Vertical pelvic movement asymmetry and lameness location in ipsilateral combined forelimb and hindlimb lameness cases

Background Compensatory vertical head and pelvis movement asymmetry may occur in trotting horses with a primary cause of lameness in one end of the body due to the weight shifting between limbs, leading to apparent combined forelimb and hindlimb lameness (CFHL). Little is known about CFHL patterns o...

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Veröffentlicht in:Equine veterinary journal Jg. 57; H. 2; S. 362 - 374
Hauptverfasser: Means, Kari, Hayden, Lyndsey, Kramer, Joanne, McCracken, Megan Jill, Reed, Shannon K., Wilson, David A., Keegan, Kevin George
Format: Journal Article
Sprache:Englisch
Veröffentlicht: United States Wiley Subscription Services, Inc 01.03.2025
Schlagworte:
anesthesia
Animals
Asymmetry
Biomechanical Phenomena
biomechanics
compensatory
Female
Forelimb - pathology
Forelimb - physiopathology
head
Hindlimb - pathology
Hindlimb - physiopathology
hindlimbs
Horse Diseases - etiology
Horse Diseases - pathology
Horse Diseases - physiopathology
Horses
inertial sensor
lameness
Lameness, Animal - etiology
Lameness, Animal - pathology
Lameness, Animal - physiopathology
ligaments
Male
objective
pelvis
Pelvis - physiopathology
Regional anesthesia
Retrospective Studies
compensatory
lameness
biomechanics
inertial sensor
objective
ISSN:0425-1644, 2042-3306, 2042-3306
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Abstract Background Compensatory vertical head and pelvis movement asymmetry may occur in trotting horses with a primary cause of lameness in one end of the body due to the weight shifting between limbs, leading to apparent combined forelimb and hindlimb lameness (CFHL). Little is known about CFHL patterns observed with body‐mounted inertial sensors (BMIS) and regardless of their underlying mechanisms, compensatory and secondary lameness may complicate the definitive identification of the primary causes of lameness. Objective Determine associations between vertical pelvic movement asymmetry and location of primary lameness in ipsilateral CFHL cases where hindlimb lameness is solely impact or push‐off type. Study design Retrospective cohort. Methods From a body‐mounted inertial sensor (BMIS) evaluated equine lameness database, we identified cases with a consistent, low‐variability ipsilateral impact (IpI) or ipsilateral pushoff (IpP) hindlimb lameness in a straight‐line trot and that had definitive diagnoses. Cases were categorised by lameness location to the limb(s), diagnosis, and ratio of the amplitude of forelimb to hindlimb lameness (Forea/Hinda). Differences in the numbers of IpI and IpP cases in these categories were analysed with chi‐square tests, effect sizes, and odds ratios. Results Among the 2375 total lameness cases screened, 49 IpI and 36 IpP cases met the criteria for consistency, low variability, and definitive diagnosis. IpI cases were more likely than IpP cases to have forelimb‐only lameness causes when Forea/Hinda >1 (OR = 43, 95% CI = 2.3–798). IpP cases were more likely than IpI cases to have hindlimb‐only causes at both Forea/Hinda >1.0 (OR = 20, 95% CI = 2.2–200) and <1.0 (OR = 14, 95% CI = 2.9–66.7). Compared with IpI, IpP cases were more frequently diagnosed with tendon, suspensory ligament, or high‐motion joint disorders in hindlimbs (OR = 3.6, 95% CI = 1.1–12.3) and less with unknown causes (OR = 13.2, 95% CI = 3.2–75.2). In IpI cases, positive forelimb regional anaesthesia often reduced hindlimb lameness, whereas in IpP cases, positive hindlimb regional anaesthesia typically lessened forelimb lameness. Main limitations Most cases were Quarter Horses. The likelihood of location and cause of lameness may be different for other breeds. Conclusions The type of pelvic movement asymmetry observed in IpI and IpP cases is linked to the location and underlying cause of the primary lameness.
