Retos educativos, de investigación y normativos para la criminología en México

Autores/as

Resumen

El presente artículo se base al análisis realizado sobre los nuevos retos de la educación superior de la criminología (Navasquillo Lorda, 2016), en los cuales se destaca la necesidad de un proceso de cambio, especialización de los contenidos de la criminología, y áreas de salida laboral de los egresados de licenciatura en criminología. Son tres propuestas las que aquí se hacen y consideran a reflexión del lector: La posibilidad de realizar cambios a nivel legislativo para establecer las salidas profesionales del egresado de licenciatura en criminología, determinar sus alcances y objetivos en las áreas que se consideren oportunas y relacionadas con los estudios de las causas del crimen y la prevención. Dos: La imperante necesidad de especializar a la criminología general en campos especializados en problemas criminales, puesto que los fenómenos nuevos no se pueden seguir atendiendo con conocimientos viejos y generales, y tercera: El fomentar y fortalecer la investigación generadora de conocimientos en materia criminal, para que exista un conocimiento a disponibilidad del estudioso de lo criminal, así como para los planificadores de políticas públicas.

 

Educational, research and normative challenges for criminology in Mexico

This article builds on the analysis carried out on the new challenges of criminology higher education (Navasquillo Lorda, 2016), which highlights the need for a process of change, specialization of the contents of the criminology, and areas of work exit of graduates in criminology. Three proposals are made here and consider to the reader’s reflection: The first: Possibility of making changes at the legislative level to establish the professional outings of the graduate in criminology, determine their scope and objectives in the areas deemed appropriate and related to studies of the causes of crime and prevention. Two: The prevailing need to specialize in general criminology in fields specialized in criminal problems, since new phenomena cannot continue to be addressed with old and general knowledge, and third: the promotion and strengthening of investigation generating knowledge in criminal matters, so that there is knowledge available to the scholar of the criminal, as well as for public policy planners.

Keywords: Educational system; Employment opportunities; Legislation; Research; Teaching process.

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Biografía del autor/a

Wael Sarwat Hikal Carreón, Facultad de Filosofía y Letras

Doctorando en Filosofía con Acentuación en Estudios de la Educación por la Facultad de Filosofía y Letras (becario UANL-CONACYT). Maestría en Trabajo Social con Orientación en Proyectos Sociales (becario UANL-CONACYT) por la Facultad de Trabajo Social y Desarrollo Humano, de la Universidad Autónoma de Nuevo León.

Citas

Uribe G. Ortodoncia Teoría y Clínica. 2da Ed. Cap 59: 1017-1049. Medellín, Colombia,

Cib; 2010.

Cardoso R, Goncalves E. Actualización en Ortodoncia y Ortopedia Funcional de

los Maxilares. 1er Ed. Cap 12: 179-184. Sao Paulo, Brasil, Ed. Médica Panamericana;

Segal R, Schiffman H, Tuncay C. Meta-analysis of the treatment-related factors of

external apical root resorption. Orthod Craniofacial Res, 2004; 7(2):71–78.

Malmgren O, Goldson L, Hill C, Orwin A, Petrini L, Lundberg M. Root resorption after

orthodontic treatment of traumatized teeth. Am J Orthod, 1982; 82(6):487–491.

Levander E, Malmgren O. Evaluation of the risk of root resorption during orthodontic

treatment. A study of upper incisors. Eur J Orthod, 1988;10(1):30-38.

Dudic A, Giannopoulou C, Martinez M, Montet X, Kiliaridis S. Diagnostic accuracy

of digitized periapical radiographs validated against micro-computed tomography scanning in evaluating orthodontically induced apical root resorption. Eur J

Oral Sci 2008; 116(5): 467–472.

Rena H, Chenb J, Dengc F, Zhengd L, Liue X, Donga Y. Comparison of cone-beam

computed tomography and periapical radiography for detecting simulated apical

root resorption. Angle Orthod. 2013; 83(2):189–195.

Dudic A, Giannopoulou C, Leuzinger M, Kiliaridis S. Detection of apical root resorption

after orthodontic treatment by using panoramic radiography and cone-beam

computed tomography of super-high resolution. Am J Orthod Dentofac Orthop,

; 135(4):434–437.

Makedonas D, Lund H, Gröndahl K, Hansen K. Root resorption diagnosed with cone

beam computed tomography after 6 months of orthodontic treatment with fixed

appliance and the relation to risk factors. Angle Orthod. 2012; 82(2):196–201.

Troncoso P, Bravo D, Sandoval P. Reabsorción radicular externa producida por

fuerzas ortodóncicas. Rev Chil Ortod, 2013; 30(XX):20-32.

Lozano A, Ruiz L. Reabsorción radicular en ortodoncia: revisión de la literatura.

Univ Odontol, 2009; 28(60):45-51.

Killiany M. Root resorption caused by orthodontic treatment: an evidence-based

review of literature. Semin Orthod, 1999; 5(2):128–133.

Owman P, Kurol J, Lundgren D. Continuous versus interrupted continuous orthodontic

force related to early tooth movement and root resorption. Angle orthod,

; 65(6):395-402.

Harris F, Kineret E, Tolley A. A heritable component for external apical root resorption

in patients treated orthodontically. Am J Orthod Dentofacial Orthop, 1997;

(3):301–309.

