Nutritional Interventions in Peritoneal Dialysis Patients With Hypoalbuminemia

Sponsor

Far Eastern Memorial Hospital (Other)

Overall Status

Recruiting

CT.gov ID

NCT04546958

Collaborator

(none)

Enrollment

Location

Arms

Anticipated Duration (Months)

1.2

Patients Per Site Per Month

Study Details

Study Description

Brief Summary

Inadequate dietary protein intake is well-known cause of hypoalbuminemia in dialysis population. Protein loss into dialysate and increased catabolic state due to uremic milieu or inflammation worsened hypoalbuminemia, hence high protein diet is recommended in patients on peritoneal dialysis (PD). The recommendations from K/DOQI clinical practice guidelines for the amount of daily protein intake is based on expert opinion and the optimal daily protein intake in PD patients is not known. The investigators hypothesize that higher dietary protein intake has a greater beneficial effect on nutritional status in hypoalbuminemic PD patients. In particular, 1.5 g/kg protein intake provides a better beneficial effect than 1.2 g/kg protein intake.

Condition or Disease	Intervention/Treatment	Phase
End Stage Renal Disease on Dialysis	Dietary Supplement: Whey protein supplements Other: Nutritional counseling	N/A

Detailed Description

Hypoalbuminemia is common and is strongly associated with an increased risk for mortality in patients with end-stage kidney disease (ESKD). Inadequate dietary protein intake is well-known cause of hypoalbuminemia in dialysis population. Protein loss into dialysate and increased catabolic state due to uremic milieu or inflammation worsened hypoalbuminemia, hence high protein diet is recommended in PD patients. Although there is an increased daily calorie intake from absorption of dialysate glucose concentration, hypoalbuminemia ensues in a substantial number of PD patients. There is concern that a disproportionately increasing calorie intake from dialysate glucose with no change in dietary protein intake causes weight gain which in turn worsens sarcopenic obesity in PD patients. Achieving adequate dietary protein intake should be the priority in the management of hypoalbuminemia. It is feasible for PD patients to increase dietary protein intake through protein supplements. Among nutritional supplements, whey protein has several positive effects on carbohydrate metabolism, muscle building, immune function, and human health in various areas of disease, supported by well-performed studies. There are limited data available regarding the effects of nutritional counseling and whey protein supplements on the nutritional, body compositional status and immune function of PD patients with hypoalbuminemia. The recommendations from K/DOQI clinical practice guidelines for the amount of daily protein intake is based on expert opinion and the optimal daily protein intake in PD patients is not known.

The aims of the study are to investigate the optimal dietary protein intake and to examine the effects of whey protein supplement on the change of nutritional, body composition and immune function in PD patients with hypoalbuminemia. Specifically, the investigators will compare the effect of nutritional counseling (1.2 g/kg protein intake) with that of nutritional counseling and whey protein supplement (1.5 g/kg protein intake) regarding the changes of nutritional, body composition parameters and immune function in PD patients. This is a quality improvement program to cope with the fact that the proportion of hypoalbuminemic PD patients sometimes does not meet the requirements set by Joint Commission of Taiwan, and to improve the nutritional status of PD patients in a feasible way of daily clinical practice.

The investigators are going to conduct a randomized, controlled trial with cross-over design. Subjects with ESKD undergoing maintenance PD for more than three months, adequate dialysis, and hypoalbuminemia will be recruited. Those with non-dietary cause of hypoalbuminemia including untreated fluid overload, uncorrected metabolic acidosis, having active infection or inflammation, hospitalization within the past 4 weeks, having gastrointestinal bleeding, those who cannot cooperate with the dietary record, those who have poor adherence to whey protein consumption, history of psychiatric disorders and having mental retardation will be excluded. Participants will receive nutritional counseling with whey protein supplement or nutritional counseling alone for 3-month period, separated by 3-month washout period. The study outcome measures are difference in change-from-baseline nutritional, body composition parameters and immune function between the two study periods.

Study Design

Study Type:

Interventional

Anticipated Enrollment :

30 participants

Allocation:

Randomized

Intervention Model:

Crossover Assignment

Intervention Model Description:

A randomized, active-controlled trial with cross-over designA randomized, active-controlled trial with cross-over design

Masking:

Single (Outcomes Assessor)

Masking Description:

Laboratory technicians who assess the study outcomes will be masked

Primary Purpose:

Treatment

Official Title:

Clinical Implication of Nutritional Counseling and Whey Protein Supplements in Patients on Peritoneal Dialysis With Hypoalbuminemia

Actual Study Start Date :

Oct 2, 2020

Anticipated Primary Completion Date :

Oct 1, 2022

Anticipated Study Completion Date :

Dec 1, 2022

Arms and Interventions

Arm	Intervention/Treatment
Active Comparator: Nutritional counseling arm Nutritional counseling, targeting daily protein intake 1.2 g/kg Dietitian will provide one-to-one dietary education, 30 minutes duration, on a monthly basis	Other: Nutritional counseling Nutritional counseling by dietitians for 3 months
Experimental: Nutritional counseling plus whey protein supplements arm Nutritional counseling plus whey protein supplements, targeting daily protein intake 1.5 g/kg In addition to receiving nutritional counseling, participants are instructed to take an additional whey protein supplement at the dose of ~0.3 g/kg protein intake.	Dietary Supplement: Whey protein supplements Nutritional counseling and whey protein supplements for 3 months Other: Nutritional counseling Nutritional counseling by dietitians for 3 months

Arm

Intervention/Treatment

Active Comparator: Nutritional counseling arm

Nutritional counseling, targeting daily protein intake 1.2 g/kg Dietitian will provide one-to-one dietary education, 30 minutes duration, on a monthly basis

Other: Nutritional counseling

Nutritional counseling by dietitians for 3 months

Experimental: Nutritional counseling plus whey protein supplements arm

Nutritional counseling plus whey protein supplements, targeting daily protein intake 1.5 g/kg In addition to receiving nutritional counseling, participants are instructed to take an additional whey protein supplement at the dose of ~0.3 g/kg protein intake.

