Does Alignment in the Hindfoot Radiograph Influence Dynamic Foot-floor Pressures in Ankle and Tibiotalocalcaneal Fusion?

Background The Saltzman-el-Khoury hindfoot alignment view (HAV) is considered the gold standard for assessing the axis from hindfoot to tibia. However, it is unclear whether radiographic alignment influences dynamic load distribution during gait. Questions/purposes We evaluated varus-valgus alignmen...

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Published in	Clinical orthopaedics and related research Vol. 468; no. 12; pp. 3362 - 3370
Main Authors	Frigg, Arno, Nigg, Benno, Davis, Elysia, Pederson, Beth, Valderrabano, V.
Format	Journal Article
Language	English
Published	New York Springer-Verlag 01.12.2010 Springer Lippincott Williams & Wilkins Ovid Technologies
Subjects	Adult Ankle Joint - diagnostic imaging Ankle Joint - physiopathology Ankle Joint - surgery Arthrodesis Biological and medical sciences Calcaneus - diagnostic imaging Calcaneus - surgery Canada Case-Control Studies Clinical Research Conservative Orthopedics Diseases of the osteoarticular system Female Foot and Ankle Gait Humans Male Medical sciences Medicine Medicine & Public Health Middle Aged Orthopedics Pressure Radiography Recovery of Function Retrospective Studies Sports Medicine Surgery Surgical Orthopedics Talus - diagnostic imaging Talus - surgery Tibia - diagnostic imaging Tibia - surgery Time Factors Treatment Outcome Tibial Axis Visual Judgment Hindfoot Alignment Varus Position Ankle Arthrodesis Ankle Radiography Alignment Ankle joint Radiodiagnosis Orthopedics Exploration Foot
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ISSN	0009-921X 1528-1132 1528-1132
DOI	10.1007/s11999-010-1449-7

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Abstract	Background The Saltzman-el-Khoury hindfoot alignment view (HAV) is considered the gold standard for assessing the axis from hindfoot to tibia. However, it is unclear whether radiographic alignment influences dynamic load distribution during gait. Questions/purposes We evaluated varus-valgus alignment by the HAV and its influence on dynamic load distribution in ankle and tibiotalocalcaneal (TTC) arthrodesis. Patients and Methods We clinically assessed 98 patients (ankle, 56; TTC, 42) with SF-36 and American Orthopaedic Foot and Ankle Society (AOFAS) scores, visual hindfoot alignment, HAV angle, and dynamic pedobarography using a five-step method. For comparison, 70 normal feet were evaluated. Minimum followup was 2 years (average, 4.11 years; range, 2–6 years). Results The mean HAV angle was −0.8° ± 7.8° for ankle and −1.2° ± 6.9° for TTC arthrodesis. The HAV angle correlated with pedobarographic load distribution (r = 0.35–0.53). Radiographic alignment did not influence SF-36 or AOFAS scores; however, load distribution correlated to qualities of these scores. Visual alignment only predicted the corresponding HAV angle in 48%. To reproduce the dynamic load of healthy subjects, HAV angles of 5° to 10° valgus were needed. Conclusions Visual positioning is inadequate to determine intraoperative positioning and resulted in a varus position with a relatively large SD. The HAV should be used to assess the hindfoot alignment correctly. HAV angles of 5° to 10° valgus are needed to reproduce a physiologic gait pattern.
