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CC BY-NC-ND 4.0 · Indian J Radiol Imaging
DOI: 10.1055/s-0044-1781458
Case Series

Absorbable Hemostatic Agents Mimic Gossypiboma or Infected Collection on Imaging

Kirti Anna Koikkara
1   Department of Radiology, Christian Medical College, Vellore, Tamil Nadu, India
,
Joseph Chacko Paul
1   Department of Radiology, Christian Medical College, Vellore, Tamil Nadu, India
,
Vineeth Joseph Abraham
1   Department of Radiology, Christian Medical College, Vellore, Tamil Nadu, India
,
Aisha Lakhani
1   Department of Radiology, Christian Medical College, Vellore, Tamil Nadu, India
,
Harsha Veena Kanamathareddy
1   Department of Radiology, Christian Medical College, Vellore, Tamil Nadu, India
,
Gopinathan Kathirvelu
2   Department of Radiology, Government Kilpauk Medical College, Chennai, Tamil Nadu, India
,
Anuradha Chandramohan
1   Department of Radiology, Christian Medical College, Vellore, Tamil Nadu, India
› Author Affiliations
Funding None.
› Further Information
 
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Abstract

Absorbable hemostatic agents are commonly used in clinical practice and their imaging appearance is less known. In our case series, we demonstrate how absorbable hemostatic agents can masquerade as other clinically and medicolegally significant conditions such as gossypiboma and infected collections. Through our report, we aimed to describe the imaging features of absorbable hemostatic agents, to compare them with their imaging mimics, and provide a comprehensive review of the available literature.


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Keywords

hemostatic agents - Surgicel - Gelfoam - gossypiboma - postoperative collection

Introduction

Hemostasis plays a key role in positive surgical outcomes. Topical agents, such as oxidized regenerated cellulose (such as Surgicel, manufactured by Ethicon) and absorbable gelatin compressed sponge (such as Gelfoam, manufactured by Pfizer), are widely used; however, their imaging appearance is poorly described. They are bioabsorbable thrombogenic agents and are rarely detected on postoperative imaging. The quantity and size of usage determine the absorption, which varies between 2 and 6 weeks.[1]

In the following cases, topical hemostatic agents were found to closely mimic retained surgical gauze, known as gossypiboma or an infected postoperative collection. These entities are characterized by spongiform morphology due to localized lesions with punctate air foci.[2] [3] [4]

This is a significant diagnostic dilemma, as it determines notable variation in management. Four cases are described that raised the possibility of gossypiboma on imaging, which, on further evaluation, were found to be hemostatic material.


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Case 1

A 69-year-old lady underwent aortic aneurysm repair with a Dacron graft. On the third postoperative day, computed tomography (CT) angiogram revealed a lesion with mottled air lucencies in the proximal aspect of the graft and imaging features were reported to be suspicious for gossypiboma ([Fig. 1A]). A discussion with the operating surgeon revealed the use of oxidized regenerated cellulose for achieving hemostasis. A repeat imaging on the 15 postoperative day showed complete resolution of the lesion ([Fig. 1B]).

Zoom Image
Fig. 1 (A) Postoperative computed tomography (CT) axial sections on day 3 show a localized well-defined lesion with mottled air lucencies (arrowheads) near the proximal aspect of the graft in the aortocaval region and surrounds the suture (arrowhead with indent). (B) A follow-up CT done 12 days later showed a new perigraft collection, but the previously noted lesion with air pockets had completely resolved. The radiodense suture is shown with an arrowhead.

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Case 2

A 60-year-old lady underwent a hysterectomy and was readmitted with abdominal pain. A CT on the ninth postoperative day demonstrated a collection containing irregularly shaped mottled air lucencies along the anterior aspect of the collection ([Fig. 2A]). The possibility of gossypiboma was considered. There was documented use of oxidized regenerated cellulose in the location of mottled air lucencies. The patient was managed conservatively, and a follow-up CT done 10 days later showed near-complete resolution of the spongiform content ([Fig. 2b]).

Zoom Image
Fig. 2 (A) Collection posterior to the urinary bladder containing irregular spongiform foci with mottled air lucencies (arrowheads). (B) Computed tomography (CT) done after 10 days shows a significant interval reduction in the size of both the collection and the spongiform foci within.