AbstractList Background Compensatory vertical head and pelvis movement asymmetry may occur in trotting horses with a primary cause of lameness in one end of the body due to the weight shifting between limbs, leading to apparent combined forelimb and hindlimb lameness (CFHL). Little is known about CFHL patterns observed with body‐mounted inertial sensors (BMIS) and regardless of their underlying mechanisms, compensatory and secondary lameness may complicate the definitive identification of the primary causes of lameness. Objective Determine associations between vertical pelvic movement asymmetry and location of primary lameness in ipsilateral CFHL cases where hindlimb lameness is solely impact or push‐off type. Study design Retrospective cohort. Methods From a body‐mounted inertial sensor (BMIS) evaluated equine lameness database, we identified cases with a consistent, low‐variability ipsilateral impact (IpI) or ipsilateral pushoff (IpP) hindlimb lameness in a straight‐line trot and that had definitive diagnoses. Cases were categorised by lameness location to the limb(s), diagnosis, and ratio of the amplitude of forelimb to hindlimb lameness (Forea/Hinda). Differences in the numbers of IpI and IpP cases in these categories were analysed with chi‐square tests, effect sizes, and odds ratios. Results Among the 2375 total lameness cases screened, 49 IpI and 36 IpP cases met the criteria for consistency, low variability, and definitive diagnosis. IpI cases were more likely than IpP cases to have forelimb‐only lameness causes when Forea/Hinda >1 (OR = 43, 95% CI = 2.3–798). IpP cases were more likely than IpI cases to have hindlimb‐only causes at both Forea/Hinda >1.0 (OR = 20, 95% CI = 2.2–200) and <1.0 (OR = 14, 95% CI = 2.9–66.7). Compared with IpI, IpP cases were more frequently diagnosed with tendon, suspensory ligament, or high‐motion joint disorders in hindlimbs (OR = 3.6, 95% CI = 1.1–12.3) and less with unknown causes (OR = 13.2, 95% CI = 3.2–75.2). In IpI cases, positive forelimb regional anaesthesia often reduced hindlimb lameness, whereas in IpP cases, positive hindlimb regional anaesthesia typically lessened forelimb lameness. Main limitations Most cases were Quarter Horses. The likelihood of location and cause of lameness may be different for other breeds. Conclusions The type of pelvic movement asymmetry observed in IpI and IpP cases is linked to the location and underlying cause of the primary lameness.
Compensatory vertical head and pelvis movement asymmetry may occur in trotting horses with a primary cause of lameness in one end of the body due to the weight shifting between limbs, leading to apparent combined forelimb and hindlimb lameness (CFHL). Little is known about CFHL patterns observed with body-mounted inertial sensors (BMIS) and regardless of their underlying mechanisms, compensatory and secondary lameness may complicate the definitive identification of the primary causes of lameness.BACKGROUNDCompensatory vertical head and pelvis movement asymmetry may occur in trotting horses with a primary cause of lameness in one end of the body due to the weight shifting between limbs, leading to apparent combined forelimb and hindlimb lameness (CFHL). Little is known about CFHL patterns observed with body-mounted inertial sensors (BMIS) and regardless of their underlying mechanisms, compensatory and secondary lameness may complicate the definitive identification of the primary causes of lameness.Determine associations between vertical pelvic movement asymmetry and location of primary lameness in ipsilateral CFHL cases where hindlimb lameness is solely impact or push-off type.OBJECTIVEDetermine associations between vertical pelvic movement asymmetry and location of primary lameness in ipsilateral CFHL cases where hindlimb lameness is solely impact or push-off type.Retrospective cohort.STUDY DESIGNRetrospective cohort.From a body-mounted inertial sensor (BMIS) evaluated equine lameness database, we identified cases with a consistent, low-variability ipsilateral impact (IpI) or ipsilateral pushoff (IpP) hindlimb lameness in a straight-line trot and that had definitive diagnoses. Cases were categorised by lameness location to the limb(s), diagnosis, and ratio of the amplitude of forelimb to hindlimb lameness (Forea/Hinda). Differences in the numbers of IpI and IpP cases in these categories were analysed with chi-square tests, effect sizes, and odds ratios.METHODSFrom a body-mounted inertial sensor (BMIS) evaluated equine lameness database, we identified cases with a consistent, low-variability ipsilateral impact (IpI) or ipsilateral pushoff (IpP) hindlimb lameness in a straight-line trot and that had definitive diagnoses. Cases were categorised by lameness location to the limb(s), diagnosis, and ratio of the amplitude of forelimb to hindlimb lameness (Forea/Hinda). Differences in the numbers of IpI and IpP cases in these categories were analysed with chi-square tests, effect sizes, and odds ratios.Among the 2375 total lameness cases screened, 49 IpI and 36 IpP cases met the criteria for consistency, low variability, and definitive diagnosis. IpI cases were more likely than IpP cases to have forelimb-only lameness causes when Forea/Hinda >1 (OR = 43, 95% CI = 2.3-798). IpP cases were more likely than IpI cases to have hindlimb-only causes at both Forea/Hinda >1.0 (OR = 20, 95% CI = 2.2-200) and <1.0 (OR = 14, 95% CI = 2.9-66.7). Compared with IpI, IpP cases were more frequently diagnosed with tendon, suspensory ligament, or high-motion joint disorders in hindlimbs (OR = 3.6, 95% CI = 1.1-12.3) and less with unknown causes (OR = 13.2, 95% CI = 3.2-75.2). In IpI cases, positive forelimb regional anaesthesia often reduced hindlimb lameness, whereas in IpP cases, positive hindlimb regional anaesthesia typically lessened forelimb lameness.RESULTSAmong the 2375 total lameness cases screened, 49 IpI and 36 IpP cases met the criteria for consistency, low variability, and definitive diagnosis. IpI cases were more likely than IpP cases to have forelimb-only lameness causes when Forea/Hinda >1 (OR = 43, 95% CI = 2.3-798). IpP cases were more likely than IpI cases to have hindlimb-only causes at both Forea/Hinda >1.0 (OR = 20, 95% CI = 2.2-200) and <1.0 (OR = 14, 95% CI = 2.9-66.7). Compared with IpI, IpP cases were more frequently diagnosed with tendon, suspensory ligament, or high-motion joint disorders in hindlimbs (OR = 3.6, 95% CI = 1.1-12.3) and less with unknown causes (OR = 13.2, 95% CI = 3.2-75.2). In IpI cases, positive forelimb regional anaesthesia often reduced hindlimb lameness, whereas in IpP cases, positive hindlimb regional anaesthesia typically lessened forelimb lameness.Most cases were Quarter Horses. The likelihood of location and cause of lameness may be different for other breeds.MAIN LIMITATIONSMost cases were Quarter Horses. The likelihood of location and cause of lameness may be different for other breeds.The type of pelvic movement asymmetry observed in IpI and IpP cases is linked to the location and underlying cause of the primary lameness.CONCLUSIONSThe type of pelvic movement asymmetry observed in IpI and IpP cases is linked to the location and underlying cause of the primary lameness.
BACKGROUND: Compensatory vertical head and pelvis movement asymmetry may occur in trotting horses with a primary cause of lameness in one end of the body due to the weight shifting between limbs, leading to apparent combined forelimb and hindlimb lameness (CFHL). Little is known about CFHL patterns observed with body‐mounted inertial sensors (BMIS) and regardless of their underlying mechanisms, compensatory and secondary lameness may complicate the definitive identification of the primary causes of lameness. OBJECTIVE: Determine associations between vertical pelvic movement asymmetry and location of primary lameness in ipsilateral CFHL cases where hindlimb lameness is solely impact or push‐off type. STUDY DESIGN: Retrospective cohort. METHODS: From a body‐mounted inertial sensor (BMIS) evaluated equine lameness database, we identified cases with a consistent, low‐variability ipsilateral impact (IpI) or ipsilateral pushoff (IpP) hindlimb lameness in a straight‐line trot and that had definitive diagnoses. Cases were categorised by lameness location to the limb(s), diagnosis, and ratio of the amplitude of forelimb to hindlimb lameness (Foreₐ/Hindₐ). Differences in the numbers of IpI and IpP cases in these categories were analysed with chi‐square tests, effect sizes, and odds ratios. RESULTS: Among the 2375 total lameness cases screened, 49 IpI and 36 IpP cases met the criteria for consistency, low variability, and definitive diagnosis. IpI cases were more likely than IpP cases to have forelimb‐only lameness causes when Foreₐ/Hindₐ >1 (OR = 43, 95% CI = 2.3–798). IpP cases were more likely than IpI cases to have hindlimb‐only causes at both Foreₐ/Hindₐ >1.0 (OR = 20, 95% CI = 2.2–200) and <1.0 (OR = 14, 95% CI = 2.9–66.7). Compared with IpI, IpP cases were more frequently diagnosed with tendon, suspensory ligament, or high‐motion joint disorders in hindlimbs (OR = 3.6, 95% CI = 1.1–12.3) and less with unknown causes (OR = 13.2, 95% CI = 3.2–75.2). In IpI cases, positive forelimb regional anaesthesia often reduced hindlimb lameness, whereas in IpP cases, positive hindlimb regional anaesthesia typically lessened forelimb lameness. MAIN LIMITATIONS: Most cases were Quarter Horses. The likelihood of location and cause of lameness may be different for other breeds. CONCLUSIONS: The type of pelvic movement asymmetry observed in IpI and IpP cases is linked to the location and underlying cause of the primary lameness.
