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Premium member Presentation Transcript OSTEOMYELITIS : OSTEOMYELITIS Zameer Ali PG orthopaedics St stephens hospitalSlide 2: The term osteomyelitis literally means inflammation of bone and its marrow regardless of whether it is due to pyogenic organisms ,tuberculosis ,syphylis ,virus, fungus,or presence of foreign bodySlide 3: However universal acceptance of term is applied only to infection by pyogenic organisms organisms less commonly due to granulamatous inflammation of tuberculosisSlide 4: Osteomyelitis is an acute or chronic inflammatory process of the bone and its structures secondary to infection with pyogenic organisms.General Principles: General Principles Bone and joint infections remain a formidable challenge to the orthopaedic surgeon The high success rate obtained with antibiotics in other bacterial disease has not been obtained in bone and joint infection: Osteomyelitis occurs when an adequate number of a sufficient virulent organisms overcome the hosts natural defensesEtiology: Etiology Multifactorial Patient dependant factors Surgeon dependant factorsPatient dependant factors: Patient dependant factors Nutritional Status Malnourishment adversely affects Humoral and cell mediated immunityPatient dependant factors: Patient dependant factors Impairs neutrophil chemotaxis Diminishes bacterial clearance Depresses neutrophil bactricidal function and delivey of inflammatory components to fociPatient dependant factors: Patient dependant factors Malnourishment identified as Albumin level <3.4mg/dl ALC (absolute lymphocyte count) <1500 Basal energy requirements increase by 30% to 55% in infected patients Fever of 1 degree increases BMR by 13%Patient dependant factors: Patient dependant factors Jensen et al ( JBJS 64 A:1263,1982) Recommended nutritional support before elective surgery in Patients with weight losses >10 pounds Serum albumin<3.4mg/dl ALC<1500Immunological status: Immunological status Body's main defense mechanism are Neutrophillic response Humoral immunity Cell mediated immunity Reticuloendothelial cellsSlide 13: A defeciency in production or function of these predispose to infectionSlide 14: Deficiencies in immune system can be Congenital AcquiredCongenital : Congenital Chronic granulamatous disease Hemophilia Hypogammaglobbulinemia Sickle Cell haemoglobinopathy Terminal Complement Deficiency Leukocyte adhesion DeficiencyAcquired : Acquired Diabetes Mellitus Haematological Malignancy HIV Pharmacological immunosuppresion Organ transplantation Collagen vascular disease Uraemia Malnutrition Radiation therapySlide 17: Abnormal Neutrophils and cell mediated immunity implicated in infections caused by Encapsulated bacteria. Increased incidence of pseudomonas infection in heroin addictsSlide 18: Increased incidence of Salmonella and Pneumococccus infections in patients with sickle cell anemia Neutrophillic count<5500 predispose to Staph , Candida,Aspergillus,gram neg BacilliSlide 19: Patients with hypogammaglobbulinemia are at a risk of infection with Streptoccus Haemophillus NeisseriaSlide 20: Secondary cell mediated defeciency can cause infection due to Fungal and mycobacterial infections Herpes virus Pneumocystis carniiSurgeon dependant factors : Surgeon dependant factors Skin preparation Operating room environment Prophylatic antibiotic therapyDiagnosis : Diagnosis May be obvious or obscure Characteristic features may or may not be present Pain is probably the most common symptom Fever, chills , nausea ,vomiting may also be presentLaboratory studies: Laboratory studies CBC: The WBC count is usually elevated A leftward shift is common with increased polymorphonuclear leukocyte counts The C-reactive protein level usually is elevated and nonspecific; it may be more useful than the erythrocyte sedimentation rate.Slide 24: It will show elevation earlier than the erythrocyte sedimentation rate (ESR). The erythrocyte sedimentation rate usually is elevated (90%); this finding is clinically nonspecific.Slide 25: With osteomyelitis, culture or aspiration findings in samples of the infected site in osteomyelitis are normal in 25% of cases. Blood culture results are positive in only 50% of patients with hematogenous osteomyelitisImaging studies: Imaging studies Radiography Negative Films are ususally negative within