RATIONALE: To evaluate the appropriateness of spirometric and plethysmographic reference equations in healthy young children according to ethnic origin. METHODS: Spirometry data were collated in 400 healthy children (214 Black and 186 White) aged 6-12 years. Of these children, 68 Black and 115 White children also undertook plethysmography. Results were expressed as percent predicted according to commonly used equations for spirometry and plethysmography. RESULTS: Black children had lower lung function for a given height compared to White children. The magnitude and direction of these differences varied according to specific outcome. In the studied age range (6-12 years) the ethnic-specific Wang equations were adequate for spirometry (mean results approximating 100% predicted in both ethnic groups). By contrast, significant differences were found between observed and % predicted plethysmographic lung volumes according to published equations derived from White children: Among the Black children, function residual capacity (FRC) and total lung capacity (TLC) were on average, 14 and 6% lower than predicted, whereas mean residual volume (RV) and RV/TLC were 4 and 10% higher. Among White children, the Rosenthal equations gave the best fit, with the exception of FRC which was, on average, 9% lower than predicted. CONCLUSION: Spirometry equations may suffice in Black children; however, interpretation of static lung volumes in Black children is limited due to inappropriate reference equations. More appropriate plethysmographic reference equations that are applicable to all ethnic groups across the entire age range are urgently needed.
RATIONALE: To evaluate the appropriateness of spirometric and plethysmographic reference equations in healthy young children according to ethnic origin. METHODS: Spirometry data were collated in 400 healthy children (214 Black and 186 White) aged 6-12 years. Of these children, 68 Black and 115 White children also undertook plethysmography. Results were expressed as percent predicted according to commonly used equations for spirometry and plethysmography. RESULTS: Black children had lower lung function for a given height compared to White children. The magnitude and direction of these differences varied according to specific outcome. In the studied age range (6-12 years) the ethnic-specific Wang equations were adequate for spirometry (mean results approximating 100% predicted in both ethnic groups). By contrast, significant differences were found between observed and % predicted plethysmographic lung volumes according to published equations derived from White children: Among the Black children, function residual capacity (FRC) and total lung capacity (TLC) were on average, 14 and 6% lower than predicted, whereas mean residual volume (RV) and RV/TLC were 4 and 10% higher. Among White children, the Rosenthal equations gave the best fit, with the exception of FRC which was, on average, 9% lower than predicted. CONCLUSION: Spirometry equations may suffice in Black children; however, interpretation of static lung volumes in Black children is limited due to inappropriate reference equations. More appropriate plethysmographic reference equations that are applicable to all ethnic groups across the entire age range are urgently needed.
Authors: L Hansson; T Hedner; P Lund-Johansen; S E Kjeldsen; L H Lindholm; J O Syvertsen; J Lanke; U de Faire; B Dahlöf; B E Karlberg Journal: Lancet Date: 2000-07-29 Impact factor: 79.321
Authors: R J Kuczmarski; C L Ogden; L M Grummer-Strawn; K M Flegal; S S Guo; R Wei; Z Mei; L R Curtin; A F Roche; C L Johnson Journal: Adv Data Date: 2000-06-08
Authors: Shaina M Willen; Robyn Cohen; Mark Rodeghier; Fenella Kirkham; Susan S Redline; Carol Rosen; Jane Kirkby; Michael R DeBaun Journal: Am J Hematol Date: 2018-01-25 Impact factor: 10.047
Authors: Robyn T Cohen; Robert C Strunk; Mark Rodeghier; Carol L Rosen; Fenella Jane Kirkham; Jane Kirkby; Michael R DeBaun Journal: Ann Am Thorac Soc Date: 2016-08
Authors: Jonathan Witonsky; Jennifer R Elhawary; Celeste Eng; José R Rodríguez-Santana; Luisa N Borrell; Esteban G Burchard Journal: Chest Date: 2022-01-13 Impact factor: 10.262
Authors: Robyn T Cohen; Robert C Strunk; Joshua J Field; Carol L Rosen; Fenella J Kirkham; Susan Redline; Janet Stocks; Mark J Rodeghier; Michael R DeBaun Journal: Chest Date: 2013-10 Impact factor: 9.410
Authors: Robert C Strunk; Robyn T Cohen; Benjamin P Cooper; Mark Rodeghier; Fenella J Kirkham; John O Warner; Janet Stocks; Jane Kirkby; Irene Roberts; Carol L Rosen; Daniel I Craven; Michael R DeBaun Journal: J Pediatr Date: 2013-12-31 Impact factor: 4.406
Authors: Robert F Tamburro; Kenneth R Cooke; Stella M Davies; Samuel Goldfarb; James S Hagood; Ashok Srinivasan; Marie E Steiner; Dennis Stokes; Nancy DiFronzo; Nahed El-Kassar; Nonniekaye Shelburne; Aruna Natarajan Journal: Ann Am Thorac Soc Date: 2021-03
Authors: Michele Arigliani; Chiara Stocco; Elena Valentini; Carlo De Pieri; Luigi Castriotta; Maria Elena Ferrari; Cristina Canciani; Lorenza Driul; Maria Orsaria; Luigi Cattarossi; Paola Cogo Journal: Pediatr Res Date: 2021-01-19 Impact factor: 3.756
Authors: Sooky Lum; Vassiliki Bountziouka; Samatha Sonnappa; Angie Wade; Tim J Cole; Seeromanie Harding; Jonathan C K Wells; Chris Griffiths; Philip Treleaven; Rachel Bonner; Jane Kirkby; Simon Lee; Emma Raywood; Sarah Legg; Dave Sears; Philippa Cottam; Colin Feyeraband; Janet Stocks Journal: Eur Respir J Date: 2015-10-22 Impact factor: 16.671
Authors: Alan Lunt; Na'eem Ahmed; Gerrard F Rafferty; Moira Dick; David Rees; Sue Height; Swee Lay Thein; Anne Greenough Journal: Pediatr Res Date: 2015-10-22 Impact factor: 3.756