https://learn.extension.org/events/2655
This material is based upon work supported by the National Institute of Food and Agriculture, U.S. Department of Agriculture, and the Office of Family
Readiness Policy, U.S. Department of Defense under Award Numbers 2014-48770-22587 and 2015-48770-24368.
Nutrition, Exercise and Renal Disease
Connecting military family service providers
and Cooperative Extension professionals to research
and to each other through engaging online learning opportunities
www.extension.org/militaryfamilies
MFLN Intro
2 Sign up for webinar email notifications at www.extension.org/62831
Today’s Presenter
Kenneth Wilund, Ph.D.
Kenneth Wilund received his Ph.D. in
Kinesiology from the University of
Maryland.
His area of interest is exercise
science.
The focus of the research in his lab is
to investigate the efficacy of lifestyle
modifications (exercise and dietary
factors) on co-morbidities associated
with chronic kidney disease (CKD).
3
Exercise and Nutrition in CKD
Ken Wilund
Associate Professor
Department of Kinesiology and Community Health
University of Illinois at Urbana-Champaign
TK Cureton
Physical Fitness
Research Laboratory
4
Overview of Presentation
• Overview of renal diet recommendations: Rationale and Concerns
• Proposed revisions to the renal diet
• Exercise Training in HD patients: Rationale and Concerns
• Revised exercise prescription for HD patients
• How to implement these changes in the clinic?
• *Note: My focus is on dialysis patients, but the main points are relevant to all CKD patients
5
Webinar Goals:
After this presentation, you should be able to:
1.Critically evaluate the scientific rationale regarding dietary
Na+, P, K+, and fluid restrictions in HD patients, and why
these restrictions may be misguided.
2.Better communicate with HD patients and clinic staff the
nuances of these dietary restrictions.
3.Promote efficacious physical activity programs for
hemodialysis patients.
6
Advanced CKD:
A vicious cycle of disease and disability
Muscle Wasting/Functional Declines
Malnutrition, Inflammation,
oxidative Stress, “Uremic-toxins”
Renal
Osteodystrophy
CVD
LVH/CHF
Vascular
Calcification
↓ Quality of Life, ↑ Mortality
Arterial Stiffness
Can Dietary Changes and Exercise Inhibit This Cycle? 7
Overview of the Renal Diet:
What is left to eat?? • Protein:
– Restrictions in pre-dialysis patients
– Increased requirement in dialysis
• P restriction (to prevent hyper-PTH/renal osteodystrophy)
• K+ restriction (to prevent cardiac arrhythmias/sudden death)
• Fluid restriction (to prevent IDWG/volume overload)
• Na+ restriction (to prevent thirst)
• Limited fruits, veggies, nuts,
legumes, dairy…
• Where’s the Fiber? Micronutrients? 8
Does it work?
Or is it just a bad idea…
• Compliance is horrible
• Patients don’t understand it
• Would need TEAMS of dietitians
to implement
• “Patients who follow the renal diet
die…”
• Promotes malnutrition… and/or
confusion…
9
P restrictions and rationale
• To prevent hyperphosphatemia (serum P > 5.5mg/dL)
• Recommended P intake: < 800 to 1000mg/day (KDOQI)
• Efficacy has NOT been established.
• In HEMO study, P restriction was associated with HIGHER
mortality; liberalized prescription REDUCED mortality.
– Lynch et al. Clin J Am Soc Nephrol. 2011;6(3):620-629.
• May lead to a lower intake of kcal, fiber and other nutrients.
• Restriction does not distinguish between types of dietary
phosphorus (organic vs inorganic)
– 20-80% absorption vs 100%
10
K+ Recs and Rationale
• To prevent hyperkalemia (sudden death)
– predialysis K+ ≥ 5.5 mmol/L, prevalence = 4.5%-6.3%
• KDOQI guideline: no specific recommendation for dietary K+ for HD patients
• Joint Standards Task Force of the Academy of Nutrition and Dietetics and the
NKF Council on Renal Nutrition recommend intake of 2-4g/day.
• Little evidence to support these recs
– association between dietary K+ and serum K+ is weak (r = 0.14)
• Noori et al Am J Kidney Dis. 2010;56(2):338-347.
