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Swayback

Swayback is a term referring to abnormal curvature or sagging of the spine, known clinically as lordosis, observed in humans and quadruped animals, particularly horses. In small ruminants such as sheep and goats, it specifically denotes enzootic ataxia, a neurological disorder caused by copper deficiency.^[1]^[2]^[3] In humans, swayback posture involves an exaggerated inward curve of the lower back, often due to poor posture, obesity, or musculoskeletal conditions.^[4] In horses, it manifests as a dipped topline from ligament laxity, genetics, or aging, affecting about 1% of the equine population, with higher rates in certain breeds like the American Saddlebred.^[5] In small ruminants, swayback results from maternal copper deficiency during pregnancy, leading to ataxia and paralysis in lambs or kids.^[6] This article covers swayback in humans, horses, and small ruminants, including causes, symptoms, diagnosis, and management in each context.

Overview

Definition

Swayback, also known as lordosis or hyperlordosis, primarily describes an excessive inward curvature of the lumbar spine in humans and horses, resulting in a pronounced sagging or "sway" appearance of the lower back.^[4]^[5] In small ruminants such as sheep and goats, the term swayback instead refers to enzootic ataxia, a neurological disorder characterized by incoordination and posterior weakness due to copper deficiency, which causes a swaying gait rather than a structural spinal deformity.^[7] This cross-species usage highlights swayback as either a postural or neurological abnormality, depending on the context, but all forms disrupt normal locomotion and posture. The human spine normally features four primary curvatures: cervical lordosis (inward curve in the neck), thoracic kyphosis (outward curve in the upper back), lumbar lordosis (inward curve in the lower back), and sacral kyphosis (outward curve in the sacrum).^[8] Swayback in humans pathologically alters lumbar lordosis, typically reducing it below the normal 40-60 degree range in adults through a posterior pelvic tilt and increased thoracic kyphosis, with a forward trunk shift creating a protruding abdomen and posterior-projecting buttocks. In horses, swayback exaggerates the lumbar lordosis, often increasing thoracic kyphosis.^[2] In equines, the thoracolumbar region (from withers to croup) normally maintains a relatively straight alignment with a subtle concave curve for flexibility and weight support; swayback disrupts this by deepening the dip, sometimes forming a U-shaped profile.^[9] Although small ruminants share similar spinal anatomy with a thoracic kyphosis and lumbar lordosis, their swayback manifests as demyelination in the spinal cord and brainstem, leading to ataxia without altering the bony curvatures.^[10] Terminologically, swayback in horses is interchangeably called equine lordosis, distinguishing it from congenital or acquired forms, while in sheep and goats, it is specified as congenital swayback (present at birth, affecting the central nervous system) or delayed swayback (enzootic ataxia, appearing weeks after birth).^[11] Prevalence varies by species and context: in humans, swayback posture as lumbar hyperlordosis affects up to 78% of adolescents and is common in populations with poor ergonomics, such as office workers.^[12] In horses, it is age-related, becoming prevalent in animals over 15 years old due to ligament laxity, with overall lordosis rates around 7% in breeds like American Saddlebreds.^[13] In small ruminants, enzootic ataxia occurs sporadically on copper-deficient pastures, with outbreaks impacting 30-40% of lambs or kids in affected herds.^[14]

Historical Context

The term "swayback" originates from the English words "sway," implying a bending or dipping motion, and "back," referring to an excessive sagging of the spine, particularly in horses; it derives from Scandinavian roots, such as the Danish "sveibaget," and entered English usage by the 16th century, though it became prominent in 19th-century veterinary texts describing equine posture.^[15]^[16] In human medicine, early descriptions of spinal curvatures resembling swayback appear in ancient Greek literature, where Hippocrates (c. 460–370 BCE) discussed nontraumatic kyphosis and related deformities, while his successor Galen (c. 129–216 CE) explicitly classified lordosis as a forward curvature of the spine, distinguishing it from kyphosis and scoliosis, and attributing it to factors like weakness or congenital issues.^[17]^[18] By the 20th century, swayback posture gained attention in ergonomics and public health studies, with increased focus on postural abnormalities following World War II amid concerns over occupational health and spinal alignment in industrial workers.^[19] In veterinary literature, swayback was recognized as a distinct condition in livestock by the early 20th century, with major milestones in the 1930s when Australian researcher H.W. Bennetts identified copper deficiency as the cause of enzootic ataxia—also termed swayback—in lambs on deficient pastures in Western Australia, linking low maternal copper levels to neurological symptoms in offspring.^[20]^[21] For equines, mid-20th-century studies in the UK explored age-related lordosis as a form of swayback, attributing it to ligamentous laxity and muscle atrophy in older horses, building on earlier conformational observations.^[22] Modern classifications of postural disorders, including swayback as a subtype of lordosis, evolved from Galen's ancient typology into systematic medical frameworks by the late 19th century, emphasizing anatomical deviations without ties to psychiatric diagnostics.^[23]

