muscoloskeletal patho lecture final
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pathoTRANSCRIPT
MusculoskeletMusculoskeletal Systemal System
MusculoskeletMusculoskeletal Systemal System
A & P ReviewA & P Review
MusclesMuscles
SkeletalSkeletal– VoluntaryVoluntary
SmoothSmooth– Involuntary, internal organsInvoluntary, internal organs
CardiacCardiac– InvoluntaryInvoluntary
Skeletal MusclesSkeletal Muscles
600 skeletal muscles 600 skeletal muscles
Organized by type of movement:Organized by type of movement:– Flexor: flexing of jointsFlexor: flexing of joints– Extensor: extension of jointExtensor: extension of joint
Skeletal MusclesSkeletal Muscles Muscle FibersMuscle Fibers
– Extend length of muscleExtend length of muscle– Perimysium: binds fibers into fasciculusPerimysium: binds fibers into fasciculus– Epimysium binds fasciculusEpimysium binds fasciculus– Epimysium becomes tendon coming off Epimysium becomes tendon coming off
musclemuscle
The BonesThe Bones
206 bones206 bones Classified by Shape and LocationClassified by Shape and Location
– Long: Humerus, radius, FemurLong: Humerus, radius, Femur– Short: Wrist, ankeShort: Wrist, anke– Flat: Scapula, ribs, skullFlat: Scapula, ribs, skull– Irregular: vertebra and mandibleIrregular: vertebra and mandible– Sesamoid: patellaSesamoid: patella
Skeletal StructuresSkeletal Structures
Epiphysis = endEpiphysis = end Metaphysis = Metaphysis =
widening before widening before the end of the the end of the bonebone
Skeletal StructuresSkeletal Structures
Diaphysis = shaftDiaphysis = shaft– Contains bone Contains bone
marrowmarrowº Red marrow: makes Red marrow: makes
blood cellsblood cellsº Yellow marrow: Yellow marrow:
contains fatcontains fat
Skeletal StructuresSkeletal Structures
PerisosteumPerisosteum– Outer lining Outer lining – Thick, fibrous Thick, fibrous
connective tissueconnective tissue EndosteumEndosteum
– Inner liningInner lining– Contain Osteoblast Contain Osteoblast
producing cellsproducing cells
Bone Tissue CompositionBone Tissue Composition
CellsCells Extracellular MatrixExtracellular Matrix
– Ground substanceGround substance– Protein fibersProtein fibers
Characteristics of the tissue Characteristics of the tissue depend on the extracellular matrixdepend on the extracellular matrix
Bone CellsBone Cells
OsteoblastsOsteoblasts– lay down the extracellular matrixlay down the extracellular matrix– Results in new bone formationResults in new bone formation
OsteoclastsOsteoclasts– break down the extracellular matrixbreak down the extracellular matrix– Tear down old or excess bone structureTear down old or excess bone structure– ResorptionResorption
Break down of bone to release calcium back into systemic circulationBreak down of bone to release calcium back into systemic circulation
Bone RemodelingBone Remodeling Osteoblasts and Osteoclasts are formed when Osteoblasts and Osteoclasts are formed when
they are needed to remodel bonethey are needed to remodel bone Osteoclasts remove damaged areas of boneOsteoclasts remove damaged areas of bone Osteoblasts come after them and replace the Osteoblasts come after them and replace the
extracellular matrixextracellular matrix
Extracellular MatrixExtracellular Matrix Ground substance contains crystals of Ground substance contains crystals of
calcium saltscalcium salts These make the bone rigidThese make the bone rigid They block oxygen and food diffusion, so They block oxygen and food diffusion, so
bone must contain blood vesselsbone must contain blood vessels Types of bone are distinguished by the Types of bone are distinguished by the
pattern the crystals are laid down in:pattern the crystals are laid down in:– Compact bone: laid down in layers like an onionCompact bone: laid down in layers like an onion– Cancellous bone: a lattice of tiny struts of bone, Cancellous bone: a lattice of tiny struts of bone,
like a spongelike a sponge
Bone Tissue CompositionBone Tissue Composition
Outer LayerOuter Layer– Compact bone Compact bone
with Haversian with Haversian CanalsCanals
– Canals contain Canals contain arteriolesarterioles
– Found in Found in DiaphysesDiaphyses
Bone Tissue CompositionBone Tissue Composition
Inner LayerInner Layer– Cancellous Cancellous
(spongy) bone(spongy) bone– Interface to Interface to
form a form a latticeworklatticework
– Red marrow Red marrow fills in spaces fills in spaces of latticework of latticework (trabeculae)(trabeculae)
Cartilage Tissue CompositionCartilage Tissue Composition
Ground substance is a gel Ground substance is a gel containing 65%–80% watercontaining 65%–80% water
Oxygen and food can diffuse Oxygen and food can diffuse through this gelthrough this gel
Therefore, the tissue does not need Therefore, the tissue does not need blood vesselsblood vessels