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Case 3

A 4-year-old girl underwent a postoperative CT following pelvic ganglioneuroma excision due to loose stools 3 days after surgery. CT revealed left-sided loculated pelvic collection with ill-defined low-density areas and mottled air lucencies ([Fig. 3A]). Based on the imaging findings, possibilities of postoperative collection or gossypiboma were considered. A conversation with the operating surgeon revealed the use of oxidized regenerated cellulose to achieve intraoperative hemostasis and the child was afebrile. Thus, the patient was diagnosed with pelvic hematoma, and was managed conservatively. Follow-up CT after 19 days revealed an unchanged mildly hyperdense loculated collection in the left side of the pelvis ([Fig. 3B]). But there was near-complete resolution of air pockets within the collection.

Zoom Image
Fig. 3 (A) Axial computed tomography (CT) section through the pelvis on the third postoperative day showed a lentiform well-defined low-density collection containing air foci (*) located within a hyperdense hematoma in the left side of the pelvis (arrowheads). (B) Repeat imaging demonstrates a persistent hematoma. However, the component containing air foci had almost completely resolved.

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Case 4

A 24-year-old lady presented with postpartum fever and abdominal pain following cesarean section. CT showed a rectangular low-density area with mottled air lucencies and was reported as an infected collection ([Fig. 4]). On exploratory laparotomy, the lesion was confirmed to be hemostatic material. However, the peritoneal cavity was filled with infected ascites, and peritoneal washing was done. After treatment with intravenous antibiotics in the postoperative period, the patient had an uneventful recovery.

Zoom Image
Fig. 4 A 24-year-old female patient with postpartum fever. (A,C,D) Axial, coronal, and sagittal contrast-enhanced computed tomography (CT) images show a loculated low-density area with mottled air foci in a linear, folded pattern along the anterior aspect of the lower uterine segment (indented arrowheads), the location of the surgical wound on the uterus (B,D). There is generalized ascites (* in B) with smooth peritoneal enhancement.

[Supplementary Table S1] (available in the online version only) summarizes the salient events of the four cases described.


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Discussion

Hemostatic agents are widely used intraoperatively. Awareness of their imaging appearance and close mimics across modalities is essential. The cases described presented the diagnostic challenge of differentiating hemostatic agents from gossypiboma or infected collections.

A surgical mop or gauze, inadvertently left in the operative field, is known as a gossypiboma. This is characteristically described as a heterogeneous mass with low density and a mottled or spongiform appearance ([Fig. 5]). Depending on the locoregional practices, a radiodense marker ([Figs. 5] and [6]) may or may not be seen on CT imaging.[3] [4] [5] Gossypibomas have a long duration of symptoms and thick enhancing wall around the lesion ([Fig. 5]) unless these are intraluminal gossypibomas ([Fig. 6]). Imaging features of gossypiboma persist, and complications include adhesions, fistulization, and abscess formation.[6] [7] [8] [9] Retained surgical gauze is a significant diagnosis in terms of medicolegal and management implications.

Zoom Image
Fig. 5 A 39-year-old female patient who underwent subtotal hysterectomy for postpartum hemorrhage 7 years ago presented with a history of postcoital bleeding for 7 years and burning micturition for 3 years. (A) Axial computed tomography (CT) images show a thick-walled lesion with mottled air lucencies at the vaginal vault. (B) There was fistula with the posterior wall of the bladder (arrowhead). (C) A radiodense focus is seen in the bladder trigone region (indented arrowhead) and air pockets were seen within the bladder lumen (arrows in B,C). At surgery, a vaginal vault gossypiboma was found fistulizing into the bladder.
Zoom Image
Fig. 6 A 35-year-old male patient with a history of previous surgery presented with acute abdomen. (A) Coronal contrast-enhanced computed tomography ((CECT) image showed dilated small bowel loops with the transition zone in the right lower abdomen and the distal ileal loops collapsed. The small bowel proximal to the transition zone had mottled air lucencies (*) and few radiodense foci (arrowheads). (B) Thick slab reconstruction revealed a thin serpiginous radiodensity within the bowel lumen (arrow). (C) Supine abdominal radiograph showed a similar radiodensity in the right lower abdomen (arrow). These findings were consistent with intraluminal gossypiboma in the mid-ileum with small bowel obstruction.

