Donate to the Palestine's children, safe the people of Gaza.  >>>Donate Link...... Your contribution will help to save the life of Gaza people, who trapped in war conflict & urgently needed food, water, health care and more.
RxHarun

Thoracic-Spine Iatrogenic Deformity After Thoracoplasty

Nada G. Abou Fayssal, MD - Neurologist and Spinal Cord Specialist. Nada G. Abou Fayssal, MD - Neurologist and Spinal Cord Specialist.
2 Views
Degenerative Bones, Joints, and Spine Care (A - Z)

Iatrogenic means “caused unintentionally by medical treatment.” When sections of rib are removed during a thoracoplasty (often done to help the lungs or to flatten a rib hump in scoliosis), the bony and muscular supports of the upper-back curve are weakened. Over months or years the weight of the head, gravity, unbalanced muscles, and scar tissue can pull the thoracic segment into an abnormal, fixed bend (kyphosis or scoliosis). The new curve may hurt, stiffen breathing, pinch nerves or even stretch the spinal cord if it keeps progressing. PMCPubMed

Thoracic-spine iatrogenic deformity after thoracoplasty means an abnormal curve or twist of the mid-back that did not exist (or was far smaller) before surgery and that can be traced directly to a prior thoracoplasty—the rib-reshaping or rib-resection procedure often added to correct a rib-hump or to harvest bone for fusion during scoliosis surgery. In most cases the new deformity is a rigid kyphosis, scoliosis, or a mixed three-dimensional curve that slowly progresses in the months and years after the original operation. The problem is “iatrogenic” because it is caused unintentionally by medical care rather than by disease, fracture, or congenital malformation.

Mechanistically, a thoracoplasty shortens the posterolateral chest wall; that can unbalance the tethering forces on the thoracic vertebrae, injure the paraspinal musculature, create asymmetric rib fusion, alter growth plates in children, and disturb the coupled motion between ribs and spine. When the protective muscles are weakened and the bony rib struts are partially removed, every breath, cough, and loaded posture can push the unbalanced segment toward progressive deformity. Studies of long-term follow-up after conventional thoracoplasty list progressive scoliosis, loss of pulmonary reserve, and chronic pain among the chief downsides. Oxford Academic

Why Does It Matter?

  • It can worsen cosmetic appearance (new rib hump, shoulder imbalance).

  • It may impair lung function—both restrictive (volume loss) and obstructive changes have been documented three to five years after the procedure, especially when more than three ribs are removed. PubMedPubMed

  • Pain, fatigue, and reduced spinal mobility increase disability scores and diminish return-to-sport or work rates.

  • Repeat corrective surgery (often a long-fusion with osteotomies) carries higher risks than the original operation.

Types of Iatrogenic Thoracic Deformity

Each paragraph begins with the keyword and then explains the variety in plain English.

  1. Post-thoracoplasty Kyphosis (PKT). The most common pattern: the cut ribs collapse medially and posteriorly, pulling the thoracic segment into an exaggerated forward bend. This kyphosis may be smooth or angular and typically peaks between T6 and T10. Because the thoracic cage has lost its normal “strut” effect, the anterior vertebral bodies grow less than the posterior elements in children, locking the curve in place.
  2. Post-thoracoplasty Scoliosis. When more ribs are removed on one side or the thoracoplasty is done asymmetrically, the spine may buckle sideways toward the resected ribs, producing a de novo scoliosis that can progress 1–3° a year if left unchecked. Case reports describe rib-fusion bridges that act like congenital bars, dragging the spine into a long C-curve. PMC
  3. Combined Kypho-Scoliosis. A helical deformity with both a side-bend and a forward-bend component; frequently seen after multi-level rib resections because shortening occurs in two planes.
  4. Rotational Deformity. Loss of rib-anchoring allows the vertebral bodies to spin; clinically evident as a new or worsened rib hump even if the coronal Cobb angle is modest.
  5. Proximal Junctional Kyphosis (PJK). If the upper instrumented vertebra of a fusion ends within the thoracoplasty zone, stresses concentrate above the metalwork, generating a focal kyphosis that progresses rapidly in the first postoperative year.
  6. Distal Junctional Failure. Analogous to PJK but below the fusion; rare but severe when the construct was extended into the lumbar spine while ribs were resected higher up.
  7. Flat-Back Syndrome. Occurs when thoracoplasty produces compensatory hyper-lordosis in the lumbar spine; patients stand with hips and knees flexed to stay balanced.
  8. Sagittal Imbalance. A global translation of the trunk anteriorly; small thoracic deformities can cascade into large sagittal malalignment requiring revision.
  9. Growth-Modulation Deformity (Pediatric). In children the asymmetrical tethering from rib fusion or muscle scarring alters vertebral growth kinetics—slower on the concave side, faster on the convex—making the curve self-worsening during growth spurts. ResearchGate
  10. Crankshaft Phenomenon After Fusion. If the original fusion was posterior-only and ribs were removed, the anterior vertebral bodies continue to grow and twist, driving the crankshaft effect.

Causes

  1. Extensive Rib Resection (>3 ribs). Removing many ribs creates a large segment without structural side-support, letting the spine drift. PubMed

  2. Unilateral Rib Fusion Bridges. Bone regrowth across adjacent ribs on one side behaves like a congenital bar pulling the spine sideways.

  3. Asymmetric Soft-Tissue Scarring. Denervation and fibrosis of paraspinal and intercostal muscles on the operative side unmask contralateral muscle pull.

  4. Anterior Chest Wall Collapse. Loss of posterior rib length leads to loss of thoracic depth, levering vertebrae anteriorly into kyphosis.

  5. Inadequate Post-op Bracing. Without external support, muscles alone cannot resist the new imbalance in the early healing window.

  6. Premature Return to Heavy Activity. High loads before rib union transmit shear to the spine.

  7. Pediatric Growth Spurts. Rapid longitudinal growth magnifies small asymmetries left after surgery.

  8. Underlying Bone Fragility (e.g., osteopenia). Weak ribs and vertebrae remodel excessively under the shifted load.

  9. Loss of Pulmonary Inflation Forces. Reduced negative intrathoracic pressure on the operated side lessens the counter-traction normally stabilising the ribs.

