Kidney Disease PDF

Summary

This document provides an overview of medical nutrition therapy for various kidney diseases. It covers topics such as acute kidney injury, chronic kidney disease, and end-stage renal disease. Nutritional guidelines and considerations for managing these conditions are detailed.

Full Transcript

MNT FOR RENAL DISORDERS

Allison Charny, MS, RDN, CDCES, CDN
From Krause’s Food & the Nutrition Care Process
Overview
Nephrolithiasis
Acute Kidney Injury
Chronic Kidney Disease
End Stage Renal Disease
Function and Physiology of the Kidney
Two kidneys
Either side of the spine, below the rib cage
Size of a fist, kidney bean shape
Each weighs ~ 1/4 pound
~ 140 miles of tubes and filters
One kidney can do the job of 2 as needed
Functions
Eliminates waste by filtering blood
Regulates RBC production and blood formation
Regulates BP
Controls the body’s chemical and fluid balance
Elimination of Waste
Nephron Urine Production
Blood → Kidney → Nephrons (1 million / kidney)

Glomerulus
cluster of blood vessels
filters blood
passive transport
ultrafiltrate formed
180 L/day fluid as ultrafiltrate

Tubules
reabsorption of components of ultrafiltrate
active transport

Collecting Tubule
~1.5 L / day urine

Renal Pelvis → Ureter → Bladder
Elimination of Waste
Renal function - kidney’s ability to eliminate N waste

N waste - end product of protein metabolism - is excreted
in the urine
urea, uric acid, creatinine, ammonia

Average urine production ~ 1.5 L / day

Minimum of 500 ml of urine volume is needed to eliminate
daily solute load of waste from normal metabolism

< 500 ml / day volume of urine = oliguria
Regulation of RBC Production
Kidney produces hormone erythropoietin

Erythropoietin regulates RBC formation and release in the
marrow

Deficiency of erythropoietin occurs with kidney disease
Anemia results
Regulation of Blood Pressure
Renin - Angiotensin Mechanism
Renin produced in kidney
Control of Fluid and Chemical Balance
Sodium
Most important element in determining blood volume (renin -
angiotensin system)
If only a 1% change in blood volume, then changes are seen in the
urine and blood composition of K, bicarbonate, and water

Calcium / Phosphorous homeostasis
Kidney produces
active form of vitamin D, needed to absorb Ca in the gut and for bone
Kidney eliminates
Ca and P

Regulation of Na, K, P, Ca, Mg, H2O and H2 ions
Acute Kidney Injury (AKI)
Sudden  GFR
 ability of the kidney to excrete metabolic waste
Either oliguric or normal urine flow
Fluid and electrolyte imbalances
Lasts for few days or weeks
RIFLE
Risk, Injury, Failure, Loss, ESRD
Indicates potential of recovery or progression to CRF – helps RD
decide protein goals based on kidney function
http://cjasn.asnjournals.org/content/1/6/1314.full
AKI
Causes
Prerenal
Inadequate perfusion - impaired blood flow to the kidneys i.e.
hypovolemia, dehydration, heart failure
Intrinsic
Drug toxicity
Inadequate perfusion - impaired blood flow to the kidneys i.e.
hypovolemia, dehydration, heart failure
Post renal
Disease causing obstruction – i.e. bladder, prostate cancer, stones

BUN:CR Ratio
varies based on underlying cause of AKI
AKI
Phases
Oliguric
< 500 ml urine output / day
electrolyte imbalance
 BUN; creat;  K; P;  Mg
Na; CO2; H/H; Ca

Diuretic
 Urine output ~200%
K
 or  Na

Convalescent
Lab values stable
Medical Management
Based on severity of AKI, medical management may
include dialysis:
RRT
HD
PD
Significant AKI in ICU may require continuous rather than
periodic dialysis treatment
CRRT
CVVHemofiltration
Diffusion
Convection
CVVHDialysis
SCUF - slow continuous ultrafiltration
AKI
MNT
Correct uremia, metabolic acidosis, fluid and electrolyte
imbalances
Provide adequate kcal and protein due to metabolic stress
(infection or tissue damage)
Early phase
 appetite, N/V, diarrhea
Dialysis
TPN
AKI
Protein
0.5–0.8 g/kg for non-dialysis and 1–2 g/kg for dialysis;
in CRRT, can be1.5-2.5 g/kg
Energy
25–40 kcal/kg of upper end ideal body weight
AKI
Potassium (K+)
30–50 mEq/day in oliguric phase (depending on urinary output,
dialysis, and serum K+ level); replace losses in diuretic phase
Sodium
20–40 mEq/day in oliguric phase (depending on urinary output,
edema, dialysis, and serum Na+ level); replace losses in diuretic
phase
Fluid
Replace output from the previous day (vomitus, diarrhea, urine)
plus 500 mL
Chronic Kidney Disease (CKD)
Decreased GFR, loss of nephrons, progressive loss of
function due to
Diabetes, HTN, glomerulonephritis
CKD
Estimate the GFR from creatinine, age, sex, race:
http://egfrcalc.renal.org/
Progression of CKD slowed by  protein in the
diet
Recommendations for dietary protein
GFR > 55 ml/min.8g/ kg (IBW)/day; 60% HBV
GFR 25-55 ml/min.6g/kg (IBW)/day; 60% HBV
GFR < 25 ml/min.6g/kg is maintained
if intake poor:.75g/kg and 50% HBV