Topical hemostatic agents, however, are identified only on studies within the early postoperative period. As a result, imaging appearance is not widely known. Absorbable hemostatic materials have been described as low-density lesions with punctate or linear air foci.[11] [12]

This appearance is likely due to the compressed space between the sponge, which helps absorb blood by capillary action. Three of our four cases demonstrate that further imaging may show minimal to no remnant of the hemostatic material, thus resolving any diagnostic doubt, as a gossypiboma will not change in appearance. Oxidized regenerated cellulose has been found to absorb in 7 to 14 days and gelatin in 4 to 6 weeks.[1] [11]

These agents have been described on imaging to also mimic postoperative abscesses or recurrent/residual soft tissue. Other mimics include abscesses from anaerobic infections ([Fig. 7]) and feces in the bowel lumen ([Fig. 8]), including small bowel feces sign seen in bowel obstruction ([Fig. 8]). Differentiating features include the presence of an enhancing rim, larger air pockets, and air–fluid levels in infected collections. However, an enhancing rim can also form around a hemostatic agent due to a secondary foreign body reaction as seen in [Fig. 4]. Clinical features also contribute to differentiation, as patients with a postoperative abscess may have fever, pain, and leukocytosis.[12] It is also crucial to note that hemostatic agents can coexist with hematomas and abscesses as also seen in two of our cases (cases 2 and 3).[2] [13] [14] [15] [Table 1] summarizes previously published reports on hemostatic agents. Another mimic to consider is tumor residue/recurrence, as in the late post-op images there can be soft-tissue densities or calcification of hemostatic material and this can mimic tumor recurrence.

Table 1

Comparison of our case series with previously published work

No.

Study

Mimic described

Observations

1

Sandrasegaran et al (10)

Postoperative abscess

Absence of enhancing wall and air–fluid levels, linear morphology of air foci, and stable position on further imaging pointing toward Surgicel

2

Turley BR et al (17)

Postoperative abscess

Surgicel mimics post operative abscess following laparoscopic cholecystectomy

3

Wang and Chen[1]

Recurrent GIST

Surgicel-induced granuloma can mimic soft-tissue lesions. Differentiated on PET by a “rim” of uptake

4

Tefik et al (18)

Recurrent mass after RCC resection

Surgicel-related granuloma, mimicking recurrent mass lesions in the kidney

5

Current series

Gossypiboma and postoperative abscess

Two of our patients had coexisting collections; two had rim enhancement; and an interval decrease in size could be demonstrated in three

Abbreviations: GIST, gastrointestinal stromal tumor; PET, positron emission tomography; RCC, renal cell carcinoma.


Zoom Image
Fig. 7 Contrast-enhanced axial computed tomography (CT) images of an infected mature dermoid cyst show (A) collection with enhancing thick wall (arrowhead), (B) large air pockets (*) and air–fluid levels, (C) toothlike calcified focus (arrowhead), and (D) thick-walled parietal wall collections (arrowhead).
Zoom Image
Fig. 8 (A) Coronal and (B) axial contrast-enhanced computed tomography (CT) images of a patient with an obstructing sigmoid colon cancer show an irregular nodular bowel wall thickening in the sigmoid colon (arrowheads), dilated small bowel loops with mottled air lucencies (*) suggestive of “small bowel feces” sign. Note the fecal residue in the cecum also has mottled air lucencies (arrow in B).

Key differences between hemostatic material, gossypiboma, and abscess have been elucidated in [Table 2].

Table 2

Comparison of hemostatic material, gossypiboma, and abscess

Hemostatic material

Gossypiboma

Abscess

Clinical presentation

History of recent surgery; usually an incidental finding

History of surgery; may have fever or pain

Fever, pain, leukocytosis

Duration

Seen up to 6 wk postoperatively

Persistent; will be seen on delayed imaging

Evolves with clinical progression

Enhancing rim

Absent unless secondary to foreign body reaction

Present

Present

Content

Air pockets appear linearly arranged and packed; will not vary in position with repeat imaging

Mottled; radiodense marker usually seen within

Variable air pockets that change with repeat imaging. Often have air–fluid levels

Complication

Nil

Adhesions, fistulization, and abscess formation

Fistulization

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Conclusion

Hemostatic agents are frequently used, and knowledge of their imaging appearances, complications, and mimics is critical. We have outlined clinical examples where hemostatic agents mimic gossypiboma or postoperative collections on CT imaging, of which there is minimal available literature. This differentiation has significant medicolegal and management implications. Awareness of the use of topical hemostatic agents and dialogue with the surgeons can avoid errors. Our case series also indicates that follow-up imaging plays a key role in the differentiation.