first 10 days thereafter a localized area of bone destruction is observed in metaphysis surrounded by wide area of decalcified boneSlide 27: Later within next few weeks the periosteal shadow is elevated a t same level and multiple laminations of bone deposition parellel with shaft are seen Eventually more spongy trabeculae are destroyed given moth eaten appearance that extend for a variable distance in medulla towards diaphysisSlide 28: The external and internal surface of cortex may display multiple scalloped erosions If a segment of necrotic bone is present it retains its original architecture and appears denser than surrounding decalcified bonete: te Radiographic evidence of acute osteomyelitis first is suggested by overlying soft-tissue edema at 3-5 days after infection. Bony changes are not evident for 14-21 days and initially manifest as periosteal elevation followed by cortical or medullary lucencies. By 28 days, 90% of patients demonstrate some abnormality.Slide 30: Approximately 40-50% focal bone loss is necessary to cause detectable lucency on plain filmsSlide 31: Radiograph reveals a lytic lesion and periosteal reaction of the posterior cortex.MRI: MRI The MRI is effective in the early detection and surgical localization of osteomyelitis. Studies have shown its superiority compared with plain radiography, CT, and radionuclide scanning in selected anatomic locations. Sensitivity ranges from 90-100%.MRI of the lateral aspect of distal femur. : MRI of the lateral aspect of distal femur.Radionuclide bone scanning: Radionuclide bone scanning Bone scan with technetium 99m is probably the initial imaging modality of choice. In special circumstances, additional information can be obtained from further scanning with leukocytes labeled with gallium 67 and/or indium 111.Slide 35: Fig. 16-6 Bone scan showing increased uptake in area of osteomyelitis.CT scanning: CT scanning CT scans can depict abnormal calcification, ossification, and intracortical abnormalities. It probably is most useful in the evaluation of spinal vertebral lesions. It may also be superior in areas with complex anatomy: pelvis, sternum, and calcaneus.Ultrasonography: Ultrasonography This simple and inexpensive technique has shown promise, particularly in children with acute osteomyelitis. Ultrasonography may demonstrate changes as early as 1-2 days after onset of symptoms.Slide 38: Abnormalities include soft tissue abscess or fluid collection and periosteal elevation. Ultrasonography allows for ultrasound-guided aspiration. It does not allow for evaluation of bone cortex.Culture Studies : Culture Studies Every effort to be made to take culture before antibiotic therapy is started Deep culture is more reliableClassification of Osteomyelitis: Classification of Osteomyelitis Duration of infection Acute ( <2 WEEKS) Subacute (2-3 WEEKS) Chronic ( >3 WEEKS)Slide 41: However, the time limits defining these classes are somewhat arbitrary.Slide 42: Mechanism of infection Exogenous HaematogenousSlide 43: The mechanism of infection can be exogenous or hematogenous . Exogenous osteomyelitis is caused by open fractures, surgery (iatrogenic), or contiguous spread from infected local tissue. The hematogenous form results from bacteremia.Acute Haematogenous osteomyelitis : Acute Haematogenous osteomyelitis Acute hematogenous osteomyelitis is the most common type of bone infection and usually is seen in children. It is more common in males in all age groups affected. Acute hematogenous osteomyelitis is caused by a bacteremia, which is a common occurrence in childhood.Slide 45: The causes of bacteremia are many. Bacteriological seeding of bone generally is associated with other factors such as localized trauma, chronic illness, malnutrition, or an inadequate immune system. In many cases the exact cause of the disease cannot be identifiedAcute Haematogenous osteomyelitis : Acute Haematogenous osteomyelitis Most common type of bone infection Usually seen in children More common in males in all groups 85% of patients with hematogenous osteomyelitis are younger than 17 years, accounting for 20% percent of the total cases of osteomyelitispathophysiology: pathophysiology In children the infection generally involves the metaphyses of rapidly growing long bones. Bacterial seeding of nutrient artery> inflammatory reaction >>>>cause