In Humans

Causes and Risk Factors

Swayback, also known as lumbar hyperlordosis, primarily arises from muscle imbalances, including weakened abdominal muscles and overly tight hip flexors or hamstrings, which alter spinal alignment and promote excessive inward curvature of the lower back.^[24] Poor posture, often resulting from prolonged sitting in sedentary occupations or excess body weight from obesity, exacerbates these imbalances by encouraging an anterior pelvic tilt that shifts the spine's center of gravity.^[4]^[25] Key risk factors include pregnancy, which induces temporary hyperlordosis through hormonal changes that increase ligament laxity and shift the body's center of gravity forward due to the growing uterus.^[24] Occupations involving repetitive heavy lifting or awkward postures heighten the risk by placing chronic stress on the lumbar region and promoting compensatory postural adaptations.^[26] Congenital conditions such as achondroplasia, characterized by disproportionate limb shortening and spinal abnormalities, or spondylolisthesis, where a vertebra slips forward, can predispose individuals to swayback from an early age.^[27]^[28] The pathophysiology centers on increased anterior pelvic tilt and lumbar extension, driven by ligament laxity that reduces spinal stability and allows excessive curvature.^[29] In sedentary lifestyles, core muscle atrophy plays a critical role, as weakened paraspinal and abdominal muscles fail to counterbalance the pull of tight hip flexors, leading to progressive postural distortion and potential strain on surrounding tissues.^[30] Epidemiologically, swayback occurs more frequently in women, owing to anatomical differences like a wider pelvis that influences pelvic tilt and hormonal influences on connective tissues.^[25] Prevalence varies widely across populations, with rates reported from 1% to 39% overall and up to 78% in adolescents; in adult groups including office workers with desk jobs, studies have documented rates around 68.5% for lumbar hyperlordosis linked to sedentary behavior.^[25]^[12]^[31]

Symptoms and Diagnosis

Swayback, or hyperlordosis, in humans often presents with lower back pain due to the excessive inward curvature of the lumbar spine, which can strain surrounding muscles and ligaments. In severe cases, individuals may experience associated fatigue from compensatory muscle overuse or numbness if nerve compression occurs. Prominent buttocks and forward head posture are common postural changes, as the exaggerated lumbar curve shifts the pelvis posteriorly and alters the overall spinal alignment. Most cases are asymptomatic, particularly in children and adolescents, where the condition often resolves spontaneously with growth.^[4]^[32]^[33] Physical signs include a visible inward lumbar curve exceeding 60 degrees, measured using the Cobb angle method on radiographs, which quantifies the angle between the superior endplate of L1 and the inferior endplate of S1. Gait changes, such as an exaggerated sway or compensatory hip and knee flexion, may also be observed to maintain balance amid the postural imbalance. These signs are particularly noticeable in adults with prolonged poor posture or contributing factors like obesity.^[34]^[33]^[35] Diagnosis begins with a physical examination, including the plumb line test, where a vertical line is dropped from the C7 vertebra to assess overall sagittal balance and alignment relative to key landmarks like the ear, shoulder, hip, knee, and ankle; deviations from these points may suggest hyperlordosis. X-rays of the lateral spine are essential to measure the lordosis angle and confirm the curve's severity, while MRI may be used to evaluate underlying disc issues or soft tissue involvement if neurological symptoms are present.^[35]^[4]^[32] Differential diagnosis involves distinguishing hyperlordosis from scoliosis, which features a lateral spinal curve visible on anteroposterior radiographs, or genuine kyphosis, an excessive thoracic outward curve identified on lateral views; these differentiations rely on targeted radiographic assessments to rule out concurrent deformities.^[4]^[35]