Cartilage Tissue CompositionCartilage Tissue Composition
Different types of cartilage are Different types of cartilage are distinguished by how many protein distinguished by how many protein fibers are in the extracellular matrixfibers are in the extracellular matrix– Hyaline cartilage: very few fibersHyaline cartilage: very few fibers
Shock cushion – trachea, bronchi, nasal septumShock cushion – trachea, bronchi, nasal septum
– Fibrocartilage: some elastin fibersFibrocartilage: some elastin fibers Provides cushioning – Intervertebral disksProvides cushioning – Intervertebral disks
– Elastic cartilage: many elastin fibersElastic cartilage: many elastin fibers Provides support – auditory canal, epiglottisProvides support – auditory canal, epiglottis
Tendons and LigamentsTendons and Ligaments
Extracellular matrix is filled with collagen fibersExtracellular matrix is filled with collagen fibers Strong and not elasticStrong and not elastic Tendons connect muscles to boneTendons connect muscles to bone Ligaments connect bones to one anotherLigaments connect bones to one another
JointsJoints
Union of two or more bonesUnion of two or more bones
Synarthroses: little to no mobilitySynarthroses: little to no mobility– Skull suturesSkull sutures
Amphidiarthrosis: slight movementAmphidiarthrosis: slight movement– VertebraeVertebrae
Diarthroses JointsDiarthroses Joints
Diarthroses: Diarthroses: highly mobile highly mobile and free movingand free moving– Joint capsule Joint capsule
connects the connects the two bonestwo bones
– sheet of fibrous sheet of fibrous connective connective tissue enclosing tissue enclosing a synovial joint. a synovial joint.
Diarthroses JointsDiarthroses Joints
Diarthroses:Diarthroses:– Synovial Synovial
membrane membrane lines joint lines joint capsulecapsule
– Synovial fluid Synovial fluid in the joint in the joint capsule capsule lubricates lubricates jointjoint
Diarthroses JointsDiarthroses Joints
Diarthroses: Diarthroses: – Menisci are protective smooth cartilage Menisci are protective smooth cartilage
plates between the two bonesplates between the two bones– Act as shock absorberAct as shock absorber
Diarthroses JointsDiarthroses Joints
Diarthroses:Diarthroses:– Bursae are small synovial sacs Bursae are small synovial sacs
cushioning tendonscushioning tendons
Time to Think!!!!!!!!!!! Time to Think!!!!!!!!!!!
Which of the following is an example of Which of the following is an example of a synarthrodial joint?a synarthrodial joint?
a.a. ElbowElbow
b.b. WristWrist
c.c. Sutures of the skullSutures of the skull
d.d. Hip/coxalHip/coxal
Answer Answer
c.c.Sutures of the skullSutures of the skull
RationaleRationale:: Synarthrodial joints have limited Synarthrodial joints have limited movement. The sutures of the skull do movement. The sutures of the skull do not move. All of the other joints are freely not move. All of the other joints are freely movable (diarthrodial) joints.movable (diarthrodial) joints.
PTH is PTH is released released when blood when blood calcium calcium levels levels decreasedecrease
Parathyroid HormoneParathyroid Hormone
Sustained PTH Sustained PTH raises blood raises blood calcium levels calcium levels three ways:three ways:º From boneFrom boneº From kidneysFrom kidneysº From From
intestinesintestines
Parathyroid HormoneParathyroid Hormone
Vitamin DVitamin D Vitamin D is needed to absorb Vitamin D is needed to absorb
dietary calciumdietary calcium Created in skin cells under the Created in skin cells under the
influence of sunlightinfluence of sunlight Absorbed from the diet as a fat-Absorbed from the diet as a fat-
soluble vitaminsoluble vitamin
CalcitoninCalcitonin
Released by thyroid when blood calcium is Released by thyroid when blood calcium is too hightoo high
Inhibits the release of calcium from boneInhibits the release of calcium from bone Reduces osteoclast activityReduces osteoclast activity Inhibits vitamin D activation in the kidneyInhibits vitamin D activation in the kidney Inhibits calcium reabsorption by the kidneyInhibits calcium reabsorption by the kidney
Time to Think!!!!Time to Think!!!!
As a result of hypocalcemia:As a result of hypocalcemia:
a. PTH is releaseda. PTH is released
b. Calcitonin is releasedb. Calcitonin is released
Answer Answer
a. PTH is releaseda. PTH is released– released by the parathyroid gland when released by the parathyroid gland when
serum calcium levels are low. serum calcium levels are low. – PTH increases calcium levels by acting PTH increases calcium levels by acting
on:on: bone (bone cells release more calcium)bone (bone cells release more calcium) kidneys (more calcium is reabsorbed)kidneys (more calcium is reabsorbed) intestines (more calcium is reabsorbed). intestines (more calcium is reabsorbed).