local ischemic necrosis of bone >>>> subsequent abscess formation.Slide 48: As the abscess enlarges>> intramedullary pressure increases >>> cortical ischemia, which may allow purulent material to escape through the cortex into the subperiosteal space. >>subperiosteal abscess then developsMetaphysis of long bone is the most common site of infection : Metaphysis of long bone is the most common site of infectionSlide 51: Acute haemategenous osteomyelitis is caused by a bacteraemia , which is a common occurrence in childhoodSlide 52: Bacteriological seeding of bone is associates with other factors such as localized trauma chronic illness malnutrition inadequate immune responseSlide 53: Bacterial seeding leads to inflammotory reaction which can cause Ischaemia Necrosis of bone Subsequent abscess formationSlide 54: Age distribution bimodal Children under 2 years Children between 8-12 years of agePathological differences based on age : Pathological differences based on age In infants , Small capillaries cross the epiphyseal growth plate and permit extension of infection into the epiphysis and joint space The cortical bone of neonates and infants is thin and loose, consisting predominantly of woven bone, which permits escape of the pressure caused by infection but promotes rapid spread of the infection directly into the subperiosteal region.Slide 56: A large sequestrum is not produced because extensive infarction of the cortex does not occur; however, a large subperiosteal abscess can form.Slide 57: In children older than 1 year infection presumably starts in the metaphyseal sinusoidal veins and is contained by the growth plate. The joint is spared unless the metaphysis is intracapsular.Slide 58: The infection spreads laterally where it breaks through the cortex and lifts the loose periosteum to form a subperiosteal abscessSlide 59: If infection spreads to diaphysis the endostesl blood supply may be jeopardised and can result in extensive sequetrum and chronic osteomyelitis if not treated properlySlide 60: In adults The growth plate has resorbed, and the infection may again extend to the joint spacesadults: adults The periosteum is firmly attached to the underlying bone; as a result, subperiosteal abscess formation and intense periosteal proliferation are observed less frequently. Vertebral bodies are affected commonly.Commonly isolated organisms : Commonly isolated organisms Infants (<1 y ) Group B Streptococcus Staphylococcus aureus Escherichia coliSlide 63: Children (aged 1-16 y ) S aureus Streptococcus pyogenes Haemophilus influenzaeSlide 64: Adults (>16 y) S aureus Coagulase-negative Staphylococcus species Gram-negative bacilli (vert body infections) P aeruginosa ( iv drug abusers ) Serratia marcescensDiagnosis : Diagnosis In hematogenous osteomyelitis, local symptoms referable to bones are more frequently absent in neonates than in children. In adults, soft tissue findings may be more prominent than bony involvement.Slide 66: in infants local findings can include decreased motion of a limb and edema Infact child may lie still without moving limb (pseudoparalysis) joint effusion adjacent to the bone infection (present in 60-70% of cases).Children with hematogenous osteomyelitis typically have the following systemic symptoms : Children with hematogenous osteomyelitis typically have the following systemic symptoms Abrupt fever Irritability Lethargy Refusal to use the affected limbSlide 68: Local signs of inflammation present for 2 weeks or less Signs of systemic toxicity other than minimal temperature elevation are absent in 50% of children with osteomyelitis.In adults: In adults Acute clinical presentations include of fever, chills, swelling, and erythema over the involved bones Vertebral osteomyelitis is usually hematogenous in origin but may be secondary to traumaVertebral osteomyelitis: Vertebral osteomyelitisSlide 71: A preceding history of urinary tract infection or injection drug use often is present. Other sources of infection include skin and soft tissue, respiratory tract, infected intravascular device site, endocarditis, dental infection, or unknown sourcesEvaluation of acute haemategenous osteomyelitis: Evaluation of acute haemategenous osteomyelitis History and physical examination WBC,ESR,CRP Blood cultures(+50% cases) Plain roentgenograms Technetium 99m bone scan +/- MRI Aspiration of suspected abscessTreatment: Treatment Surgery and antibiotic treatment are complimentary to each other Choice of antibiotic is based on highest Bacteriocidal activity Least toxicity Lowest costSlide 74: General measures IV fluids Appropriate analgesia Comfortable positioning of limbtreatment: treatment Nades principles (JBJS 65B :109,1983) Nades proposed 5 principles for treatment of acute hematogenous osteomyeliyis 1. Apppriate antibiotic will be effective before pus formation 2. Antibiotics will not sterilize avascular tissues or abscesses and such area require surgical removalSlide 76: 3. If such removal is effective , antibiotics should prevent their reformation therefore primary closure should be safeSlide 77: 4. Surgery should not damage already ischaemic bone and soft tissue 5. . Antibiotics should be continued after surgerySlide 78: If no appreciable clinical improvement is noted with antiobiotic within 24 to 48 hours occult abscess must be sought and surgical drainage consideredSlide 79: Two main indications of surgery in acute hematogenous osteomyelitis are 1The presence of abscess requiring drainage 2 And failure of patient to improve despite appropraite intavenous antiobioticsSlide 80: The patient should be treated for 4-6 weeks with appropriate antimicrobial therapy, dating from the initiation of therapy or following the last major debridement surgerySlide 81: With hematogenous osteomyelitis (newborn to adult), Primary treatment is a combination of penicillinase-resistant synthetic penicillin and a third-generation cephalosporin. Alternate therapy is vancomycin or clindamycin and a third-generation cephalosporin.Slide 82: In addition to these above-mentioned antibacterials, ciprofloxacin and rifampin may be an appropriate combination therapy for adult patients. If there is evidence of infection with gram-negative bacilli, include a third-generation cephalosporin.Slide 83: In patients with sickle cell anemia and osteomyelitis, the primary bacterial causes are S aureus and Salmonellae species the primary choice for treatment is a fluoroquinolone antibiotic (not in children). A third-generation cephalosporin (eg, ceftriaxone) is an alternative choiceSALMONELLA OSTEOMYELITIS: SALMONELLA OSTEOMYELITISSlide 85: Salmonella osteomyelitis is relatively rare 1 several bones are involved 2 symmetrical involvement of bonesSlide 86: 3 severe osteomyelitis 4 spine may be involved 5 sickle cell anaemia present 6 Stool culture positiveSlide 87: Salmonella osteomyelitis tends to be diaphyseal rather than metaphysealSlide 88: Objectives of surgery- Drain any abscess cavity Remove all non viable tissueSlide 89: When a sub periosteal abscess is found in children several holes should be drilled through the cortex to the medullary canal If pus is found a small cortical window is removed The intramedullary pus is evacutated and necrotic tissue debridedSlide 90: Skin is closed over drains Limb is splinted Once wound is healed protected weight bearing is begunSlide 91: Limb protected for many weeks to prevent pathological fracture Patient is followed for one year with periodic roentgenogramsDifferential diagnosis: Differential diagnosis 1 Acute septic arthritis joint movements are more painfull and severely restricted 2 scurvy features of pseudoparalysis ,bleeding gums are features 3 cellulitis it is difficult to differentiate however it has no limits ,no pus ,no fluctuation , no edger: r 4 ewings sarcoma destruction is diffuse Constitutinal symptoma are less severe and tumor responds to radiotherapy 5 rheumatic fever pain is confined to joints and responds to ACTH AND STEROIDSSlide 94: Erethema nodosum ,, sickle cell anaemiaComplications : Complications Seen in 5 % of cases 1 septicaemia 2 pyaemia 3 septic arthritis 4 chronic osteomyelitis 5 pathologic fracturePathologic fracture after destruction of cortical bone: Pathologic fracture after destruction of cortical boneSlide 97: 6 Recurrence rate 7 mortality rate is less than 2 percentSlide 98: Thank you…….. 