AbstractList	The Saltzman-el-Khoury hindfoot alignment view (HAV) is considered the gold standard for assessing the axis from hindfoot to tibia. However, it is unclear whether radiographic alignment influences dynamic load distribution during gait. We evaluated varus-valgus alignment by the HAV and its influence on dynamic load distribution in ankle and tibiotalocalcaneal (TTC) arthrodesis. We clinically assessed 98 patients (ankle, 56; TTC, 42) with SF-36 and American Orthopaedic Foot and Ankle Society (AOFAS) scores, visual hindfoot alignment, HAV angle, and dynamic pedobarography using a five-step method. For comparison, 70 normal feet were evaluated. Minimum followup was 2 years (average, 4.11 years; range, 2-6 years). The mean HAV angle was -0.8° ± 7.8° for ankle and -1.2° ± 6.9° for TTC arthrodesis. The HAV angle correlated with pedobarographic load distribution (r = 0.35-0.53). Radiographic alignment did not influence SF-36 or AOFAS scores; however, load distribution correlated to qualities of these scores. Visual alignment only predicted the corresponding HAV angle in 48%. To reproduce the dynamic load of healthy subjects, HAV angles of 5° to 10° valgus were needed. Visual positioning is inadequate to determine intraoperative positioning and resulted in a varus position with a relatively large SD. The HAV should be used to assess the hindfoot alignment correctly. HAV angles of 5° to 10° valgus are needed to reproduce a physiologic gait pattern.[PUBLICATION ABSTRACT] The Saltzman-el-Khoury hindfoot alignment view (HAV) is considered the gold standard for assessing the axis from hindfoot to tibia. However, it is unclear whether radiographic alignment influences dynamic load distribution during gait.BACKGROUNDThe Saltzman-el-Khoury hindfoot alignment view (HAV) is considered the gold standard for assessing the axis from hindfoot to tibia. However, it is unclear whether radiographic alignment influences dynamic load distribution during gait.We evaluated varus-valgus alignment by the HAV and its influence on dynamic load distribution in ankle and tibiotalocalcaneal (TTC) arthrodesis.QUESTIONS/PURPOSESWe evaluated varus-valgus alignment by the HAV and its influence on dynamic load distribution in ankle and tibiotalocalcaneal (TTC) arthrodesis.We clinically assessed 98 patients (ankle, 56; TTC, 42) with SF-36 and American Orthopaedic Foot and Ankle Society (AOFAS) scores, visual hindfoot alignment, HAV angle, and dynamic pedobarography using a five-step method. For comparison, 70 normal feet were evaluated. Minimum followup was 2 years (average, 4.11 years; range, 2-6 years).PATIENTS AND METHODSWe clinically assessed 98 patients (ankle, 56; TTC, 42) with SF-36 and American Orthopaedic Foot and Ankle Society (AOFAS) scores, visual hindfoot alignment, HAV angle, and dynamic pedobarography using a five-step method. For comparison, 70 normal feet were evaluated. Minimum followup was 2 years (average, 4.11 years; range, 2-6 years).The mean HAV angle was -0.8° ± 7.8° for ankle and -1.2° ± 6.9° for TTC arthrodesis. The HAV angle correlated with pedobarographic load distribution (r = 0.35-0.53). Radiographic alignment did not influence SF-36 or AOFAS scores; however, load distribution correlated to qualities of these scores. Visual alignment only predicted the corresponding HAV angle in 48%. To reproduce the dynamic load of healthy subjects, HAV angles of 5° to 10° valgus were needed.RESULTSThe mean HAV angle was -0.8° ± 7.8° for ankle and -1.2° ± 6.9° for TTC arthrodesis. The HAV angle correlated with pedobarographic load distribution (r = 0.35-0.53). Radiographic alignment did not influence SF-36 or AOFAS scores; however, load distribution correlated to qualities of these scores. Visual alignment only predicted the corresponding HAV angle in 48%. To reproduce the dynamic load of healthy subjects, HAV angles of 5° to 10° valgus were needed.Visual positioning is inadequate to determine intraoperative positioning and resulted in a varus position with a relatively large SD. The HAV should be used to assess the hindfoot alignment correctly. HAV angles of 5° to 10° valgus are needed to reproduce a physiologic gait pattern.CONCLUSIONSVisual positioning is inadequate to determine intraoperative positioning and resulted in a varus position with a relatively large SD. The HAV should be used to assess the hindfoot alignment correctly. HAV angles of 5° to 10° valgus are needed to reproduce a physiologic gait pattern. Background The Saltzman-el-Khoury hindfoot alignment view (HAV) is considered the gold standard for assessing the axis from hindfoot to tibia. However, it is unclear whether radiographic alignment influences dynamic load distribution during gait. Questions/purposes We evaluated varus-valgus alignment by the HAV and its influence on dynamic load distribution in ankle and tibiotalocalcaneal (TTC) arthrodesis. Patients and Methods We clinically assessed 98 patients (ankle, 56; TTC, 42) with SF-36 and American Orthopaedic Foot and Ankle Society (AOFAS) scores, visual hindfoot alignment, HAV angle, and dynamic pedobarography using a