Normal GFR ~ 120ml/ml
Pyelonephritis
Pyelonephritis
urinary tract infection (UTI)

MNT
cranberry and blueberry juice
 bacteria in urine
inhibits the adherence of E-coli in urinary tract
Nephritic Syndrome
Main cause strep infection
Damages the barrier to the RBC
Hematuria, HTN, mild loss of renal function
Treat underlying disease
May lead to chronic nephrotic syndrome or ESRD
Nephrotic Syndrome
Main cause DM, SLE (Lupus), amyloidosis
Protein barrier in the glomerulus altered
Urinary protein loss, mainly albumin

Treat underlying disease
Leads to proteinuria, hypoalbuminemia, edema,
hyperlipidemia
End Stage Renal Disease (ESRD)
When 1/2 to 2/3 of function lost, kidney failure
 BUN & Creatinine
BUN > 100mg/dl (norm: 8-23)
Creatinine: 10-12 mg/dl (norm:.6-1.2)
Symptoms of uremia 
Muscle weakness, muscle cramps, itching, neurological impairment
Dialysis or kidney transplant is needed
Dialysis
Hemodialysis (HD)
Most common
Fistula connection of artery and vein
Permanent access
Blood crosses semi-permeable membrane of the “artificial kidney” and
removes waste.
Dialysate ~ to normal plasma
3-5 hours/treatment, 3x/week

https://www.kidney.org/atoz/content/hemodialysis
Hemodialysis

https://www.niddk.nih.gov/health-
information/kidney-disease/kidney-
failure/hemodialysis
Hemodialysis
Dialysis
Peritoneal Dialysis (PD)
Uses peritoneum as the semipermeable membrane
 dextrose solution inserted via catheter into peritoneum
Diffusion carries waste through the peritoneal membrane into
peritoneum
This solution is then withdrawn and discarded

https://www.kidney.org/atoz/content/peritoneal
Peritoneal Dialysis
Peritoneal Dialysis
Dialysis
Continuous Ambulatory Peritoneal Dialysis (CAPD)
Dialysate in peritoneum is exchanged manually 4-5 x daily.
Problems
Peritonitis, wt gain from dialysate, additional fluid and sodium
replacement

Videos:

Overview of dialysis:
https://www.youtube.com/watch?v=IQKQ4eoKfTg
Guide to Blood Values in ESRD
Normal blood values for people on dialysis compared to
normal values see Table 34-10.
General MNT for Pre-ESRD,
Hemodialysis, Peritoneal Dialysis
Pre-ESRD Hemodialysis CAPD or CCPD
(impaired renal function)
*Protein (g/kg IBW) 0.6-.1 1.2 1.2-1.5

Energy (kcal/kg IBW) 30-35 35 30-35

Phosphorus.8-1.2.8-1.2.8-1.2
(g/day)

Sodium (g/d) 1.5-2 1.5-2 1.5-4

Potassium (g/day) Unrestricted 2-3 3-4

*Fluid (ml/d) Unrestricted 750-1000 + 1000 +
urine output urine output min.
Goals of Medical Nutrition Therapy for
End-Stage Renal Disease
Prevent deficiency and maintain good nutritional
status
Control edema and electrolyte imbalance
Prevent or retard renal osteodystrophy
Palatable attractive diet that fits lifestyle
Fluid and Sodium Balance in End-Stage
Renal Disease
Measure blood pressure, edema, fluid weight
gain, serum sodium, and dietary intake
Modify sodium and fluid intake accordingly
Most dialysis patients need to restrict sodium
Allow weight gain of 4 to 5 lb between dialyses
Potassium in End-Stage Renal Disease
Usually requires restriction
Monitor laboratory values, content of dialysate,
and laboratory values
Potassium in foods considered
Potassium in salt substitutes considered
Protein and Energy in End-Stage Renal
Disease
Dialysis drains body protein
Require higher protein intakes and >50% high BV
Energy intake must be adequate to spare protein
 Kinetic Modeling

Evaluates the efficacy of dialysis
Measures removal of urea from blood over a
given period of time
KT/V
Urea reduction ratio (URR)
Calcium, Phosphorus, and Vitamin D in
End-Stage Renal Disease
Metabolic bone disease or renal osteodystrophy
Osteomalacia (bone demineralization)
Osteitis fibrosa cystica (hyperparathyroidism)
Metastatic calcification of joints and soft tissues
Low turnover bone disease restrict dietary phosphate to 40 mg oxalate in 24 hour urine
Causes
Fat malabsorption
 absorption of oxalate in the gut
presence of oxalate degrading microbes in the gut
 Vit C intake with CKD
rare metabolic over-production of oxalate
MNT
  fluids
 high oxalate foods: nuts, beets, rhubarb, chocolate,
spinach, tea, wheat bran, strawberries
Probiotic oxalobacter formigens
 calcium with meals
Nephrolithiasis: Uric Acid Stones
Associated with diabetes, hypertension and obesity; acid urine; gout
Causes
Dehydration
Low urine pH from
 intake of acid producing foods (animal protein and excess CHO)
 intake of alkali producing foods (fruits and vegetables)
MNT
  fluids
 high purine foods: organ meats, anchovies, herring, sardines,
meat-based sauces
 protein to the DRI
raise urine pH
high alkaline
citrate (potassium citrate)