Time to Think Again!!!!Time to Think Again!!!!
Two men have bone problems:Two men have bone problems:
– Man #1 developed a lung tumor that Man #1 developed a lung tumor that secreted constant high levels of secreted constant high levels of parathyroid hormone; he became very parathyroid hormone; he became very weak and developed weak bonesweak and developed weak bones
– Man #2 suffered complete kidney Man #2 suffered complete kidney failure; he also developed weak bones failure; he also developed weak bones
Time to Think Again!!!!Time to Think Again!!!!
Questions:Questions:Why did these men both develop Why did these men both develop
weak bones? weak bones?
Which of them is more likely to Which of them is more likely to have increased blood calcium have increased blood calcium levels?levels?
Answers…Answers…
Why did these men Why did these men both develop weak both develop weak bones? bones? – Man #1 Man #1 – PTH released by the PTH released by the
parathyroid gland parathyroid gland when serum calcium when serum calcium levels are low. levels are low.
– PTH increases calcium PTH increases calcium levels by acting on:levels by acting on: bone (bone cells bone (bone cells
release more calcium)release more calcium)
Answers…Answers… Why did these men Why did these men
both develop weak both develop weak bones? bones? – Man #2 Man #2 – In end-stage kidney In end-stage kidney
disease, the activation disease, the activation of vitamin D is of vitamin D is nonexistent. nonexistent.
– Vitamin D increases Vitamin D increases intestinal absorption of intestinal absorption of calcium, and it calcium, and it functions in the functions in the regulation of bone regulation of bone formation and formation and mineralization. mineralization.
Answers…Answers… Which of them is more Which of them is more
likely to have increased likely to have increased blood calcium levels?blood calcium levels?
Man #1Man #1– PTH increases calcium PTH increases calcium
levels by acting on:levels by acting on:– bone (bone cells release bone (bone cells release
more calciummore calcium
Man #2Man #2– Vitamin D Vitamin D increases increases
intestinal absorption intestinal absorption of calciumof calcium, and it , and it functions in the regulation functions in the regulation of bone formation and of bone formation and mineralization.mineralization.
Musculoskeletal Musculoskeletal DisordersDisorders
Sprains and FracturesSprains and FracturesOsteomyelitisOsteomyelitisBone CancerBone CancerOsteoporosisOsteoporosis
Osteoarthritis Osteoarthritis GoutGout
Sprains and StrainsSprains and Strains SprainSprain
– Tear in a Tear in a ligament ligament – Ligaments connect Ligaments connect
bones to one anotherbones to one another Easily torn when Easily torn when
excessive force excessive force exerted on a jointexerted on a joint
Diagnosis: X-ray to Diagnosis: X-ray to rule out fracture and rule out fracture and to note extent of to note extent of damagedamage
Sprains and StrainsSprains and Strains StrainStrain
– Tear in a Tear in a tendontendon– Tendons connect muscles to Tendons connect muscles to
bonebone Easily torn when excessive Easily torn when excessive
force exerted on a jointforce exerted on a joint
Diagnosis: X-ray to rule out Diagnosis: X-ray to rule out fracture and to note extent of fracture and to note extent of damagedamage
Sprains and StrainsSprains and Strains
AvulsionAvulsion– Ligaments or Ligaments or
tendons tendons completely completely separated separated
– Painful (duh!), Painful (duh!), tenderness, tenderness, discoloration (due discoloration (due to hematoma to hematoma formation)formation)
Sprains and Strains Sprains and Strains RecoveryRecovery
Tear Tear → → inflammation inflammation Collagen fibers form to create links Collagen fibers form to create links
with existing tissuewith existing tissue Eventually healing mass bound Eventually healing mass bound
together with fibrous tissuetogether with fibrous tissue Healing up to 6 weeksHealing up to 6 weeks Severe damage requires surgerySevere damage requires surgery
What is a fracture?What is a fracture?
A fracture is a partial or complete break in the bone. A fracture is a partial or complete break in the bone. When a fracture occurs, it is classified as either open or When a fracture occurs, it is classified as either open or closed: closed:
Open fractureOpen fracture (Also called compound fracture)- the (Also called compound fracture)- the bone exist and is visible through the skin, or a deep bone exist and is visible through the skin, or a deep wound that exposes the bone through the skin. wound that exposes the bone through the skin.
Closed fractureClosed fracture (Also called simple fracture)-the bone (Also called simple fracture)-the bone is broken but the skin is intact. is broken but the skin is intact.