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Conflict of Interest

None declared.

Acknowledgments

We acknowledge the Departments of Obstetrics and Gynecology and Vascular Surgery, Christian Medical College, Vellore.

Supplementary Material

  • References

  • 1 Wang H, Chen P. Surgicel® (oxidized regenerated cellulose) granuloma mimicking local recurrent gastrointestinal stromal tumor: a case report. Oncol Lett 2013; 5 (05) 1497-1500
    CrossrefPubMedGoogle Scholar
  • 2 Morani AC, Platt JF, Thomas AJ. et al. Hemostatic agents and tissue sealants: potential mimics of abdominal abnormalities. Am J Roentgenol 2018; 211 (04) 760-766
    CrossrefPubMedGoogle Scholar
  • 3 Kumar GVS, Ramani S, Mahajan A, Jain N, Sequeira R, Thakur M. Imaging of retained surgical items: a pictorial review including new innovations. Indian J Radiol Imaging 2017; 27 (03) 354-361
    PubMedGoogle Scholar
  • 4 Manzella A, Filho PB, Albuquerque E, Farias F, Kaercher J. Imaging of gossypibomas: pictorial review. Am J Roentgenol 2009; 193 (06) S94-S101
    CrossrefPubMedGoogle Scholar
  • 5 Kopka L, Fischer U, Gross AJ, Funke M, Oestmann JW, Grabbe E. CT of retained surgical sponges (textilomas): pitfalls in detection and evaluation. J Comput Assist Tomogr 1996; 20 (06) 919-923
    CrossrefPubMedGoogle Scholar
  • 6 Wan W, Le T, Riskin L, Macario A. Improving safety in the operating room: a systematic literature review of retained surgical sponges. Curr Opin Anaesthesiol 2009; 22 (02) 207-214
    CrossrefPubMedGoogle Scholar
  • 7 Umunna J. Gossypiboma and its implications. J West Afr Coll Surg 2012; 2 (04) 95-105
    PubMedGoogle Scholar
  • 8 Rabie ME, Hosni MH, Al Safty A, Al Jarallah M, Ghaleb FH. Gossypiboma revisited: a never ending issue. Int J Surg Case Rep 2016; 19: 87-91
    CrossrefPubMedGoogle Scholar
  • 9 Lata I, Kapoor D, Sahu S. Gossypiboma, a rare cause of acute abdomen: a case report and review of literature. Int J Crit Illn Inj Sci 2011; 1 (02) 157-160
    CrossrefPubMedGoogle Scholar
  • 10 Sandrasegaran K, Lall C, Rajesh A, Maglinte DT. Distinguishing gelatin bioabsorbable sponge and postoperative abdominal abscess on CT. Am J Roentgenol 2005; 184 (02) 475-480
    CrossrefPubMedGoogle Scholar
  • 11 Pfizer. Gelfoam® absorbable gelatin powder. Accessed December 18, 2023 at: https://cdn.pfizer.com/pfizercom/products/uspi_gelfoam_plus.pdf
    Google Scholar
  • 12 Robert B, Yzet T, Regimbeau JM. Radiologic drainage of post-operative collections and abscesses. J Visc Surg 2013; 150 (03) S11-S18
    CrossrefPubMedGoogle Scholar
  • 13 Young S, Paulson EK, Mccann RL, Baker ME, Paulson EK. Appearance of oxidized cellulose (Surgicel) on postoperative CT scans: similarity to postoperative abscess. Am J Roentgenol 1993; 160 (02) 275-277
    CrossrefPubMedGoogle Scholar
  • 14 Melamed JW, Paulson EK, Kliewer MA. Sonographic appearance of oxidized cellulose (Surgicel): pitfall in the diagnosis of postoperative abscess. J Ultrasound Med 1995; 14 (01) 27-30
    CrossrefPubMedGoogle Scholar
  • 15 Arnold AC, Sodickson A. Postoperative Surgicel mimicking abscesses following cholecystectomy and liver biopsy. Emerg Radiol 2008; 15 (03) 183-185
    CrossrefPubMedGoogle Scholar
  • 16 Tefik T, Sanli O, Oktar T, Yucel OB, Ozluk Y, Kilicaslan I. Oxidized regenerated cellulose granuloma mimicking recurrent mass lesion after laparoscopic nephron sparing surgery. Int J Surg Case Rep 2012; 3 (06) 227-230
    CrossrefPubMedGoogle Scholar

