AIM: To determine the GI of some cereals and tubers produced in China in an effort to establish the database of glycemic index (GI) of Chinese food. METHODS: Food containing 50 g carbohydrate was consumed by 8-12 healthy adults after they have been fasted for 10 h and blood glucose was monitored for 2 h. Glucose was used as reference food. GI of food was calculated according to a standard method. RESULTS: GI of 9 types of sugar and 60 kinds of food were determined. CONCLUSION: Food GI is mainly determined by nature of carbohydrate and procession. Most of cereals and tubers produced in China have similar GI with their counterparts produced in other countries.
AIM: To determine the GI of some cereals and tubers produced in China in an effort to establish the database of glycemic index (GI) of Chinese food. METHODS: Food containing 50 g carbohydrate was consumed by 8-12 healthy adults after they have been fasted for 10 h and blood glucose was monitored for 2 h. Glucose was used as reference food. GI of food was calculated according to a standard method. RESULTS: GI of 9 types of sugar and 60 kinds of food were determined. CONCLUSION: Food GI is mainly determined by nature of carbohydrate and procession. Most of cereals and tubers produced in China have similar GI with their counterparts produced in other countries.
Authors: D J Jenkins; T M Wolever; R H Taylor; H Barker; H Fielden; J M Baldwin; A C Bowling; H C Newman; A L Jenkins; D V Goff Journal: Am J Clin Nutr Date: 1981-03 Impact factor: 7.045
Authors: David J A Jenkins; Cyril W C Kendall; Livia S A Augustin; Silvia Franceschi; Maryam Hamidi; Augustine Marchie; Alexandra L Jenkins; Mette Axelsen Journal: Am J Clin Nutr Date: 2002-07 Impact factor: 7.045