five-step method. For comparison, 70 normal feet were evaluated. Minimum followup was 2 years (average, 4.11 years; range, 2–6 years). Results The mean HAV angle was −0.8° ± 7.8° for ankle and −1.2° ± 6.9° for TTC arthrodesis. The HAV angle correlated with pedobarographic load distribution (r = 0.35–0.53). Radiographic alignment did not influence SF-36 or AOFAS scores; however, load distribution correlated to qualities of these scores. Visual alignment only predicted the corresponding HAV angle in 48%. To reproduce the dynamic load of healthy subjects, HAV angles of 5° to 10° valgus were needed. Conclusions Visual positioning is inadequate to determine intraoperative positioning and resulted in a varus position with a relatively large SD. The HAV should be used to assess the hindfoot alignment correctly. HAV angles of 5° to 10° valgus are needed to reproduce a physiologic gait pattern. The Saltzman-el-Khoury hindfoot alignment view (HAV) is considered the gold standard for assessing the axis from hindfoot to tibia. However, it is unclear whether radiographic alignment influences dynamic load distribution during gait. We evaluated varus-valgus alignment by the HAV and its influence on dynamic load distribution in ankle and tibiotalocalcaneal (TTC) arthrodesis. We clinically assessed 98 patients (ankle, 56; TTC, 42) with SF-36 and American Orthopaedic Foot and Ankle Society (AOFAS) scores, visual hindfoot alignment, HAV angle, and dynamic pedobarography using a five-step method. For comparison, 70 normal feet were evaluated. Minimum followup was 2 years (average, 4.11 years; range, 2-6 years). The mean HAV angle was -0.8° ± 7.8° for ankle and -1.2° ± 6.9° for TTC arthrodesis. The HAV angle correlated with pedobarographic load distribution (r = 0.35-0.53). Radiographic alignment did not influence SF-36 or AOFAS scores; however, load distribution correlated to qualities of these scores. Visual alignment only predicted the corresponding HAV angle in 48%. To reproduce the dynamic load of healthy subjects, HAV angles of 5° to 10° valgus were needed. Visual positioning is inadequate to determine intraoperative positioning and resulted in a varus position with a relatively large SD. The HAV should be used to assess the hindfoot alignment correctly. HAV angles of 5° to 10° valgus are needed to reproduce a physiologic gait pattern.
Author	Pederson, Beth Davis, Elysia Frigg, Arno Valderrabano, V. Nigg, Benno
Author_xml	– sequence: 1 givenname: Arno surname: Frigg fullname: Frigg, Arno email: mail@arnofrigg.com organization: Department of Orthopaedics, University of Calgary, Human Performance Laboratory, University of Calgary, Department of Orthopaedic Surgery, University of Basel Hospital – sequence: 2 givenname: Benno surname: Nigg fullname: Nigg, Benno organization: Human Performance Laboratory, University of Calgary – sequence: 3 givenname: Elysia surname: Davis fullname: Davis, Elysia organization: Human Performance Laboratory, University of Calgary – sequence: 4 givenname: Beth surname: Pederson fullname: Pederson, Beth organization: Department of Orthopaedics, University of Calgary – sequence: 5 givenname: V. surname: Valderrabano fullname: Valderrabano, V. organization: Human Performance Laboratory, University of Calgary, Department of Orthopaedic Surgery, University of Basel Hospital
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Keywords	Tibial Axis Visual Judgment Hindfoot Alignment Varus Position Ankle Arthrodesis Ankle Radiography Alignment Ankle joint Radiodiagnosis Orthopedics Exploration Foot
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Snippet	Background The Saltzman-el-Khoury hindfoot alignment view (HAV) is considered the gold standard for assessing the axis from hindfoot to tibia. However, it is... The Saltzman-el-Khoury hindfoot alignment view (HAV) is considered the gold standard for assessing the axis from hindfoot to tibia. However, it is unclear...
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SubjectTerms	Adult Ankle Joint - diagnostic imaging Ankle Joint - physiopathology Ankle Joint - surgery Arthrodesis Biological and medical sciences Calcaneus - diagnostic imaging Calcaneus - surgery Canada Case-Control Studies Clinical Research Conservative Orthopedics Diseases of the osteoarticular system Female Foot and Ankle Gait Humans Male Medical sciences Medicine Medicine & Public Health Middle Aged Orthopedics Pressure Radiography Recovery of Function Retrospective Studies Sports Medicine Surgery Surgical Orthopedics Talus - diagnostic imaging Talus - surgery Tibia - diagnostic imaging Tibia - surgery Time Factors Treatment Outcome
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Title	Does Alignment in the Hindfoot Radiograph Influence Dynamic Foot-floor Pressures in Ankle and Tibiotalocalcaneal Fusion?
URI	https://link.springer.com/article/10.1007/s11999-010-1449-7 https://www.ncbi.nlm.nih.gov/pubmed/20585909 https://www.proquest.com/docview/856989441 https://www.proquest.com/docview/763165704 https://pubmed.ncbi.nlm.nih.gov/PMC2974889
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