Treatment and Management

Treatment and management of swayback, or lumbar lordosis, in humans primarily involve conservative approaches aimed at alleviating symptoms, improving posture, and preventing progression, with more invasive options reserved for severe cases. Physical therapy is a cornerstone of conservative treatment, emphasizing core strengthening exercises such as planks and bridges to enhance abdominal and back muscle stability, thereby reducing excessive lumbar curvature and associated pain. These exercises target the transverse abdominis and multifidus muscles to support spinal alignment, often leading to improved functional outcomes when performed consistently over 8-12 weeks. Posture correction through ergonomic adjustments, including proper workstation setup with lumbar support and awareness of neutral spine positioning during sitting and standing, further aids in minimizing strain on the lower back.^[4] Medical interventions focus on symptom relief and structural support. Nonsteroidal anti-inflammatory drugs (NSAIDs), such as ibuprofen, are commonly prescribed for pain management in cases of inflammatory or mechanical low back pain associated with lordosis, providing short-term reduction in discomfort without addressing the underlying curvature. Bracing is not typically recommended for isolated hyperlordosis but may be considered in cases associated with other spinal deformities like scoliosis. Surgical options are considered only for severe, symptomatic structural lordosis involving neurological compromise, such as radiculopathy or myelopathy, unresponsive to conservative measures. Spinal fusion surgery, often involving pedicle screw instrumentation and bone grafting to immobilize affected segments, aims to restore sagittal balance and decompress neural elements, with success rates in pain relief exceeding 70% in appropriately selected patients. Post-operative rehabilitation protocols typically begin within 4-6 weeks, incorporating progressive core and lower extremity strengthening, gait training, and flexibility exercises to facilitate recovery and prevent adjacent segment degeneration, spanning 3-6 months of supervised therapy.^[25] Lifestyle modifications play a vital role in long-term management and prevention. Weight loss programs, through diet and aerobic exercise, reduce mechanical load on the spine, with evidence indicating decreased lordotic stress and symptom improvement in overweight individuals. Preventive strategies incorporating yoga or Pilates have demonstrated efficacy, with studies reporting 40-60% reductions in back pain symptoms and enhanced postural control after 8-12 weeks of regular practice, by promoting core engagement and spinal flexibility.

In Horses

Causes and Pathophysiology

Swayback, or lordosis, in horses primarily arises from age-related laxity in the ligaments supporting the thoracolumbar spine, leading to a progressive downward curvature.^[5] This condition is most prevalent in horses over 25 years of age, where degenerative changes weaken the passive supportive structures, allowing the vertebral column to sag under gravitational forces and body weight.^[13] The supraspinous ligament, which runs along the dorsal midline of the spine, and the ventral longitudinal ligament, positioned along the ventral aspect, are particularly affected, resulting in instability and a characteristic "U-shaped" dip in the back.^[13] Pathophysiologically, the weakening of these ligaments permits excessive flexion of the thoracolumbar vertebrae, often between T10 and L3, causing the spinous processes to rotate caudally and the vertebral bodies to shift ventrally.^[36] Concurrently, atrophy of the epaxial topline muscles, such as the longissimus dorsi and multifidus, exacerbates the sagging by reducing active muscular support to the spine, though muscle weakness alone does not initiate the condition.^[13] This ligamentous and muscular degeneration alters the biomechanical load distribution along the back, potentially predisposing affected horses to secondary issues like impinging spinous processes, although direct causation remains unproven.^[13] Genetic factors play a significant role, particularly in early-onset swayback, which is heritable as an autosomal recessive trait in breeds like the American Saddlebred, with a prevalence of approximately 5-7%.^[37] Studies in the 2010s identified a haplotype on equine chromosome 20 (ECA20) associated with the condition, involving a 1.07 Mb region that influences bilateral symmetry and vertebral development, leading to hypoplasia of the thoracic articular facets and congenital spinal curvature.^[37] No single causative mutation has been pinpointed, but homozygosity for the risk haplotype strongly correlates with affected status.^[37] Additional risk factors include heavy workloads in young horses, which may overstretch developing ligaments, and repeated pregnancies in mares, where the added abdominal weight from multiple foals temporarily or permanently weakens the supportive structures.^[5]^[13] In multiparous broodmares and certain breeds like Thoroughbreds, these factors contribute to acquired lordosis later in life.^[36]