  10. Concomitant Laminectomy. Removing facet joints at fusion levels decreases posterior column stability.

  11. Implant Malposition. Screw pullout or rod strain can misalign the fusion construct, transmitting force to adjacent mobile segments.

  12. Infection-Induced Bone Loss. Post-operative osteomyelitis eats into vertebral bodies and costovertebral joints, creating collapse.

  13. Radiation Therapy. Occasionally given for tumors, radiation weakens bone and soft tissue, compounding instability.

  14. Neuromuscular Weakness (e.g., cerebral palsy). Poor muscle tone cannot counteract gravity once the rib scaffold is shortened.

  15. Thoracic Outlet Syndrome Surgery Overlap. Additional first-rib resections remove yet more lateral support.

  16. Chronic Coughing Disorders. Diseases such as cystic fibrosis generate repetitive rib cage micro-motion, exaggerating deformity.

  17. Smoking-Related Poor Healing. Nicotine vasoconstriction impairs rib union, leaving a flexible gap longer.

  18. Vitamin-D or Calcium Deficiency. Impedes bone bridging and remodeling symmetry.

  19. Posterior Fusion Ending in Zone of Rib Resection. Hardware stops inside a destabilised area, encouraging junctional collapse.

  20. Genetic Predisposition to Hyper-kyphosis. Variants in collagen genes (e.g., COL1A1) may modulate disc and bone response to altered loading.

Symptoms

  1. Visible Rib Hump Recurrence—a bulge that slowly reappears months after surgery.

  2. Mid-Back Fatigue Pain that worsens on standing and eases when supine.

  3. Infrascapular Scapular Prominence on the operated side.

  4. Uneven Shoulder Height despite initial postoperative symmetry.

  5. Progressive Forward Stooping difficult to correct voluntarily.

  6. Loss of Height measured annually.

  7. Clothes Hanging Crookedly (shirts twist, bra straps slip).

  8. Shortness of Breath on Exertion—walk tolerance falls as lung volumes drop. PubMed

  9. Exertional Tachycardia from inefficient ventilation.

  10. Intercostal Neuralgia—sharp shooting pain along the resected ribs.

  11. Paraspinal Muscle Spasm palpable on exam.

  12. Sudden “Giving Way” Sensation when bending or lifting.

  13. Balance Disturbance feeling off-center while walking.

  14. Early Satiety from reduced thoracic volume pressing abdominal organs upward.

  15. Paresthesia over Chest Wall due to nerve traction injuries.

  16. Difficulty Lying Prone (pressure discomfort from rib hump).

  17. Head-Forward Posture compensating sagittal shift.

  18. Recurrent Respiratory Infections secondary to poor ventilation.

  19. Sleep Disturbance needing extra pillows to breathe comfortably.

  20. Emotional Distress & Body-Image Dissatisfaction validated by SRS-22 self-image scores. SpringerLink

Diagnostic Tests

Divided into 5 logical clusters. Each test is set off in bold and explored in prose.

A. Physical-Examination Measures

  1. Standing Visual Inspection. Surgeon views the back for asymmetry, rib hump, scapular tilt, and shoulder balance.

  2. Adam’s Forward-Bend Test. Patient bends; angle of trunk rotation (ATR) measured with scoliometer; new >5° indicates progression.

  3. Sagittal Balance Plumb-Line. Drop weight from C7; anterior displacement >4 cm suggests kyphotic shift.

  4. Supine Fulcrum Test. Checks flexibility: curve corrects <50 % = structural deformity.

  5. Rib Flare Palpation. Palpate costal margin for gaps/steps that imply rib fusion.

  6. Pulmonary Expansion Tape Measure. Difference <2 cm between maximal inspiration/expiration flags restrictive chest wall.

B. Manual & Functional Tests

  1. Beighton Hypermobility Score. Gauges ligament laxity that may allow greater postoperative drift.

  2. Manual Muscle Testing (MMT) of Paraspinals. Weakness implies poor active stabilization.

  3. Isometric Endurance Hold (Sorensen Test). Time to fatigue <60 s correlates with pain and curve progression.

  4. 6-Minute Walk Distance. Functional capacity drop alerts to cardiopulmonary compromise.

  5. Spirometry Incentive-Meter Trial. Volume sustained >80 % predicted suggests safe reserve; lower values may demand imaging review.

