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W2022249739 endingPage "376" @default.
W2022249739 startingPage "369" @default.
W2022249739 abstract "The human dentition is indispensable for nutrition and physiology. The teeth have evolved for mastication of food. Caries is a common dental problem in which the dentin matrix is damaged. When the caries is deep and the dental pulp is exposed, the pulp has to be removed in many cases, resulting ultimately in loss of the tooth. Therefore, the regeneration of dentin–pulp complex is the long-term goal of operative dentistry and endodontics. The key elements of dentin regeneration are stem cells, morphogens such as bone morphogenetic proteins (BMPs) and a scaffold of extracellular matrix. The dental pulp has stem/progenitor cells that have the potential to differentiate into dentin-forming odontoblasts in response to BMPs. Pulpal wound healing consists of stem/progenitor cells release from dental pulp niche after noxious stimuli such as caries, migration to the injured site, proliferation and differentiation into odontoblasts. There are two main strategies for pulp therapy to regenerate dentin: (1) in vivo method of enhancing the natural healing potential of pulp tissue by application of BMP proteins or BMP genes, (2) ex vivo method of isolation of stem/progenitor cells, differentiation with BMP proteins or BMP genes and transplantation to the tooth. This review summarizes recent advances in application of BMPs for dentin regeneration and possible use in endodotic therapy." @default.
W2022249739 created "2016-06-24" @default.
W2022249739 creator A5012000909 @default.
W2022249739 date "2005-06-01" @default.
W2022249739 modified "2023-10-11" @default.
W2022249739 title "Bone morphogenetic proteins in dentin regeneration for potential use in endodontic therapy" @default.
W2022249739 cites W126539919 @default.
W2022249739 cites W1505671001 @default.
W2022249739 cites W1514351476 @default.
W2022249739 cites W1574990684 @default.
W2022249739 cites W1598499988 @default.
W2022249739 cites W1608761342 @default.
W2022249739 cites W1848208109 @default.
W2022249739 cites W1871465668 @default.
W2022249739 cites W1892597044 @default.
W2022249739 cites W1967880945 @default.
W2022249739 cites W1970743974 @default.
W2022249739 cites W1974474084 @default.
W2022249739 cites W1976260078 @default.
W2022249739 cites W1979614824 @default.
W2022249739 cites W1984434232 @default.
W2022249739 cites W1986756668 @default.
W2022249739 cites W1988027093 @default.
W2022249739 cites W1992386218 @default.
W2022249739 cites W1995216167 @default.
W2022249739 cites W1995618020 @default.
W2022249739 cites W2003184912 @default.
W2022249739 cites W2012490303 @default.
W2022249739 cites W2012532835 @default.
W2022249739 cites W2012911528 @default.
W2022249739 cites W2015272152 @default.
W2022249739 cites W2018122494 @default.
W2022249739 cites W2020181463 @default.
W2022249739 cites W2021594371 @default.
W2022249739 cites W2023904245 @default.
W2022249739 cites W2025266673 @default.
W2022249739 cites W2027582069 @default.
W2022249739 cites W2028013493 @default.
W2022249739 cites W2033532151 @default.
W2022249739 cites W2034833973 @default.
W2022249739 cites W2036177067 @default.
W2022249739 cites W2038559883 @default.
W2022249739 cites W2039166445 @default.
W2022249739 cites W2040872261 @default.
W2022249739 cites W2042686954 @default.
W2022249739 cites W2044071797 @default.
W2022249739 cites W2046303644 @default.
W2022249739 cites W2049626934 @default.
W2022249739 cites W2053494842 @default.
W2022249739 cites W2056145075 @default.
W2022249739 cites W2059996103 @default.
W2022249739 cites W2061135487 @default.
W2022249739 cites W2061711165 @default.
W2022249739 cites W2062950682 @default.
W2022249739 cites W2067612225 @default.
W2022249739 cites W2070604578 @default.
W2022249739 cites W2073591912 @default.
W2022249739 cites W2074624875 @default.
W2022249739 cites W2075009901 @default.
W2022249739 cites W2076297372 @default.
W2022249739 cites W2077306917 @default.
W2022249739 cites W2077723038 @default.
W2022249739 cites W2082700122 @default.
W2022249739 cites W2083119665 @default.
W2022249739 cites W2086756165 @default.
W2022249739 cites W2091298489 @default.
W2022249739 cites W2098649929 @default.
W2022249739 cites W2103266668 @default.
W2022249739 cites W2117924632 @default.
W2022249739 cites W2119788302 @default.
W2022249739 cites W2120977989 @default.
W2022249739 cites W2121183702 @default.
W2022249739 cites W2123112048 @default.
W2022249739 cites W2130516299 @default.
W2022249739 cites W2136767600 @default.
W2022249739 cites W2137956382 @default.
W2022249739 cites W2139519181 @default.
W2022249739 cites W2142571448 @default.
W2022249739 cites W2153493057 @default.
W2022249739 cites W2157666800 @default.
W2022249739 cites W2157962408 @default.
W2022249739 cites W2286768362 @default.
W2022249739 cites W2422053735 @default.
W2022249739 cites W4213350484 @default.
W2022249739 doi "https://doi.org/10.1016/j.cytogfr.2005.02.011" @default.
W2022249739 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/15878301" @default.
W2022249739 hasPublicationYear "2005" @default.
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