritionally-at-risk
patient with non-
functional gut.
Adequate nutritional status on
admission but non-functioning gut 3-5
days after admission
“The major advance in TPN since the
1980’s is that it is not used as much”
Lipid Phobia?
When
infants given TPN without lipids
• CHO only TPN resulted in amino acid oxidation,
proteolysis, CO2 production and lipogenesis
Lipid
requirements
• Essential fatty acid (0.5gm/kg/d), Promote
Nitrogen sparing, Increased lipid clearance during
stress
Balanced
approach to fulfilling energy
requirements
Bresson, Am J Clin Nut 1991,Tilden,
AJDC, 1989, Schears, Crit Care Clin, 1997
Lipids
Original
10% lipid compounds
– Intravenous fat emulsions contain 50-60% linoleic acid
a precursor to arachidonic acid
– May disturb balance between thromboxane and
prostacyclin production
Modern
20% emulsion cause less Trig
• Neonates clear better, less phospholipids
• No problems with oxygenation when given as 1824° infusion
• No immune problems when Triglycerides <700
Monitor Outcomes
Residuals
Age
appropriate
weight gain
Diarrhea /
Constipation
Medication
Compatibility?
Emesis / Aspiration
Proper
wound
healing
Fluid and
electrolyte balance
Euglycemia
Improved N2
balance and
Prealbumin
HOPE IS NOT A METHOD!
Who?
Is you, screening all your patients
Why? They’ll do worse if you don’t
When? The sooner the better
What? Enteral better, even trophic
better than TPN alone
Where? PO>NG>NJ > IV