Address for correspondence

Anuradha Chandramohan, MD, FRCR
Department of Radiology, Christian Medical College
Vellore 632004, Tamil Nadu
India   

Publication History

Article published online:
21 April 2024

© 2024. Indian Radiological Association. This is an open access article published by Thieme under the terms of the Creative Commons Attribution-NonDerivative-NonCommercial License, permitting copying and reproduction so long as the original work is given appropriate credit. Contents may not be used for commercial purposes, or adapted, remixed, transformed or built upon. (https://creativecommons.org/licenses/by-nc-nd/4.0/)

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  • References

  • 1 Wang H, Chen P. Surgicel® (oxidized regenerated cellulose) granuloma mimicking local recurrent gastrointestinal stromal tumor: a case report. Oncol Lett 2013; 5 (05) 1497-1500
    CrossrefPubMedGoogle Scholar
  • 2 Morani AC, Platt JF, Thomas AJ. et al. Hemostatic agents and tissue sealants: potential mimics of abdominal abnormalities. Am J Roentgenol 2018; 211 (04) 760-766
    CrossrefPubMedGoogle Scholar
  • 3 Kumar GVS, Ramani S, Mahajan A, Jain N, Sequeira R, Thakur M. Imaging of retained surgical items: a pictorial review including new innovations. Indian J Radiol Imaging 2017; 27 (03) 354-361
    PubMedGoogle Scholar
  • 4 Manzella A, Filho PB, Albuquerque E, Farias F, Kaercher J. Imaging of gossypibomas: pictorial review. Am J Roentgenol 2009; 193 (06) S94-S101
    CrossrefPubMedGoogle Scholar
  • 5 Kopka L, Fischer U, Gross AJ, Funke M, Oestmann JW, Grabbe E. CT of retained surgical sponges (textilomas): pitfalls in detection and evaluation. J Comput Assist Tomogr 1996; 20 (06) 919-923
    CrossrefPubMedGoogle Scholar
  • 6 Wan W, Le T, Riskin L, Macario A. Improving safety in the operating room: a systematic literature review of retained surgical sponges. Curr Opin Anaesthesiol 2009; 22 (02) 207-214
    CrossrefPubMedGoogle Scholar
  • 7 Umunna J. Gossypiboma and its implications. J West Afr Coll Surg 2012; 2 (04) 95-105
    PubMedGoogle Scholar
  • 8 Rabie ME, Hosni MH, Al Safty A, Al Jarallah M, Ghaleb FH. Gossypiboma revisited: a never ending issue. Int J Surg Case Rep 2016; 19: 87-91
    CrossrefPubMedGoogle Scholar
  • 9 Lata I, Kapoor D, Sahu S. Gossypiboma, a rare cause of acute abdomen: a case report and review of literature. Int J Crit Illn Inj Sci 2011; 1 (02) 157-160
    CrossrefPubMedGoogle Scholar
  • 10 Sandrasegaran K, Lall C, Rajesh A, Maglinte DT. Distinguishing gelatin bioabsorbable sponge and postoperative abdominal abscess on CT. Am J Roentgenol 2005; 184 (02) 475-480
    CrossrefPubMedGoogle Scholar
  • 11 Pfizer. Gelfoam® absorbable gelatin powder. Accessed December 18, 2023 at: https://cdn.pfizer.com/pfizercom/products/uspi_gelfoam_plus.pdf
    Google Scholar
  • 12 Robert B, Yzet T, Regimbeau JM. Radiologic drainage of post-operative collections and abscesses. J Visc Surg 2013; 150 (03) S11-S18
    CrossrefPubMedGoogle Scholar
  • 13 Young S, Paulson EK, Mccann RL, Baker ME, Paulson EK. Appearance of oxidized cellulose (Surgicel) on postoperative CT scans: similarity to postoperative abscess. Am J Roentgenol 1993; 160 (02) 275-277
    CrossrefPubMedGoogle Scholar
  • 14 Melamed JW, Paulson EK, Kliewer MA. Sonographic appearance of oxidized cellulose (Surgicel): pitfall in the diagnosis of postoperative abscess. J Ultrasound Med 1995; 14 (01) 27-30
    CrossrefPubMedGoogle Scholar
  • 15 Arnold AC, Sodickson A. Postoperative Surgicel mimicking abscesses following cholecystectomy and liver biopsy. Emerg Radiol 2008; 15 (03) 183-185
    CrossrefPubMedGoogle Scholar
  • 16 Tefik T, Sanli O, Oktar T, Yucel OB, Ozluk Y, Kilicaslan I. Oxidized regenerated cellulose granuloma mimicking recurrent mass lesion after laparoscopic nephron sparing surgery. Int J Surg Case Rep 2012; 3 (06) 227-230
    CrossrefPubMedGoogle Scholar