GreenstickGreenstick – incomplete fracture. – incomplete fracture.
The broken bone is notThe broken bone is not complete complete
separated separated
TransverseTransverse- The break is in a - The break is in a
straight line across the bone.straight line across the bone.
SpiralSpiral –– the break spirals around the the break spirals around the
Bone common in a twisting injury. Bone common in a twisting injury.
ObliqueOblique -- Diagonal break Diagonal break across the bone across the bone
ComminutedComminuted – the break is in three – the break is in three or more pieces or more pieces
FracturesFractures
TransverseTransverseOblique Oblique Spiral Spiral ComminuteComminute
ddSegmental Segmental ButterflyButterfly ImpactedImpacted
Bone Bone HealingHealing
Hematoma forms and Hematoma forms and fibrin network fills itfibrin network fills it
Cells grow along fibrin Cells grow along fibrin meshwork to form meshwork to form new tissuenew tissue
Calcium salts Calcium salts deposited in new deposited in new tissuetissue
New tissue remodeled New tissue remodeled into normal shapeinto normal shape
Extracellular Matrix of BoneExtracellular Matrix of Bone
Ground substance contains crystals Ground substance contains crystals of calcium saltsof calcium salts
These make the bone rigidThese make the bone rigid
OsteomyelitisOsteomyelitis OsteomyelitisOsteomyelitis= an infection of bone= an infection of bone
Can either be acute or chronicCan either be acute or chronic
Bacteria are the usual infectious Bacteria are the usual infectious agents.agents.– 1. primary infection of the bloodstream 1. primary infection of the bloodstream – 2. A wound or injury that permits 2. A wound or injury that permits
bacteria to directly reach the bone.bacteria to directly reach the bone.
OsteomyelitisOsteomyelitis If not treatedIf not treated
– The infection and inflammation block blood vessels. The infection and inflammation block blood vessels.
– Lack of oxygen & nutrients cause the bone tissue to die, Lack of oxygen & nutrients cause the bone tissue to die, which leads to chronic osteomyelitis. which leads to chronic osteomyelitis.
– Other possible complications include blood poisoning and Other possible complications include blood poisoning and bone abscesses.bone abscesses.
– Treatment options include intravenous and oral antibiotics, Treatment options include intravenous and oral antibiotics, and surgical draining and cleaning of the affected bone and surgical draining and cleaning of the affected bone tissue.tissue.
Causes of OsteomyelitisCauses of Osteomyelitis An An open injury to the boneopen injury to the bone, such as an open fracture with the , such as an open fracture with the
bone ends piercing the skin. bone ends piercing the skin. An An infectioninfection from elsewhere in the body that has spread to the from elsewhere in the body that has spread to the
bone through the blood. bone through the blood. A A minor traumaminor trauma, which can lead to a blood clot around the , which can lead to a blood clot around the
bone and then a secondary infection from seeding of bacteria. bone and then a secondary infection from seeding of bacteria. Bacteria in the bloodstreamBacteria in the bloodstream, which is deposited in a focal , which is deposited in a focal
(localized) area of the bone. This bacterial site in the bone then (localized) area of the bone. This bacterial site in the bone then grows, resulting in destruction of the bone. However, new bone grows, resulting in destruction of the bone. However, new bone often forms around the site. often forms around the site.
A A chronic open wound or soft tissue infectionchronic open wound or soft tissue infection can eventually can eventually extend down to the bone surface, leading to a secondary bone extend down to the bone surface, leading to a secondary bone infection. infection.
Pathophysiology of Pathophysiology of OsteomyelitisOsteomyelitis
Usually bacterial in Usually bacterial in nature: most nature: most commonly commonly Staphylococcus Staphylococcus aureusaureus
Bone inflammation Bone inflammation is marked by is marked by edema, increased edema, increased vascularity & vascularity & leukocyte activity.leukocyte activity.
Pathophysiology of Pathophysiology of OsteomyelitisOsteomyelitis
Infection develops Infection develops in bone, which may in bone, which may interfere with interfere with vascular supply to vascular supply to bone.bone.
Pathophysiology of Pathophysiology of OsteomyelitisOsteomyelitis
Eventually necrosis Eventually necrosis occursoccurs
Because of blocked Because of blocked blood supply, blood supply, difficult for difficult for antibiotics to reach antibiotics to reach the bacteria within the bacteria within the bonethe bone
Symptoms of Symptoms of OsteomyelitisOsteomyelitis
Localized bone pain Localized bone pain and/or tenderness in and/or tenderness in the infected areathe infected area
Reduced movement of Reduced movement of the affected body part the affected body part
The overlying skin may The overlying skin may be red, hot and be red, hot and swollen – inflammatory swollen – inflammatory responseresponse
The overlying skin may The overlying skin may contain pus/purulent contain pus/purulent drainage drainage
Spasms of associated Spasms of associated muscles muscles
Risk Factors for Risk Factors for OsteomyelitisOsteomyelitis
Long term skin infections. Long term skin infections. Risk factors for poor blood circulation, Risk factors for poor blood circulation,
which include high blood pressure, which include high blood pressure, cigarette smoking, high blood cholesterol cigarette smoking, high blood cholesterol and diabetes. and diabetes.