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osteomyelitis drzameer Download Post to : URL : Related Presentations : Share Add to Flag Embed Email Send to Blogs and Networks Add to Channel Uploaded from authorPOINT lite Insert YouTube videos in PowerPont slides with aS Desktop Copy embed code: (To copy code, click on the text box) Embed: URL: Thumbnail: WordPress Embed Customize Embed The presentation is successfully added In Your Favorites. Views: 352 Category: Education License: All Rights Reserved Like it (1) Dislike it (0) Added: February 23, 2011 This Presentation is Public Favorites: 0 Presentation Description No description available. Comments Posting comment... Premium member Presentation Transcript OSTEOMYELITIS : OSTEOMYELITIS Zameer Ali PG orthopaedics St stephens hospitalSlide 2: The term osteomyelitis literally means inflammation of bone and its marrow regardless of whether it is due to pyogenic organisms ,tuberculosis ,syphylis ,virus, fungus,or presence of foreign bodySlide 3: However universal acceptance of term is applied only to infection by pyogenic organisms organisms less commonly due to granulamatous inflammation of tuberculosisSlide 4: Osteomyelitis is an acute or chronic inflammatory process of the bone and its structures secondary to infection with pyogenic organisms.General Principles: General Principles Bone and joint infections remain a formidable challenge to the orthopaedic surgeon The high success rate obtained with antibiotics in other bacterial disease has not been obtained in bone and joint infection: Osteomyelitis occurs when an adequate number of a sufficient virulent organisms overcome the hosts natural defensesEtiology: Etiology Multifactorial Patient dependant factors Surgeon dependant factorsPatient dependant factors: Patient dependant factors Nutritional Status Malnourishment adversely affects Humoral and cell mediated immunityPatient dependant factors: Patient dependant factors Impairs neutrophil chemotaxis Diminishes bacterial clearance Depresses neutrophil bactricidal function and delivey of inflammatory components to fociPatient dependant factors: Patient dependant factors Malnourishment identified as Albumin level <3.4mg/dl ALC (absolute lymphocyte count) <1500 Basal energy requirements increase by 30% to 55% in infected patients Fever of 1 degree increases BMR by 13%Patient dependant factors: Patient dependant factors Jensen et al ( JBJS 64 A:1263,1982) Recommended nutritional support before elective surgery in Patients with weight losses >10 pounds Serum albumin<3.4mg/dl ALC<1500Immunological status: Immunological status Body's main defense mechanism are Neutrophillic response Humoral immunity Cell mediated immunity Reticuloendothelial cellsSlide 13: A defeciency in production or function of these predispose to infectionSlide 14: Deficiencies in immune system can be Congenital AcquiredCongenital : Congenital Chronic granulamatous disease Hemophilia Hypogammaglobbulinemia Sickle Cell haemoglobinopathy Terminal Complement Deficiency Leukocyte adhesion DeficiencyAcquired : Acquired Diabetes Mellitus Haematological Malignancy HIV Pharmacological immunosuppresion Organ transplantation Collagen vascular disease Uraemia Malnutrition Radiation therapySlide 17: Abnormal Neutrophils and cell mediated immunity implicated in infections caused by Encapsulated bacteria. Increased incidence of pseudomonas infection in heroin addictsSlide 18: Increased incidence of Salmonella and Pneumococccus infections in patients with sickle cell anemia Neutrophillic count<5500 predispose to Staph , Candida,Aspergillus,gram neg BacilliSlide 19: Patients with hypogammaglobbulinemia are at a risk of infection with Streptoccus Haemophillus NeisseriaSlide 20: Secondary cell mediated defeciency can cause infection due to Fungal and mycobacterial infections Herpes virus Pneumocystis carniiSurgeon dependant factors : Surgeon dependant factors Skin preparation Operating room environment Prophylatic antibiotic therapyDiagnosis : Diagnosis May be obvious or obscure Characteristic features may or may not be present Pain is probably the most common symptom Fever, chills , nausea ,vomiting may also be presentLaboratory studies: Laboratory studies CBC: The WBC count is usually elevated A leftward shift is common with increased polymorphonuclear leukocyte counts The C-reactive protein level usually is elevated and nonspecific; it may be more useful than the erythrocyte sedimentation rate.Slide 24: It will show elevation earlier than the erythrocyte sedimentation rate (ESR). The erythrocyte sedimentation rate usually is elevated (90%); this finding is clinically nonspecific.Slide 