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Osteomyelitis – Introduction, Complications, and Diagnosis.

Introduction

Osteomyelitis is the bone infection that occurs due to the infection of bacteria in the bone. Infection is caused by the bacterium Staphylococcus aureus and other bacteria’s can also cause it. Germs usually infect into the body skin through open wounds and travel to the bone through the bloodstream. Sometimes it will get infected with other infected tissues of the body. Once the microbes infect the bone, the leukocytes from the body will destroy the microbial pathogens and this process release enzyme and this enzyme leads to loss of bone tissue. This reaction leads to a pus formation.

Osteomyelitis

Pus from damaged bone

The most common bones that affected by osteomyelitis are tibia, femur, humerus, vertebra, the maxilla, and the mandibular bone. In children, osteomyelitis occurs mostly in the long bones of the lower legs and the upper arms. while in adults it affects spine bones. People who have diabetes may also get osteomyelitis in their feet if they have foot ulcers. Early treatment is important to reduce the severity of the infection.

History

Osteomyelitis is the oldest disease. The oldest known evidence of osteomyelitis lies in the fractured spine of a dimetrodon Permian reptile, which was in existence 291 to 250 million years ago. Evidence for osteomyelitis found in the fossil record is studied by paleopathologists, specialists in ancient disease and injury. It has been reported in fossils of the large carnivorous dinosaur Allosaurus fragilis.

1773– Bromfield described as bone that “may become carious, first in its internal parts and that from external injury, as well as from a vitiated state of the animal fluids.” And it is termed the disease as “Abcessus in medulla”.

1831- Smith, named the disease as necrosis, to indicate the death of bone.

1844- Nelaton introduced the term “osteomyelitis”.

1940- Penicillin was introduced to cure acute osteomyelitis.

Epidemiology

Approximately 20% of adult cases of osteomyelitis are hematogenous, which is more common in males for unknown reasons.

The incidence of spinal osteomyelitis was estimated to be 1 in 450,000 in 2001. In subsequent years, however, the overall incidence of vertebral osteomyelitis is believed to have increased as a consequence of intravenous drug use, increasing age of the population, and higher rates of nosocomial infection due to intravascular devices and other instrumentation. The overall incidence of osteomyelitis is higher in developing countries.

Types

There are two types of osteomyelitis include:

Acute osteomyelitis

This type has two categories such as:

Haematogenous osteomyelitis: In this type, the infection occurs via the bloodstream or infection in the blood. The bacteria are stuck in the rich area of blood supply so that the infection tends to spread the growing parts at the end of the long bones. Children are at increased risk.

Direct inoculation osteomyelitis: infection occurs directly to the bone due to injury, surgery or trauma.

Chronic osteomyelitis

This condition occurs when the treatment fails for acute osteomyelitis and it recurs for a long time. In many cases, chronic osteomyelitis may also occur due to the invasion of two or three microbes

Risk factors of Osteomyelitis

Some of the risk factors that may cause osteomyelitis include:

Causes

It can be caused by various conditions and variety of microorganisms, including:

Symptoms of Osteomyelitis

Symptoms of osteomyelitis vary greatly in children and adults. In children, symptoms occur immediately after the infection of the bone. Usually, the first symptoms appear in both adults and children are a pain in the infected area. Other symptoms that are common in osteomyelitis are as follows.

 

Complications that arise during osteomyelitis

Diagnosis and Test

Physical examination: Your doctor will a perform the physical exam in the body to check for redness, swelling, pain, discoloration, and drainage of pus from the affected area.

Blood test: If osteomyelitis is suspected, a blood test is first performed to find any changes in the blood. Because high levels of WBC cause infection, it also might be the cause of bone infection. Complete blood count (CBC), erythrocyte sedimentation rate (ESR), and C-reactive protein (CRP) are also included in a blood test but they are not specific tests for osteomyelitis. They are just suggested to find some other infection in the body.

Blood culture: The microorganism that is infected with the blood is identified by blood culture.

Bone tissue biopsy: A small tissue is removed from the infected bone to check which pathogen causes the infection. This helps to choose a particular antibiotic to treat the germs that caused osteomyelitis.

A surgeon inserts a long needle into the bone through the skin to remove a biopsy under a local anesthesia. X-ray and other imaging techniques are used for guidance during the biopsy procedure.

Imaging studies

Bone scan: It is a test which reveals the metabolic and cellular activity of bones. During this scan a radioactive substance is injected into the body, to highlight the bone tissue. This helps to identify the location of the affected bone. If this scan is not giving you an exact result, then further high-efficiency scans such as X-ray, MRI, and CT are used.

X-ray: X-ray is a quiet and simple technique can identify the exact problem of the bone. It shows the appropriate location of the infection.

MRI: MRI scan produces detailed images of the bones and soft tissues that surrounded them.

CT: CT images are obtained by combining X-ray images that are taken at different angles and to create a cross-sectional image of patient’s internal organs.

Treatment and Medications

Antibiotic therapy

Initially, antibiotics are used to reduce the infection around the bone. Antibiotics are given through the intravenous (IV) for at least 4 – 6 weeks. More than two antibiotics are given at the same time. The type of antibiotics to be used is depending upon the type of infected pathogen. During the antibiotic therapy, the patient is to be hospitalized. The below table represents the antibiotics used for appropriate pathogenic organisms.

Organism Preferred antibiotics Alternative antibiotics
Escherichia coli Ticarcillin/clavulanate, 3.1 g IV every 4 hours.

Piperacillin/tazobactam (Zosyn), 3.375 g IV every 6 hours

Ceftriaxone, 2 g IV every 24 hours
Pseudomonas aeruginosa Cefepime, 2 g IV every 8 to 12 hours, plus ciprofloxacin, 400 mg IV every 8 to 12 hours

 

Piperacillin/tazobactam, 3.375 g IV every 6 hours, plus ciprofloxacin, 400 mg IV every 12 hours

Imipenem/cilastatin (Primaxin), 1 g IV every 8 hours, plus aminoglycoside
Staphylococcus aureus Vancomycin, 1 g IV every 12 hours Trimethoprim/sulfamethoxazole (Bactrim, Septra), 1 double-strength tablet every 12 hours
Streptococcus species Penicillin G, 2 to 4 million units IV every 4 hours Ceftriaxone, 2 g IV every 24 hours

Clindamycin, 600 mg IV every 6 hours

Suppose if the antibiotic therapy is not responding, then surgery is the final decision to save from spreading of pathogens into the surrounding environment.

Sometimes pain-killing medications are used to reduce the pain that is developed during the infection.

Surgery

For the chronic form of osteomyelitis, surgery is needed to get recover from the infection. Following procedures are used for treating osteomyelitis.

Prevention of Osteomyelitis

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