ABSTRACT
Vitamin A deficiency (VAD) is a public health problem in
Ghana, leading to blindness. Year-round access to Vitamin Arich
foods will curb its incidence. This study sought to
identify appropriate processing, preservation and fortification
methods to enhance E-carotene retention in foods towards VAD
alleviation.
Carrots were steamed, blanched in water, NaHS03, NaCl or
alkali rocksalt (Kanwa) solutions. Amaranthus and Xanthosoma
leaves were blanched in a range of kanwa solutions (0-0.1%) at
varied temperatures (85-100°C) and time (4-10 min). The effect
of the treatment and storage time (0-90 days) of the samples
was studied by determining the S-carotene using HPLC. Ecarotene
degradation in palm oil was evaluated at 100-200°C for
0-240 min. Carrots and palm oil were incorporated into gari at
0-20% by co-fermenting or fermenting before addition. Ecarotene
stability was predicted with mathematical models
during processing and storage.
Highest E-carotene retention occurred in oven-dried NaCl,
NaHS03 and kanwa treated carrots (22.9-65.6%) after storage.
Kanwa blanching improved carotene retention during dehydration
and storage of Amaranthus and Xanthosoma. Solar dried products
had longer E-carotene half-lives (T1/2) than oven dried. High
heating temperatures caused complete loss of E-carotene and
colour. Thermal degradation rates of 3.9-99.7 x 10"3 min'1 and
an activation energy (EJ of 4.8 Kcal/mole in palm oil were
calculated. Gari products fortified with carrots and palm oil
had 13-28 and 11-20 mg/lOOg E-carotene respectively. Ecarotene
losses occurred during fermentation (5-57%) and
roasting (30-60%). ,The rate of E-carotene loss was slower in
co-fermented products during storage.
NaCl and kanwa could be used in the preservation of
carotene in carrots. Carrot and palm oil fortification of gari
improved its vitamin A and organoleptic properties. The use of
palm oil in deep-fat frying is not recommended. Degradation
kinetics and response surface plots generated from predictive
models could establish the relationships between processing
factors and E-carotene retention.
ADJEI, M (2021). A Study Of Beta-Carotene Stability In Processed Vitamin A-Rich Foods. Afribary. Retrieved from https://tracking.afribary.com/works/a-study-of-beta-carotene-stability-in-processed-vitamin-a-rich-foods
ADJEI, MICHAEL "A Study Of Beta-Carotene Stability In Processed Vitamin A-Rich Foods" Afribary. Afribary, 09 Apr. 2021, https://tracking.afribary.com/works/a-study-of-beta-carotene-stability-in-processed-vitamin-a-rich-foods. Accessed 29 Nov. 2024.
ADJEI, MICHAEL . "A Study Of Beta-Carotene Stability In Processed Vitamin A-Rich Foods". Afribary, Afribary, 09 Apr. 2021. Web. 29 Nov. 2024. < https://tracking.afribary.com/works/a-study-of-beta-carotene-stability-in-processed-vitamin-a-rich-foods >.
ADJEI, MICHAEL . "A Study Of Beta-Carotene Stability In Processed Vitamin A-Rich Foods" Afribary (2021). Accessed November 29, 2024. https://tracking.afribary.com/works/a-study-of-beta-carotene-stability-in-processed-vitamin-a-rich-foods