Departments of 1Surgery, 2Haematology and 3Oncology, Hamad Medical Corporation, Doha, Qatar
*Corresponding Author’s e-mails: alismc2051@gmail.com and ali_2051@hotmail.com

ورم سرطاىن )كارسينويد( باألمعاء الوسطى يظهر كمشتبه أورام ثانوية مبحجر العني
�أمين عبد �حلفيظ، �صيد حممد على، �صلوى حممد �صيد�حمد، �أ�صما �حل�صن، نهلة حممد مو�صى �لنجار

abstract: Although metastasis of carcinoid tumours of the intestine is rare, it has been reported in several 
organs, mainly in the lungs, the liver and less commonly in the orbits. We report a 50-year-old male patient who 
presented at Hamad General Hospital, Doha, Qatar, in 2016 with central abdominal pain, distention, nausea and 
vomiting for the previous four days. The patient had unilateral right-sided exophthalmos for two years prior to 
presentation. Following an abdominal computed tomography (CT) scan and an ultrasound guided biopsy, the 
patient was diagnosed with extensive multi-focal metastatic carcinoid tumour of the small bowel and mesentery; 
histopathology confirmed the diagnosis. Subsequently, the patient underwent a laparotomy and small bowel 
resection and was administered somatostatin therapy. One week postoperatively, the patient developed an acute 
increase in his right eye exophthalmos. CT, magnetic resonance imaging and scintigraphy scans revealed an 
orbital metastatic lesion, which probably originated from the previously diagnosed carcinoid tumour. The orbital 
metastasis was treated with somatostatin therapy and the patient was lost to follow-up when he left the country.

Keywords: Carcinoid Tumor; Orbital Neoplasm; Metastasis; Exophthalmos; Scintigraphy; Case Report; Qatar.

امللخ�ص: بالرغم من ندرة �الأور�م �لثانوية �لتي تنتج من �الأور�م �ل�رصطانية )كار�صينويد( �لتي ت�صيب �الأمعاء �لو�صطى �إال �ن هذه �الأور�م 
قد تتو�جد فى �لعديد من �ع�صاء �جل�صم، وب�صورة رئي�صية فى �لرئتني و �لكبد لكنها �قل �صيوعا فى حمجر �لعني. هذ� تقرير عن مري�س عمره 
50 عام ح�رص �ىل م�صت�صفى حمد �لعام، فى �لدوحة،قطر، فى عام 2016 يعانى من �الم و �إنتفاخ بالبطن،غثيان و قئ ملدة �أربعة �يام. عانى 
�أ�صعة  باإ�صتخد�م  موجهة  عينة  �أخذ  و  �لبطن  على  مقطعية  �أ�صعة  �جر�ء  بعد  �صنتني.  ملدة  �ليمنى  بالعني  �حادى  جحوظ  من  �أي�صا  �ملري�س 
�ملوجات �لفوق �صوتية ،مت �أكت�صاف ورم �رصطانى )كار�صينويد( متعدد �لبوؤر و ممتد على نطاق و��صع، فى �الأمعاء�لدقيقة و �أغ�صية �مل�صاريقا 
عملية  �إجر�ء  مت  ذلك  بعد  للعينة.  �لن�صيجي  �لت�رصيح  بنتيجة  �لت�صخي�س  تاأكد  قد  و  بالكبد،  ثانوية  باأور�م  م�صطحب  و  �المعاء  تغلف  �لتي 
�إ�صتك�صاف جر�حى للبطن و �إ�صتئ�صال جزء من �الأمعاء �لدقيقة. تطورت حالة �ملري�س بعد �لعملية باأ�صبوع و ��صبح يعانى من زيادة حادة 
فى جحوظ �لعني �ليمنى .�ثبتت �الأ�صعة �ملقطعية على �لعني و �أ�صعة �لرنني �ملغنطي�صي على �لعني و �أ�صعة �مل�صح �لذري باملو�د �مل�صعة �ن 
�ملري�س يعانى من �أور�م ثانوية مبحجر �لعني �ليمنى ناجتة من �لورم �ل�رصطانى )كار�صينويد( �ملذكور �صابقا. مت معاجلة �الأور�م �لثانوية 