Compensatory vertical head and pelvis movement asymmetry may occur in trotting horses with a primary cause of lameness in one end of the body due to the weight shifting between limbs, leading to apparent combined forelimb and hindlimb lameness (CFHL). Little is known about CFHL patterns observed with body-mounted inertial sensors (BMIS) and regardless of their underlying mechanisms, compensatory and secondary lameness may complicate the definitive identification of the primary causes of lameness. Determine associations between vertical pelvic movement asymmetry and location of primary lameness in ipsilateral CFHL cases where hindlimb lameness is solely impact or push-off type. Retrospective cohort. From a body-mounted inertial sensor (BMIS) evaluated equine lameness database, we identified cases with a consistent, low-variability ipsilateral impact (IpI) or ipsilateral pushoff (IpP) hindlimb lameness in a straight-line trot and that had definitive diagnoses. Cases were categorised by lameness location to the limb(s), diagnosis, and ratio of the amplitude of forelimb to hindlimb lameness (Fore /Hind ). Differences in the numbers of IpI and IpP cases in these categories were analysed with chi-square tests, effect sizes, and odds ratios. Among the 2375 total lameness cases screened, 49 IpI and 36 IpP cases met the criteria for consistency, low variability, and definitive diagnosis. IpI cases were more likely than IpP cases to have forelimb-only lameness causes when Fore /Hind  >1 (OR = 43, 95% CI = 2.3-798). IpP cases were more likely than IpI cases to have hindlimb-only causes at both Fore /Hind  >1.0 (OR = 20, 95% CI = 2.2-200) and <1.0 (OR = 14, 95% CI = 2.9-66.7). Compared with IpI, IpP cases were more frequently diagnosed with tendon, suspensory ligament, or high-motion joint disorders in hindlimbs (OR = 3.6, 95% CI = 1.1-12.3) and less with unknown causes (OR = 13.2, 95% CI = 3.2-75.2). In IpI cases, positive forelimb regional anaesthesia often reduced hindlimb lameness, whereas in IpP cases, positive hindlimb regional anaesthesia typically lessened forelimb lameness. Most cases were Quarter Horses. The likelihood of location and cause of lameness may be different for other breeds. The type of pelvic movement asymmetry observed in IpI and IpP cases is linked to the location and underlying cause of the primary lameness.