Prosthetic joints. Prosthetic joints. Hemodialysis Hemodialysis Weakened immune systems Weakened immune systems Intravenous drug abusers Intravenous drug abusers The elderly The elderly
Neoplastic Disorders: Bone Neoplastic Disorders: Bone TumorsTumors
Tumors may be Tumors may be malignant or benignmalignant or benign– Benign tumors Benign tumors
grow slowly and do not grow slowly and do not invade surrounding invade surrounding tissues, tend to be less tissues, tend to be less destructive to normal destructive to normal bone.bone.
– Malignant tumors Malignant tumors grow rapidly and grow rapidly and
metastasize, tends to metastasize, tends to cause more bone cause more bone destruction, invasion of destruction, invasion of the surrounding tissues the surrounding tissues & metastasis& metastasis
Neoplastic Disorders: Bone Neoplastic Disorders: Bone TumorsTumors
Tumors can be Tumors can be primary (rare) or primary (rare) or metastatic lesionsmetastatic lesions – originating from primary originating from primary
tumors of prostate, tumors of prostate, breast, kidney, thyroid, breast, kidney, thyroid, lunglung
Neoplastic Disorders: Bone Neoplastic Disorders: Bone TumorsTumors PathophysiologyPathophysiology
Cause unknownCause unknown– but connection exists but connection exists
between bone activity and between bone activity and development of primary development of primary bone tumorsbone tumors
Primary tumors cause Primary tumors cause osteolysisosteolysis– bone breakdown, which bone breakdown, which
weakens bone and leads to weakens bone and leads to bone fracturesbone fractures
Malignant boneMalignant bone – tumors invade and destroy tumors invade and destroy
adjacent bone tissueadjacent bone tissue
OsteoporosisOsteoporosis Debilitating disease in which bones become Debilitating disease in which bones become
fragile and are more likely to breakfragile and are more likely to break Disorder characterized byDisorder characterized by
– (1)loss of bone mass (1)loss of bone mass – (2) increased bone fragility (2) increased bone fragility – (3) increased risk for fractures(3) increased risk for fractures
OsteoporosisOsteoporosis Significant health threat for Americans: Significant health threat for Americans:
– estimated 28 million personsestimated 28 million persons– more common in aging womenmore common in aging women– half of women over 50 experience osteoporosis half of women over 50 experience osteoporosis
related fracture in lifetime (hip, wrist, vertebrae) related fracture in lifetime (hip, wrist, vertebrae) especially R/T fallsespecially R/T falls
Risk Factors for Risk Factors for OsteoporosisOsteoporosis
Gender- women are more likely to develop than men due to thinner, lighter bones & the decrease in estrogen production that occurs during menopause.
Age- the longer you live, the greater the likelihood of developing.
Family history-is due part to heredity. Ethnicity-Caucasian & Asian women are at
highest risk; African-American & Hispanic women at lower but significant risk.
Body size- low body weight (< 127 lbs.) & a small-boned frame place at increased risk.