مبحجر �لعني مبادة �ل�صوماتو�صتاتني و لكن �ملري�س مل ي�صتكمل �ملتابعة �الإكلينيكية النه ترك �لدولة.
قطر. حالة؛  تقرير  �لذري؛  �مل�صح  �أ�صعة  �لعني؛  جحوظ  ثانوية؛  �أور�م  �لعني؛  مبحجر  ورم  �رصطانى؛  ورم  املفتاحية:  الكلمات 

Mid-Gut Carcinoid Tumour Presenting as 
Suspected Orbital Metastasis

Ayman A. Hafiz,1 *Syed M. Ali,1 Salwa M. Sidahmed,1 Asma Al-Hassan,2,3 Nahla M. M. El-Naggar3

Sultan Qaboos University Med J, August 2019, Vol. 19, Iss. 3, pp. e253–256, Epub. 5 Nov 19
Submitted 2 Apr 19
Revision Req. 30 May 19; Revision Recd. 23 Jun 19
Accepted 18 Jul 19

Carcinoid tumours are neuroendocrine tumours (NET) originating mainly from primitive stem cells of the gut, yet they can 
occur in the lungs, thymus, mediastinum, bronchus, 
liver, pancreas, ovaries, prostate and kidneys.1–3 While 
originally thought to be of a low grade, metastases are 
reported in 50–75% of patients.1 The most common 
locations for gastrointestinal (GI) carcinoids to 
metastasise are the lymph nodes, liver and bone.2–4

Ocular metastasis is a rare finding. Carcinoid 
tumours that have orbital metastases can be difficult 
to diagnose and differentiate from primary eye malig- 
nancies or metastatic lesions from other malignancies 
such as lymphoma, breast or GI tract adenocarcinomas 
and malignant melanoma.5 

Detection of such lesions can be obtained either by 
general diagnostic imaging, like computed tomography 

(CT) and magnetic resonance imaging (MRI), or the 
more specific diethylene triamine penta-acetic acid- 
(DTPA)-labelled octreotide analogue scintigraphy and 
histopathological examination.1 Prognosis is generally 
favourable with treatment options including surgery, 
external beam radiation, chemotherapy and octreotide 
and somatostatin analogues. This case report describes 
an orbital metastasis that originated from a carcinoid 
tumour of the small bowel and mesentery. 

Case report

A 50-year-old male patient presented at Hamad 
General Hospital, Doha, Qatar, in 2016 with a history 
of central abdominal pain, distention, nausea and 
vomiting for the previous four days. He had no history 
of flushing, diarrhoea or shortness of breath. The 

This work is licensed under a Creative Commons Attribution-NoDerivatives 4.0 International License.

https://doi.org/10.18295/squmj.2019.19.03.013

case report

https://creativecommons.org/licenses/by-nd/4.0/


Mid-Gut Carcinoid Tumour Presenting as Suspected Orbital Metastasis

e254 | SQU Medical Journal, August 2019, Volume 19, Issue 3

a metastatic well-differentiated NET with possible GI 
tract primary involvement. The mitotic count was <2/10 
cells per high power field and the Ki-67 index was 1%. 
The 5-hydroxyindoleacetic acid levels in a 24-hour 
urine sample were 250 µmol (normal level: <47 
µmol/24-hour urine sample).

Subsequently, the patient was diagnosed with 
metastatic carcinoid tumour of the small bowel and 
mesentery. The case was discussed at a GI cancer 
multidisciplinary team meeting and it was decided 
that the tumour would be debulked followed by 
somatostatin therapy with or without chemotherapy.

The patient underwent an exploratory laparotomy 
which revealed multiple lesions of various sizes 
involving the jejunum and proximal ileum; the small 
bowel mesentery had two large lesions encasing the 
superior mesenteric artery and a large nodule in the 
greater omentum. In addition, multiple small nodules 
were seen on the small bowel serosa and parietal 
peritoneum and palpable bi-lobar liver lesions [Figure 
2]. Segmental small bowel resection from proximal 
jejunum to mid-ileum was carried out with avoidance 
of debulking the mesenteric and retroperitoneal 
lesions to maintain blood supply to the bowels.