Clinical Presentation and Diagnosis

Swayback in horses, also known as equine lordosis, presents with a characteristic exaggerated ventral curvature of the thoracolumbar spine, often manifesting as a pronounced dip immediately behind the withers and a relatively high croup. This structural abnormality can become more evident with age, particularly in older horses where ligament laxity contributes to the sagging.^[5]^[38] Functional symptoms include reluctance to carry a rider's weight or resistance during saddling, as well as bucking or hollowing the back under saddle due to discomfort from the altered spinal alignment. In advanced cases, horses may exhibit gait asymmetry, such as uneven strides or a swaying motion, reflecting compensatory mechanisms for back weakness. Physical examination often reveals a soft, yielding sensation upon palpation of the dipped region, indicating reduced muscular support and ligament integrity.^[13]^[5] Diagnosis begins with visual assessment of the spinal conformation, followed by targeted imaging and functional tests to confirm lordosis and exclude concurrent issues. Radiographic evaluation is essential for assessing vertebral alignment, particularly in the cranial thoracic region (T5–T10), where curvature and any associated bony changes are visualized. Ultrasound imaging complements this by evaluating the integrity of supporting ligaments, such as the supraspinous ligament, for signs of desmopathy or thickening. Flexion tests, involving manual pressure or dynamic movement, elicit pain responses like muscle guarding or behavioral cues (e.g., tail swishing), helping to localize affected areas.^[38]^[39]^[13] Differential diagnosis focuses on ruling out conditions mimicking swayback, such as kissing spines (impinging dorsal spinous processes) or vertebral arthritis, which may present with similar pain or conformational changes. Scintigraphy, a nuclear imaging technique, is particularly useful here, as it detects increased radiopharmaceutical uptake indicative of active inflammation or bone remodeling in these differentials, distinguishing them from uncomplicated lordosis.^[39]^[13]

Management and Prognosis

Management of swayback in horses focuses on supportive strategies to maintain comfort, strengthen supporting musculature, and optimize tack fit, as the condition cannot be reversed. Light exercise programs are recommended to build the topline and abdominal muscles, including hill work, ground pole exercises, lateral movements, and transitions to promote core strength and prevent progression in acquired cases.^[13]^[40]^[5] Custom saddles and specialized pads, such as those thicker in the center to bridge the dip, are essential to evenly distribute the rider's weight and avoid pressure points on the spine.^[13]^[41]^[5] Nutritional supplements supporting joint and muscle health, such as those providing omega-3 fatty acids or antioxidants, may aid in maintaining overall mobility, though they do not address the spinal curvature directly.^[40] Therapeutic interventions can further enhance welfare, particularly for horses showing signs of discomfort or imbalance. Chiropractic adjustments help restore joint mobility and alleviate associated back tension, often combined with acupuncture or aquatherapy in comprehensive care plans.^[40]^[42] In severe congenital cases, where the lordosis significantly impairs conformation and leads to progressive worsening, retirement from performance disciplines is advised to prevent pain or injury.^[43] The prognosis for swayback is generally favorable with proactive management, allowing most affected horses to remain sound and usable for riding or light work throughout their lives, as the condition rarely causes inherent pain.^[13]^[41] Mild cases, particularly those acquired with age, respond well to exercise and tack adjustments, enabling continued productivity.^[5] However, severe genetic forms may limit athletic potential, potentially necessitating euthanasia in extreme instances within affected breeding groups to prioritize animal welfare, though specific rates vary by herd management.^[43] Breeding implications are significant for genetic swayback, an autosomal recessive trait most prevalent in breeds like American Saddlebreds. Owners should avoid mating known carriers to reduce incidence, as both parents must contribute the gene for expression in offspring.^[22]^[41] Genetic testing, identifying markers associated with lordosis, has been available since the early 2020s through specialized equine labs, enabling informed selection in breeding programs.^[13]^[11]