  6. Chest Wall Excursion under Hand Palpation. Detects asymmetrical movement that foreshadows rotational deformity.

C. Laboratory & Pathological Tests

  1. Serum Calcium, Phosphate, Vitamin D. Rule out metabolic bone lag preventing rib union.

  2. High-Sensitivity CRP & ESR. Persistent elevation may point to low-grade infection destabilising fusion.

  3. Bone-Turnover Markers (P1NP, CTX). Imbalanced remodeling can predict vertebral wedging.

  4. HLA-B27 Typing. Excludes coexisting inflammatory spondylitis masquerading as post-surgical kyphosis.

  5. Parathyroid Hormone Levels. Hyper- or hypo-parathyroidism alters bone quality.

  6. Histology of Excised Rib Edge (if re-op). Confirms solid fusion vs fibrous pseudo-arthrosis contributing to shift.

D. Electro-diagnostic Tests

  1. Surface EMG Mapping of Paraspinals. Shows asymmetrical firing and muscle fatigue patterns.

  2. Nerve-Conduction Studies of Intercostal Nerves. Detect crush or traction neuropathies after rib resection.

  3. Transcutaneous Oximetry during Exercise. Drops in SpO₂ indicate restrictive deficit.

  4. Cardiopulmonary Exercise Testing (CPET). Peak VO₂ fall ≥15 % versus pre-op baseline flags functional impairment.

  5. Somatosensory Evoked Potentials (if considering revision fusion). Establish baseline neural conductivity.

  6. Respiratory Muscle Strength Testing (MIP/MEP). Diminished pressures corroborate chest-wall weakness.

E. Imaging Tests

  1. Standing Postero-Anterior (PA) Spine X-ray. Measures Cobb angle progression.

  2. Standing Lateral Thoracic X-ray. Quantifies Sagittal Vertical Axis and kyphosis apex.

  3. Supine Side-Bending Films. Differentiate flexible vs rigid segments.

  4. EOS Slot-Scanning 3-D Imaging. Low-dose method to capture spine-pelvis relationship.

  5. Rib-Cage CT (High-Res). Maps rib-fusion bridges, pseudo-arthroses, screw positions.

  6. CT-Based 3-D Reconstruction. Helps plan corrective osteotomies by visualising rotational deformity.

  7. MRI of Thoracic Spine. Assesses discs, spinal cord, and any epidural scarring.

  8. MRI-Ventilation (“cine-MRI”). Visualises diaphragm and rib motion asymmetry.

  9. Dynamic Ultrasound of Chest Wall. Non-ionising way to study rib motion in children.

  10. Dual-Energy X-ray Absorptiometry (DEXA). Screens for osteopenia that may accelerate deformity.

  11. Whole-Body Low-Dose CT (in syndromic cases). Detects multi-level skeletal consequences.

  12. Fluoroscopy-Guided Flexion–Extension Series. Checks for hidden instability at fusion junctions.

Non-Pharmacological Treatments

A. Physiotherapy, Electrotherapy & Corrective Exercise

  1. Posture-retraining drills – mirror feedback and tactile cues teach neutral alignment; over time this unloads the wedged vertebrae and eases muscle spasm. HealthCentralPhysiopedia

  2. Thoracic extension strengthening – prone “supermans” or foam-roller presses build the multifidus and spinal-extensor groups that counter kyphosis.

  3. Scapular-stabilisation sets – serratus-anterior punches and lower-trapezius holds shift the shoulder girdle back, indirectly straightening the thoracic curve.

  4. Core-stability training – planks and dead-bugs tighten the abdominal corset, letting the spine stack correctly.

  5. Manual joint mobilisation – gentle PA glides loosen stiff facet joints and rib heads, allowing corrective positioning.

  6. Myofascial release – therapist’s hands or massage gun free scarred intercostal and paraspinal fascia, reducing tethering.

  7. Kinesio-taping – elastic tape reminds you to stay upright and unloads fatigued muscles for several days.

  8. Thoracolumbosacral brace (TLSO) – custom plastic shell worn 4–6 h/day halts curve progression while muscles strengthen.

  9. Proprioceptive wobble-board work – challenges balance so deep back muscles fire reflexively in the right pattern.

  10. Therapeutic ultrasound – deep heat at 1 MHz improves collagen elasticity before stretching.

  11. Transcutaneous Electrical Nerve Stimulation (TENS) – masks pain signals so you can move more normally.

  12. Neuromuscular Electrical Stimulation (NMES) – recruits inhibited extensors during early rehab.

  13. Low-level-laser therapy – photobiomodulation dampens inflammation around osteotomy scars.

  14. Moist-heat packs – vasodilate tissues, easing spasms before exercise.

  15. Cryotherapy ice massage – quiets acute flare-ups after long days upright.

B. Mind–Body Approaches

  1. Yoga thoracic-extension flow – cobra, locust, and supported fish pose lengthen anterior chest, open rib angles, and retrain diaphragmatic breathing.

  2. Pilates spine-articulation drills – segmental roll-downs teach controlled flexion–extension without hinging one spot.

  3. Tai Chi – slow whole-body spirals improve proprioception and thoracic rotation mobility.

  4. Mindfulness-based stress reduction (MBSR) – lowers pain catastrophising and the muscle tension it provokes.

  5. Guided diaphragmatic-breathing practice – strengthens respiratory muscles compromised by rib resections.

C. Educational & Self-Management Tools

  1. Pain-neuroscience education sessions – understanding “hurt ≠ harm” encourages gradual exposure to upright tasks.

  2. Ergonomic coaching – adjusting monitors to eye level and chairs to 100-degree hip angle stops daily slump cycles.

  3. Posture-tracker wearables – vibrate when you slouch more than preset threshold, supplying instant feedback.

  4. Smartphone exercise app with video logging – boosts adherence to home programme.

  5. Weight-management counselling – every extra kg adds about 17 kg of compressive load to the thoracolumbar junction.

D. Additional Physical-Support Interventions

  1. Aquatic therapy – buoyancy relieves axial load so you can practise extension safely.

  2. Nordic walking poles – encourage upright gait and thoracic rotation while off-loading joints.

  3. Posture-corrector garments – elastic straps gently retract shoulders for people who cannot tolerate rigid bracing.

  4. Group education / peer support – sharing strategies sustains motivation, shown to improve long-term adherence.

  5. Fall-prevention balance circuits – reduce risk of vertebral fracture in those with bone fragility.

Medications (dose ranges are adult averages – always tailor with your doctor)

# Drug & Class Typical Starting Dose & Timing Common Side-Effects
1 Acetaminophen (simple analgesic) 500–1000 mg by mouth every 6 h Liver strain if >4 g/day
2 Ibuprofen (NSAID) 400 mg every 6–8 h with food Heart-burn, kidney load
3 Naproxen (NSAID) 250–500 mg twice daily Same as above, longer half-life
4 Diclofenac (NSAID) 50 mg three times daily Gastritis, fluid retention
5 Celecoxib (COX-2 inhibitor) 200 mg once daily Fewer ulcers, watch BP Physiopedia
6 Gabapentin (neuropathic pain) 300 mg nightly, titrate to 600 mg three times daily Drowsiness, dizziness
7 Pregabalin 75 mg twice daily Peripheral oedema, weight gain
8 Duloxetine (SNRI) 30 mg morning, increase to 60 mg Nausea, dry mouth
9 Amitriptyline (TCA) 10–25 mg at bedtime Dry eyes, morning grogginess
10 Tramadol (weak opioid + SNRI) 50 mg every 6 h as needed Nausea, dependence risk
11 Oxycodone CR (opioid) 10 mg every 12 h Constipation, tolerance
12 Methocarbamol (muscle relaxant) 750 mg 4×/day Lethargy
13 Cyclobenzaprine 5 mg 3×/day Dry mouth
14 Baclofen (GABA-B agonist) 10 mg 3×/day Weakness
15 Tizanidine (α2-agonist) 2 mg up to 3×/day Hypotension
16 Lidocaine 5 % patch (topical) Up to three patches over sore area for 12 h Local rash
17 Diclofenac 1 % gel 4 g over 400 cm² up to 4× daily Mild skin irritation
18 Oral methylprednisolone burst 24 mg taper over 6 days for acute flare Insomnia, glucose spike
19 Calcitonin nasal spray 200 IU daily Rhinitis
20 Denosumab (RANKL inhibitor) 60 mg sub-Q every 6 months Hypocalcaemia, jaw osteonecrosis Journal of Neurosurgery

“Bone-Active & Biologic” Therapies

  1. Alendronate 70 mg orally weekly – bisphosphonate embeds in bone and blocks osteoclasts, reducing vertebral compression.

