Obesity Clinical Trial
Official title:
Prevalence of Protein-energy Wasting and Obesity Among Danish Dialysis Patients
The purpose of this study is to determine the prevalence of protein-energy wasting and obesity among Danish dialysis patients.
Undernutrition among dialysis patients is associated with increased morbidity and mortality.
Conversely, in hemodialysis (HD) patients a high BMI in the range of obesity has long been
known protective against death and cardiovascular disease, a phenomenon called reverse
epidemiology. Hence, what is good for the background population might differ from what is
good for HD patients.
In peritoneal dialysis (PD) patients this association is less clear. The majority of studies
find reverse epidemiology, however some studies find no survival advantage of obesity or
even indicate a higher risk of death in obese patients. Some authors claim that reverse
epidemiology is a misconception and that although in the short run a high BMI is protective
a follow up period of more than five years show increased mortality. Considering this
Mutsert et al. claim that HD patients have the same mortality risk patterns associated with
BMI as the general population.
Moreover, it has been shown that the protective effect of a high BMI or weight gain is
limited to those with normal or high muscle mass. Patients with high BMI and malnutrition
have a high risk of death. Concordantly, recent studies show that abdominal obesity is
associated with mortality among dialysis patients .
The prevalence of under-nutrition, often known as protein energy wasting (PEW), among
dialysis patients varies from 31% to 51% and the prevalence of obesity varies from 10-56%
presumably depending on the diagnostic criteria and the method used. These inconsistent
results make comparison of the prevalence of undernutrition and obesity among dialysis
populations somewhat problematic.
In order to standardize the diagnosis of PEW in dialysis patients International Society of
Renal Nutrition and Metabolism (ISRNM) suggest diagnostic criteria. As goes for obesity,
there are no standardized methods for diagnosing this among dialysis patients. However,
reviews recommend using multiple different methods concurrently including BMI, fat
percentage (FM%), and measures of abdominal fat.
Data on the nutritional status among dialysis patients in Northern Europe are primary
derived from a single research center (Karolinska institute, Sweden) and there is no recent
published data on the prevalence of PEW among dialysis patients. A single study examines the
prevalence of obesity.
Few studies have compared the nutritional status of HD and PD patients. Hardly any studies
examine the prevalence of undernutrition and obesity in the same population.
Knowing the nutritional status of a dialysis population and identifying already malnourished
patients, can contribute the quality of the care provided.
Hence, the aim of this study is, for the first time in Northern Europe to assess the
prevalence of both PEW and obesity in the same population using the ISRNM criteria as well
as different obesity markers. Additionally, we compare the nutritional status of HD and PD
patients.
Design The study was designed as a cross-sectional study, investigating the nutritional
status of hemodialysis (HD) patients and peritoneal dialysis (PD) patients attending the
dialysis centre at Roskilde Hospital, Denmark in February to June 2014.
Subjects All PD, HD and home-HD patients (n = 105) were invited to participate. Patients who
refused to participate were invited to complete a partial nutritional examination. The
participating eligible patients all gave their written consent. Patient data (age, gender,
dialysis vintage, primary kidney disease and co morbid conditions were taken from the
patient records. The local ethical committee approved the study protocol.
Anthropometric measurements Anthropometric measurements were performed immediately after a
dialysis session (HD) as recommended by the HEMO study or after the monthly ambulatory
control (PD, home-HD). All measurements were done on the non-access side of the body for
HD-patients and on the right side for PD-patients. Skin folds (SF) were measured with a
Harpenden caliper and all circumferences were done using a non-stretchable fiberglass
insertion tape (seca 201). All measurements were made by to well-trained research
assistants.
Height (h) and bodyweight (BW) was measured in light clothing using standard instrument in
the dialysis centre. For PD the weighing was preferably done with empty abdominal cavity,
for those (n=8) who refused to empty the abdominal cavity the bodyweight was calculated as
BW with dialysate minus the volume of dialysate that was last drained into the abdomen. For
patients with lower leg amputations (n=2) 6.2% of total bodyweight per amputated leg was
added to the measured weight
Fat mass was assessed according to a formula described by Durnin and Womersley based on four
skinfold thicknesses (biceps, triceps, subscapular and suprailiac). Mid-arm circumference
(MAC) was measured midway between acromion and olecranon. All measurements were done in
duplicate. If the two measurements were more than four mm apart, two additional measurements
were done and the mean of all four was calculated. This approach is recommended by "CLINICAL
PRACTICE GUIDELINES For Nutrition of Chronic Renal Failure". Triceps skinfold (TSF) and MAC
was used to calculate corrected mid-arm muscle area (cMAMA) as described by Heymsfield SB et
al.
Waist circumference (WC) was measured as recommended by WHO. Patients unable to stand had
their waist and hip circumference measurement done in supine position. The waist and hip
measurements were skipped if empty abdominal cavity was not feasible for PD patients. All
measurements were done in duplicate if the difference between the two measurements exceeded
1 cm, two more measurements were done, and the mean of all four calculated.
Lean body mass index (LBMI) and fat mass index (FMI) was calculated as lean body mass
(LBM)/h2 and fat mass (FM)/h2 respectively as described by Kyle et al.
Blood sampling and biochemical measurements For assessment of s-transferrin and albumin
blood samples were from all patients was analyzed at the laboratory at Roskilde Sygehus,
Denmark. Kt/V was measured as described by F.A.Gotch(Gotch 1998). For HD-patients normalized
protein catabolic rate (nPCR) was determined by measuring the interdialytic rise of blood
urea nitrogen after a midweek dialysis session. For patients with residual urine output >
300ml/day urinary nitrogen excretion was also taken into account. To account for day-to-day
variations we calculated a mean of three nPCR measurements, which were made over a 2 months
period after the anthropometric measurements, we only made one urine sample. For PD-patients
nPCR was measured using the Bergstroms' formula. Only one nPCR measurement was done for PD
patients
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