BackgroundCompensatory vertical head and pelvis movement asymmetry may occur in trotting horses with a primary cause of lameness in one end of the body due to the weight shifting between limbs, leading to apparent combined forelimb and hindlimb lameness (CFHL). Little is known about CFHL patterns observed with body‐mounted inertial sensors (BMIS) and regardless of their underlying mechanisms, compensatory and secondary lameness may complicate the definitive identification of the primary causes of lameness.ObjectiveDetermine associations between vertical pelvic movement asymmetry and location of primary lameness in ipsilateral CFHL cases where hindlimb lameness is solely impact or push‐off type.Study designRetrospective cohort.MethodsFrom a body‐mounted inertial sensor (BMIS) evaluated equine lameness database, we identified cases with a consistent, low‐variability ipsilateral impact (IpI) or ipsilateral pushoff (IpP) hindlimb lameness in a straight‐line trot and that had definitive diagnoses. Cases were categorised by lameness location to the limb(s), diagnosis, and ratio of the amplitude of forelimb to hindlimb lameness (Forea/Hinda). Differences in the numbers of IpI and IpP cases in these categories were analysed with chi‐square tests, effect sizes, and odds ratios.ResultsAmong the 2375 total lameness cases screened, 49 IpI and 36 IpP cases met the criteria for consistency, low variability, and definitive diagnosis. IpI cases were more likely than IpP cases to have forelimb‐only lameness causes when Forea/Hinda >1 (OR = 43, 95% CI = 2.3–798). IpP cases were more likely than IpI cases to have hindlimb‐only causes at both Forea/Hinda >1.0 (OR = 20, 95% CI = 2.2–200) and <1.0 (OR = 14, 95% CI = 2.9–66.7). Compared with IpI, IpP cases were more frequently diagnosed with tendon, suspensory ligament, or high‐motion joint disorders in hindlimbs (OR = 3.6, 95% CI = 1.1–12.3) and less with unknown causes (OR = 13.2, 95% CI = 3.2–75.2). In IpI cases, positive forelimb regional anaesthesia often reduced hindlimb lameness, whereas in IpP cases, positive hindlimb regional anaesthesia typically lessened forelimb lameness.Main limitationsMost cases were Quarter Horses. The likelihood of location and cause of lameness may be different for other breeds.ConclusionsThe type of pelvic movement asymmetry observed in IpI and IpP cases is linked to the location and underlying cause of the primary lameness.
Author McCracken, Megan Jill
Wilson, David A.
Keegan, Kevin George
Means, Kari
Hayden, Lyndsey
Reed, Shannon K.
Kramer, Joanne
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  givenname: Kari
  surname: Means
  fullname: Means, Kari
  organization: College of Veterinary Medicine, University of Missouri
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  givenname: Lyndsey
  surname: Hayden
  fullname: Hayden, Lyndsey
  organization: College of Veterinary Medicine, University of Missouri
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  givenname: Joanne
  orcidid: 0000-0002-9943-1876
  surname: Kramer
  fullname: Kramer, Joanne
  organization: College of Veterinary Medicine, University of Missouri
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  givenname: Megan Jill
  surname: McCracken
  fullname: McCracken, Megan Jill
  organization: College of Veterinary Medicine, University of Missouri
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  givenname: Shannon K.
  surname: Reed
  fullname: Reed, Shannon K.
  organization: College of Veterinary Medicine, University of Missouri
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  givenname: Kevin George
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  surname: Keegan
  fullname: Keegan, Kevin George
  email: keegank@missouri.edu
  organization: College of Veterinary Medicine, University of Missouri
BackLink https://www.ncbi.nlm.nih.gov/pubmed/38923053$$D View this record in MEDLINE/PubMed
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Keywords compensatory
lameness
biomechanics
inertial sensor
objective
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PublicationTitle Equine veterinary journal
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Snippet Background Compensatory vertical head and pelvis movement asymmetry may occur in trotting horses with a primary cause of lameness in one end of the body due to...
Compensatory vertical head and pelvis movement asymmetry may occur in trotting horses with a primary cause of lameness in one end of the body due to the weight...
BackgroundCompensatory vertical head and pelvis movement asymmetry may occur in trotting horses with a primary cause of lameness in one end of the body due to...
BACKGROUND: Compensatory vertical head and pelvis movement asymmetry may occur in trotting horses with a primary cause of lameness in one end of the body due...
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StartPage 362
SubjectTerms anesthesia
Animals
Asymmetry
Biomechanical Phenomena
biomechanics
compensatory
Female
Forelimb - pathology
Forelimb - physiopathology
head
Hindlimb - pathology
Hindlimb - physiopathology
hindlimbs
Horse Diseases - etiology
Horse Diseases - pathology
Horse Diseases - physiopathology
Horses
inertial sensor
lameness
Lameness, Animal - etiology
Lameness, Animal - pathology
Lameness, Animal - physiopathology
ligaments
Male
objective
pelvis
Pelvis - physiopathology
Regional anesthesia
Retrospective Studies
Title Vertical pelvic movement asymmetry and lameness location in ipsilateral combined forelimb and hindlimb lameness cases
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