  2. Zoledronic-acid 5 mg IV yearly – potent bisphosphonate for those who cannot tolerate pills.

  3. Teriparatide 20 µg SC daily – synthetic PTH pulses osteoblasts to build new trabeculae.

  4. Abaloparatide 80 µg SC daily – similar anabolic effect with slightly lower hyper-calcaemia risk.

  5. Denosumab 60 mg SC every 6 mths – monoclonal antibody silences bone resorption even in chronic kidney disease.

  6. High-molecular-weight hyaluronic-acid 20 mg facet-joint injection (viscosupplement) – coats cartilage, may ease pain up to 6 months; evidence is mixed. PubMed

  7. Platelet-rich plasma (3 mL intramuscular around facets) – growth factors recruit repair cells, small trials show modest benefit.

  8. BMP-2 collagen sponge (4 mg per level during fusion) – stimulates local bone bridging but must be dosed carefully to avoid ectopic bone.

  9. Mesenchymal-stem-cell disc injection (≈10 million cells) – early studies report pain relief via anti-inflammatory secretions. Mayo Clinic

  10. Pentosan-polysulfate 2 mg/kg IM weekly (disease-modifying OA drug) – modulates cartilage matrix turnover; human data emerging.

Molecular Supplements

Supplement Typical Dose Main Function How It Works
Vitamin D₃ 2000 IU daily Boosts calcium absorption Up-regulates intestinal transporter TRPV6
Calcium citrate 500 mg elemental 2×/day Provides building blocks for bone Precipitates as hydroxyapatite crystals
Magnesium glycinate 200 mg daily Cofactor in bone-matrix enzymes Activates alkaline phosphatase
Omega-3 EPA/DHA 2 g combined daily Anti-inflammatory Competes with arachidonic acid in COX pathway
Curcumin 1000 mg daily with pepperine Antioxidant & NF-κB inhibitor Lowers cytokine storm around facet joints
Glucosamine sulfate 1500 mg daily Cartilage matrix precursor Donates sulfate groups to GAG chains
Chondroitin sulfate 1200 mg daily Attracts water into cartilage Increases proteoglycan osmotic pressure
Collagen type II peptides 10 g daily Stimulates chondrocytes Supplies hydroxyproline triplets
Resveratrol 250 mg daily SIRT1 activator; antioxidant Promotes osteoblast survival
Boswellia serrata extract 300 mg three-times daily 5-LOX inhibitor Cuts leukotriene-driven inflammation

Surgical Options

  1. Posterior spinal fusion with pedicle-screw instrumentation – locks vertebrae together, stops progression, often corrects 40–60 % of deformity.

  2. Pedicle-subtraction osteotomy (PSO) – removes a V-shaped bone wedge so the spine can hinge backward; ideal for fixed kyphosis >30°. PubMed

  3. Vertebral-column resection (VCR) – excises entire vertebral body and discs where sharp angular deformity pinches the cord.

  4. Ponte osteotomies – multiple posterior-column bone shaves; adds flexibility before rod contouring.

  5. Smith-Petersen osteotomy – opens anterior disc by closing the posterior elements; useful when discs remain mobile.

  6. Anterior vertebral-body tethering – tensioned cable on convex side lets concave side keep growing in children, aiming for gradual self-correction.

  7. VEPTR (Vertical Expandable Prosthetic Titanium Rib) revision – distractible rods re-expand rib cage in growing children with previous thoracoplasty.

  8. Kyphoplasty with cement augmentation – lifts collapsed vertebrae and fills them with PMMA to restore height and reduce pain.

  9. Hybrid-rod constructs with satellite-hook protection – spreads stress to reduce proximal-junctional-kyphosis risk. PMC

  10. Hook-and-band constructs for PJK revision – swap out broken top screws and reinforce soft tissues, restoring smooth curve transition. ScienceDirect

Benefits: improved balance, easier breathing, reduced nerve pressure, and often substantial cosmetic gain. Rehabilitation still essential to maintain results.

Practical Ways to Prevent the Deformity in the First Place

  1. Thorough pre-operative planning with 3-D imaging to minimise rib resection length.

  2. Using rib-sparing or endoscopic techniques when possible.

  3. Immediate post-op physiotherapy to restore balanced muscle firing.

  4. Adequate vitamin-D and calcium levels to keep bone strong.

  5. Early bracing in children until growth plates mature.

  6. Avoiding chronic high-dose steroids that thin bone.

  7. Regular DEXA scans in adults with risk factors.

  8. Maintaining healthy body weight and core strength.

  9. Smoking cessation – nicotine delays bone healing.

  10. Scheduled follow-ups: radiographs at 3, 6, 12 months to catch subtle progression early.

When should you see a doctor urgently?

  • Sudden increase in mid-back pain not relieved by rest

  • New tingling, numbness, or weakness in legs

  • Loss of bowel or bladder control

  • Curve progression >5 ° in 6 months on X-ray

  • Persistent shortness of breath, especially on lying flat

Any of these require prompt spine-specialist review to rule out cord compression or instrumentation failure.