Histopathology of the small intestine showed 
multifocal well-differentiated NET/carcinoid tumour 
histological grade 1 and a mitotic count of <2/10 cells 
per high power field invading through the muscle 
into the serosa with lymphovascular and perineural 
invasion. The mesenteric/radial margin was positive for 

patient had normal bowel movements and no history 
of jaundice, fatigue or rectal bleeding. He had unilateral 
right-sided exophthalmos for two years. Although the 
patient sought medical advice for the exophthalmos, 
he did not receive a diagnosis or treatment. There 
was neither decline of vision nor history of headaches 
suggestive of raised intracranial pressure. 

The patient was mildly dehydrated, yet not 
distressed, and had normal vital signs. No cervical/ 
axillary/inguinal lymphadenopathy was detected. The 
abdomen was not distended; however, mild tenderness 
in the periumbilical region without guarding and a 
palpable mass in the epigastric region was observed. 
The mass was firm, partially mobile and measured 
10 × 10 cm. 

The patient’s white cell count was 14 × 103/µL 
(normal range: 4–7 × 103 cells/µL), his haemoglobin level 
was 15.1 g/dL (normal range: 12–16 g/dL) and all other 
biochemical tests were normal. Abdominal CT scan 
showed an ill-defined enhancing soft tissue mass in 
the left upper quadrant of the abdomen arising from 
the jejunal loops with an exophytic mesenteric soft 
tissue component causing obstruction of the jejunum 
along with significant retroperitoneal and mesenteric 
lymphadenopathy and multiple hyper-vascular liver 
lesions [Figure 1]. No metastatic lesions were seen in 
the thorax.

A metastatic intestinal lesion was suspected as the 
patient had incomplete/partial small bowel obstruction.  
An ultrasound guided biopsy from the liver lesion showed 

 
Figure 1: Computed tomography scan of a 50-year-old male patient showing (A) a mass in the mesentery of the small 
intestine (red arrow) and (B) a lesion in the liver (white arrow).

 
Figure 2: Operative photographs of an exploratory laparotomy of a 50-year-old male patient showing (A) a nodule in the 
mesentery of the small intestine and (B) multiple nodules in the greater omentum.



Ayman A. Hafiz, Syed M. Ali, Salwa M. Sidahmed, Asma Al-Hassan and Nahla M. M. El-Naggar

Case Report | e255

presence of the tumour. The pathological staging was 
pT4 and immunohistochemical stains were positive 
for synaptophysin and chromogranin, whereas Ki-67 
was at 2% positivity in the tumour cells. The mesentery 
towards the tumour site was positive for the presence 
of the carcinoma. The omentum showed multifocal 
metastatic NET/carcinoid tumour presence with the 
largest nodule measuring 3.5 cm.

The patient had an uneventful postoperative 
course, however, on the seventh postoperative day he 
developed an acute increase in the right eye exoph- 
thalmos with deterioration of vision and severe conjunc- 
tival and periorbital oedema. Treatment was initiated 
with tobramycin and dexamethasone, lubricant eye 
drops and oral prednisone.

An orbital CT scan showed a lobular mass in the 
inferior aspect of the right orbit measuring 3.1 × 2.6 
cm; it was not separate from the inferior rectus muscle. 
An MRI scan showed a heterogeneous intense post-
contrast, central breakdown and bright T1/T2 areas 
likely representing a haemorrhage within the mass. 
The lesion was causing proptosis of the right globe 
and displacement of the optic nerve and superior 
oblique muscle superiorly [Figure 3]. The acute ocular 
symptoms were attributed to a haemorrhage inside the 
orbital tumour, which was suspected to be a metastasis 
from the carcinoid tumour. The patient’s symptoms 
improved significantly with topical eye drops and 
steroid treatment.

DTPA-labelled octreotide analogue scintigraphy 
showed somatostatin-rich neuroendocrine metastasis 
from the previously diagnosed carcinoid tumour. 
These lesions were seen in the liver, central abdomen, 
chest and right orbit [Figure 4]. The patient was treated 
in the department of oncology with octreotide and 
was lost to follow-up as he left the country.

