Effects of T1p Characteristics of Load‐Bearing Hip Cartilage on Bilateral Knee Patellar Cartilage Subregions: Subjects With None to Moderate Radiographic Hip Osteoarthritis

Background The polyarticular nature of Osteoarthritis (OA) tends to manifest in multi‐joints. Associations between cartilage health in connected joints can help identify early degeneration and offer the potential for biomechanical intervention. Such associations between hip and knee cartilages remai...

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Published in	Journal of magnetic resonance imaging Vol. 60; no. 1; pp. 186 - 202
Main Authors	Bhattacharjee, Rupsa, Thahakoya, Rafeek, Luitjens, Johanna, Han, Misung, Roach, Koren E., Jiang, Fei, Souza, Richard B., Pedoia, Valentina, Majumdar, Sharmila
Format	Journal Article
Language	English
Published	Hoboken, USA John Wiley & Sons, Inc 01.07.2024 Wiley Subscription Services, Inc
Subjects	Acetabulum Algorithms Arthritis bilateral Biomechanics Biomedical materials Cartilage Cartilage diseases Degeneration Femur Field strength Hip Joints (anatomy) Knee Normality Osteoarthritis Statistical analysis Statistical tests statistical‐modeling T1p Variance analysis
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ISSN	1053-1807 1522-2586 1522-2586
DOI	10.1002/jmri.29009

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Abstract	Background The polyarticular nature of Osteoarthritis (OA) tends to manifest in multi‐joints. Associations between cartilage health in connected joints can help identify early degeneration and offer the potential for biomechanical intervention. Such associations between hip and knee cartilages remain understudied. Purpose To investigate T1p associations between hip‐femoral and acetabular‐cartilage subregions with Intra‐limb and Inter‐limb patellar cartilage; whole and deep‐medial (DM), deep‐lateral (DL), superficial‐medial (SM), superficial‐lateral (SL) subregions. Study Type Prospective. Subjects Twenty‐eight subjects (age 55.1 ± 12.8 years, 15 females) with none‐to‐moderate hip‐OA while no radiographic knee‐OA. Field Strength/Sequence 3‐T, bilateral hip, and knee: 3D‐proton‐density‐fat‐saturated (PDFS) Cube and Magnetization‐Prepared‐Angle‐Modulated‐Partitioned‐k‐Space‐Spoiled‐Gradient‐Echo‐Snapshots (MAPSS). Assessment Ages of subjects were categorized into Group‐1 (≤40), Group‐2 (41–50), Group‐3 (51–60), Group‐4 (61–70), Group‐5 (71–80), and Group‐6 (≥81). Hip T1p maps, co‐registered to Cube, underwent an atlas‐based algorithm to quantify femoral and acetabular subregional (R2–R7) cartilage T1p. For knee Cube, a combination of V‐Net architectures was used to segment the patellar cartilage and subregions (DM, DL, SM, SL). T1p values were computed from co‐registered MAPSS. Statistical Tests For Intra‐and‐Inter‐limb, 5 optimum predictors out of 13 (Hip subregional T1p, age group, gender) were selected by univariate linear‐regression, to predict outcome (patellar T1p). The top five predictors were stepwise added to six linear mixed‐effect (LME) models. In all LME models, we assume the data come from the same subject sharing the same random effect. The best‐performing models (LME‐modelbest) selected via ANOVA, were tested with DM, SM, SL, and DL subregional‐mean T1p. LME assumptions were verified (normality of residuals, random‐effects, and posterior‐predictive‐checks). Results LME‐modelbest (Intra‐limb) had significant negative and positive fixed‐effects of femoral‐R5 and acetabular‐R2 T1p, respectively (conditional‐R2 = 0.581). LME‐modelbest (Inter‐limb) had significant positive fixed‐effects of femoral‐R3 T1p (conditional‐R2 = 0.26). Data Conclusion Significant positive and negative T1p associations were identified between load‐bearing hip cartilage‐subregions vs. ipsilateral and contralateral patellar cartilages respectively. The effects were localized on medial subregions of Inter‐limb, in particular. Evidence Level 1 Technical Efficacy Stage 1