“Do and Avoid” Tips for Daily Life

  1. Do sit on a chair with lumbar support; Avoid soft couches that round the spine.

  2. Do break up screen time every 30 min; Avoid marathon sessions hunched over laptops.

  3. Do sleep on a medium-firm mattress; Avoid belly-sleeping that forces hyper-extension.

  4. Do lift with knees and neutral back; Avoid twisting while carrying groceries.

  5. Do practise deep belly-breathing twice daily; Avoid shallow chest breaths that stiffen ribs.

  6. Do wear your brace the full prescribed hours; Avoid “just a quick break” that turns into the whole afternoon.

  7. Do log pain and activity to spot triggers; Avoid “pushing through” severe pain flares.

  8. Do keep up calcium-rich foods; Avoid excess cola which leaches bone minerals.

  9. Do use trekking poles on hikes; Avoid heavy backpacks without chest straps.

  10. Do celebrate small posture wins; Avoid comparing yourself harshly to X-ray pictures.

Frequently Asked Questions (FAQs)

  1. Is post-thoracoplasty kyphosis common?
    It is relatively uncommon, occurring in up to 5–10 % of open rib resections, but risk rises if more than three contiguous ribs are removed. PubMed

  2. How soon after surgery can the curve start?
    Small changes may appear within months, yet noticeable deformity often takes 1–3 years as scar maturation and bone growth play out.

  3. Will wearing a brace fix the curve completely?
    Bracing halts progression and may recoup a few degrees in flexible spines; fixed bony deformity needs exercise or surgery for larger correction.

  4. Can the lungs recover after thoracoplasty and curve correction?
    Modified techniques spare more rib length and studies show no long-term drop in lung function at two-year follow-up. PubMedScienceDirect

  5. Do bisphosphonates help the spine fuse after revision surgery?
    Early data suggest patients on bisphosphonates do not have higher non-union rates and may fracture less. Journal of Neurosurgery

  6. Are stem-cell injections approved?
    They are still “off-label” and delivered in clinical trials or specialised centres; long-term safety data are growing but not definitive. Mayo Clinic

  7. Is yoga safe with rods in my back?
    Yes, as long as you avoid deep forward bends and get clearance from your surgeon; focus on gentle extensions and breathing.

  8. How much height can surgery restore?
    Vertebral osteotomies often gain 4–10 cm, but cosmetic perception matters more than centimetres.

  9. What’s the recovery time after a PSO?
    Hospital stay ~5 days, walker for 2 weeks, light activities by 6 weeks, bony fusion 6–12 months.

  10. Will I set off airport metal detectors?
    Modern titanium or cobalt-chrome implants can trigger alarms; carry your implant ID card.

  11. Does glucosamine really work?
    Cochrane reviews show modest pain relief after 3 months, especially when combined with chondroitin.

  12. Can I still run?
    Low-impact jogging is usually fine after fusion heals; check with your physiotherapist to build up safely.

  13. What is proximal-junctional kyphosis?
    A new sharply angled curve just above the fused segment; good rod contouring and bone health lower the risk. PMC

  14. Will my insurance cover biologic therapies?
    Bisphosphonates and teriparatide are widely covered; newer biologics and stem-cell injections may require prior authorisation.

  15. Is the deformity reversible without surgery?
    If detected early and still flexible, diligent non-pharmacological care can partially reverse it; once bones fuse, correction is mostly surgical.

Disclaimer: Each person’s journey is unique, treatment plan, life style, food habit, hormonal condition, immune system, chronic disease condition, geological location, weather and previous medical  history is also unique. So always seek the best advice from a qualified medical professional or health care provider before trying any treatments to ensure to find out the best plan for you. This guide is for general information and educational purposes only. Regular check-ups and awareness can help to manage and prevent complications associated with these diseases conditions. If you or someone are suffering from this disease condition bookmark this website or share with someone who might find it useful! Boost your knowledge and stay ahead in your health journey. We always try to ensure that the content is regularly updated to reflect the latest medical research and treatment options. Thank you for giving your valuable time to read the article.

The article is written by Team Rxharun and reviewed by the Rx Editorial Board Members

Last Updated: May 28, 2025.

