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Understanding Scheuermann Kyphosis: A Comprehensive Overview

Pathophysiology of Scheuermann Kyphosis

Scheuermann kyphosis, also known as Scheuermann disease, is characterised by structural deformity in the spine, particularly in the thoracic region.

Scheuermann manifests through a radiographic feature of nuclear end plate impressions. This is where the spinal discs' watery component intrudes into the bony vertebral bodies. Please think of this like the motor between two bricks breaking through the brick and cracking it. This causes the spinal vertebra structure (the 'brick') to become unstable and early disc degeneration (the morter).

This article delves into the specifics of the vertebra bone's shape after being damaged by the father of the disc, vertebral wedging, its radiological, x-ray, classification, and the implications for diagnosis and treatment.

Additionally, it explores recent findings on vitamin D deficiency in patients with Scheuermann disease, its association with adverse outcomes, and movement factors contributing to the condition.

Pathophysiology of Scheuermann Kyphosis

Scheuermann kyphosis primarily affects the thoracic spine, leading to a kyphotic curvature more significant than the normal range. The condition is believed to arise during adolescence, with genetic and biomechanical factors contributing to its development. The hallmark of Scheuermann disease is the wedging of at least three adjacent vertebrae by 5 degrees or more, leading to a pronounced kyphotic deformity.

Nuclear End Plate Impressions

Nuclear end plate impressions refer to the phenomenon where the nucleus pulposus, the inner core of the intervertebral disc, herniates into the end plates of the vertebrae. This intrusion weakens the structural integrity of the vertebral bodies, facilitating the characteristic wedging seen in Scheuermann kyphosis. This early disc degeneration often results in chronic pain and stiffness in the affected region.

Vertebral Wedging: Radiological Classification

The diagnosis and assessment of Scheuermann kyphosis heavily rely on radiological evaluation. Vertebral wedging is a critical feature that aids in diagnosing the severity and progression of the condition. The classification of vertebral wedging is based on the degree and type of wedging observed.

Vertebral Wedging: Radiological Classification
Clinical Implications of Vertebral Wedging

Degrees of Wedging

  1. Grade I: Mild wedging with less than 5 degrees of anterior wedging per vertebra.
  2. Grade II: Moderate wedging with 5 to 10 degrees of anterior wedging per vertebra.
  3. Grade III: Severe wedging with more than 10 degrees of anterior wedging per vertebra.

Types of Wedging

  1. Type I: Uniform wedging across the affected vertebrae, typically seen in earlier stages of the disease.
  2. Type II: Asymmetrical wedging where the degree of wedging varies between adjacent vertebrae.
  3. Type III: Mixed pattern with uniform and asymmetrical wedging areas, often indicating advanced disease with significant structural compromise.

    Clinical Implications of Vertebral Wedging

    The classification of wedging is pivotal in determining the appropriate treatment and management strategies for Scheuermann kyphosis. The extent and type of vertebral wedging provide insights into the severity of the deformity and guide the therapeutic approach.

    Diagnosis and Treatment Planning

    1. Clinical Examination: Initial diagnosis involves a thorough clinical examination, including spinal curvature and range of motion assessment. Palpation may reveal tenderness over the affected vertebrae.
    2. Radiographic Evaluation: X-rays are the primary diagnostic tool, with lateral views revealing the degree of kyphosis and vertebral wedging. MRI and CT scans may be utilised to visualise nuclear end plate impressions and disc pathology.
    3. Bracing: For mild to moderate cases (Grade I and II), bracing can help halt the progression of kyphosis and alleviate symptoms in acute/ new cases associated and linked with trauma (big lift or fall). The Milwaukee brace is commonly used in such cases. But at our Wimbledon chiro and sports injury clinical, we used another brace by Bauerfeind called the SofTec® Dorso
    1. Physical Therapy: Strengthening and stretching exercises targeting the paraspinal muscles can improve posture and reduce pain.
    2. Surgical Intervention: Severe cases (Grade III) with significant deformity and pain unresponsive to conservative measures may require surgical correction. Procedures such as spinal fusion and osteotomy are considered to restore spinal alignment and stability.

    Vitamin D Deficiency and Scheuermann's Disease: Insights from D3 Studies

    Recent research has highlighted the association between vitamin D deficiency and adverse outcomes in patients with Scheuermann's disease. A study published in *SICOT-J* in 2024 examined the prevalence of vitamin D deficiency within a cohort of individuals diagnosed with Scheuermann's disease and its impact on disease progression and treatment outcomes.

