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1 espiratory impairment associated with severe pectus excavatum.
2 ol subjects were evaluated for scoliosis and pectus excavatum.
3 body morphotype, often with scoliosis and/or pectus excavatum.
4 ysiologic impairments associated with severe pectus excavatum and to define inclusion criteria for su
5 f scapula, fusion of spine, rib abnormities, pectus excavatum, and pes planus represented skeletal an
7 ds from 375 patients who underwent repair of pectus excavatum deformities between 1969 and 1999 were
11 , safe and effective operative correction of pectus excavatum has been reported for both the Nuss pro
12 d cardiorespiratory testing of patients with pectus excavatum have helped to characterize physiologic
14 the Nuss procedure in 1997 for treatment of pectus excavatum, in conjunction with the ever-expanding
16 body habitus and higher rates of scoliosis, pectus excavatum, mitral valve prolapse, and mutations i
17 , 116 patients over the age of 18 years with pectus excavatum (n = 104) or carinatum (n = 12) deformi
18 paracostal subcutaneous nodule (n = 4), mild pectus excavatum (n = 4), or mild pectus carinatum (n =
19 the patients were symptomatic, had a severe pectus excavatum on a clinical basis and fulfilled two o
22 Adolescent idiopathic scoliosis (AIS) and pectus excavatum (PE) are common pediatric musculoskelet
24 ophylaxis (PAP) is frequently used following pectus excavatum repair and accounts for the highest rel
25 ildren aged younger than 18 years undergoing pectus excavatum repair from January 2021 to December 20
27 hould prompt timely work-up and referral for pectus excavatum repair if inclusion criteria are met.
28 The subsequent increase in referrals for pectus excavatum repair provided large patient series fo
29 study of 3552 pediatric patients undergoing pectus excavatum repair, postoperative antibiotic use wa