Foreign Body Imaging


Introduction

Retained foreign bodies are a common presentation in both the emergency department as well as in the outpatient setting. While retained foreign bodies are usually superficial, they can be missed even when a well-trained clinician performs a thorough history and physical. Therefore, retained foreign bodies are often a cause of malpractice lawsuits in the emergency department.[1]

Foreign bodies are often a complication of lacerations and other soft tissue injuries.[2] Complications resulting from foreign bodies include inflammation, delayed healing, and damage to surrounding tissues.[3] Organic foreign bodies, such as thorns, splinters, or spines, can cause severe inflammation, hypersensitivity reactions, and infection. These infections can be resistant to antibiotic treatment and require surgical removal of the foreign body for definitive treatment. The most frequent sites of involvement include the extremities, including the hand/wrist and feet/ankles.[4]

Most foreign bodies are locatable during an extensive wound-probing physical exam. Imaging studies are necessary in cases of suspected but not identified foreign bodies.[5] Imaging is especially necessary following the removal of multiple foreign body pieces or when wound exploration is not possible. Imaging modalities that can be used to detect foreign bodies include plain film radiographs, computed tomography (CT), magnetic resonance imaging (MRI), and ultrasound. Each modality has its strengths and weaknesses that vary depending on the composition material of the foreign body, as well as the object’s location.

Plain Films

The initial choice for foreign body detection is plain film radiography, which is the imaging modality of choice due to its ability to detect most foreign bodies quickly and cheaply with relatively low radiation exposure.[6] Objects denser than soft tissue will attenuate more rays and, therefore, appear in greater contrast to the surrounding areas.[7] 

The increased density of foreign bodies composed of metal, glass, and gravel results in their radioopaque appearance on radiography, making plain film imaging highly sensitive and specific when looking for these objects in soft tissues.[8][9] 

However, gravel and graphite in or near bone may be difficult to identify due to these objects having a similar density as the bone. Radiography is also less effective for identifying radiolucent objects such as wood, plastic, and organics (such as thorns or spines) in soft tissue due to matching densities.[3][10] 

The object’s size also limits radiographic accuracy, and glass, in particular, becomes difficult to locate when the size of these foreign bodies is in the order of a few millimeters. If clinical suspicion remains high despite negative plain film radiography, other imaging modalities should be considered. 

Computed Tomography

Computed tomography imaging is effective at detecting most foreign bodies as well as aiding in their removal by clearly localizing the object of interest within the tissue.[11] 

The physics used to generate computed tomography images is similar to that of radiography; however, it has an improved ability to differentiate tissue densities, allowing for better visualization of inflammation, abscesses, and granulomas that are frequently secondary clues to a retained foreign body. 

CT scans come with the added benefit of being able to provide more accurate three-dimensional localization of the foreign body. CT studies also come at an increased cost and radiation dose to the patient.[12] Computed tomography can also help evaluate the proximity of a foreign body to neurovasculature and vital organs when relevant.

Magnetic Resonance

The use of magnetic resonance imaging is often limited in the evaluation of foreign bodies but can play a role in select cases.[10][9] Like CT imaging, it provides information regarding the three-dimensional location of the foreign body as well as the surrounding structures such as ligaments, tendons, vessels, and nerves. One study found the sensitivity to be 58% and specificity 100% for foreign bodies embedded in the forefoot.[13]

It is, however, ineffective at imaging gravel or metallic foreign bodies due to ferromagnetic streak artifacts. Large metallic foreign bodies can pose a risk to those undergoing MRI imaging owing to their ferromagnetic properties. MRI also comes at a significant monetary and time cost, making it frequently ineffective for imaging foreign bodies.[14]

Ultrasonography

Ultrasound is extremely useful in detecting and localizing foreign bodies, especially in conjunction with plain radiography. When high clinical suspicion of a foreign body often exists, an ultrasound can be employed when radiographs are negative.[9] 

Ultrasonography does require prior training, an understanding of anatomy, and clinical time. Objects may be mistaken for anatomic structures such as tendons, vessels, or bursa, especially in hands, feet, or joints. Sonographic assessments of common foreign bodies have also shown to have relatively high specificity and strong sensitivity in one 2015 meta-analysis.[15] Objects deeper than 2 cm will also be more difficult as imaging deeper into tissue comes with the cost of decreased resolution.

Foreign bodies will appear hyperechoic with variable shadowing and reverberation. After finding the foreign body, clues to the type of material can be gathered by its acoustic details. When imaging gravel or wood, the object will appear hyperechoic with a strong and posterior accounting shadowing. Metallic objects display a "comet tail" or distal, regular, parallel lines secondary to acoustic reverberation.[16] Glass can present with variable acoustic shadows, including comet tails or diffuse beam scattering. 

Clinical Significance

Since no modality is perfect for identifying foreign bodies, a combination of high clinical suspicion, a thorough physical exam, and an appropriate selection of the correct imaging modality will provide the best outcomes. A suggested algorithm begins with correctly identifying high-risk patients with a complete history and physical. Most foreign bodies are secondary to trauma or accidental injury.

All wounds harbor the potential for foreign bodies. If the clinician or the patient has reasonable suspicion, the next step should be to obtain plain film radiographs with views in at least two anatomical planes. A provider may stop here if the exam is negative and only radiopaque objects (gravel, glass, or metal) are suspected. However, if radiolucent objects such as thorns, wood, or plastic are suspected, an ultrasound examination of the area should be performed. If the foreign body is still not located, the clinician may choose to move on to CT or MRI, depending on the level of suspicion as well as the potential type of foreign body.