    Key Findings from the Study

    The study reviewed the medical records of 11,277 patients with Scheuermann's disease. Of these, 1,024 patients (9.08%) were identified as deficient in vitamin D. However, only 1,421 patients (12.6%) had their vitamin D levels tested. Among those tested, a significant 72% were found to be deficient in vitamin D.

    This highlights a potential oversight in managing Scheuermann's disease, where vitamin D levels are not routinely monitored.

    Implications of Vitamin D Deficiency

    Vitamin D plays a crucial role in bone health and metabolism. Deficiency in vitamin D can exacerbate the structural weaknesses in the spine caused by Scheuermann's disease, potentially leading to increased pain, deformity, and a higher likelihood of requiring surgical intervention. The study's findings suggest that routine screening for vitamin D levels should be considered in the management plan for patients with Scheuermann's disease to identify and address deficiencies early. This is more important in climates and multicultural areas like the United Kingdom or London, where we are based, as the statistics say that 1 in 4 people in the UK are likely to be low on vitamin D at any time.

    Recommendations for Clinical Practice

    1. Routine Screening: Regular vitamin D level assessments in patients diagnosed with Scheuermann's disease can help identify deficiencies that may contribute to worsening symptoms and adverse outcomes.
    2. Supplementation: For patients who are deficient, vitamin D supplementation should be considered as part of the comprehensive treatment strategy to support bone health and potentially mitigate disease progression.
    3. Further Research: Continued research into the relationship between vitamin D levels and Scheuermann's disease outcomes is needed to establish definitive clinical guidelines and improve patient care.
      Vitamin D Deficiency and Scheuermann's Disease: Insights from D3 Studies
      Nutritional Treatment

      Biomechanical Factors in Scheuermann Kyphosis

      A review titled "Current Concepts on Scheuermann Kyphosis: Clinical Presentation, Diagnosis, and Controversies Around Treatment" (2012) highlighted several biomechanical factors that could contribute to the aetiology of Scheuermann's disease. One significant biomechanical factor is hamstring contracture, commonly observed in patients with Scheuermann's kyphosis.

      Impact of Hamstring Contracture

      Hamstring contracture impedes normal pelvic inclination during trunk flexion. This condition causes repeated flexion forces to concentrate through the thoracic spine, leading to progressive anterior wedging of the thoracic vertebrae. According to research by Ogden et al., asymmetric biomechanical stress on the vertebral bodies alters the remodelling response, contributing to the development of kyphosis.

      Biomechanical Theory of Kyphosis

      Kyphosis (upper back hump) results from an imbalance of the load supported between the front and back elements of the spine. It has been proposed that treatment with bracing in patients with thoracic hyperkyphosis could produce a posterior displacement of the centre of gravity and load axis, leading to the disappearance of anterior vertebral wedging. This supports the biomechanical theory of the origin of Scheuermann's disease. It stands that if picked up early enough, the humping deformity may be cancelled out in some shuermanns cases. But radiographic analysis should be sorted to confirm boney changes to indicate whether both treatment and bracing maintenance may be required over just regular self-lead physical Therapy.

      Integrating Biomechanical and Nutritional Treatment Approaches

      Considering Scheuermann's disease's biomechanical and nutritional aspects, a combined treatment approach may offer the best outcomes for patients.

      Mechanical or Manual Treatment

      1. Physical Therapy: Targeted exercises to address hamstring contracture and strengthen the spinal musculature.
      2. Bracing: Use of thoracolumbar orthosis to correct spinal alignment and reduce anterior vertebral wedging.
      3. Manual Therapy: Techniques such as spinal manipulation and mobilisation to improve spinal mechanics and alleviate pain.

      Nutritional Treatment

      1. Vitamin D Screening: Routine testing for vitamin D levels in patients with Scheuermann's disease.
      2. Supplementation: Vitamin D supplements are provided to deficient patients to support bone health and potentially reduce disease progression.

      Conclusion

      Scheuermann kyphosis is a complex spinal disorder with significant implications for affected individuals. Understanding the nuances of vertebral wedging and its classification is essential for accurate diagnosis and effective management. Recent insights into the role of vitamin D deficiency and biomechanical factors, such as hamstring contracture, further underscore the need for comprehensive patient care strategies that include biomechanical and nutritional interventions. Through detailed radiological assessment, routine vitamin D screening, and a combined therapeutic approach, healthcare providers can enhance outcomes for patients dealing with this challenging condition.