Pentyala S.N.
63
Coauthors
10
Documentos
Volumen de publicaciones por año
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| Año de publicación | Num. Publicaciones |
|---|---|
| 2015 | 1 |
| 2016 | 1 |
| 2017 | 2 |
| 2018 | 1 |
| 2019 | 1 |
| 2021 | 2 |
| 2022 | 1 |
| 2023 | 1 |
Publicaciones por áreas de conocimiento
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| Área de conocimiento | Num. Publicaciones |
|---|---|
| Biotecnología | 3 |
| Biomateriales | 3 |
| Cirugía | 2 |
| Ciencia de materiales | 2 |
| Medicina interna | 2 |
| Péptido | 2 |
| Cáncer | 2 |
| Ingeniería de manufactura | 1 |
| Biomedicina | 1 |
| Proteína | 1 |
Publicaciones por áreas temáticas
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| Área temática | Num. Publicaciones |
|---|---|
| Medicina y salud | 6 |
| Cirugía y especialidades médicas afines | 5 |
| Enfermedades | 4 |
| Fisiología humana | 4 |
| Física aplicada | 2 |
| Farmacología y terapéutica | 2 |
| Ingeniería y operaciones afines | 1 |
| Ginecología, obstetricia, pediatría, geriatría | 1 |
Principales fuentes de datos
| Origen | Num. Publicaciones |
|---|---|
| Scopus | 10 |
| Google Scholar | 5 |
| RRAAE | 0 |
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Coautores destacados por número de publicaciones
| Coautor | Num. Publicaciones |
|---|---|
| David Edward Komatsu | 9 |
| Carlos G. Helguero | 7 |
| Kao I. | 7 |
| Mustahsan V.M. | 7 |
| Pentyala S. | 4 |
| Pfail J. | 3 |
| Parmar S. | 3 |
| He G. | 2 |
| Khan F.A. | 2 |
| Jorge Luis Amaya Rivas | 2 |
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Publicaciones del autor
Biocompatible customized 3D bone scaffolds treated with CRFP, an osteogenic peptide
ArticleAbstract: Background: Currently used synthetic bone graft substitutes (BGS) are either too weak to bear the prPalabras claves:3D Printing, ABS, Artificial bone, CRFP, MED610, Osteogenic peptide, ScaffoldsAutores:Anugu A., David Edward Komatsu, Kao I., Mustahsan V.M., Pentyala S.N.Fuentes:scopusIdentification and Characterization of a Synthetic Osteogenic Peptide
ArticleAbstract: Osteoporosis is the most common metabolic bone disorder and its management represents a tremendous pPalabras claves:bioinformatics, Calcitonin, microCT, OSTEOPOROSIS, OvariectomyAutores:David Edward Komatsu, Hadjiargyrou M., Pentyala S.N., Trasolini N.A., Udin S.M.Z.Fuentes:scopusA manufacturing approach to functional biomimetic three-dimensional-printed bone implants
ArticleAbstract: Orthopedic surgeons frequently face the problem of selecting adequate implants that fulfill certainPalabras claves:bone reconstruction, Bone scaffolds, Implants, orthopedics, three-dimensional printingAutores:Carlos G. Helguero, David Edward Komatsu, Emilio A. Ramírez, Jorge Luis Amaya Rivas, Kao I., Pentyala S.N.Fuentes:googlescopusTrabecular Scaffolds' Mechanical Properties of Bone Reconstruction Using Biomimetic Implants
Conference ObjectAbstract: Several studies characterized and tested properties related to bone structure like the biomimicry anPalabras claves:3D Printing, Bone scaffolds, Implants, orthopedicsAutores:Carlos G. Helguero, David Edward Komatsu, Emilio A. Ramírez, Jorge Luis Amaya Rivas, Kao I., Mustahsan V.M., Pentyala S.N.Fuentes:googlescopusBiomechanical properties of 3D-printed bone scaffolds are improved by treatment with CRFP
ArticleAbstract: Background: One of the major challenges in orthopedics is to develop implants that overcome currentPalabras claves:Autores:Carlos G. Helguero, David Edward Komatsu, Kao I., Mustahsan V.M., Parmar S., Pentyala S., Pentyala S.N., Pfail J.Fuentes:googlescopus