Clinicians working closely as an interprofessional team with radiology technicians and radiologists can achieve the best diagnostic result in these cases.


(Click Image to Enlarge)
Foreign Body Imaging Foot radiograph with metallic foreign body (nail).
Foreign Body Imaging Foot radiograph with metallic foreign body (nail).
Contributed by Mark A. Dreyer, DPM, FACFAS
Details

Author

Erik A. Campbell

Editor:

Christopher D. Wilbert

Updated:

7/30/2023 1:19:37 PM

Feedback:

Send Us Your Comments

References

[1]

Vukmir RB. Medical malpractice: managing the risk. Medicine and law. 2004:23(3):495-513     [PubMed PMID: 15532944]

[2]

Rupert J, Honeycutt JD, Odom MR. Foreign Bodies in the Skin: Evaluation and Management. American family physician. 2020 Jun 15:101(12):740-747     [PubMed PMID: 32538598]

[3]

Anderson MA, Newmeyer WL 3rd, Kilgore ES Jr. Diagnosis and treatment of retained foreign bodies in the hand. American journal of surgery. 1982 Jul:144(1):63-7     [PubMed PMID: 7091533]

[4]

Donaldson JS. Radiographic imaging of foreign bodies in the hand. Hand clinics. 1991 Feb:7(1):125-34     [PubMed PMID: 2037630]

[5]

Hunter TB, Taljanovic MS. Foreign bodies. Radiographics : a review publication of the Radiological Society of North America, Inc. 2003 May-Jun:23(3):731-57     [PubMed PMID: 12740473]

[6]

Huda W, Gkanatsios NA. Radiation dosimetry for extremity radiographs. Health physics. 1998 Nov:75(5):492-9     [PubMed PMID: 9790558]

[7]

McKetty MH. The AAPM/RSNA physics tutorial for residents. X-ray attenuation. Radiographics : a review publication of the Radiological Society of North America, Inc. 1998 Jan-Feb:18(1):151-63; quiz 149     [PubMed PMID: 9460114]

[8]

Grøn P, Andersen K, Vraa A. Detection of glass foreign bodies by radiography. Injury. 1986 Nov:17(6):404-6     [PubMed PMID: 3818073]

[9]

Manthey DE, Storrow AB, Milbourn JM, Wagner BJ. Ultrasound versus radiography in the detection of soft-tissue foreign bodies. Annals of emergency medicine. 1996 Jul:28(1):7-9     [PubMed PMID: 8669741]

[10]

Ingraham CR, Mannelli L, Robinson JD, Linnau KF. Radiology of foreign bodies: how do we image them? Emergency radiology. 2015 Aug:22(4):425-30. doi: 10.1007/s10140-015-1294-9. Epub 2015 Feb 4     [PubMed PMID: 25648360]

[11]

Guelfguat M, Kaplinskiy V, Reddy SH, DiPoce J. Clinical guidelines for imaging and reporting ingested foreign bodies. AJR. American journal of roentgenology. 2014 Jul:203(1):37-53. doi: 10.2214/AJR.13.12185. Epub     [PubMed PMID: 24951194]

[12]

Huda W, Tipnis SV. Doses metrics and patient age in CT. Radiation protection dosimetry. 2016 Mar:168(3):374-80. doi: 10.1093/rpd/ncv310. Epub 2015 May 13     [PubMed PMID: 25977348]

[13]

Pattamapaspong N, Srisuwan T, Sivasomboon C, Nasuto M, Suwannahoy P, Settakorn J, Kraisarin J, Guglielmi G. Accuracy of radiography, computed tomography and magnetic resonance imaging in diagnosing foreign bodies in the foot. La Radiologia medica. 2013 Mar:118(2):303-10. doi: 10.1007/s11547-012-0844-4. Epub 2012 Jun 28     [PubMed PMID: 22744349]

[14]

Westermann RW, Schick C, Graves CM, Duchman KR, Weinstein SL. What Does a Shoulder MRI Cost the Consumer? Clinical orthopaedics and related research. 2017 Mar:475(3):580-584. doi: 10.1007/s11999-016-5181-9. Epub 2016 Nov 28     [PubMed PMID: 27896680]

[15]

Davis J, Czerniski B, Au A, Adhikari S, Farrell I, Fields JM. Diagnostic Accuracy of Ultrasonography in Retained Soft Tissue Foreign Bodies: A Systematic Review and Meta-analysis. Academic emergency medicine : official journal of the Society for Academic Emergency Medicine. 2015 Jul:22(7):777-87. doi: 10.1111/acem.12714. Epub 2015 Jun 25     [PubMed PMID: 26111545]

Level 1 (high-level) evidence

[16]

Carneiro BC, Cruz IAN, Chemin RN, Rizzetto TA, Guimarães JB, Silva FD, Junior CY, Pastore D, Ormond Filho AG, Nico MAC. Multimodality Imaging of Foreign Bodies: New Insights into Old Challenges. Radiographics : a review publication of the Radiological Society of North America, Inc. 2020 Nov-Dec:40(7):1965-1986. doi: 10.1148/rg.2020200061. Epub     [PubMed PMID: 33136481]