25: With osteomyelitis, culture or aspiration findings in samples of the infected site in osteomyelitis are normal in 25% of cases. Blood culture results are positive in only 50% of patients with hematogenous osteomyelitisImaging studies: Imaging studies Radiography Negative Films are ususally negative within first 10 days thereafter a localized area of bone destruction is observed in metaphysis surrounded by wide area of decalcified boneSlide 27: Later within next few weeks the periosteal shadow is elevated a t same level and multiple laminations of bone deposition parellel with shaft are seen Eventually more spongy trabeculae are destroyed given moth eaten appearance that extend for a variable distance in medulla towards diaphysisSlide 28: The external and internal surface of cortex may display multiple scalloped erosions If a segment of necrotic bone is present it retains its original architecture and appears denser than surrounding decalcified bonete: te Radiographic evidence of acute osteomyelitis first is suggested by overlying soft-tissue edema at 3-5 days after infection. Bony changes are not evident for 14-21 days and initially manifest as periosteal elevation followed by cortical or medullary lucencies. By 28 days, 90% of patients demonstrate some abnormality.Slide 30: Approximately 40-50% focal bone loss is necessary to cause detectable lucency on plain filmsSlide 31: Radiograph reveals a lytic lesion and periosteal reaction of the posterior cortex.MRI: MRI The MRI is effective in the early detection and surgical localization of osteomyelitis. Studies have shown its superiority compared with plain radiography, CT, and radionuclide scanning in selected anatomic locations. Sensitivity ranges from 90-100%.MRI of the lateral aspect of distal femur. : MRI of the lateral aspect of distal femur.Radionuclide bone scanning: Radionuclide bone scanning Bone scan with technetium 99m is probably the initial imaging modality of choice. In special circumstances, additional information can be obtained from further scanning with leukocytes labeled with gallium 67 and/or indium 111.Slide 35: Fig. 16-6 Bone scan showing increased uptake in area of osteomyelitis.CT scanning: CT scanning CT scans can depict abnormal calcification, ossification, and intracortical abnormalities. It probably is most useful in the evaluation of spinal vertebral lesions. It may also be superior in areas with complex anatomy: pelvis, sternum, and calcaneus.Ultrasonography: Ultrasonography This simple and inexpensive technique has shown promise, particularly in children with acute osteomyelitis. Ultrasonography may demonstrate changes as early as 1-2 days after onset of symptoms.Slide 38: Abnormalities include soft tissue abscess or fluid collection and periosteal elevation. Ultrasonography allows for ultrasound-guided aspiration. It does not allow for evaluation of bone cortex.Culture Studies : Culture Studies Every effort to be made to take culture before antibiotic therapy is started Deep culture is more reliableClassification of Osteomyelitis: Classification of Osteomyelitis Duration of infection Acute ( <2 WEEKS) Subacute (2-3 WEEKS) Chronic ( >3 WEEKS)Slide 41: However, the time limits defining these classes are somewhat arbitrary.Slide 42: Mechanism of infection Exogenous HaematogenousSlide 43: The mechanism of infection can be exogenous or hematogenous . Exogenous osteomyelitis is caused by open fractures, surgery (iatrogenic), or contiguous spread from infected local tissue. The hematogenous form results from bacteremia.Acute Haematogenous osteomyelitis : Acute Haematogenous osteomyelitis Acute hematogenous osteomyelitis is the most common type of bone infection and usually is seen in children. It is more common in males in all age groups affected. Acute hematogenous osteomyelitis is caused by a bacteremia, which is a common occurrence in childhood.Slide 45: The causes of bacteremia are many. Bacteriological seeding of bone generally is associated with other factors such as localized trauma, chronic illness, malnutrition, or an inadequate immune system. In many cases the exact cause of the disease cannot be identifiedAcute Haematogenous osteomyelitis : Acute Haematogenous osteomyelitis Most common type of bone infection Usually seen in children More common in males in all groups 85% of patients