– No association b/w dietary K+ intake and serum K+
• St-Jules et al J Ren Nutr. 2016 (In press).
– Dietary K+ intake positively associated with energy and protein intake
• Suggests restricting dietary K+ may be deleterious 11
Fluid Restrictions… are a waste of time
12
Nephrol Dial Transplant (2001) 16: 1538-1542
Advising dialysis patients to restrict fluid intake without restricting sodium intake is not based on evidence and is a waste of time
Charles R. V. Tomson
Department of Renal Medicine,
Southmead Hospital, Bristol, UK
Na+ Recs and Rationale • To reduce thirst… and chronic volume overload
– Hypertension, LVH, heart failure,
• KDOQI recs: limit dietary sodium, but no specific level provided
• Previous guidelines: < 2000mg/day, but little data to support
– Intake ~ 2,300 mg/day, with positive assoc b/w dietary sodium intake
and mortality
• 2 short term RCTs examining outcomes from sodium restriction
– Data inconclusive
• Several studies cite “concerns” with sodium restriction:
– Loss of residual renal function
– Reduced kcal intake
• Sodium restriction as a component of comprehensive volume control
strategy has yielded VERY impressive results
13
Questions?
What is YOUR biggest concern with
the Renal diet?
14
Chronic Volume Overload
• Why a problem?
– Increases BP, LVH, cardiac
dysfunction, intradialytic symptoms,
mortality….
• How Prevalent is it?
- Prevalence in U.S. may be > 90%?
- “If on BP med, or hypertensive, they most likely have
chronic volume overload. “ (Ercan Ok, MD, Izmir, Turkey)
• What to do about it?
– Can be nearly eliminated using intensive volume control
strategy practiced in Izmir (including sodium restriction)
15
Izmir’s
Remarkable
Data
• ** ~ 90-95% of Hemodialysis patients in Izmir have NORMAL BP (~ 120/80) in the
absence of B.P. Medications!
• Interdialytic weight gain (IDWG) averages < 2.0L
• Systolic and diastolic function are normalized, and LVH and heart failure are rare
• Mortality rate is ~ half of what it is in the U.S.
• Dialysis Prescription is standard: 3 days per week, for 4 hours/session.
• How do they accomplish this… and why is nobody else doing it?
16
Izmir’s Volume Reduction Protocol (~1993) - 3 primary components:
1.Discontinue BP meds (w/ no change in BP)
2.Persistent ultrafiltration to decrease dry weight until reaching normal BP
— Accomplished by reducing postdialysis weight 200 – 300 g/session
— May initially require a few extended or extra HD sessions
3.Dietary salt intake reduced from ~150 mmol/day to 50 mmol/day
— continuous counseling via clinic STAFF (nurses/techs….)
— I.V. saline is rarely provided
How does Izmir do this? *
17
Initial Results from Volume Control
Strategy in Izmir
61
62
63
64
65
66
67
68
0 6th mo 12th mo 24th mo 36th mo 48th mo
kg
0
0,5
1
1,5
2
2,5
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3,5
4
4,5
kg
Body weight Interdialytic weight gain
0
20
40
60
80
100
120
140
160
180
200
0 6th mo 12th mo 24th mo 36th mo 48th mo
mmHg
0
10
20
30
40
50
60
%
Systolic BP Diastolic BP Cardiothoracic index
Ozkahya M et al. Am J Kidney Dis 1999; 34: 218-21
• 67 hypertensive HD patients on BP meds; avg age 42y
• Improved IDWG, body mass, BP and CTi (above)
• Increase in hemoglobin and serum albumin levels
• Only 4% need anti-HT medication
• Zero patients with edema and heart failure
ID
WG
(kg)
B
ody w
eig
ht
(kg)
BP
(m
m H
g)
C
T Index %
(pericard
ial effusio
n)
175/102
121/80
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Intradialytic hypotension is reduced
with Izmir volume control policy
NO increase in frequency of IDH with volume control strategy (even decrease) in two different studies. Why?
