BACKGROUND: Intestinal absorption capacity is considered to be the best method for assessing overall digestive intestinal function. Earlier reference values for intestinal function in healthy Dutch adults were based on a study that was conducted in an inpatient metabolic unit setting in a relatively small series. The present study aimed to readdress and describe the intestinal absorption capacity of healthy adults, who were consuming their usual (Western European) food and beverage diet, in a standard ambulatory setting. METHODS: Twenty-three healthy subjects (aged 22-60 years) were included in the analyses. Nutritional intake (energy and macronutrients) was determined with a 4-day nutritional diary. Subsequently, mean faecal losses of energy (by bomb calorimetry), fat, protein and carbohydrate were determined following a 3-day faecal collection. Finally, intestinal absorption capacity was calculated from the differences between intake and losses. RESULTS: Mean (SD) daily faeces production was 141 (49) g (29% dry weight), containing 891 (276) kJ [10.7 (1.3) kJ g(-1) wet faeces; 22.6 (2.5) kJ g(-1) dry faeces], 5.2 (2.2) g fat, 10.0 (3.8) g protein and 29.7 (11.7) g carbohydrates. Mean (SD) intestinal absorption capacity of healthy subjects was 89.4% (3.8%) for energy, 92.5% (3.7%) for fat, 86.9% (6.4%) for protein and 87.3% (6.6%) for carbohydrates. CONCLUSIONS: The present study provides normative values for both stool nutrient composition and intestinal energy and macronutrient absorption in healthy adults on a regular Dutch diet in an ambulatory setting. Intestinal energy absorption was found to be approximately 90%.
BACKGROUND: Intestinal absorption capacity is considered to be the best method for assessing overall digestive intestinal function. Earlier reference values for intestinal function in healthy Dutch adults were based on a study that was conducted in an inpatient metabolic unit setting in a relatively small series. The present study aimed to readdress and describe the intestinal absorption capacity of healthy adults, who were consuming their usual (Western European) food and beverage diet, in a standard ambulatory setting. METHODS: Twenty-three healthy subjects (aged 22-60 years) were included in the analyses. Nutritional intake (energy and macronutrients) was determined with a 4-day nutritional diary. Subsequently, mean faecal losses of energy (by bomb calorimetry), fat, protein and carbohydrate were determined following a 3-day faecal collection. Finally, intestinal absorption capacity was calculated from the differences between intake and losses. RESULTS: Mean (SD) daily faeces production was 141 (49) g (29% dry weight), containing 891 (276) kJ [10.7 (1.3) kJ g(-1) wet faeces; 22.6 (2.5) kJ g(-1) dry faeces], 5.2 (2.2) g fat, 10.0 (3.8) g protein and 29.7 (11.7) g carbohydrates. Mean (SD) intestinal absorption capacity of healthy subjects was 89.4% (3.8%) for energy, 92.5% (3.7%) for fat, 86.9% (6.4%) for protein and 87.3% (6.6%) for carbohydrates. CONCLUSIONS: The present study provides normative values for both stool nutrient composition and intestinal energy and macronutrient absorption in healthy adults on a regular Dutch diet in an ambulatory setting. Intestinal energy absorption was found to be approximately 90%.
Authors: J E Witvliet-van Nierop; C M Lochtenberg-Potjes; N J Wierdsma; H J Scheffer; G Kazemier; K Ottens-Oussoren; M R Meijerink; M A E de van der Schueren Journal: Gastroenterol Res Pract Date: 2017-08-20 Impact factor: 2.260
Authors: Najeeha T Iqbal; Sana Syed; Kamran Sadiq; Marium N Khan; Junaid Iqbal; Jennie Z Ma; Fayaz Umrani; Sheraz Ahmed; Elizabeth A Maier; Lee A Denson; Yael Haberman; Monica M McNeal; Kenneth D R Setchell; Xueheng Zhao; Shahida Qureshi; Lanlan Shen; Christopher A Moskaluk; Ta-Chiang Liu; Omer Yilmaz; Donald E Brown; Michael J Barratt; Vanderlene L Kung; Jeffrey I Gordon; Sean R Moore; S Asad Ali Journal: BMC Pediatr Date: 2019-07-22 Impact factor: 2.125
Authors: Xueheng Zhao; Kenneth D R Setchell; Rong Huang; Indika Mallawaarachchi; Lubaina Ehsan; Edward Dobrzykowski Iii; Junfang Zhao; Sana Syed; Jennie Z Ma; Najeeha T Iqbal; Junaid Iqbal; Kamran Sadiq; Sheraz Ahmed; Yael Haberman; Lee A Denson; Syed Asad Ali; Sean R Moore Journal: J Nutr Date: 2021-12-03 Impact factor: 4.798
Authors: Nicolette J Wierdsma; Marian A E van Bokhorst-de van der Schueren; Marijke Berkenpas; Chris J J Mulder; Ad A van Bodegraven Journal: Nutrients Date: 2013-09-30 Impact factor: 5.717