In Small Ruminants

Etiology and Nutritional Basis

Swayback, also known as enzootic ataxia, in small ruminants such as sheep and goats is primarily caused by maternal copper deficiency during mid-gestation, which disrupts the development of the central nervous system (CNS) in the fetus.^[44] This deficiency impairs the formation of myelin sheaths around nerve fibers, leading to demyelination.^[45] In sheep, the critical period occurs approximately during days 60-90 of gestation, when rapid myelination takes place in the fetal brain and spinal cord.^[44] The pathophysiology involves the malfunction of copper-dependent enzymes essential for neuronal integrity and myelin synthesis. Copper is a cofactor for enzymes such as cytochrome c oxidase, which is vital for aerobic metabolism in motor neurons, and superoxide dismutase, which protects against oxidative stress.^[46] Deficiency leads to reduced enzyme activity, causing degeneration of neurons particularly in the brainstem and spinal cord, resulting in impaired signal transmission.^[47] This demyelination and subsequent neuronal loss manifest as locomotor dysfunction in affected offspring. Risk factors for maternal copper deficiency include grazing on pastures from soils low in available copper, such as acidic sandy soils or those with high molybdenum content. Secondary deficiency arises from antagonism by molybdenum and sulfur in the diet, which form insoluble copper-molybdenum-sulfur complexes (CuMoS4) in the rumen, reducing copper absorption.^[44] Swayback occurs in two main forms: congenital, where lambs or kids are born with paralysis and inability to stand due to severe prenatal demyelination; and delayed, appearing at 4-12 weeks of age with progressive ascending ataxia as postnatal copper depletion exacerbates spinal cord lesions.^[47]

Clinical Signs and Diagnosis

Swayback, or enzootic ataxia, manifests in small ruminants primarily through neurological deficits resulting from copper deficiency during fetal development. In the congenital form, affected lambs or kids are typically born recumbent and unable to stand or nurse, exhibiting severe weakness from birth due to incomplete myelination in the central nervous system.^[44] The delayed form, more commonly observed, develops in lambs or kids aged 3 to 12 weeks, beginning with a stiff, uncoordinated gait, knuckling of the fetlocks, and progressive hindlimb ataxia that advances to partial or complete paralysis.^[49] Affected animals generally retain normal mental alertness and appetite initially, despite the escalating motor impairment, though severe cases may include fine head tremors and blindness.^[45] Diagnosis relies on a combination of clinical evaluation, biochemical assays, and histopathological confirmation. Low copper concentrations in blood (serum or plasma levels below 0.5 ppm) and liver tissue (typically under 25 ppm on a wet weight basis) are indicative of deficiency contributing to swayback, often assessed in both affected individuals and herd mates for comparison.^[6] Cerebrospinal fluid (CSF) analysis may be performed to rule out infectious causes, revealing no significant abnormalities in swayback but supporting demyelination through ancillary tests; definitive evidence comes from post-mortem histopathology, which demonstrates characteristic cerebellar lesions including Purkinje cell degeneration, myelin vacuolation, and white matter cavitation.^[44] Differential diagnosis is essential to distinguish swayback from conditions like white muscle disease caused by selenium deficiency, which presents with generalized stiffness and muscle tremors rather than primary ataxia. This differentiation is achieved through muscle biopsy, where white muscle disease shows hyaline degeneration and mineralization absent in swayback, alongside targeted assays for selenium status such as glutathione peroxidase activity.^[49] Copper deficiency often stems from mid-gestation exposure in the dam, underscoring the need for herd-level testing.^[6]

Prevention and Control

Prevention of swayback in small ruminants primarily involves ensuring adequate copper intake during critical periods, particularly for pregnant ewes, to support fetal neurological development.^[50] Nutritional strategies focus on supplementation tailored to regional deficiencies, with recommended dietary copper levels of 10-17 mg per kg of dry matter for sheep, depending on breed and environmental factors.^[51] In deficient areas, incorporating 5-10 mg/kg of copper into complete feeds for ewes has been shown to maintain sufficient levels without risking toxicity.^[52] Soil and forage testing for copper content, along with fertilization using copper-containing amendments, helps identify and correct low bioavailability in pastures, especially in high-risk regions like Australia and New Zealand.^[53]^[54] Management practices emphasize proactive monitoring through routine blood or liver testing of ewes prior to breeding to detect marginal deficiencies early.^[6] In high-risk flocks, injectable copper, such as copper glycinate at doses repeated every 3 months or administered in mid-pregnancy, provides reliable prophylaxis against swayback, with a single dose often sufficient to prevent clinical cases in lambs. Oral boluses, like 5 g copper oxide needles given early in gestation, offer long-term release and are effective for flock-level prevention when dietary intake is inconsistent.^[55] Control measures include herd-wide screening via liver biopsies in endemic areas and formulating balanced mineral mixes that account for antagonists like molybdenum and sulfur, which can bind copper and reduce absorption.^[6] These antagonists are particularly problematic in soils with high molybdenum levels, necessitating ratios below 10:1 (copper:molybdenum) in supplements to ensure bioavailability.^[50] Implementing these prevention strategies significantly mitigates economic losses from swayback, which can affect up to 90% of lambs in severely deficient flocks, leading to high neonatal mortality and reduced productivity.^[44] Prophylactic copper supplementation has demonstrated high efficacy, with studies showing near-complete prevention of clinical swayback in treated herds during the 2010s and 2020s.^[56]