1) strict dietary salt restriction to limit IDWG
2) cessation of anti-hypertensive medications
1) Ozkahya M et al. Am J
Kidney Dis 1999; 34: 218-21
2) Ozkahya M et al. J Nephrol
2002; 15: 655-60
%
% p
ati
en
ts w
ith
ID
H
19
Intradialytic Hypertension also eliminated
• 7 patients with intradialytic hypertension who
were not responsive to meds
• Over 3 weeks, reduced postdialysis weight
by 6.7 ±3.0 kg
• Paradoxical hypertension no longer seen
• CTi decreased
• EF increased
• valvular regurgitations disappeared/
regressed
• serum albumin increased
Cirit M et al. Nephrol Dial Transplant 1995; 10: 1417-20
SBP
DBP
Bo
dy M
ass (
kg
)
BP
(m
mH
g)
Volume reduction
starts
20
Izmir Volume Control Strategy Also
Associated with Low hospitalization & Mortality Survival of 218 patients, avg. follow-up =47 months after VC implemented
IDWG ↓ from 1.44kg/day to 0.9 kg/day
Mean BP ↓ from 150/89 to 121/76 mmHg
Only 9 patients on BP medications
1 of 210 prevalent patients hospitalized with hypervolemia in 1 year
Annual Mortality rate = 6.8% (contrast with U.S. = 20%)
Lowest Mortality with SBP= 101-110 mmHg (contrast w/ DOPPS = 130-159)
Ozkahya et al. NDT
2006; 21: 3506-13
SBP = 81-90 91-100 101-110 111-120 121-130 131-140 141-150
# p
ati
en
ts
Mo
rta
lity
/10
0 p
ati
en
t-ye
ars
Total
mortality
CV
mortality
# patients
21
Summary of data from Izmir
• Volume control strategy consisting of persistent reduction in post-dialysis
weight, along with persistent dietary Na+ restriction yields:
– Normalized BP in absence of BP meds
– Low IDWG
– Improved cardiac structure and function
– Improved body composition and markers of nutritional status
– Reduced intradialytic hypotension
– Reduced P binders and Epo (unpublished)
– Reduced hospitalization and mortality
• Works in patients with:
– LOW BP
– HIGH BP
– intradialytic hypotension
– intradialytic hypertension
22
Can This Be done elsewhere?
• Tassin, France– similar results with long, slow dialysis (6-8 hours)
• Fresenius clinics in Maine and NYC (Raimann, 2015 – abstract at ASN)
• Important difference: Na+ restriction was implemented by Research
Dietitian.
• My lab: Developing pilot project to implement a SUSTAINABLE, long term
volume control strategy in U.S. Dialysis Clinics:
– “Optimizing Cardiovascular Health and Physical Function Through
Volume Control and Exercise” (VC&E)
• Goal: “mimic” volume control protocol of Dr. Ok (Izmir), then optimize
benefits with comprehensive exercise program
– Izmir patients do NOT exercise…
23
– R.D.
– Doctors
– Nurses
– Techs
– Patient groups
– Family members
– …and even the bus driver
“Telling them once is not enough” (Ercan Ok, MD)
Convince Nephrologists 1st,
Staff 2nd, and Patients will
follow!
The Key to Izmir’s success:
getting the whole clinic involved
The problem (and solution) concerns the whole dialysis
community:
24
To make this work, we need to simplify the diet (Biruete et al. JRN, in press)
Guiding principle: liberalize restrictions, throw away lists of foods, focus on processed food
Specifics:
1.K+ and P from non-processed/whole foods should be largely eliminated. Specifically,
few restrictions placed on fresh fruit, veges, nuts, legumes, and dairy
– health benefits from these foods outweigh the unsubstantiated risks
– added benefits of antioxidants, vitamins, and fiber.
– Hyperkalemia is possible exception
2.Primary focus should be on reduction/elimination of processed, restaurant, and
convenience foods that are almost universally high in:
– Na+
– inorganic P
– added K+
•Benefits: A far simplified message compared to current HD diet recommendations
– Will help with implementation (this is NOT Medical Nutrition Therapy)
– May improve patient compliance
– Cost-savings may be realized through increased food consumption within the home.