with hematogenous osteomyelitis are younger than 17 years, accounting for 20% percent of the total cases of osteomyelitispathophysiology: pathophysiology In children the infection generally involves the metaphyses of rapidly growing long bones. Bacterial seeding of nutrient artery> inflammatory reaction >>>>cause local ischemic necrosis of bone >>>> subsequent abscess formation.Slide 48: As the abscess enlarges>> intramedullary pressure increases >>> cortical ischemia, which may allow purulent material to escape through the cortex into the subperiosteal space. >>subperiosteal abscess then developsMetaphysis of long bone is the most common site of infection : Metaphysis of long bone is the most common site of infectionSlide 51: Acute haemategenous osteomyelitis is caused by a bacteraemia , which is a common occurrence in childhoodSlide 52: Bacteriological seeding of bone is associates with other factors such as localized trauma chronic illness malnutrition inadequate immune responseSlide 53: Bacterial seeding leads to inflammotory reaction which can cause Ischaemia Necrosis of bone Subsequent abscess formationSlide 54: Age distribution bimodal Children under 2 years Children between 8-12 years of agePathological differences based on age : Pathological differences based on age In infants , Small capillaries cross the epiphyseal growth plate and permit extension of infection into the epiphysis and joint space The cortical bone of neonates and infants is thin and loose, consisting predominantly of woven bone, which permits escape of the pressure caused by infection but promotes rapid spread of the infection directly into the subperiosteal region.Slide 56: A large sequestrum is not produced because extensive infarction of the cortex does not occur; however, a large subperiosteal abscess can form.Slide 57: In children older than 1 year infection presumably starts in the metaphyseal sinusoidal veins and is contained by the growth plate. The joint is spared unless the metaphysis is intracapsular.Slide 58: The infection spreads laterally where it breaks through the cortex and lifts the loose periosteum to form a subperiosteal abscessSlide 59: If infection spreads to diaphysis the endostesl blood supply may be jeopardised and can result in extensive sequetrum and chronic osteomyelitis if not treated properlySlide 60: In adults The growth plate has resorbed, and the infection may again extend to the joint spacesadults: adults The periosteum is firmly attached to the underlying bone; as a result, subperiosteal abscess formation and intense periosteal proliferation are observed less frequently. Vertebral bodies are affected commonly.Commonly isolated organisms : Commonly isolated organisms Infants (<1 y ) Group B Streptococcus Staphylococcus aureus Escherichia coliSlide 63: Children (aged 1-16 y ) S aureus Streptococcus pyogenes Haemophilus influenzaeSlide 64: Adults (>16 y) S aureus Coagulase-negative Staphylococcus species Gram-negative bacilli (vert body infections) P aeruginosa ( iv drug abusers ) Serratia marcescensDiagnosis : Diagnosis In hematogenous osteomyelitis, local symptoms referable to bones are more frequently absent in neonates than in children. In adults, soft tissue findings may be more prominent than bony involvement.Slide 66: in infants local findings can include decreased motion of a limb and edema Infact child may lie still without moving limb (pseudoparalysis) joint effusion adjacent to the bone infection (present in 60-70% of cases).Children with hematogenous osteomyelitis typically have the following systemic symptoms : Children with hematogenous osteomyelitis typically have the following systemic symptoms Abrupt fever Irritability Lethargy Refusal to use the affected limbSlide 68: Local signs of inflammation present for 2 weeks or less Signs of systemic toxicity other than minimal temperature elevation are absent in 50% of children with osteomyelitis.In adults: In adults Acute clinical presentations include of fever, chills, swelling, and erythema over the involved bones Vertebral osteomyelitis is usually hematogenous in origin but may be secondary to traumaVertebral osteomyelitis: Vertebral osteomyelitisSlide 71: A preceding history of urinary tract infection or injection drug use often is present. Other sources of infection include skin and soft tissue, respiratory