References

[1]
Swayback in Horses: Causes, Diagnosis, and Treatment Options
Jul 21, 2025 · Swayback, also known as lordosis, is one of several types of equine back malformations, which also include roach back (hump back) and scoliosis.Missing: definition | Show results with:definition
[2]
Swayback (Equine Lordosis): Causes, Management & Care | Mad Barn
### Summary of Swayback (Equine Lordosis)
[3]
Lordosis (Swayback): Types, Causes & Symptoms - Cleveland Clinic
Jul 31, 2022 · Lordosis is an increase in the curve toward the front of your body that's naturally part of your cervical and lumbar spine.
[4]
Copper Deficiency in Goats - Musculoskeletal System
Copper deficiency in utero due to inadequate dietary copper intake of the doe during pregnancy will cause a neurologic condition known as enzootic ataxia or ...
[5]
Thoracic Anatomy - Physiopedia
This guide gives a general overview of the anatomy of the thoracic spine. It also includes some facts regarding pathophysiology in this region.
[6]
Sway Back Posture - Physiopedia
Sway-back posture shows an increase in posterior tilt of the pelvis and the trunk and thoracic kyphosis in comparison to neutral posture.Definition · Mechanism of Injury... · Clinical Presentation · Diagnostic ProceduresMissing: disambiguation | Show results with:disambiguation<|control11|><|separator|>
[7]
Swayback Horses – Causes & Help for Horses with Lordosis
### Symptoms and Diagnosis of Swayback in Horses
[8]
Enzootic Ataxia - Goats
Aug 14, 2019 · Enzootic ataxia is caused by copper deficiency and can manifest itself in two ways in kids. The congenital form (present at birth) is called swayback.
[9]
Genetics of swayback in American Saddlebred horses - PubMed
Extreme lordosis, also called swayback, lowback or softback, can occur as a congenital trait or as a degenerative trait associated with ageing.
[10]
Lumbar hyperlordosis in children and adolescents at a privative ...
Lumbar hyperlordosis was defined as increased lumbar curvature evaluated by photography. Prevalence of lumbar hyperlordosis was 78%.
[11]
Prevalence of Postural Changes and Musculoskeletal Disorders in ...
Others identified a prevalence of 57.4% for cervical hyperkyphosis, 83.3% forward head position, 68.5% lumbar hyperlordosis, and 66.6% pelvis anteversion [28].
[12]
Outbreak of enzootic ataxia in goats and sheep in the state of Bahia
In the FO, the frequency indexes of enzootic ataxia were 36.67% in goats (33/90) and 7.69% in sheep (10/130); For the SO, the frequency was of 38.89% (34/90) in ...
[13]
Sway-backed - Etymology, Origin & Meaning
Originating from Scandinavian and linked to Danish 'sveibaget,' swayback means having a naturally sagging back, especially in horses; also a noun for thisMissing: veterinary horses
[14]
swayback - Wiktionary, the free dictionary
Noun · An excessive sagging of the spine of a quadruped animal, especially a horse. · An animal with such excessive sagging.
[15]
Historical overview of spinal deformities in ancient Greece - PMC
Hippocrates described four different causes of nontraumatic kyphosis, namely tuberculous spondylitis, epilepsy (the sacred disease), congenital or aquired ...
[16]
Historical overview of spinal deformities in ancient Greece - PubMed
... Hippocrates. Galen, who lived nearly five centuries later impressively described scoliosis, lordosis and kyphosis, provided aetiologic implications and used ...Missing: swayback humans
[17]
Examining 20th-century America's obsession with poor posture, a ...
Jun 7, 2018 · Historian Beth Linker is at work on a new book tracing what was seen as an epidemic of poor posture in American in the 19th and 20th centuries.
[18]
Copper Deficiency in Sheep in Western Australia: A Preliminary ...
Copper Deficiency in Sheep in Western Australia: A Preliminary Account of the Ætiology of Enzootic Ataxia of Lambs and an Anæmia of Ewes. H. W. Bennetts D.V.Sc.Missing: 1930s | Show results with:1930s