25
Our Working Implementation Protocol
• “Immerse clinics in a culture of Na+ restriction” – Mediated by clinic staff
• Rationale: – Na+ is a proxy for processed food
• Approach: Research dietitian is developing protocols for teaching staff (nurses/techs…) to help deliver the low Na+ message
– Modeled after Izmir protocol
– Staff training/in services
– Fresenius Tech Talking points will be utilized
• Ok’s (Turkish) approach relies on CONSTANT communication with the patients
– EVERYTIME a patient comes in with elevated BP or IDWG… they get counseled
by the staff
– “Its not enough to tell them once!”
26
27
Main Messages for clinic staff training: Its about the Na+ (not the fluid!)
Salt in diet
IT STARTS HERE! Thirst
Strain on heart/arteries Fluid overload
↑BP and
plasma volume
cramps
↑ UF
28
Steps For Reducing Sodium Intake (guidelines we reinforce with staff & patients)
1. Shop for “whole foods”
liberalize dietary restrictions
Flavor with pepper and other herbs/spices
2. If it is in a package… read the label (processed
food)
The “1mg/kcal” rule
Phosphorus additives
3. Limit eating out
29
> 1 mg/kcal < 1 mg/kcal
“The 1mg/Kcal Rule”
Na/kcal = 440/250 > 1 (BAD) Na/kcal = 130/300 < 1 (GOOD)
“Is the sodium # bigger than the calorie #?”
30
I taught 75% of these guys to shop using
the 1mg/kcal rule
31
Questions?
Thoughts on Turkish data?
Thoughts on “liberalized renal diet”?
32
Exercise for Dialysis Patients…
and how to implement
• INTRA-dialytic exercise
– Benefits: Captive audience
– Concerns: Limited mobility
• Cycling is most feasible
• Resistance training VERY difficult
• NOT during dialysis
– Benefits: in theory, unlimited options
– Concerns: Compliance
• Access, motivation, supervision
33
If we all believe it is so important…
why are there so few programs?
Tentori et al. Nephrol. Dial. Transplant.
2010;25:3050-3062
34
Commonly Cited Barriers to
Implementation 1) Patient-related
– Co-morbidities/fatigue
– Time, knowledge/self efficacy
– Access to equipment/facilities
2) Clinic Staff-related
– Staff burden, expertise
– Nephrologist support
3) Financial barriers
– Who will pay for it?
– When research grants end…programs often end
References:
•Delgado et al (2012). Nephrol Dial Transplant 27: 1152–1157.
•Delgado et al (2010). Nephron Clin Pract 116(4):c330-6.
•Heiwe et al (2012). Implementation Science 7:68.
•Young et al (2015). PLoS ONE 10(6): e0128995.
•Bossolo et al (2014). Blood Purif 2014;38:24–29.
35
The Barrier Nobody Wants to Talk About:
• MANY Nephrologists are “skeptical” about exercise in dialysis patients
– Concerns over efficacy, cost, safety, staff burden, etc.
• Evidence: In clinics where Nephrologists really want it… they figure out how to do it…
and MANDATE IT
– Europe – many good programs
– Almost nothing in the U.S.
• Recent quotes from prominent U.S. Nephrologists:
– “All dialysis patients should SLEEP, instead of exercise, during their treatments.”
– “HD patients should complete a stress-echo prior to engaging in an exercise
program”
• A quote I have heard from MANY Nephrologists:
– “We bought some bikes back in the mid- 90’s… but couldn’t get anyone to use
them…”
36
Why all the doubt about exercise?
Don’t we have tons of evidence…?