AbstractList	Background The polyarticular nature of Osteoarthritis (OA) tends to manifest in multi‐joints. Associations between cartilage health in connected joints can help identify early degeneration and offer the potential for biomechanical intervention. Such associations between hip and knee cartilages remain understudied. Purpose To investigate T1p associations between hip‐femoral and acetabular‐cartilage subregions with Intra‐limb and Inter‐limb patellar cartilage; whole and deep‐medial (DM), deep‐lateral (DL), superficial‐medial (SM), superficial‐lateral (SL) subregions. Study Type Prospective. Subjects Twenty‐eight subjects (age 55.1 ± 12.8 years, 15 females) with none‐to‐moderate hip‐OA while no radiographic knee‐OA. Field Strength/Sequence 3‐T, bilateral hip, and knee: 3D‐proton‐density‐fat‐saturated (PDFS) Cube and Magnetization‐Prepared‐Angle‐Modulated‐Partitioned‐k‐Space‐Spoiled‐Gradient‐Echo‐Snapshots (MAPSS). Assessment Ages of subjects were categorized into Group‐1 (≤40), Group‐2 (41–50), Group‐3 (51–60), Group‐4 (61–70), Group‐5 (71–80), and Group‐6 (≥81). Hip T1p maps, co‐registered to Cube, underwent an atlas‐based algorithm to quantify femoral and acetabular subregional (R2–R7) cartilage T1p. For knee Cube, a combination of V‐Net architectures was used to segment the patellar cartilage and subregions (DM, DL, SM, SL). T1p values were computed from co‐registered MAPSS. Statistical Tests For Intra‐and‐Inter‐limb, 5 optimum predictors out of 13 (Hip subregional T1p, age group, gender) were selected by univariate linear‐regression, to predict outcome (patellar T1p). The top five predictors were stepwise added to six linear mixed‐effect (LME) models. In all LME models, we assume the data come from the same subject sharing the same random effect. The best‐performing models (LME‐modelbest) selected via ANOVA, were tested with DM, SM, SL, and DL subregional‐mean T1p. LME assumptions were verified (normality of residuals, random‐effects, and posterior‐predictive‐checks). Results LME‐modelbest (Intra‐limb) had significant negative and positive fixed‐effects of femoral‐R5 and acetabular‐R2 T1p, respectively (conditional‐R2 = 0.581). LME‐modelbest (Inter‐limb) had significant positive fixed‐effects of femoral‐R3 T1p (conditional‐R2 = 0.26). Data Conclusion Significant positive and negative T1p associations were identified between load‐bearing hip cartilage‐subregions vs. ipsilateral and contralateral patellar cartilages respectively. The effects were localized on medial subregions of Inter‐limb, in particular. Evidence Level 1 Technical Efficacy Stage 1 The polyarticular nature of Osteoarthritis (OA) tends to manifest in multi-joints. Associations between cartilage health in connected joints can help identify early degeneration and offer the potential for biomechanical intervention. Such associations between hip and knee cartilages remain understudied.BACKGROUNDThe polyarticular nature of Osteoarthritis (OA) tends to manifest in multi-joints. Associations between cartilage health in connected joints can help identify early degeneration and offer the potential for biomechanical intervention. Such associations between hip and knee cartilages remain understudied.To investigate T1p associations between hip-femoral and acetabular-cartilage subregions with Intra-limb and Inter-limb patellar cartilage; whole and deep-medial (DM), deep-lateral (DL), superficial-medial (SM), superficial-lateral (SL) subregions.PURPOSETo investigate T1p associations between hip-femoral and acetabular-cartilage subregions with Intra-limb and Inter-limb patellar cartilage; whole and deep-medial (DM), deep-lateral (DL), superficial-medial (SM), superficial-lateral (SL) subregions.Prospective.STUDY TYPEProspective.Twenty-eight subjects (age 55.1 ± 12.8 years, 15 females) with none-to-moderate hip-OA while no radiographic knee-OA.SUBJECTSTwenty-eight subjects (age 55.1 ± 12.8 years, 15 females) with none-to-moderate hip-OA while no radiographic knee-OA.3-T, bilateral hip, and knee: 3D-proton-density-fat-saturated (PDFS) Cube and Magnetization-Prepared-Angle-Modulated-Partitioned-k-Space-Spoiled-Gradient-Echo-Snapshots (MAPSS).FIELD STRENGTH/SEQUENCE3-T, bilateral hip, and knee: 