Osteoporosis, Osteoarthritis, Rheumatoid Arthritis PDF

Summary

This document provides an overview of various bone diseases. It describes osteoporosis, differentiating primary and secondary forms. It further discusses osteomalacia and rickets along with hyperparathyroidism and secondary hyperparathyroidism, osteomyelitis. The document also explains the conditions and pathology of osteoarthritis and rheumatoid arthritis, comparing their distinguishing features.

Full Transcript

Osteoporosis
Reduction of bone mass per unit of
bone volume
Metabolic bone disease
Bone displays normal ratio of
mineral to matrix
Primary and secondary
 Primary Osteoporosis
Most common
Uncertain etiology
Postmenopausal women
Elderly persons (senile)
– Genetic: peak bone mass

– Estrogens: decline

– Aging

– Calcium intake (800mg/day)

– Exercise

– Environmental factors: smoking leads to estrogen ↓
 Primary Osteoporosis
Osteopenia
Decrease thickness of cortex
Reduction in the number and size of
trabeculae
Fractures can be the first sign
Compression fractures of vertebrae
 Secondary Osteoporosis
Corticosteroids
– Inhibition of osteoblastic activity

– Impair of vit. D dependant intestinal calcium
absorption (secondary hyperparathyroidism)
Hematologic malignancies
Malabsorption: GI and liver diseases
Alcoholism
– Inhibition of osteoblasts,

– ↓ absorption of calcium
 Osteomalacia and rickets
Inadequate mineralization of newly formed bone
matrix (osteomalacia)
Rickets: children, epiphyseal plates open; also
problem with cartilage
– Beaded appearance of costochondral junctions
– Pectus carinatum
– Dental abnormalities
Vitamin D deficiency (dependent)
Phosphate deficiency (resistant)
Defects in mineralization process
 Osteomalacia and rickets
Osteopenia
Exaggeration of osteoid seams
Poorly localized pain
Femoral neck, pubic ramus, spine, ribs
 Hyperparathyroidism
Parathyroid adenoma, hyperplasia, rare
malignancy
Parathyroid hormone
– Promotes excretion of phosphate in the
urine and stimulates osteoclastic activity
resulting in hypercalcemia
– Stimulates tubular reabsorption of
calcium and excretion of phosphate
– Stimulates intestinal calcium absorption
 Hyperparathyroidism
Stones: Kidney
Bones: Brown tumors
Psychiatric depression
GI tract irregularities
 Secondary hyperparathyroidism
Renal osteodystrophy
Chronic renal failure
– Decreased filtration of phosphate

Hyperphosphatemia
– Effect on active vit. D

– Decreased Ca absorption in GI

Hypocalcemia
– Secondary hyperparathyroidism
 Osteomyelitis
Inflammation of bone caused by an infectious
organism
Staphylococcus, streptococcus, Escherichia coli,
Neisseria gonorrhea, Haemophilus influenza,
Salmonella
Direct penetration
– Wounds, fractures, surgery
Hematogenous
– Bloodstream, teeth; metaphyses
– Knee, ankle, hip
 Complications of Osteomyelitis
Septicemia
Acute bacterial arthritis
Pathologic fractures
Squamous cell carcinoma
Amyloidosis
Chronic osteomyelitis
 Arthritis - Introduction
Inflammation of joints - Common
Common site for autoimmune injury
– Heart valves & Joints - damage –
Exposure of hidden antigens.
Infections.
Degeneration – Age/Stress/life style
 Arthritis – Clinical features:
Pain
–  Inflammation - capsule, synovium,
periosteum.
Swelling:
–  inflammation, effusion, proliferation.

Restricted movement
–  pain, fluid, synovial swelling, damage.

Deformity
–  mal-alignment, erosion, ankylosis
 Osteoarthritis
Most common joint disease
Slow progressive degeneration of articular
cartilage
Weight bearing joints
Fingers
Primary: defect in cartilage, not an inflammatory
disease
Secondary: trauma, crystal deposits, infection
Interphalangeal joints, knees, hips, cervical and
lumbar spine
 Osteoarthritis
Narrowing of joint space (loss of disk)
Increased thickness of subchondral bone
– Eburnated bone