Risk Factors for Risk Factors for OsteoporosisOsteoporosis Calcium deficiency
– insufficient calcium in diet results in body removing calcium from bones; diets high in protein lead to acidosis, and high in diet soda are high in phosphate
Menopause– decreasing estrogen levels: estrogen replacement therapy
can reverse bone changes but may increase risk for other diseases
Cigarette smoking– decreased blood supply to bones
Excessive alcohol intake– toxic effect on osteoblastic activity; high alcohol intake
frequently associated with nutritional deficiencies Sedentary life style
– weight-bearing exercise such as walking positively influences bone metabolism
Use of specific medications– aluminum-containing antacids, corticosteroids,
anticonvulsants, prolonged heparin therapy, antiretroviral
Osteoporosis - Osteoporosis - PathologyPathology
Diameter of bone increases, thinning outer Diameter of bone increases, thinning outer supportive cortexsupportive cortex
Trabeculae (spongy tissue) lost and outer Trabeculae (spongy tissue) lost and outer cortex thinscortex thins
Minimal stress leads to fractureMinimal stress leads to fracture
Bone Tissue CompositionBone Tissue Composition
Outer LayerOuter Layer– Compact bone Compact bone
with Haversian with Haversian CanalsCanals
– Canals contain Canals contain arteriolesarterioles
– Found in Found in DiaphysesDiaphyses
Bone Tissue CompositionBone Tissue Composition
Inner LayerInner Layer– Cancellous Cancellous
(spongy) bone(spongy) bone– Interface to Interface to
form a form a latticeworklatticework
– Red marrow Red marrow fills in spaces fills in spaces of latticework of latticework (trabeculae)(trabeculae)
Osteoporosis - Osteoporosis - PathologyPathology
Trabeculae (spongy Trabeculae (spongy tissue) lost and outer tissue) lost and outer cortex thinscortex thins
Osteoporosis - Osteoporosis - PathologyPathology
ManifestationsManifestations ““Silent Disease”Silent Disease”
– bone loss occurs without symptomsbone loss occurs without symptoms
Loss of heightLoss of height Progressive curvature of spine Progressive curvature of spine Low back painLow back pain Fractures of forearm, spine or hipFractures of forearm, spine or hip
Osteoporosis - Osteoporosis - PathologyPathology
Dowager’s HumpDowager’s Hump– Cervical Lordosis Cervical Lordosis – with Kyphosiswith Kyphosis
A normal spine at 40 years, and the A normal spine at 40 years, and the osteoporotic changes at ages 60 and 70 yearsosteoporotic changes at ages 60 and 70 years
Osteoporosis - Osteoporosis - PreventionPrevention
PreventionPrevention By age 20, the average woman has acquired 98% of her By age 20, the average woman has acquired 98% of her
skeletal mass.skeletal mass. Building strong bones during childhood & adolescence can Building strong bones during childhood & adolescence can
be the best defense against developing osteoporosisbe the best defense against developing osteoporosis– Balanced diet rich in Calcium & Vitamin D.Balanced diet rich in Calcium & Vitamin D.
– Weight-bearing exercisesWeight-bearing exercises
– A healthy lifestyle with no smoking & limited alcohol intake.A healthy lifestyle with no smoking & limited alcohol intake.
– Bone density testing & medication when appropriate. Bone density testing & medication when appropriate.
OsteoarthritisOsteoarthritis
OsteoarthritisOsteoarthritis
Osteoarthritis is an idiopathic diseaseOsteoarthritis is an idiopathic disease Low-grade inflammation results in Low-grade inflammation results in
pain in the jointspain in the joints Caused by abnormal wearing of the Caused by abnormal wearing of the
cartilage Destruction or decrease of Destruction or decrease of
synovial fluid that lubricates those that lubricates those joints. joints.
Factors ResponsibleFactors Responsible
AgeingAgeing GeneticsGenetics HormonesHormones MechanicsMechanics
Pathologic lesionsPathologic lesions
Primary lesion appears to occur in Primary lesion appears to occur in cartilagecartilage
Leads to inflammation in synoviumLeads to inflammation in synovium Changes in subchondral bone, Changes in subchondral bone,
ligaments, capsule, synovial ligaments, capsule, synovial membrane and periarticular musclesmembrane and periarticular muscles
OsteoarthritisOsteoarthritis
Commonly affects:Commonly affects:– hipships– feetfeet– spine spine – hips hips – knees (water on the knee)knees (water on the knee)– fingersfingers– toestoes
Normal CartilageNormal Cartilage Avascular, alymphatic and aneural tissueAvascular, alymphatic and aneural tissue Smooth and resilientSmooth and resilient Extracellular matrix is a highly hydrated gel Extracellular matrix is a highly hydrated gel
containing 65%–80% watercontaining 65%–80% waterFunction of cartilage is critically Function of cartilage is critically
dependent on composition of ECMdependent on composition of ECM Allows shearing and compressive forces to Allows shearing and compressive forces to
be dissipated uniformly across the jointbe dissipated uniformly across the joint
Primary OsteoarthritisPrimary Osteoarthritis
With age, water content of With age, water content of the cartilage decreases the cartilage decreases due to a reduced due to a reduced proteoglycan content in proteoglycan content in the ECM.the ECM.
Proteoglycan responsible Proteoglycan responsible for directing movement of for directing movement of water and solutes through water and solutes through the ECM.the ECM.