3D-proton-density-fat-saturated (PDFS) Cube and Magnetization-Prepared-Angle-Modulated-Partitioned-k-Space-Spoiled-Gradient-Echo-Snapshots (MAPSS).Ages of subjects were categorized into Group-1 (≤40), Group-2 (41-50), Group-3 (51-60), Group-4 (61-70), Group-5 (71-80), and Group-6 (≥81). Hip T1p maps, co-registered to Cube, underwent an atlas-based algorithm to quantify femoral and acetabular subregional (R2-R7) cartilage T1p. For knee Cube, a combination of V-Net architectures was used to segment the patellar cartilage and subregions (DM, DL, SM, SL). T1p values were computed from co-registered MAPSS.ASSESSMENTAges of subjects were categorized into Group-1 (≤40), Group-2 (41-50), Group-3 (51-60), Group-4 (61-70), Group-5 (71-80), and Group-6 (≥81). Hip T1p maps, co-registered to Cube, underwent an atlas-based algorithm to quantify femoral and acetabular subregional (R2-R7) cartilage T1p. For knee Cube, a combination of V-Net architectures was used to segment the patellar cartilage and subregions (DM, DL, SM, SL). T1p values were computed from co-registered MAPSS.For Intra-and-Inter-limb, 5 optimum predictors out of 13 (Hip subregional T1p, age group, gender) were selected by univariate linear-regression, to predict outcome (patellar T1p). The top five predictors were stepwise added to six linear mixed-effect (LME) models. In all LME models, we assume the data come from the same subject sharing the same random effect. The best-performing models (LME-modelbest) selected via ANOVA, were tested with DM, SM, SL, and DL subregional-mean T1p. LME assumptions were verified (normality of residuals, random-effects, and posterior-predictive-checks).STATISTICAL TESTSFor Intra-and-Inter-limb, 5 optimum predictors out of 13 (Hip subregional T1p, age group, gender) were selected by univariate linear-regression, to predict outcome (patellar T1p). The top five predictors were stepwise added to six linear mixed-effect (LME) models. In all LME models, we assume the data come from the same subject sharing the same random effect. The best-performing models (LME-modelbest) selected via ANOVA, were tested with DM, SM, SL, and DL subregional-mean T1p. LME assumptions were verified (normality of residuals, random-effects, and posterior-predictive-checks).LME-modelbest (Intra-limb) had significant negative and positive fixed-effects of femoral-R5 and acetabular-R2 T1p, respectively (conditional-R2 = 0.581). LME-modelbest (Inter-limb) had significant positive fixed-effects of femoral-R3 T1p (conditional-R2 = 0.26).RESULTSLME-modelbest (Intra-limb) had significant negative and positive fixed-effects of femoral-R5 and acetabular-R2 T1p, respectively (conditional-R2 = 0.581). LME-modelbest (Inter-limb) had significant positive fixed-effects of femoral-R3 T1p (conditional-R2 = 0.26).Significant positive and negative T1p associations were identified between load-bearing hip cartilage-subregions vs. ipsilateral and contralateral patellar cartilages respectively. The effects were localized on medial subregions of Inter-limb, in particular.DATA CONCLUSIONSignificant positive and negative T1p associations were identified between load-bearing hip cartilage-subregions vs. ipsilateral and contralateral patellar cartilages respectively. The effects were localized on medial subregions of Inter-limb, in particular.1 TECHNICAL EFFICACY: Stage 1.EVIDENCE LEVEL1 TECHNICAL EFFICACY: Stage 1. BackgroundThe polyarticular nature of Osteoarthritis (OA) tends to manifest in multi‐joints. Associations between cartilage health in connected joints can help identify early degeneration and offer the potential for biomechanical intervention. Such associations between hip and knee cartilages remain understudied.PurposeTo investigate T1p associations between hip‐femoral and acetabular‐cartilage subregions with Intra‐limb and Inter‐limb patellar cartilage; whole and deep‐medial (DM), deep‐lateral (DL), superficial‐medial (SM), superficial‐lateral (SL) subregions.Study TypeProspective.SubjectsTwenty‐eight subjects (age 55.1 ± 12.8 years, 15 females) with none‐to‐moderate hip‐OA while no radiographic