  1. Spine-nomenclatures-spinal-cord
  2. Neurospine and spinal cord injury[rxharun.com]
  3. Lumbar Disc Herniation and Central Lumbar Spinal Stenosis[rxharun.com]
  4. spinal_anatomy[rxharun.com]
  5. lumbar-spine-anatomy[rxharun.com]
  6. low back pain_pathophysiology_and_mx
  7. daniels-et-al-2018-the-lateral-c1-c2-puncture-indications-technique-and-potential-complications
  8. Thoracic_Spine_Anatomy[rxharun.com]
  9. lumbarstenosis[rxharun.com]
  10. Lumber disc harination [rxharun.com]
  11. Lumbardischerniation[rxharun.com
  12. surface anatomy[rxharun.com]
  13. thorax-spine-objectives3[rxharun.com]
  14. Anatomy of spinal blood supply[rxharun.com]
  15. cervicalradiculopathy
  16. backgrounder-Spinal-Function-and-Anatomy-Fact-Sheet[rxharun.com]
  17. amandersson,+17453679309160118[rxharun.com]
  18. VERTEBRAL-CANAL-II[rxharun.com] ,
  19. anatomy_of_the_spinal_cord[rxharun.com]
  20. Vertebrae-General Anatomy[rxharun.com]
  21. Human Anatomy & Physiology[rxharun.com]
  22. Bone_Vertebrae[rxharun.com]
  23. anatomyofvertebralcolumn-170714070023[rxharun.com]
  24. Applied anatomy of the lumbar spine [rxharun.com]
  25. spine THE VERTEBRAL COLUMN[rxharun.com]
  26. Applied anatomy of the cervical spine[rxharun.com]
  27. spine-5-fh-thoracic-spine-anatomy[rxharun.com]
  28. L-Spine_spine_lumbar_anatomy [rxharun.com]
  29. Spine_Program_TMH-Insert-Spinal-Anatomy[rxharun.com]
  30. my-spine-explained[rxharun.com]
  31. Anatomy of the spine [rxharun.com]
  32. algorithm[rxharun.com]
  33. anatomy-and-physiology-of-lumbar-spine-tn6srjc8uq[rxharun.com]
  34. Boose-Degenerative-spondylolisthesis[rxharun.com]
  35. mri-lumbar-spine[rxharun.com][rxharun.com]
  36. Low_Back_Pain_Guidelines___April_2012___JOSPT[rxharun.com]
  37. l-spine-lumbar-spinal-stenosis[rxharun.com]
  38. differentiating-hip-pathology-from-lumbar-spine[rxharun.com]
  39. THEVERTEBRALCOLUMN[rxharun.com]
  40. 1403 room4 thur Holtzhausen – Examination of the lumbosacral spine[rxharun.com]
  41. low_back_pain[rxharun.com]
  42. lumbar-spine-anatomy-diagram[rxharun.com]
  43. Lumbar-Spine-Anatomy-and-Biomechanics[rxharun.com]
  44. McKenzie-Lumbar[rxharun.com]
  45. lhmc-rehab-protocol-post-op-lumbar-spinal-fusion[rxharun.com]
  46. Lumbar Spine[rxharun.com]
  47. post-op-lumbar-fusion[rxharun.com]
  48. Clinical-Biomechanics-of-spine[rxharun.com]
  49. spine2-mb-anatomy-and-biomech-of-the-tls-spine[rxharun.com]
  50. Diagnosis and Treatment of[rxharun.com]
  51. ow-back-pain-exercises[rxharun.com]
  52. Thoracic_Lumbosacral_and_Pelvic_Regions_new[rxharun.com]
  53. spine-low-back-assess-clinical-pathways[rxharun.com]
  54. Lumbar Core Strength[rxharun.com]
  55. Stability of the lumbar spine[rxharun.com]
  56. lumbar-radiofrequency-ablabtion-[rxharun.com]
  57. Clinical examination of the lumbar spine[rxharun.com]
  58. anatomy-of-the-spine Typical vertebral anatomy-lateral view[rxharun.com]
  59. Applied anatomy of the lumbar spine[rxharun.com]
  60. Lumbar Spine Range of Movement Exercise Program[rxharun.com]
  61. Morphometric Study of Lumbar Vertebrae[rxharun.com]
  62. witek2019[rxharun.com] Wilcyznski_MRI-lumbar[rxharun.com]
  63. biomechanics-of-lumbar-spine-and-lumbar-disc[rxharun.com]
  64. Lumbar Spine Muscles and Movement [rxharun.com]
  65. L-Spine_spine_lumbar_anatomy[rxharun.com]
  66. Nomenclature[rxharun.com]
  67. spine-low-back-assess-clinical-pathways[rxharun.com]
  68. Cervical-and-Thoracic-Spine-Disorders-Guideline[rxharun.com]
  69. spine-1-jk-anatomy-of-the-spine[rxharun.com]
  70. Physical Exam of the Spine[rxharun.com]
  71. degenerative pathology of the spine new[rxharun.com]
  72. Spinal-pathology-Drop-foot-Thoracic-pain-Inflammatory-Back-Pain[rxharun.com]
  73. Many Facets of Spine Pathology[rxharun.com]
  74. osteoarthritis-of-the-spine-information[rxharun.com]
  75. MRI in Lumber Disc Degenerative Diseases[rxharun.com]
  76. ARTIFICIAL INTERVERTEBRAL DISCS LUMBAR SPINE[rxharun.com]
  77. 2022985[rxharun.com]
  78. amandersson[rxharun.com]
  79. lumbardischerniation[rxharun.com]
  80. Anaesthesia-for-paediatric-dentistry[rxharun.com]
  81. Developments in intervertebral disc disease research_ pathophysiotherapy[rxharun.com]
  82. 2025.03.13.643128v1.full[rxharun.com]
  83. Lumbar_Disc_Herniation[rxharun.com]
  84. Biomechanics of the Lumbar[rxharun.com]
  85. percutaneous annular puncture[rxharun.com]
  86. The nucleus pulposus microenvironment i[rxharun.com]
  87. Intervertebral Disc Stress [rxharun.com]
  88. degenerative changes of the intervertebral disc[rxharun.com]
  89. Dixon_AR, Mechanical Engineering, PhD, 2022[rxharun.com]
  90. INTERVERTEBRAL DISC DEGENERATION [rxharun.com]
  91. Intervertebral disc degeneration rx[rxharun.com]
  92. Biological Therapeutic Modalities for Intervertebral[rxharun.com]
  93. intervertebral-disc-mechanics-[rxharun.com]
  94. Intervertebral Disc Damage & Repair[rxharun.com]
  95. disc_prolapse_pathology_2016[rxharun.com]
  96. Strontium Ranelate Ameliorates Intervertebral Disc[rxharun.com]
  97. faysal_bas_it,+841_221-223[rxharun.com]
  98. LUMBAR PROLAPSED INTERVERTEBRAL[rxharun.com]
  99. nrrheum.2014-disc-nutrient-review[rxharun.com]
  100. Intervertebral Disc Degeneration[rxharun.com]
  101. Structure and Biology of the Intervertebral Disk in Health and Disease[rxharun.com]
  102. amandersson,+17453679309160104[rxharun.com]
  103. Ligamentum Flavum at L4-5[rxharun.com]
  104. Bone_Vertebrae[rxharun.com]
  105. Anatomy of the spine[rxharun.com]
  106. lab manual_spinal cord and spinal nerves_a+p[rxharun.com]
  107. Spinal Cord Functions & Reflexes[rxharun.com]
  108. Nervous System Lect Notes[rxharun.com]
  109. Central nervous system[rxharun.com]
  110. Nervous System.BD[rxharun.com]
  111. SAJAA(V26N6)+p40-44+09+2535+Spinal+cord+pathways[rxharun.com]
  112. Spinal-cord[rxharun.com]
  113. spinalcord[rxharun.com]
  114. Management of[rxharun.com]
  115. integrated-care-pathway-spinal-cord-injury[rxharun.com]