Sort of: See recent reviews by:
1) Heiwe et al. Am J Kidney Dis. 2014 Sep;64(3):383-93
2) Barcellos et al. Clin Kidney J. 2015 Dec;8(6):753-65
• Demonstrated benefits:
–Body comp/muscle strength/physical function
–Cardiovascular structure and function
–Dialysis Efficiency
–QOL
• Problem: studies are small, uncontrolled, short intervention periods
–These problems are widely acknowledged… but often dismissed
37
The dirty secret not many discuss:
Some of the data is just NOT THAT GOOD
• Inconsistent effects of exercise on physical function/body comp/CVD risk
• Johansen et al JASN 17:2307-14
– ↑ quad CSA, strength; no Δ: phys fx, lean mass
• Dong et al. JRN 21(2): 149-59
– no Δ: body comp, strength
• Kopple et al JRN 16(4): 312-24 D
– no Δ: body comp
• Cheema et al JASN 18(5): 1594-1601
– no Δ: body comp; mixed results: strength/phys fx
• Kirkman et al J Cach Sarc Musc 5(3): 199-207
– ↑ muscle volume, strength; no Δ: phys fx
• Koh et al. AJKD 55(1):88-99
– no Δ: TUG, 6 minute walk, arterial stiffness; ↓ self-reported physical function
• Wilund et al (manuscript in prep)
– Modest/no changes in physical function/strength/body comp or cardiovascular structure/function 38
Why all the “uninspiring/equivocal” data?
• Has exercise volume and intensity been too low?
– ~ 35- 70 kcal/session in several studies
• Are the patients too sick?
– Are arteries too calcified?
– Do metabolic disturbances (e.g., acidosis, anemia) inhibit muscle
and/or cardiovascular adaptations?
• Is inhibiting progression of co-morbidities all we can hope for?
– May need longer trials
• When designing your own exercise program, these factors MUST be
considered
39
Think about what we are asking
exercise to do:
Muscle Wasting/Functional Declines
Malnutrition, Inflammation,
oxidative Stress, “Uremic-toxins”
Renal
Osteodystrophy
CVD
LVH/CHF
Vascular
Calcification
↓ Quality of Life, ↑ Mortality
Arterial Stiffness
YOU CANT STOP THIS BY STICKING
A BIKE IN FRONT OF YOUR PATIENTS 40
Despite equivocal data from some RCTs… we still
know exercise CAN work (and really well):
• See story of Shad Ireland (www.ironshad.com):
– Age 11 – kidney failure, starts dialysis
– Age 20 - 2 failed transplants, weighed 85 pounds, is captivated
watching triathlon
– Age 31 - completed 1st Ironman Triathlon
• Take home message: this stuff works… but we must do more
41
Successful Anecdotes from my lab
• Patient #1: 35 year old A.A. male, Sedentary, obese, HTN, diabetes, IDWG ~ 5Kg
• Randomized to exercise group in our clinical trial, but Horrible exercise
compliance
• Frequent cramping… increased Na+ in dialysate… got thirsty and started drinking
10L of Soda/day. IDWG increased to 15 kilos
• Finished study… Saw zero benefits…
• We took away bike… After 2 weeks, he asked for it back, started
cycling 1-2 hours/session, convinced him to change his diet
• He lost 40 lbs and got transplant
42
Anecdote #2
• 60 year old Caucasian male
• Severe depression, randomized to Protein + Exercise group in IHOPE
• Exercise compliance was technically good, but intensity was extremely low
• Small improvements in physical function at 1 year, but arterial measures did not change
• However…Depression and QOL indices significantly improved: – “I wanted to commit suicide…. This bike saved my life.”
• Primary outcomes in IHOPE related to physical function and strength did not improve
• Take home lesson: there are so many different benefits of exercise… its hard to capture them all in a clinical trial.
43
Our failures are more common than our
successes. How do we change this?
• Comprehensive behavior change is needed:
1) Ex-Rx should be more than a bike in front of a chair
2) Nutritional Concerns MUST be addressed for the exercise to be
effective:
- chronic volume overload
- malnutrition
• The approach needs to be cost-effective to be sustainable (or clinics
wont pay for it)
• For clinics to pay, we must demonstrate we can reduce medications
and hospitalizations. Where is low hanging fruit?
– Cardiovascular complications (volume overload)
– Falls
44
Guiding Principles for a ROBUST
Exercise Program for Dialysis Patients
• RULE #1: Get buy-in from the clinic staff
– **NEPHROLOGISTS
– Nurses, techs, social workers…
• RULE #2: Utilize the intradialytic period… but don’t soley rely on it
– Intradialytic cycling is a great COMPONENT of a well rounded
exercise program
• Up to 30-45 minutes, 3 days per week
– Standard exercise recs apply! (strength, balance, flexibility
training…)
– Use the intradialytic period for counseling patients/families/staff
45
In an ideal world:
Components of an Intradialytic Program
Resources will determine which components are feasible:
1) Intradialytic cycling, AND 2) intradialytic resistance training with
balls/bands/dumbbells
http://kidney.org.au/ (resource packs to facilitate exercise on dialysis)
http://lifeoptions.org/ (materials for patients, staff, nephrologists…)
2) Exercise in waiting room.