tract, infected intravascular device site, endocarditis, dental infection, or unknown sourcesEvaluation of acute haemategenous osteomyelitis: Evaluation of acute haemategenous osteomyelitis History and physical examination WBC,ESR,CRP Blood cultures(+50% cases) Plain roentgenograms Technetium 99m bone scan +/- MRI Aspiration of suspected abscessTreatment: Treatment Surgery and antibiotic treatment are complimentary to each other Choice of antibiotic is based on highest Bacteriocidal activity Least toxicity Lowest costSlide 74: General measures IV fluids Appropriate analgesia Comfortable positioning of limbtreatment: treatment Nades principles (JBJS 65B :109,1983) Nades proposed 5 principles for treatment of acute hematogenous osteomyeliyis 1. Apppriate antibiotic will be effective before pus formation 2. Antibiotics will not sterilize avascular tissues or abscesses and such area require surgical removalSlide 76: 3. If such removal is effective , antibiotics should prevent their reformation therefore primary closure should be safeSlide 77: 4. Surgery should not damage already ischaemic bone and soft tissue 5. . Antibiotics should be continued after surgerySlide 78: If no appreciable clinical improvement is noted with antiobiotic within 24 to 48 hours occult abscess must be sought and surgical drainage consideredSlide 79: Two main indications of surgery in acute hematogenous osteomyelitis are 1The presence of abscess requiring drainage 2 And failure of patient to improve despite appropraite intavenous antiobioticsSlide 80: The patient should be treated for 4-6 weeks with appropriate antimicrobial therapy, dating from the initiation of therapy or following the last major debridement surgerySlide 81: With hematogenous osteomyelitis (newborn to adult), Primary treatment is a combination of penicillinase-resistant synthetic penicillin and a third-generation cephalosporin. Alternate therapy is vancomycin or clindamycin and a third-generation cephalosporin.Slide 82: In addition to these above-mentioned antibacterials, ciprofloxacin and rifampin may be an appropriate combination therapy for adult patients. If there is evidence of infection with gram-negative bacilli, include a third-generation cephalosporin.Slide 83: In patients with sickle cell anemia and osteomyelitis, the primary bacterial causes are S aureus and Salmonellae species the primary choice for treatment is a fluoroquinolone antibiotic (not in children). A third-generation cephalosporin (eg, ceftriaxone) is an alternative choiceSALMONELLA OSTEOMYELITIS: SALMONELLA OSTEOMYELITISSlide 85: Salmonella osteomyelitis is relatively rare 1 several bones are involved 2 symmetrical involvement of bonesSlide 86: 3 severe osteomyelitis 4 spine may be involved 5 sickle cell anaemia present 6 Stool culture positiveSlide 87: Salmonella osteomyelitis tends to be diaphyseal rather than metaphysealSlide 88: Objectives of surgery- Drain any abscess cavity Remove all non viable tissueSlide 89: When a sub periosteal abscess is found in children several holes should be drilled through the cortex to the medullary canal If pus is found a small cortical window is removed The intramedullary pus is evacutated and necrotic tissue debridedSlide 90: Skin is closed over drains Limb is splinted Once wound is healed protected weight bearing is begunSlide 91: Limb protected for many weeks to prevent pathological fracture Patient is followed for one year with periodic roentgenogramsDifferential diagnosis: Differential diagnosis 1 Acute septic arthritis joint movements are more painfull and severely restricted 2 scurvy features of pseudoparalysis ,bleeding gums are features 3 cellulitis it is difficult to differentiate however it has no limits ,no pus ,no fluctuation , no edger: r 4 ewings sarcoma destruction is diffuse Constitutinal symptoma are less severe and tumor responds to radiotherapy 5 rheumatic fever pain is confined to joints and responds to ACTH AND STEROIDSSlide 94: Erethema nodosum ,, sickle cell anaemiaComplications : Complications Seen in 5 % of cases 1 septicaemia 2 pyaemia 3 septic arthritis 4 chronic osteomyelitis 5 pathologic fracturePathologic fracture after destruction of cortical bone: Pathologic fracture after destruction of cortical boneSlide 97: 6 Recurrence rate 7 mortality rate is less than 2 percentSlide 98: Thank you……..