Dietary Supplement: Whey protein supplements

Nutritional counseling and whey protein supplements for 3 months

Other: Nutritional counseling

Nutritional counseling by dietitians for 3 months

Outcome Measures

Primary Outcome Measures

Concentrations of albumin (g/dL) [3 months]
Difference in change-from-baseline albumin (g/dL) between two intervention arms

Secondary Outcome Measures

Concentrations of pre-albumin (g/dL) [3 months]
Difference in change-from-baseline pre-albumin (g/dL) between two intervention arms
Concentrations of C-reactive protein (mg/dL) [3 months]
Difference in change-from-baseline C-reactive protein (mg/dL) between two intervention arms
Concentrations of phosphate (mg/dL) [3 months]
Difference in change-from-baseline phosphate (mg/dL) between two intervention arms
Concentrations of blood urea nitrogen (mg/dL) [3 months]
Difference in change-from-baseline blood urea nitrogen (mg/dL) between two intervention arms
Concentrations of free indoxyl sulfate (mg/L) [3 months]
Difference in change-from-baseline free indoxyl sulfate (mg/L) between two intervention arms
Concentrations of free p-cresol sulfate (mg/L) [3 months]
Difference in change-from-baseline free p-cresol sulfate (mg/L) between two intervention arms
Absolute number (per μl blood) of CD4+ (cluster of differentiation 4) T cells [3 months]
Difference in change-from-baseline absolute number (per μl blood) of CD4+ T cells between two intervention arms
Absolute number (per μl blood) of CD8+ (cluster of differentiation 8) T cells [3 months]
Difference in change-from-baseline absolute number (per μl blood) of CD8+ T cells between two intervention arms
Absolute number (per μl blood) of monocytes [3 months]
Difference in change-from-baseline absolute number (per μl blood) of monocytes between two intervention arms
Percentage (%) of CD4+ (cluster of differentiation 4) T cells [3 months]
Difference in change-from-baseline percentage (%) of CD4+ T cells between two intervention arms
Percentage (%) of CD8+ (cluster of differentiation 8) T cells [3 months]
Difference in change-from-baseline percentage (%) of CD8+ T cells between two intervention arms
Percentage (%) of monocytes [3 months]
Difference in change-from-baseline percentage (%) of monocytes between two intervention arms
Lean tissue mass (kg) [3 months]
Difference in change-from-baseline lean tissue mass (kg) between two intervention arms
Fat tissue mass (kg) [3 months]
Difference in change-from-baseline fat tissue index (kg) between two intervention arms
Lean tissue index (kg/m2) [3 months]
Difference in change-from-baseline lean tissue index (kg/m2) between two intervention arms
Fat tissue index (kg/m2) [3 months]
Difference in change-from-baseline fat tissue index (kg/m2) between two intervention arms
Percentage (%) of body fat mass [3 months]
Difference in change-from-baseline percentage (%) of body fat mass between two intervention arms
Percentage (%) of excess body fat [3 months]
Difference in change-from-baseline percentage (%) of excess body fat between two intervention arms. Excess body fat is defined as fat percentage > 25 % for men or > 35 % for women
Percentage (%) of obesity [3 months]
Difference in change-from-baseline percentage (%) of obesity between two intervention arms. Obesity is defined as body mass index > 24.

Eligibility Criteria

Criteria

Ages Eligible for Study:

20 Years and Older

Sexes Eligible for Study:

All

Accepts Healthy Volunteers:

Inclusion Criteria:

Aged greater than or equal to 20 years
Having end-stage kidney disease and having undergone maintenance PD for more than three months
Having adequate dialysis (weekly Kt/V greater than or equal to 1.7)
Serum albumin levels lower than 4.0 g/dL, measured by bromocresol green assay

Exclusion Criteria:

Untreated fluid overload
Uncorrected metabolic acidosis
Having active infection or inflammation
Hospitalization within the past 4 weeks
Having gastrointestinal bleeding
those who cannot cooperate with the dietary record
those who have poor adherence to whey protein consumption
History of psychiatric disorders
Having mental retardation

Contacts and Locations

Locations

	Site	City	State	Country	Postal Code
1	Far Eastern Memorial Hospital	New Taipei City		Taiwan

Sponsors and Collaborators

Far Eastern Memorial Hospital

Investigators

Principal Investigator: Wan-Chuan Tsai, M.D., Ph.D., Far Eastern Memorial Hospital

Study Documents (Full-Text)

None provided.

More Information

Publications

None provided.

Responsible Party:

Wan-Chuan Tsai, Principal Investigator, Assistant Professor, Far Eastern Memorial Hospital

ClinicalTrials.gov Identifier:

NCT04546958

Other Study ID Numbers:

FEMH-IRB-109116-F

First Posted:

Sep 14, 2020

Last Update Posted:

Jul 27, 2022

Last Verified:

Jul 1, 2022

Individual Participant Data (IPD) Sharing Statement:

Yes

Plan to Share IPD:

Yes

Studies a U.S. FDA-regulated Drug Product:

Studies a U.S. FDA-regulated Device Product:

Additional relevant MeSH terms:

Kidney Failure, Chronic

Hypoalbuminemia

Study Results

No Results Posted as of Jul 27, 2022