Primary OsteoarthritisPrimary Osteoarthritis
Collagen fibers of the Collagen fibers of the cartilage can become cartilage can become susceptible to degradation susceptible to degradation – Thinning of cartilageThinning of cartilage
Primary OsteoarthritisPrimary Osteoarthritis
Breakdown products Breakdown products from the cartilage are from the cartilage are released into the released into the synovial spacesynovial space– Leads to inflammatory Leads to inflammatory
responseresponse
Primary OsteoarthritisPrimary Osteoarthritis
Damaged joint Damaged joint cartilage tries to cartilage tries to heal itselfheal itself– Creating Creating
osteophytes or spursosteophytes or spurs– Cartilage becomes Cartilage becomes
weak, rough, erodedweak, rough, eroded– No longer protects No longer protects
the surface of the the surface of the bonebone
Heberden's NodesHeberden's Nodes
Distal interphalangeal jointsDistal interphalangeal joints
Bouchard's nodesBouchard's nodes
Proximal interphalangeal joints Proximal interphalangeal joints
BunionsBunions
Primary OsteoarthritisPrimary Osteoarthritis
Symptoms of Symptoms of Osteoarthritis are Osteoarthritis are caused by:caused by:– inflammatory inflammatory
responseresponse– osteophytes or spursosteophytes or spurs– weak, rough, eroded weak, rough, eroded
cartilagecartilage
Secondary OsteoartritisSecondary Osteoartritis
Caused by other factors:Caused by other factors:– Pathophysiology is the samePathophysiology is the same– Sport injuries:Sport injuries:
Injuries resulting in broken ligaments can lead to Injuries resulting in broken ligaments can lead to instability of the joint and over time to wear on the instability of the joint and over time to wear on the cartilage and eventually osteoarthritis cartilage and eventually osteoarthritis
– ObesityObesity added weight on the joints, especially the knees added weight on the joints, especially the knees
– GoutGout uric acid crystals cause the cartilage to degenerate at crystals cause the cartilage to degenerate at
a faster pace a faster pace
Rheumatoid ArthritisRheumatoid Arthritis
Presence of rheumatoid factors Presence of rheumatoid factors (RA or RF test)(RA or RF test)– Antibodies (IgG and IgM) against Antibodies (IgG and IgM) against
antibodiesantibodies Joint fluid presents with Joint fluid presents with
inflammatory exudateinflammatory exudate
Rheumatoid ArthritisRheumatoid Arthritis
PathogenesisPathogenesis– CD4 T helper cells and other cells CD4 T helper cells and other cells
in the synovial fluid become in the synovial fluid become activated and release cytokinesactivated and release cytokines
– Recruitment and retention of Recruitment and retention of inflammatory cells in the joint inflammatory cells in the joint sublining regionsublining region
– Cycle of altered cytokine and signal Cycle of altered cytokine and signal transduction pathwaystransduction pathways
Rheumatoid ArthritisRheumatoid Arthritis
Evaluation Evaluation – Four or more of the following:Four or more of the following:
Morning joint stiffness lasting at least 1 hourMorning joint stiffness lasting at least 1 hour Arthritis of three or more joint areasArthritis of three or more joint areas Arthritis of the hand jointsArthritis of the hand joints Symmetric arthritisSymmetric arthritis Rheumatoid nodules Rheumatoid nodules Abnormal amounts of serum rheumatoid Abnormal amounts of serum rheumatoid
factorfactor Radiographic changesRadiographic changes
Rheumatoid ArthritisRheumatoid Arthritis
Rheumatoid ArthritisRheumatoid Arthritis
Rheumatoid ArthritisRheumatoid Arthritis
Ankylosing SpondylitisAnkylosing Spondylitis
Inflammatory joint disease of the Inflammatory joint disease of the spine or sacroiliac joints causing spine or sacroiliac joints causing stiffening and fusion of the jointsstiffening and fusion of the joints
Systemic, immune inflammatory Systemic, immune inflammatory diseasedisease
GoutGout
Definition of GoutDefinition of Gout Gout is a heterogeneous disorder that Gout is a heterogeneous disorder that
results in the deposition of uric acid salts results in the deposition of uric acid salts and crystals in and around joints and soft and crystals in and around joints and soft tissues or crystallization of uric acid in the tissues or crystallization of uric acid in the urinary tract. urinary tract.
Uric acid is the normal end product of the Uric acid is the normal end product of the degradation of purine compounds. degradation of purine compounds. – Major route of disposal is renal excretion Major route of disposal is renal excretion – Humans lack the enzyme uricase to break Humans lack the enzyme uricase to break
down uric acid into more soluble form.down uric acid into more soluble form.
GoutGout
Affects less than 0.5% of the populationAffects less than 0.5% of the population Due to familial disposition, incidence Due to familial disposition, incidence
may be as high as 80% in families may be as high as 80% in families affected by disorder.affected by disorder.
EpidemiologyEpidemiology Incidence has increased significantly over the Incidence has increased significantly over the
past few decades.past few decades. Affects about 2.1million worldwideAffects about 2.1million worldwide Peak incidence occurs in the fifth decade, but can Peak incidence occurs in the fifth decade, but can
occur at any ageoccur at any age Gout is 5X more common in males than pre-Gout is 5X more common in males than pre-
menopausal females; incidence in women menopausal females; incidence in women increases after menopause. increases after menopause.
