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sentences

Id Subject Object Predicate Lexical cue
TextSentencer_T1 0-111 Sentence denotes The enzymatic degradation and swelling properties of chitosan matrices with different degrees of N-acetylation.
TextSentencer_T2 112-319 Sentence denotes In the design of chitosan-based drug delivery systems and implantable scaffolds, the biodegradation rate of the chitosan matrix represents a promising strategy for drug delivery and the function of carriers.
TextSentencer_T3 320-572 Sentence denotes In this study, we have investigated the degradation of chitosan with different degrees of N-acetylation, with respect to weight loss, water absorption, swelling behavior, molecular weight loss of bulk materials, and reducing sugar content in the media.
TextSentencer_T4 573-628 Sentence denotes Chitosan matrices were prepared by compression molding.
TextSentencer_T5 629-864 Sentence denotes The results revealed that the initial degradation rate, equilibrium water absorption, and swelling degree increased with decreasing degree of deacetylation (DD) and a dramatic rise began as DD of the chitosan matrix decreased to 62.4%.
TextSentencer_T6 865-1085 Sentence denotes Chitosan matrices with DD of 52.6%, 56.1%, and 62.4% had the weight half-life of 9.8, 27.3, and more than 56 days, respectively, and the weight half-life of average molecular weight 8.4, 8.8, and 20.0 days, respectively.
TextSentencer_T7 1086-1229 Sentence denotes For chitosan matrices with DD of 71.7%, 81.7%, and 93.5%, both types of half-life exceeded 84 days because of the much slower degradation rate.
TextSentencer_T8 1230-1342 Sentence denotes The dimension of chitosan matrices during degradation was determined by the process of swelling and degradation.
TextSentencer_T9 1343-1508 Sentence denotes These findings may help to design chitosan-based biomedical materials with predetermined degradation timed from several days to months and proper swelling behaviors.
T1 0-111 Sentence denotes The enzymatic degradation and swelling properties of chitosan matrices with different degrees of N-acetylation.
T2 112-319 Sentence denotes In the design of chitosan-based drug delivery systems and implantable scaffolds, the biodegradation rate of the chitosan matrix represents a promising strategy for drug delivery and the function of carriers.
T3 320-572 Sentence denotes In this study, we have investigated the degradation of chitosan with different degrees of N-acetylation, with respect to weight loss, water absorption, swelling behavior, molecular weight loss of bulk materials, and reducing sugar content in the media.
T4 573-628 Sentence denotes Chitosan matrices were prepared by compression molding.
T5 629-864 Sentence denotes The results revealed that the initial degradation rate, equilibrium water absorption, and swelling degree increased with decreasing degree of deacetylation (DD) and a dramatic rise began as DD of the chitosan matrix decreased to 62.4%.
T6 865-1085 Sentence denotes Chitosan matrices with DD of 52.6%, 56.1%, and 62.4% had the weight half-life of 9.8, 27.3, and more than 56 days, respectively, and the weight half-life of average molecular weight 8.4, 8.8, and 20.0 days, respectively.
T7 1086-1229 Sentence denotes For chitosan matrices with DD of 71.7%, 81.7%, and 93.5%, both types of half-life exceeded 84 days because of the much slower degradation rate.
T8 1230-1342 Sentence denotes The dimension of chitosan matrices during degradation was determined by the process of swelling and degradation.
T9 1343-1508 Sentence denotes These findings may help to design chitosan-based biomedical materials with predetermined degradation timed from several days to months and proper swelling behaviors.

PubmedHPO

Id Subject Object Predicate Lexical cue
T1 441-452 HP_0001824 denotes weight loss
T2 501-512 HP_0001824 denotes weight loss

GlyCosmos15-HP

Id Subject Object Predicate Lexical cue hp_id
T1 441-452 Phenotype denotes weight loss HP:0001824
T2 501-512 Phenotype denotes weight loss HP:0001824