Discussion

Orbital metastasis is rarely seen and can be associated 
with lymphoma, carcinoma of the breast or GI tract, 
melanoma or other secondary orbital tumours.4,6,7 
Carcinoid tumour is a rare entity and the prevalence of 
orbital and uveal involvement is approximately 2.2%.1 

Metastatic spread of carcinoid tumours results in 
a poor 5-year survival rate of <50% compared to 70% 
survival without metastasis.1,3 In a case series of 13 
patients with orbital metastasis, the reported 5-year 
survival rate was 72% and the 10-year survival rate 
was 38%.8 

Ocular metastasis can be suspected when the 
patient has a previous history of carcinoid tumour, evid- 
ence of systemic metastasis and/or clinical symptoms of 
carcinoid syndrome. The most common presenting 
symptoms include diplopia (48%), pain (42%) and 
visual loss (30%), while the most frequent clinical signs 
include proptosis (63%), strabismus (62%) and visual 
loss (41%).9

While ultrasound and CT scans can help with the 
diagnosis, MRI scans are considered the gold standard 
for diagnosing orbital metastasis.1 Furthermore, accu- 
rate localisation of primary and/or metastatic carcinoid 
tumours is obtained using scintigraphy with I-123 
metaiodobenzylguanidine and 111In-DTPA pente- 
treotide.1,10 Imaging with these modalities provides a 
sensitivity of 72–87% whereas specificity may vary.11,12 
However, histopathology should be used to confirm the 
diagnosis. Although a biopsy of the orbital lesion was 
considered gold standard for the definitive diagnosis 
of the lesion, Das et al. recently refuted this modality 
and suggested that in the presence of classic radiologic 
findings, history of mid-gut carcinoid tumour and 
other metastasis, treatment can be started without a 

 
Figure 3: Magnetic resonance imaging scan of the head of 
a 50-year-old male patient showing a mass in the right orbit 
(arrow).

 
Figure 4: Diethylenetriamine penta-acetic acid-labelled 
octreotide analogue scintigraphy of a 50-year-old male 
patient showing right orbital uptake (arrow).



Mid-Gut Carcinoid Tumour Presenting as Suspected Orbital Metastasis

e256 | SQU Medical Journal, August 2019, Volume 19, Issue 3

3. Modlin IM, Sandor A. An analysis of 8305 cases of carcinoid 
tumors. Cancer 1997; 79:813–29. https://doi.org/10.1002/(si 
ci)1097-0142(19970215)79:4<813::aid-cncr19>3.0.co;2-2.

4. Harbour JW, De Potter P, Shields CL, Shields JA. Uveal meta- 
stasis from carcinoid tumor. Clinical observations in nine cases. 
Ophthalmology 1994; 101:1084–90. https://doi.org/10.1016/s0 
161-6420(94)38030-4.

5. Peixoto RDA, Lim HJ, Cheung WY. Neuroendocrine tumor 
metastatic to the orbit treated with radiotherapy. World J 
Gastrointest Oncol 2013; 5:177–80. https://doi.org/10.4251/
wjgo.v5.i8.177.

6. Dobson R, Vinjamuri S, Hsuan J, Banks M, Terlizzo M, 
Weishmann H, et al. Treatment of orbital metastases from a 
primary midgut neuroendocrine tumor with peptide-receptor 
radiolabeled therapy using 177 lutetium-DOTATATE. J Clin 
Oncol 2013; 31:e272–5. https://doi.org/10.1200/JCO.2012.45.8612.

7. Shinder R, Al-Zubidi N, Esmaeli B. Survey of orbital tumors at 
a comprehensive cancer center in the United States. Head Neck 
2011; 33:610–14. https://doi.org/10.1002/hed.21498.

8. Mehta JS, Abou-Rayyah Y, Rose GE. Orbital carcinoid metastases. 
Ophthalmology 2006; 113:466–72. https://doi.org/10.1016/j.
ophtha.2005.10.051.

9. Valenzuela AA, Archibald CW, Fleming B, Ong L, O’Donnell B, 
Crompton JJ, et al. Orbital metastasis: Clinical features, manage- 
ment and outcome. Orbit 2009; 28:153–9. https://doi.org/10.10 
80/01676830902897470.

10. Meunier B, Le Cloirec J, Dazord L, Leveque J, Lesimple T, Tas P, 
et al. Per operative localization of a carcinoid tumour of the 
breast using indium-111 pentetreotide and a nuclear surgical 
probe. Eur J Nucl Med 1995; 22:281–3. https://doi.org/10.1007/
BF01081525.

