Effect of SB CD on Chylomicron

Background:

B1 Prior Literature and Studies Crohn's disease (CD) is characterized by spontaneous, chronic relapsing and remitting inflammation of the gastrointestinal tract. The underlying etiology of the disease is unknown but it likely develops secondary to an environmental stimulus in a genetically predisposed person that results in a dysregulated immune response to the intestinal microbiome. Considerable effort has been paid to understanding the role of the intestinal microbiome, the genetic susceptibilities at play, and the immunology behind the condition to tailor treatments aimed at reducing inflammation.

Prior to the advent of current medical therapies a defining characteristic of CD noted by early pathologists evaluating tissue specimen's was a significant alteration of the gastrointestinal lymphatic system with lymphocytic thrombi, aggregates of lymphocytes and granuloma-obstructed lymphatics consistent with chronic lymphangitis (2). Furthermore, early researchers showed that obstructing segments of the regional lymphatics of the small intestine resulted in a segmental intestinal disease similar to CD (3). Immunohistochemical staining has confirmed the presence of lymphangiectasias, lymphocytic perilymphangitis, lymphocyte or granuloma obstructed lymphatics and inflammatory lymphoid follicles in patients with CD (4). Upstream of these obstructed lymphatics the vessels remain distended with lymphocytes (5). More recent studies have shown that lymphatic density is also significantly increased in the ileal and colonic tissue of patients with CD (6). Furthermore, the relationship between intestinal health and lymphatics has been highlighted in studies that found certain types of bacteria and viruses had resulted in a profoundly remodeled mesenteric lymphatic system. Findings included the development of chronic lymphadenopathy and increased permeability, similar to what is seen in CD (7). Given the prominent structural changes that occur to the mesenteric lymphatic system in CD (1), studies are needed to evaluate if lymphatic function is altered as well.

Chylomicrons are cholesterol and triacylglycerol rich lipoproteins synthesized by the small intestine and transported through the lymphatics. Thus, oral uptake of trioleate and cholesterol will lead to incorporation of the tracers into chylomicrons.

Using ELISA and mass spectrometric analysis these labelled chylomicrons can be quantitated in the serum, thus serving as a marker of absorption and transit through the lymphatics. Studies of healthy subjects have utilized this validated means to assess lymphatic uptake and transport. After ingestion, there is a delay of <60 minutes in the appearance of 13C labelled chylomicrons in the serum, with a peak occurring between 180 and 240 minutes. Our protocol is designed to take advantage of the knowledge that other oral tracer studies at Washington University have learned in optimizing such studies, including ongoing studies by Dr. Todd Cade that focuses on chylomicron secretion in pre-diabetic patients. Our study will evaluate patients with significant small bowel CD and compare them to healthy controls using a similar method.

This pilot study would be the first to evaluate the quantitative function of lymphatics in CD. It would provide the basis for further studies evaluating the mesenteric lymphatics and their role in the pathogenesis of CD and as a treatment target.

C Study Objectives

C1 Primary Aim Follow lymphatic vessel transported cargo in Crohn's disease patients with small bowel involvement as a way to assess possible defects in the lymphatic system in patients compared with healthy control subjects.

C2 Secondary Aim Characterize changes in pre- and post-prandial lipid metabolism resulting from Crohn's disease affecting the small bowel.

C3 Tertiary Aim Carry out lipidomic analyses to determine if chylomicrons absorbed from the small bowel carry distinct microbial lipid signatures compared with healthy control subjects (eg., LPS, commendamide (8)).

C4 Quaternary Aim Measure lipid absorption from the intestine using 13CO2 breath analysis.

D Study Design

D1 Overview or Design Summary This study will utilize a 2-group trial design in which 40 participants (20 CD patients and 20 controls) will visit once for this feeding (oral tracer) and infusion study, following an overnight fast.

Participants will be recruited from the Washington University School of Medicine IBD Center, Washington University's Volunteers for Health, the Center for Community Based Research, and IBD clinics affiliated with Washington University in the surrounding St. Louis community.

The principal investigator, collaborating physicians, and study coordinator(s) will be responsible for identifying participants through the use of posters, email, and existing participant databases.

E Study Procedures

E1 Screening for Eligibility IBD Center staff will identify eligible subjects from the patient arm. By phone, each participant will be asked a series of preliminary screening questions to determine immediate expulsion from the study based on exclusion and inclusion criteria. The purpose of the study, and a brief overview of the procedures, time-commitment, and compensation will be discussed over the phone prior to the individual agreeing to participate.

E2 Study Visit

1. 7:00 AM: Subject reports to the Clinical Research Unit at Washington University School of Medicine.

1. The subject will be asked to skip breakfast and report to the Clinical Research Unit after an overnight fast (> 8 hours) with nothing taken by mouth except water. Subjects will be asked to avoid caffeine and alcohol for at least 24 h before admission for the study visit. The day prior to the study visit, subjects will be provided instructions for a standardized meal for breakfast, lunch, and dinner containing a total of 2,165 calories (46% of total energy from carbohydrates, 40% from fat, and 14% from protein). A liquid formula (Ensure; Ross Laboratories, Columbus, OH) containing 250 kcal (40 g carbohydrates, 6.1 g fat, and 8.8 g protein) to ensure complete filling of hepatic glycogen stores as a snack before bedtime. This snack is included in the total calories stated above.

2. The participant will have his/her height and weight measured using the electronic weight scale and stadiometer within the Clinical Research Unit. BMI will be calculated from height and weight using the formula: [mass(kg)/[height(meters)2]. Blood pressure will be measured and recorded.

3. The participant will complete a medical history questionnaire, which includes obtaining a list of current medications. Completion of the questionnaire may occur following the baseline blood draw and meal administration

2. A catheter will be inserted into the other antecubital vein to obtain blood samples.

3. 8 AM: Metabolism Study: Baseline Period: Baseline blood and breath samples to determine background enrichment of isotopes. Then the subject will then consume a liquid test meal prepared by CRU nutrition staff consisting of 27 g Sol Carb, 1032 g Boost Plus, 3.2 g canola oil, 0.2 g lecithin, 5 mg/kg of [1,2, 3, 7, 8-13C8] glyceryl trioleate, and 40 g of water. Participants will be asked to consume the liquid meal within 20 minutes for consistency, with the sides of the container scraped to ensure maximal ingestion. Additionally, 30 minutes after consuming the meal a 75 micromol/kg bolus infusion of (1,1,2,3,3-2H5)glycerol will be initiated to track VLDL catabolism. Blood and breath samples will be collected at 0, 15. 30, 45, 60, 90, 120, 150, 180, 240, 300, and 360 minutes post-meal ingestion. Indirect calorimetry will also be administered using the ventilated hood technique for 10 minutes prior to each breath sample collection to determine resting metabolic rate for tracer calculations and measurement of total fatty acid oxidation. Blood samples will be analyzed for tracer enrichment and total concentration of free fatty acids, triglycerides, and cholesterol.

4. 2 pm: Lunch will be served by CRU, prepared by CRU kitchen. End of Study Visit.