PURPOSE: The aim of this study was to establish ranges of angular variation in lordotic and kyphotic curves in normal male and female children and adolescents. METHODS: We developed a pantograph to measure dorsal curves. It consisted of a tripod-supported vertical strut to which an articulated bar was fixed and which had an arm that was able to follow the dorsal surface while moving up and down. This arm was positioned over the C7 spinous process and followed spinous processes to L5 at constant speed. A laser beam was used to ensure the proper positioning of the pantograph and the subject. The motion was recorded using software so that the dorsal outline was represented on a computer screen, and lordotic and kyphotic curves were automatically measured. Before performing the population study, the pantograph was validated in 20 normal subjects by comparing the pantograph measurements with lateral spine radiographs. There were no statistically significant differences in the measurements. There were 718 subjects with no race selection, of whom 350 were males and 368 females ranging in age from 5 to 20 years and presenting normal weight and height. Individuals with generalized ligament laxity, trunk asymmetry, muscle retraction, or any orthopedic anomaly were excluded from the study. Data were analyzed according to age and gender. Student's t tests and regression analysis were performed. RESULTS: Kyphotic curves increased linearly from 25 degrees at 7 years of age to 38 degrees at 19 years of age (kyphotic angle = 25 degrees + 0.58 x age). Lordotic curves increased linearly from 22 degrees at 5 years of age to 32 degrees at 20 years of age (lordotic angle = 24 degrees + 0.51 x age). There were no differences between males and females. CONCLUSIONS: The pantograph that was developed for this study was successfully used to establish the normal ranges and progression of thoracic kyphosis and lumbar lordosis in the studied population. Both curves increased linearly with age, with no differences between males and females.
PURPOSE: The aim of this study was to establish ranges of angular variation in lordotic and kyphotic curves in normal male and female children and adolescents. METHODS: We developed a pantograph to measure dorsal curves. It consisted of a tripod-supported vertical strut to which an articulated bar was fixed and which had an arm that was able to follow the dorsal surface while moving up and down. This arm was positioned over the C7 spinous process and followed spinous processes to L5 at constant speed. A laser beam was used to ensure the proper positioning of the pantograph and the subject. The motion was recorded using software so that the dorsal outline was represented on a computer screen, and lordotic and kyphotic curves were automatically measured. Before performing the population study, the pantograph was validated in 20 normal subjects by comparing the pantograph measurements with lateral spine radiographs. There were no statistically significant differences in the measurements. There were 718 subjects with no race selection, of whom 350 were males and 368 females ranging in age from 5 to 20 years and presenting normal weight and height. Individuals with generalized ligament laxity, trunk asymmetry, muscle retraction, or any orthopedic anomaly were excluded from the study. Data were analyzed according to age and gender. Student's t tests and regression analysis were performed. RESULTS: Kyphotic curves increased linearly from 25 degrees at 7 years of age to 38 degrees at 19 years of age (kyphotic angle = 25 degrees + 0.58 x age). Lordotic curves increased linearly from 22 degrees at 5 years of age to 32 degrees at 20 years of age (lordotic angle = 24 degrees + 0.51 x age). There were no differences between males and females. CONCLUSIONS: The pantograph that was developed for this study was successfully used to establish the normal ranges and progression of thoracic kyphosis and lumbar lordosis in the studied population. Both curves increased linearly with age, with no differences between males and females.
Authors: P Stagnara; J C De Mauroy; G Dran; G P Gonon; G Costanzo; J Dimnet; A Pasquet Journal: Spine (Phila Pa 1976) Date: 1982 Jul-Aug Impact factor: 3.468
Authors: Jacob L Jaremko; Kerry Siminoski; Gregory B Firth; Mary Ann Matzinger; Nazih Shenouda; Victor N Konji; Johannes Roth; Anne Marie Sbrocchi; Martin H Reed; Mary Kathleen O'Brien; Helen Nadel; Scott McKillop; Reinhard Kloiber; Josée Dubois; Craig Coblentz; Martin Charron; Leanne M Ward Journal: Pediatr Radiol Date: 2015-04-01