Subchondral bone cysts
Osteophytes (Haberden nodes)
– Fingers, distal interphalangeal joints
 Causes
Primary
Secondary as:
Intra articular fracture
Previous infective arthritis
Rheumatoid
Congenital dislocation of hip
 Abnormal stresses as
Paget’s disease with deformity
Chronic overuse
Metabolic and endocrine as :
Hemochromatosis
Gout
Calcium phosphate deposition
 Neuropathic disorders as :
Peripheral neuropathy as in diabetes
mellitus
Intraarticular corticosteroid in excess
 Osteoarthritis:
Degenerative end result - (ageing) >80% in >65y.
Progressive erosion & fibrillation of articular
cartilage  forms Loose bodies.
Large weight bearing joints.
Hardened articular bone – eburnation. &
Subarticular cyst formation in bone.
Periarticular osteophyte formation.
Mild inflammation but painful, morning
stiffness.
Limited range of movements Heberden nodes (F)
 Radiologic Features:
no uniform joint space loss,
osteophyte formation,
cyst formation
subchondral sclerosis
Sclerosis, ankylosis & deformity.
Osteoarthritis:

Narrow joint space
Lipping – osteophyte
Dislocation
Osteoporosis.
 Rheumatoid arthritis
Systemic chronic inflammatory disease
Autoimmune disease
Diarthrodial joints bilaterally
STARTS AS SYNOVIAL DISEASE
3:1 women
Remissions and exacerbations
Heredity; EBV(?)
 Theory of Pathogenesis
Genetically susceptible patient
Infection ?
Formation of Abs
Abs act as new antigens
Production of rheumatoid factor
Deposits of immune complexes in the synovium
Activation of complement cascade
Inflammation
Activation of macrophages
Homing of T cells
Secretion of cytokines
 RA - Definition:
Chronic Multisystem autoimmune
inflammatory disorder primarily
affecting joints producing a
proliferative synovitis that often
progresses to destruction of the
articular cartilage and ankylosis.
 Etiology:
Genetic Susceptibility:
– HLA DR4, or DR1 in 65% to 80% cases.
Microbial inciting agent:
– Epstein-Barr virus, Borrelia & Mycoplasma
Autoimmunity:
– IGM anti IgG – RA Factor.
– Helper T cell (CD4) against type II collagen
& cartilage glycoprotein-39
 Pathology
Inflammation of the joint and hyperplasia
of the synovium followed by destruction
of the articular structures
The synovium infiltrated with
lymphocytes and plasma cells
Fibrin exudation on the synovial fluid
forming sometimes soft loose bodies
called Rice bodies
Neutrophil polymorphs are present
 All previous changes are reversible

When granulation tissue grows
over the surface of the articular
cartilage Pannus interfere with the
nutrition of the cartilage leads to
permanent joint damage.
 Histopathological features

Rice bodies
Hyperplastic synovium
Pannus
Allison-Ghormley bodies
Rheumatoid nodules
 Extra articular manifestation
Rheumatoid nodule
Vasculitis
Cardiac disease
Pulmonary disease
Serosal inflammation
Amyloidosis
Anemia
Eye involvement
 Morphology:
Proliferative synovitis with lymphocytes
(CD4), plasma cell & macrophages Pannus.
Organizing fibrin (rice bodies).
Neutrophils on the joint surface and fluid.
Juxta-articular erosions, cysts & osteoporosis
Fibrous ankylosis.
Skin - Rheumatoid nodules
Vasculitis (commonly of digital arteries)
 RA - Clinical Features:
1. Morning stiffness.
2. Arthritis in 3 or more joint areas.
3. Arthritis of small hand joints.
4. Symmetric arthritis.
5. Rheumatoid nodules.
6. Serum rheumatoid factor.
7. Typical radiographic changes

At least 4 features for diagnosis.
 Extra-Articular RA
Rheumatoid Nodules
Vasculitis
Pleuritis
Pericarditis
Tendonitis
 Differentiating Features:
Rheumatoid Arthritis:
Young, small joints
Autoimmune.
Synovial Inflammation
synovium  Cartilage
Osteoarthritis:
Old, Large joints
Degenerative.
Cartilage degeneration.
Cartilage  Synovium
 Rheumatoid arthritis osteoarthritis
Age Any age 25- 55 Elderly
Affected joint Symetrical artheritis Hip
metacarbophalangeal Knee
inerphalangeal wrist Ankle
shoulder

Synovium Hyperplasia dense Mild secondary
inflammation inflammation

Articular cartilage Eroded by pannus loss of weigh bearing
surface

Systemic disease Yes No
Pathogenesis Autoimmune disease degenerative