knee‐OA.Field Strength/Sequence3‐T, bilateral hip, and knee: 3D‐proton‐density‐fat‐saturated (PDFS) Cube and Magnetization‐Prepared‐Angle‐Modulated‐Partitioned‐k‐Space‐Spoiled‐Gradient‐Echo‐Snapshots (MAPSS).AssessmentAges of subjects were categorized into Group‐1 (≤40), Group‐2 (41–50), Group‐3 (51–60), Group‐4 (61–70), Group‐5 (71–80), and Group‐6 (≥81). Hip T1p maps, co‐registered to Cube, underwent an atlas‐based algorithm to quantify femoral and acetabular subregional (R2–R7) cartilage T1p. For knee Cube, a combination of V‐Net architectures was used to segment the patellar cartilage and subregions (DM, DL, SM, SL). T1p values were computed from co‐registered MAPSS.Statistical TestsFor Intra‐and‐Inter‐limb, 5 optimum predictors out of 13 (Hip subregional T1p, age group, gender) were selected by univariate linear‐regression, to predict outcome (patellar T1p). The top five predictors were stepwise added to six linear mixed‐effect (LME) models. In all LME models, we assume the data come from the same subject sharing the same random effect. The best‐performing models (LME‐modelbest) selected via ANOVA, were tested with DM, SM, SL, and DL subregional‐mean T1p. LME assumptions were verified (normality of residuals, random‐effects, and posterior‐predictive‐checks).ResultsLME‐modelbest (Intra‐limb) had significant negative and positive fixed‐effects of femoral‐R5 and acetabular‐R2 T1p, respectively (conditional‐R2 = 0.581). LME‐modelbest (Inter‐limb) had significant positive fixed‐effects of femoral‐R3 T1p (conditional‐R2 = 0.26).Data ConclusionSignificant positive and negative T1p associations were identified between load‐bearing hip cartilage‐subregions vs. ipsilateral and contralateral patellar cartilages respectively. The effects were localized on medial subregions of Inter‐limb, in particular.Evidence Level1Technical EfficacyStage 1
Author	Bhattacharjee, Rupsa Jiang, Fei Majumdar, Sharmila Thahakoya, Rafeek Souza, Richard B. Roach, Koren E. Han, Misung Pedoia, Valentina Luitjens, Johanna
AuthorAffiliation	1 Department of Radiology and Biomedical Imaging, University of California San Francisco, San Francisco, California, USA 2 Department of Radiology, University Hospital, LMU Munich, Munich, Germany 4 Department of Physical Therapy and Rehabilitation Science, University of California San Francisco, San Francisco, California, USA 3 Department of Epidemiology and Biostatistics, University of California San Francisco, San Francisco, California, USA
AuthorAffiliation_xml	– name: 4 Department of Physical Therapy and Rehabilitation Science, University of California San Francisco, San Francisco, California, USA – name: 3 Department of Epidemiology and Biostatistics, University of California San Francisco, San Francisco, California, USA – name: 2 Department of Radiology, University Hospital, LMU Munich, Munich, Germany – name: 1 Department of Radiology and Biomedical Imaging, University of California San Francisco, San Francisco, California, USA
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Snippet	Background The polyarticular nature of Osteoarthritis (OA) tends to manifest in multi‐joints. Associations between cartilage health in connected joints can... BackgroundThe polyarticular nature of Osteoarthritis (OA) tends to manifest in multi‐joints. Associations between cartilage health in connected joints can help... The polyarticular nature of Osteoarthritis (OA) tends to manifest in multi-joints. Associations between cartilage health in connected joints can help identify...
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SubjectTerms	Acetabulum Algorithms Arthritis bilateral Biomechanics Biomedical materials Cartilage Cartilage diseases Degeneration Femur Field strength Hip Joints (anatomy) Knee Normality Osteoarthritis Statistical analysis Statistical tests statistical‐modeling T1p Variance analysis
Title	Effects of T1p Characteristics of Load‐Bearing Hip Cartilage on Bilateral Knee Patellar Cartilage Subregions: Subjects With None to Moderate Radiographic Hip Osteoarthritis
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