After age 60, the incidence in women approaches After age 60, the incidence in women approaches the rate in men.the rate in men.
People of South Pacific origin have an increased People of South Pacific origin have an increased incidence.incidence.
What is Gout?What is Gout?
Inflammation occurs 2° deposits of Inflammation occurs 2° deposits of uric acid crystals in jointuric acid crystals in joint
Body produces too much uric acid Body produces too much uric acid (Overproduction)(Overproduction)– OrOr
Body excretes too little uric acid Body excretes too little uric acid (Underexcretion)(Underexcretion)
Classification of Classification of HyperuricemiaHyperuricemia
Uric acid underexcretion in the Uric acid underexcretion in the KidneyKidney– Accounts for >90% of hyperuricemiaAccounts for >90% of hyperuricemia– Diminished tubular secretory rateDiminished tubular secretory rate– increased tubular reabsorptionincreased tubular reabsorption– diminished uric acid filtrationdiminished uric acid filtration
Classification of Classification of HyperuricemiaHyperuricemia
Uric acid overproductionUric acid overproduction– Accounts for 10% of hyperuricemiaAccounts for 10% of hyperuricemia– Defined as 800mg of uric acid excretedDefined as 800mg of uric acid excreted– Acquired disorders Acquired disorders
Excessive cell turnover rates such as: Excessive cell turnover rates such as: myleoproliferative disordersmyleoproliferative disorders
Paget’s diseasePaget’s disease hemolytic anemiashemolytic anemias
What is Uric Acid?What is Uric Acid?
Uric acid is a waste product formed Uric acid is a waste product formed from the breakdown of purinesfrom the breakdown of purines
High levels of purines are found in High levels of purines are found in organ meats (liver, brains, kidney), organ meats (liver, brains, kidney), anchovies, herring, mackerel. anchovies, herring, mackerel. – Alcohol and some drugs may affect purine Alcohol and some drugs may affect purine
excretion.excretion.
Pathogenesis of Gouty Pathogenesis of Gouty InflammationInflammation
Urate crystals stimulate the release of Urate crystals stimulate the release of numerous inflammatory mediators in numerous inflammatory mediators in synovial cells synovial cells
The influx of neutrophils leads to The influx of neutrophils leads to development of acute crystal induced development of acute crystal induced synovitissynovitis
Diarthroses JointsDiarthroses Joints
Diarthroses:Diarthroses:– Synovial Synovial
membrane membrane lines joint lines joint capsulecapsule
– Synovial fluid Synovial fluid in the joint in the joint capsule capsule lubricates lubricates jointjoint
Stage 1 Stage 1 Asymptomatic Asymptomatic HyperuricemiaHyperuricemia
Uric acid levels elevated to 9-Uric acid levels elevated to 9-10 range (normals ~ 3 – 6)10 range (normals ~ 3 – 6)
No symptomsNo symptoms Client may not progress to Client may not progress to
symptomatic diseasesymptomatic disease
Stage 2Stage 2Acute Gouty ArthritisAcute Gouty Arthritis
Sudden onset, acute pain, redness, swellingSudden onset, acute pain, redness, swelling Usually hits the big toe, may affect another Usually hits the big toe, may affect another
jointjoint Fever, chillsFever, chills ““Attack” lasts hours to weeksAttack” lasts hours to weeks 60% have recurrent attack in 1 yr 60% have recurrent attack in 1 yr
Stage 3Stage 3Chronic Tophaceous Chronic Tophaceous
GoutGout Hyperuricemia Hyperuricemia untreateduntreated
Tophi (urate crystals Tophi (urate crystals deposits) develop in deposits) develop in cartilage, synovial cartilage, synovial membranes, tendons, membranes, tendons, soft tissuessoft tissues
Pain, ulceration, Pain, ulceration, nerve damagenerve damage
Uric acid crystals—Uric acid crystals—>kidney stones>kidney stones
Stage 3Stage 3Chronic Tophaceous GoutChronic Tophaceous Gout
Chronic gouty inflammation Chronic gouty inflammation associated with cytokine driven associated with cytokine driven synovial proliferation, cartilage loss synovial proliferation, cartilage loss and bone erosionand bone erosion
Treatment of Gout AttackTreatment of Gout Attack
Dietary ManagementDietary Management– Drink 3-4 quarts of fluids dailyDrink 3-4 quarts of fluids daily– Avoid alcohol (especially BEER… NOOO!!!!)Avoid alcohol (especially BEER… NOOO!!!!)– Low purine dietLow purine diet
– Avoid meats, seafood, yeast, beans, peas, lentils, Avoid meats, seafood, yeast, beans, peas, lentils, oatmeal, spinach, asparagus, cauliflower, mushroomsoatmeal, spinach, asparagus, cauliflower, mushrooms