  116. Spinal Cord Spinal Nerve Anatomy[rxharun.com]
  117. 1st-Professional-MBBS-Chapter-wise-Questions[rxharun.com]
  118. Key_Sensory_Points[rxharun.com]
  119. Spinal-cord-slides[rxharun.com]
  120. Range_of_Motion[rxharun.com]
  121. yes-you-can_digital[rxharun.com]
  122. Motor_Exam_Guide[rxharun.com]
  123. Living-with-a-Spinal-Cord-Injury[rxharun.com]
  124. The Spinal Cord and Spinal Nerves[rxharun.com]
  125. Spinal cord nerves [rxharun.com]
  126. anatomy-of-the-circulation-of-the-brain-and-spinal-cord[rxharun.com]
  127. Spinal_cord_Tracts[rxharun.com]
  128. Spinal Cord Injury[rxharun.com]
  129. spinal cord[rxharun.com]
  130. SpinalCord34[rxharun.com]
  131. Spinal_Cord_Anatomy_and_Localization.-compressed[rxharun.com]
  132. Functions of the Spinal Cord[rxharun.com]
  133. Spinal Cord Organization[rxharun.com]
  134. Spinal Cord, Spinal Nerves[rxharun.com]
  135. AnatomyBackSpinalCord-StatPearls-NCBIBookshelf[rxharun.com]
  136. SpinalCord nerve, reflexes, coloumn[rxharun.com]
  137. Spinal Cord, nerve, reflexes[rxharun.com]
  138. Anatomy of the Spinal Cord [rxharun.com]
  139. Spinal+cord+pathways[rxharun.com]
  140. L2-Anatomy of Spinal cord[rxharun.com]
  141. fnhum-11-00343[rxharun.com]
  142. spine_injury_guidelines[rxharun.com]
  143. spine-care-for-the-therapist[rxharun.com]
  144. thoracic spine based on graphical images[rxharun.com]
  145. Spine-biomechanics[rxharun.com]
  146. ajnr_1_1_009[rxharun.com]
  147. Ultrasonography of the Adult Thoracic and Lumbar Spine for Central Neuraxial Blockade [rxharun.com]
  148. thoracic-spine[rxharun.com]
  149. JAAOS_Management_of_Thoracic_and_lumbar_metastases[rxharun.com]
  150. THEVERTEBRALCOLUMN[rxharun.com]
  151. Spine7 Treatment of Fractures of the Thoracic and Lumbar Spine[rxharun.com]
  152. Thoracic_spine_mobility_an_essential_link_in_upper_limb_kinetic_chains_a_systematic_review_v2[rxharun.com]
  153. Disorders of the thoracic spine pathology treatment[rxharun.com]
  154. Thoracoscopy-A-Minimally-Invasive-Approach-to-the-Anterior-Thoracic-Spine[rxharun.com]
  155. Thoracic-Spine-Anatomy-and-Biomechanics[rxharun.com]
  156. thoracic-mobility-and-athletic-performance[rxharun.com]
  157. Thoracic_Lumbosacral_and_Pelvic_Regions_new[rxharun.com]
  158. Thoracic Home Exercise Program[rxharun.com]
  159. Thoracic Posture and Mobility in Mechanical Neck[rxharun.com]
  160. Thoracic_and_Lumbar_Spine_ROM_exercise_programme_done_2019[rxharun.com]
  161. spine-5-fh-thoracic-spine-anatomy[rxharun.com]
  162. Clinical examination of the thoracic spine[rxharun.com]
  163. TIMS-Managing-Thoracic-Back-Pain-July-2024[rxharun.com]
  164. Cervical-and-Thoracic-Spine-Disorders-[rxharun.com]
  165. Cervical-and-Thoracic-Spine-Disorders-[rxharun.com]
  166. [ rxharun.com] Viscosupplementation
  167. ACHOT_ach-202402-0005[ rxharun.com] Viscosupplementation
  168. 2.01.534[ rxharun.com] Viscosupplementation[ rxharun.com] Viscosupplementation
  169. P160057C [ rxharun.com][ rxharun.com] Viscosupplementation
  170. ecri-hyaluronic-acid-hla[ rxharun.com] Viscosupplementation
  171. injection-options-for-knee-osteoarthritis2018[ rxharun.com] Viscosupplementation
  172. p080020s020d[ rxharun.com] Viscosupplementation
  173. P170007D[ rxharun.com] Viscosupplementation
  174. sodium-hyaluronate[ rxharun.com] Viscosupplementation
  175. P090031B[ rxharun.com] Viscosupplementation
  176. ha-visco_final_report_101113[ rxharun.com] Viscosupplementation
  177. FDA-2018-N-4751-0040_attachment_[ rxharun.com] Viscosupplementation
  178. HA-PRP-final-KQs_0[ rxharun.com] Viscosupplementation
  179. Consensus_2015[ rxharun.com] Viscosupplementation
  180. viscosupplementation[ rxharun.com] Viscosupplementation
  181. 1045-Assessment-Report[ rxharun.com] Viscosupplementation
  182. 0883527e2ed6a879a98016da71c70a42c047[ rxharun.com] Viscosupplementation
  183. 20100503-141823_k0184_viscosupplementation_for_oa_final[ rxharun.com] Viscosupplementation
  184. 25549-a-comprehensive-review-of-viscosupplementation-in-osteoarthritis-of-the-knee[ rxharun.com] Viscosupplementation
  185. Viscosupplementation GL 9-13-2023[ rxharun.com] Viscosupplementation
  186. bmj-2022-069722.full[ rxharun.com] Viscosupplementation
  187. Use_of_Viscosupplementation_for_Knee_Osteoarthritis[ rxharun.com] Viscosupplementation
  188. 1-s2.0-S1877056814003235-main[ rxharun.com] Viscosupplementation
  189. pt-cervical-spine-neck-pain physicalmedicineandrehabilitationsupplementalguide
  190. Viscosupplementation-for-the-Osteoarthritis-of-the-Knee[ rxharun.com] Viscosupplementation
  191. overview-final-pdf-6659770717[ rxharun.com] Viscosupplementation
  192. Prot_SAP_000[ rxharun.com] Viscosupplementation
  193. Viscosupplementation-AHM[ rxharun.com] Viscosupplementation
  194. Hyaluronic_Acid_Derivative_Clinical_Coverage_Criteria_-_PM144[ rxharun.com] Viscosupplementation
  195. hyaluronic-acid-viscosupplementation[ rxharun.com] Viscosupplementation
  196. synvisc-in-knee-osteoarthritis[ rxharun.com] Viscosupplementation
  197. sodium-hyaluronate-cs[ rxharun.com] Viscosupplementation
  198. UQ118381_OA[ rxharun.com] Viscosupplementation
  199. 25549-a-comprehensive-review-of-viscosupplementation-in-osteoarthritis-of-the-knee Hyaluronate Derivatives ACHOT_ach-202402-0005[ rxharun.com] Viscosupplementation[ rxharun.com]
  200. Viscosupplementation 2.01.534[ rxharun.com] Viscosupplementation
  201. [ rxharun.com] Viscosupplementation
  202. stem-cells-therapy-in-general-medicine-7406
  203. American Journal of Medicine Advances in Regenerative Medicine
  204. advances-in-regenerative-medicine-and-tissue-engineering-innovation-and-transformation-of-medicine
  205. .postpn333REGENERATIVE MEDICINE
  206. Regenerative_medicine_
  207. gao-Regenerative
  208. stem-cells-regenerative-medicine
  209. Regenerative
  210. Regenerative_medicine_
  211. A_review roland_berger_regenerative_medicine