11. Carnaille B, Nocaudie M, Pattou F, Huglo D, Deveaux M, 
Marchandise X, et al. Scintiscans and carcinoid tumors. 
Surgery 1994; 116:1118–21. 

12. Hoefnagel CA. Metaiodobenzylguanidine and somatostatin 
in oncology: Role in the management of neural crest tumours. 
Eur J Nucl Med 1994; 21:561–81. https://doi.org/10.1007/BF 
00173045.

13. Das S, Pineda G, Goff L, Sobel R, Berlin J, Fisher G. The eye of 
the beholder: Orbital metastases from midgut neuroendocrine 
tumors, a two institution experience. Cancer Imaging 2018; 
18:47. https://doi.org/10.1186/s40644-018-0181-5.

14. Bardenstein DS, Char DH, Jones C, Crawford JB, Miller TR, 
Riekhof FT. Metastatic ciliary body carcinoid tumor. Arch 
Ophthalmol 1990; 108:1590–4. https://doi.org/10.1001/archo 
pht.1990.01070130092038.

15. Rush JA, Waller RR, Campbell RJ. Orbital carcinoid tumor 
metastatic from the colon. Am J Ophthalmol 1980; 89:636–40. 
https://doi.org/10.1016/0002-9394(80)90279-2. 

16. Fan JT, Ortiz RG, Buettner H. Regression of choroidal metastases 
from a bronchial carcinoid tumor after chemotherapy with 
cisplatin and etoposide. Am J Ophthalmol 1994; 117:111–13. 
https://doi.org/10.1016/s0002-9394(14)73026-0.

17. Gragoudas ES, Carroll JM. Multiple choroidal metastasis from 
bronchial carcinoid treated with photocoagulation and proton 
beam irradiation. Am J Ophthalmol 1979; 87:299–304. https://
doi.org/10.1016/0002-9394(79)90067-9.

18. Makis W, McCann K, McEwan AJ. Orbital metastases of 
neuroendocrine tumors treated with 177Lu-DOTATATE PRRT 
or 131I-MIBG therapies. Clin Nuc Med 2016; 41:137–41. 
https://doi.org/10.1097/RLU.0000000000001008.

biopsy.9,13 Orbital biopsy was not done in the current 
patient.

Radiation and/or chemotherapy are the mainstay 
of treatment, although surgical excision has also 
been described in the largest series by Mehta et al. 
of 13 patients with orbital metastasis.8 External beam 
radiation is a useful and non-invasive treatment modality 
that has been used in selected cases, particularly for 
single and symptomatic lesions.14,15

Somatostatin analogues (i.e. radio-labelled octreo- 
tide) have been widely used to locate primary and 
metastatic carcinoid tumours and identify individuals 
who may be eligible for targeted therapy. These radio- 
pharmaceuticals can be used for treating disseminated 
lesions in various locations especially orbital lesions, 
as in the current case, and the dose can be repeated 
if required. Fan et al. reported that chemotherapy can 
result in regression of choroidal metastasis, while 
Gragoudas and Carroll mentioned complete response 
of choroidal metastasis with xenon arc photocoagulation 
from a bronchial carcinoid tumour.16,17 In addition, 
marked symptomatic improvement and stabilisation 
of the disease process can be achieved by combining 
chemotherapy with external beam radiation.1 Recently, 
the Food and Drug Administration approved peptide 
radionucleotide receptor therapy (PRRT) using 
177lutentium (Lu)-DOTATATE as systemic cytoreduc- 
tive and cytostatic treatment modality for mid-gut 
carcinoid tumours. It involves 177Lu, a beta-emitting 
radionuclide, as the targeted radiation by conjugating 
with somatostatin receptor analogue. Many reports 
have documented the symptom relief and stable 
radiographic findings after 177Lu-DOTATATE PRRT 
treatment, particularly in orbital metastasis.6,13,18

Conclusion

Orbital metastasis originating from a carcinoid tumour 
is rare yet may compromise patients’ quality of life. 
Therefore, early detection and treatment are needed to 
prevent incapacitating visual loss. A multidisciplinary 
team approach is required for optimal treatment and 
patient outcome.

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