[19]
A Preliminary Account of the Ætiology of Enzootic Ataxia of Lambs ...
The neurological disturbances connected with copper deficiency in lambs have been described as 'swayback' (swaying, swinging caused by congenital deficiency of ...
[20]
The Truth About Swaybacks - Equus Magazine
Swayback associated with old age occurs with slackening of the soft-tissue attachments and loss of muscle tone in the belly and back that allow the spine to ...
[21]
Historical overview of spinal deformities in ancient Greece
Feb 25, 2009 · Galen described four types of spinal deformities, namely kyphosis when they spinal column moves backward, lordosis when it moves forward, ...
[22]
Hyperlordosis Causes, Symptoms & Treatments - Spine Connection
What is Hyperlordosis? Lordosis is a pronounced inward curving of the lower back or lumbar spine (just above the buttocks). It is also known as 'swayback'.
[23]
What Is Lordosis and Hyperlordosis | Rady Children's Health
Hyperlordosis, often referred to as “swayback,” occurs when the inward curve of the lower back becomes exaggerated, or an exaggerated inward curve.
[24]
Lordosis | Boston Children's Hospital
Overweight: Extra weight in the belly puts strain on the lower back and pulls it forward, increasing the risk for lordosis. Trauma: Sports injuries, accidents, ...Missing: factors | Show results with:factors
[25]
Lordosis - Lumbar - UF Health
May 27, 2025 · Spondylolisthesis may cause lordosis. In this condition, a bone (vertebra) in the spine slips out of the proper position onto the bone below it.<|control11|><|separator|>
[26]
Lordosis: Symptoms & Causes | NewYork-Presbyterian
Muscular or spinal disorders: several diseases can cause lordosis, including spondylolisthesis, osteosarcoma, osteoporosis, muscular dystrophy and cerebral ...Missing: hyperlordosis | Show results with:hyperlordosis
[27]
a review of the evolution of lumbar lordosis, and the mechanics and ...
Evolution and spine mechanics research show that lumbar lordosis is dictated by pelvic incidence, spinal musculature, vertebral wedging, and disc health.Degeneration of Lordosis... · Mechanics of Lumbar Lordosis · Mechanobiology
[28]
Influences of trunk muscles on lumbar lordosis and sacral angle - PMC
An imbalance in trunk muscle strength can influence significantly lordotic curve of lumbar spine and might be one risk factor for potential low back pain.
[29]
Prevalence of Postural Changes and Musculoskeletal Disorders in ...
Others identified a prevalence of 57.4% for cervical hyperkyphosis, 83.3% forward head position, 68.5% lumbar hyperlordosis, and 66.6% pelvis anteversion [28].
[30]
Lordosis - lumbar: MedlinePlus Medical Encyclopedia
Feb 17, 2024 · Lordosis tends to make the buttocks appear more prominent. Children with hyperlordosis will have a large space underneath the lower back ...Missing: humans | Show results with:humans
[31]
Spinal posture assessment and low back pain - PMC - NIH
Sep 1, 2023 · The main features of a sway-back are forward movement of the head, elongated cervical vertebrae, flattening of the lower lumbar region, waist ...
[32]
Low Back Pain Related to Hyperlordosis - Physiopedia
From a biomechanical point of view, the accentuated lumbar lordosis is associated with an increased prevalence of low back pain.However several studies have ...
[33]
Spine Sagittal Balance - StatPearls - NCBI Bookshelf - NIH
C7 Plumb Line and Sagittal Vertical Axis (SVA) The C7 plumb line is a radiographic reference to determine the sagittal vertical axis, the most traditional ...
[34]
Spine: deformity in Horses (Equis) | Vetlexicon
The exact reason is not known but is thought to be weakening of ligaments/muscles in the back and decreased tone in the abdominal muscles. Early onset lordosis ...<|control11|><|separator|>
[35]
Genetics of swayback in American Saddlebred horses
### Summary of Genetic Basis of Swayback in American Saddlebred Horses
[36]