PDF Document For This Disease Conditions

  1. https://rxharun.com/wp-content/uploads/2017/02/Nomenclature.pdf
  2. https://pubmed.ncbi.nlm.nih.gov/27887750/
  3. https://www.ncbi.nlm.nih.gov/books/NBK537139/
  4. https://www.ncbi.nlm.nih.gov/books/NBK537236/
  5. https://www.ncbi.nlm.nih.gov/books/NBK537140/
  6. https://pubmed.ncbi.nlm.nih.gov/30335291/
  7. https://pubmed.ncbi.nlm.nih.gov/30725921/
  8. https://pubmed.ncbi.nlm.nih.gov/30725824/
  9. https://www.ncbi.nlm.nih.gov/books/NBK559006/
  10. https://pubmed.ncbi.nlm.nih.gov/30725825/
  11. https://en.wikipedia.org/wiki/Muscle
  12. https://en.wikipedia.org/wiki/List_of_skeletal_muscles_of_the_human_body
  13. https://medlineplus.gov/ency/imagepages/19841.htm
  14. https://www.britannica.com/science/human-muscle-system
  15. https://training.seer.cancer.gov/anatomy/muscular/types.html
  16. https://www.britannica.com/science/human-muscle-system
  17. https://www.sciencedirect.com/topics/medicine-and-dentistry/skeletal-muscle
  18. https://academic.oup.com/nar/article/32/5/1792/2380623
  19. https://onlinelibrary.wiley.com/journal/10974598
  20. https://medlineplus.gov/skinconditions.html
  21. https://en.wikipedia.org/wiki/Category:Kidney_diseases
  22. https://kidney.org.au/your-kidneys/what-is-kidney-disease/types-of-kidney-disease
  23. https://www.niddk.nih.gov/health-information/kidney-disease
  24. https://www.kidney.org/kidney-topics/chronic-kidney-disease-ckd
  25. https://www.kidneyfund.org/all-about-kidneys/types-kidney-diseases
  26. https://www.aad.org/about/burden-of-skin-disease
  27. https://www.usa.gov/federal-agencies/national-institute-of-arthritis-musculoskeletal-and-skin-diseases
  28. https://www.cdc.gov/niosh/topics/skin/default.html
  29. https://www.mayoclinic.org/diseases-conditions/brain-tumor/symptoms-causes/syc-20350084
  30. https://www.ninds.nih.gov/Disorders/Patient-Caregiver-Education/Understanding-Sleep
  31. https://www.cdc.gov/traumaticbraininjury/index.html
  32. https://www.skincancer.org/
  33. https://illnesshacker.com/
  34. https://endinglines.com/
  35. https://www.jaad.org/
  36. https://www.psoriasis.org/about-psoriasis/
  37. https://books.google.com/books?
  38. https://www.niams.nih.gov/health-topics/skin-diseases
  39. https://cms.centerwatch.com/directories/1067-fda-approved-drugs/topic/292-skin-infections-disorders
  40. https://www.fda.gov/files/drugs/published/Acute-Bacterial-Skin-and-Skin-Structure-Infections—Developing-Drugs-for-Treatment.pdf
  41. https://dermnetnz.org/topics
  42. https://www.aaaai.org/conditions-treatments/allergies/skin-allergy
  43. https://www.sciencedirect.com/topics/medicine-and-dentistry/occupational-skin-disease
  44. https://aafa.org/allergies/allergy-symptoms/skin-allergies/
  45. https://www.nibib.nih.gov/
  46. https://www.nei.nih.gov/
  47. https://en.wikipedia.org/wiki/List_of_skin_conditions
  48. https://en.wikipedia.org/?title=List_of_skin_diseases&redirect=no
  49. https://en.wikipedia.org/wiki/Skin_condition
  50. https://oxfordtreatment.com/
  51. https://www.nidcd.nih.gov/health/
  52. https://consumer.ftc.gov/articles/w
  53. https://www.nccih.nih.gov/health
  54. https://catalog.ninds.nih.gov/
  55. https://www.aarda.org/diseaselist/
  56. https://www.ninds.nih.gov/Disorders/Patient-Caregiver-Education/Fact-Sheets
  57. https://www.nibib.nih.gov/
  58. https://www.nia.nih.gov/health/topics
  59. https://www.nichd.nih.gov/
  60. https://www.nimh.nih.gov/health/topics
  61. https://www.nichd.nih.gov/
  62. https://www.niehs.nih.gov
  63. https://www.nimhd.nih.gov/
  64. https://www.nhlbi.nih.gov/health-topics
  65. https://obssr.od.nih.gov/
  66. https://www.nichd.nih.gov/health/topics
  67. https://rarediseases.info.nih.gov/diseases
  68. https://beta.rarediseases.info.nih.gov/diseases
  69. https://orwh.od.nih.gov/

References

Related Articles
To Get Daily Health Newsletter

We don’t spam! Read our privacy policy for more info.

Terms and Conditions of Use
Privacy Policy
Cookie Policy
Editorial Policy
Advertising Policy
EU User Consent Policy
Correction Policy
Citation Policy
Ethics and Logical Policies
About Us
Contact Us
Newsletter
Career
Sitemap
Advertise with us
Editorial Board Members
Review Board Member
Team RxHarun
Web Developers Team
Guest Posts and Sponsored Posts
Request for Board Member
Women Writers
Download Mobile Apps
Follow us on Social Media
© 2012 - 2025; All rights reserved by authors. Powered by Mediarx International LTD, a subsidiary company of Rx Foundation.
RxHarun
Logo