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Zoom Image
Fig. 1 (A) Postoperative computed tomography (CT) axial sections on day 3 show a localized well-defined lesion with mottled air lucencies (arrowheads) near the proximal aspect of the graft in the aortocaval region and surrounds the suture (arrowhead with indent). (B) A follow-up CT done 12 days later showed a new perigraft collection, but the previously noted lesion with air pockets had completely resolved. The radiodense suture is shown with an arrowhead.
Zoom Image
Fig. 2 (A) Collection posterior to the urinary bladder containing irregular spongiform foci with mottled air lucencies (arrowheads). (B) Computed tomography (CT) done after 10 days shows a significant interval reduction in the size of both the collection and the spongiform foci within.
Zoom Image
Fig. 3 (A) Axial computed tomography (CT) section through the pelvis on the third postoperative day showed a lentiform well-defined low-density collection containing air foci (*) located within a hyperdense hematoma in the left side of the pelvis (arrowheads). (B) Repeat imaging demonstrates a persistent hematoma. However, the component containing air foci had almost completely resolved.
Zoom Image
Fig. 4 A 24-year-old female patient with postpartum fever. (A,C,D) Axial, coronal, and sagittal contrast-enhanced computed tomography (CT) images show a loculated low-density area with mottled air foci in a linear, folded pattern along the anterior aspect of the lower uterine segment (indented arrowheads), the location of the surgical wound on the uterus (B,D). There is generalized ascites (* in B) with smooth peritoneal enhancement.
Zoom Image
Fig. 5 A 39-year-old female patient who underwent subtotal hysterectomy for postpartum hemorrhage 7 years ago presented with a history of postcoital bleeding for 7 years and burning micturition for 3 years. (A) Axial computed tomography (CT) images show a thick-walled lesion with mottled air lucencies at the vaginal vault. (B) There was fistula with the posterior wall of the bladder (arrowhead). (C) A radiodense focus is seen in the bladder trigone region (indented arrowhead) and air pockets were seen within the bladder lumen (arrows in B,C). At surgery, a vaginal vault gossypiboma was found fistulizing into the bladder.
Zoom Image
Fig. 6 A 35-year-old male patient with a history of previous surgery presented with acute abdomen. (A) Coronal contrast-enhanced computed tomography ((CECT) image showed dilated small bowel loops with the transition zone in the right lower abdomen and the distal ileal loops collapsed. The small bowel proximal to the transition zone had mottled air lucencies (*) and few radiodense foci (arrowheads). (B) Thick slab reconstruction revealed a thin serpiginous radiodensity within the bowel lumen (arrow). (C) Supine abdominal radiograph showed a similar radiodensity in the right lower abdomen (arrow). These findings were consistent with intraluminal gossypiboma in the mid-ileum with small bowel obstruction.
Zoom Image
Fig. 7 Contrast-enhanced axial computed tomography (CT) images of an infected mature dermoid cyst show (A) collection with enhancing thick wall (arrowhead), (B) large air pockets (*) and air–fluid levels, (C) toothlike calcified focus (arrowhead), and (D) thick-walled parietal wall collections (arrowhead).
Zoom Image
Fig. 8 (A) Coronal and (B) axial contrast-enhanced computed tomography (CT) images of a patient with an obstructing sigmoid colon cancer show an irregular nodular bowel wall thickening in the sigmoid colon (arrowheads), dilated small bowel loops with mottled air lucencies (*) suggestive of “small bowel feces” sign. Note the fecal residue in the cecum also has mottled air lucencies (arrow in B).