See Matsufiji et al (2015). JRN Jan;25(1):17-24.
3) Education/wellness program for the patient’s family
Vital component, normally overlooked
4) Wellness program for the staff
We are developing
5) Promote “simple” nutritional advice
NOT medical nutrition therapy
Fresenius Technical talking points is a model
46
Resources • Life Options:
– Program founded in 1993 to help people live long and live well with kidney
disease.
– National panel of researchers, clinicians, and ESRD Network directors.
– Materials at http://lifeoptions.org/
• Exercise: A Guide for People on Dialysis
• Exercise for the Dialysis Patient: A Guide for the Nephrologist
• Evaluation: Unit Self-Assessment Manual for Renal Rehabilitation
• Building Quality of Life: A Practical Guide to Renal Rehabilitation
• Exercise for the Dialysis Patient: A Prescribing Guide
• Resource packs to facilitate exercise on dialysis. From Kidney Health Australia.
– Detailed instructions on how to conduct intradialytic cycling and resistance
training:
– http://kidney.org.au/
– http://www.ncbi.nlm.nih.gov/pubmed/26863718
• ACSM guide on how to start a walking program:
– http://www.acsm.org/docs/brochures/starting-a-walking-program.pdf
• Falls prevention programs: CDC compendium on falls prevention:
– http://www.cdc.gov/homeandrecreationalsafety/Falls/compendium.html
47
Out of clinic exercise program
• Starts AT dialysis (use dialysis period for counseling)
• Walking program
http://www.acsm.org/docs/brochures/starting-a-walking-program.pdf
• At home strength and balance (focus on falls!)
– CDC compendium on falls: http://www.cdc.gov/homeandrecreationalsafety/Falls/compendium.html
• Identify exercise/PA opportunities in the community
– Develop community partnerships if/where possible
• Get family involved!
• Be creative/give them choices!
– How do YOU exercise?
48
How are we getting staff involved?
• Training/In-services
– Primarily sodium related
• Incentive programs
– 3 day sodium challenge
– Fitbit challenge
• Staff Wellness Program
– “WOW Fresenius”
49
What about the patient’s families?
• Focus groups/education
• Sodium and Fit-bit Challenges
• Family challenges?
• Family wellness program?
• Physiotherapist is available to the family at the clinic for counseling…
50
If this sounds unrealistic… it’s NOT
*
*
*
*
Mexico City (grit)
Leicester
(research $) Izmir (desire)
Bichofswerda (insurance $)
Common Theme: Nephrologists and Staff
Mandating Patient’s Behavior Change
51
QUESTIONS?
Renal and Cardiovascular Disease
Research Laboratory
U of Illinois at Urbana-Champaign
Collaborators
• NIDDK (RO1 DK084016)
• Renal Research Institute
• AHA Pre-doctoral research fellowships
• Emily Tomayko, Brandon Kistler
• Bo Fernhall, PhD (UIC)
• Shane Phillips, PhD (UIC)
• Mohamed Ali, M.D. (UIC)
• Eddie McAuley, PhD (UIUC)
• Jake Sosnoff, PhD (UIUC)
Funding Sources
52
What is one significant thing
you learned today?
53
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Nutrition and Wellness
Upcoming Event
• Mobile Apps for RDNs in Patient Care,
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• Date: Wed Sept 21
• Time: 11:00 am Eastern
• Location:
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For more information on MFLN Nutrition and Wellness go to:
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www.extension.org/62581
58 This material is based upon work supported by the National Institute of Food and Agriculture, U.S. Department of Agriculture, and the Office of Family
Readiness Policy, U.S. Department of Defense under Award Numbers 2014-48770-22587 and 2015-48770-24368.