Al-Qawasmi A, Hartsfield K, Everett T. Genetic factors in external apical root resorption

and orthodontic treatment. Crit Rev Oral Biol Med, 2004; 15(2):115–122.

Vélez S, Camargo J, Correa P, Anaya J. Bases Moleculares de la familia de la Interleuquina

Revista colombiana de Reumatología, 2004; 11(1):11-39.

Fernández R, Tobón D, Osorno K, Zuluaga O. Polimorfismo Genético para la interleukina-

ß como modulador de los procesos de reabsorción ósea. Rev CES

Odonto, 2012; 25(1): 92-101.

Iglesias A, Yañez R, Ballesta S, Ortiz E, Ortega H, Mendoza A. Postorthodontic external

root resorption is associated with IL1 receptor antagonist gene variations.

Oral Dis, 2012; 18(2):198–205.

Iglesias A, Yañez R, Ballesta S, Ortiz E, Mendoza A, Perea E. Interleukin 1 gene

cluster SNPs (rs1800587, rs1143634) influences post-orthodontic root resorption

in endodontic and their contralateral vital control teeth differently. Int Endod

J, 2012; 45(11):1018–1026.

Linhartova P, Cernochova P, Izakovicova Holla L. IL1 gene polymorphisms in relation

to external apical root resorption concurrent with orthodontia. Oral Dis,

; 19(3): 262–270.

Al-Qawasmi A, Hartsfield K, Everett T, Flury L, Liu L, Foroud M. Genetic predisposition

to external apical root resorption. Am J Orthod Dentofac Orthop. 2003;

(3):242–252.

Stashenko P, Obernesser MS, Dewhirst FE. Effect of immune cytokines on bone.

Immunol. Invest. 1989; 18(1-4):239-249.

Stashenko P, Dewhirst FE, Peros WJ, Kent RL, Ago JM. Synergistic interactions

between interleukin 1, tumor necrosis factor, and lymphotoxin in bone resorption.

J Immunol.1987; 138(5):1464-1468.

Wu L, Wang Y, Huang Q, Guo B, Liu D, Li G. Interleukin-1β +3954 polymorphisms

and risk of external apical root resorption in orthodontic treatment: A meta-analysis.

Genet Mol Res, 2013; 12(4):4678–4686.

Sharab Y, Morford A, Dempsey J, Falcão G, Mason A, Jacobson E. Genetic and

treatment-related risk factors associated with external apical root resorption

(EARR) concurrent with orthodontia. Orthod Craniofacial Res, 2015; 18(1):71–82.

Linhartova P, Cernochova P, Kastovsky J, Vrankova Z, Sirotkova M, Izakovicova

Holla L. Genetic determinants and postorthodontic external apical root resorption

in Czech children. Oral Dis. 2017; 23(1):29-35.

Pereira S, Lavado N, Nogueira L, Lopez M, Abreu J, Silva H. Polymorphisms of

genes encoding P2X7R, IL-1B, OPG and RANK in orthodontic-induced apical root

resorption. Oral Dis, 2014; 20(7):659–667.

Giacopelli F, Marciano R, Pistorio. Polymorphisms in the osteopontin promoter

affect its transcriptional activity. Physiol Genomics, 2004; 20(1): 87-96.

Iglesias A, Yañez M, Moreno M, Mendoza A, Orce A, Solano E. Osteopontin gene

SNPs (rs9138, rs11730582) mediate susceptibility to external root resorption in

orthodontic patients. Oral Dis, 2014; 20(3):307–312.

Kunii R, Yamagucbi M, Tanimoto Y, Asano M, Yamada K, Goseki T, Kasai K. Role of

interleukin-6 in orthodontically induced inflaminatory root resorption in humans.

KJOD, 2013; 43(6):294–301.

Guo Y, He S, Gu T, Liu Y, Chen S. Genetic and clinical risk factors of root resorption

associated with orthodontic treatment. Am J Orthod Dentofac Orthop. 2016;

(2):283–289.

Fleet C. Molecular regulation of calcium and bone metabolism through the vitamin

D receptor. J Musculoskelet Neuronal Interact, 2006; 6(4):336–337.

Benavides S, Rica C. Reabsorción radicular en tratamientos de Ortodoncia. Revista

Odontología Vital, 2013; 8:47–56.

Fontana N, De Souza M, Bernardino F, Hoette F, Hoette L, Thum L. Association

analysis of clinical aspects and vitamin D receptor gene polymorphism with external

apical root resorption in orthodontic patients. Am J Orthod Dentofac Orthop.

; 142(3):339–347.

Pereira S, Lavado N, Nogueira L, Lopez M, Abreu J, Silva H. Polymorphisms of

genes encoding P2X7R, IL-1B, OPG and RANK in orthodontic-induced apical root

resorption. Oral Dis, 2014; 20(7): 659–667.

Jensen E, Whitehead S. IRAK1b, a novel alternative splice variant of interleukin-

receptor-associated kinase (IRAK), mediates interleukin-1 signaling and

has prolonged stability. J Biol Chem, 2001; 276(31): 29037–29044.

Pereira A, Lopez L, Lavado N, Abreu M, Silva H. A clinical risk prediction model

of orthodontic-induced external apical root resorption. Rev Port Estomatol Med

Dent Cir Maxilofac, 2014; 55(2): 66-72.

Publicado

2020-05-12

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