Congenital and Inherited Anomalies of the Musculoskeletal System ...
Congenital lordosis (swayback) is associated with hypoplasia of the intervertebral articular processes. In adult horses, degrees of acquired lordosis and ...Missing: presentation sources
[37]
Advances in the Clinical Diagnostics to Equine Back Pain - NIH
Feb 23, 2024 · Potential causes of DSSL/DISL include strains during ventroflexion, compressive injuries due to saddle pressure, enthesiopathies at the ...Missing: swayback | Show results with:swayback
[38]
Swayback in Horses: Causes & Management Tips
### Management Tips for Swayback Horses
[39]
Ask the Vet Video on Causes of Swayback in Horses - SmartPak
### Summary of Vet's Advice on Swayback in Horses
[40]
6 Reasons for Swayback in Horses - Windhorse Veterinary Clinic
Aug 12, 2019 · Most back changes in horses are due to changes in the muscles that support the back. This is a problem of posture. This usually has been going ...Missing: definition | Show results with:definition
[41]
Swayback in a Young Horse
A young horse's swayback is getting worse as he ages. A veterinarian shares insight on why this might be.
[42]
[PDF] Swayback Disease in Ruminants - The Science Publishers
This disease cause major economic losses in ruminant farming, as this diseases effect up to 50% of cattle population in. Argentina and 90% of lamb flocks are ...
[43]
Swayback - an overview | ScienceDirect Topics
Swayback is defined as an enzootic disease that closely resembles multiple sclerosis in both clinical and histological characteristics, which has been ...Easily Recognized Faulty... · Kypholordosis · Scoliosis
[44]
[PDF] SYNDROMES OF ILL-HEALTH ASSOCIATED WITH COPPER
(“swayback”) are seen due to copper deficiency in their dams. At the critical period in late gestation when myelin is being laid down most rapidly, copper ...
[45]
(PDF) Swayback Disease in Ruminants : A Review. - ResearchGate
Nov 28, 2017 · Swayback (enzootic ataxia), a disease caused by primary and secondary deficiency copper. This disease causes major economic losses.
[46]
Copper deficiency in ruminants | Business Queensland
Jun 25, 2021 · Injection in mid-pregnancy can prevent sway-back in lambs. Copper pellets have been developed that are easy to administer with a pellet gun, ...Missing: etiology gestation
[47]
Ataxic and weak lambs – is it swayback, white muscle disease or ...
May 19, 2022 · The cause is low copper levels during pregnancy, which can be secondary to high molybdenum and sulphur levels.Missing: etiology gestation
[48]
Trace Element Deficiencies in Sheep - NADIS
The clinical manifestation of copper deficiency varies worldwide with swayback more common in the UK, poor wool quality and anaemia in Australia, and poor bone ...
[49]
Copper Deficiency in Sheep and Cattle | OSU Small Ruminant Team
Oct 15, 2019 · swayback or enzootic ataxia of lambs. Lambs with this condition cannot coordinate their legs. · loss of pigmentation in black-woolled sheep.
[50]
How To Get Sheep Copper Levels Right - Animax
May 7, 2025 · Blood plasma levels of below 9.4 µmol/L in adult ewes and 3 µmol/L in lambs indicates depleting reserves of copper in the liver. After ...
[51]
https://www.animax-vet.com/how-to-get-sheep-copper-levels-right/
[52]
Understanding the Role of Copper in Sheep Diets - Hi-Pro Feeds
For grazing sheep, copper-containing fertilizer can be applied to pasture to fortify forage. Always consult a nutritionist or veterinarian before supplementing ...
[53]
[PDF] fact sheet - Beef + Lamb New Zealand
Never use multiple methods of copper supplementation in sheep. Dose ewes with 5g CuO (Copper oxide) needles. (bolus) early in gestation. This will increase the.
[54]
[PDF] Copper deficiency - Final report
Jun 27, 2016 · Observations of scouring, lameness and swayback in lambs were recorded throughout the duration of the trial. No significant effect of copper ...<|control11|><|separator|>