J Arthropod-Borne Dis, June 2015, 9(1): 125–130 F Berenji et al.: A Case of Secondary … 125 Case Report A Case of Secondary Ophthalmomyiasis Caused by Chrysomya bezziana (Diptera: Calliphoridae) *Fariba Berenji, Bibi Razieh Hosseini-Farash, Narges Marvi-Moghadam Deptartment of Parasitology and Mycology, Faculty of Medicine, Mashhad University of Medical Sciences, Mashhad, Iran (Received 29 May 2013; accepted 20 Apr 2014) Abstract Myiasis is the invasion of vertebrates' tissue by the larvae of a fly of the order Diptera. The objective of this paper is to present a rare case of secondary myiasis of ocular infestation by Chrysomya bezziana. A 55-year-old female from Sar village of Mazandaran Province, northern Iran), referred to Khatam Al-Anbia Hospital of Mashhad with exten- sive destruction of left orbital cavity. Existence of larvae was the major complaint in recent months. Some live larvae were removed from her destructed left eye. Primary diagnosis was myiasis of left upper lid (LUL) and suspected recurrent Basal cell carcinoma (BCC). The laboratory diagnosis was done in parasitology lab of Imam Reza Hospital of Mashhad and collected larvae were identified and confirmed to be larvae of the C. bezziana (Diptera: Calliphoridae). It is a case report of secondary ophtalmiomyiasis due to C. bezziana of a patient lives in Mazandaran Province. Keywords: Myiasis, ophthalmomyiasis, Chrysomya bezziana Introduction Myiasis is the invasion of vertebrates' tis- sue by the larvae of a fly of the order Diptera. “Myiasis is broadly divided into ob- ligatory,facultative and accidental myiasis depending on the biology of the fly species causing the myiasis and its likely effect” (Janovy et al. 1996, Chan et al. 2005). The condition is further categorized on the tis- sues that are involved. There are two types of myiasis: Primary myiasis is caused by the biontophage larvae caused primary myiasis that feed on living tissue and secondary form is caused by necrobiontophage fly larvae that feed on necrotic tissue (Raposo et al. 2012). There are more than 160000 Diptera species. However few species cause ocular injuries (Borror et al. 1989). The larvae of certain flies can invade to orbital tissue [myiasis-orbital], external ocular structures [ophthalmomyiasis externa], internal ocular structures [ophthalmomyiasis interna], and the skin of the eyelid [myiasis-dermal]. Causes of myiasis of the eyelid include Cuterebra and Dermatobia hominis (Klintworth 2012). The C. bezziana female lays approxi- mately 150–200 eggs at a time in wounds and mucous membranes of a live mammal and will hatch after 24 hours. The larvae in- vade to the tissues of the host by sharp mouth-hooks and anchoring intersegmental spines (Klintworth 2012). The first stage of larva is similar to a worm with a white color and 1.5 mm length. The measures of second and third stages larvae are 4 to 9 and 18 mm, respectively. The worm like larva is formed from eleven segmented with the anterior spiracle on the second and posterior spiracle located on the last segment. There are also compact spurs surrounding each segment of the body (Walker 1994). After being embed- *Corresponding author: Dr Fariba Berenji, E-mail: fberenji@yahoo.com  http://jad.tums.ac.ir Published Online: July 16, 2014 J Arthropod-Borne Dis, June 2015, 9(1): 125–130 F Berenji et al.: A Case of Secondary … 126 ded in living tissue for 3–4 days the third instar larvae wriggle out of the tissues in search of a suitable substrate for pupation. However, some mature larvae die in the in- fested tissue. While feeding, only the poste- rior spiracle are visible (Cook and Zumla 2009). Larvae can invade the conjunctiva and ocular bulb, provoking conjunctivitis, corneal ulcer and destruction of the ocular bulb, eyelids and orbit, since it feeds on the surrounding tissues (Tsuda et al. 2007). The pupal stage is temperature dependent with warm weather favoring growth. Depending on the temperature, the pupal stage can last anywhere from 1 week to 2 months. The males become sexually mature after 24 hours of leaving their puparium (the hard- ened shell the pupae mature in), while fe- males take about 6–7 days to become fully sexually mature. If the weather is tropical (29 ˚C or 84.2 ˚F), the entire life cycle will last about 24 days, however, at cooler tem- peratures (below 22 ˚C or 71.6 ˚F), the life cycle can take 2–3 months to complete (Oie committee 2008). Case description A fifty five-year-old female from Sar village of Mazandaran Province, northern Iran, referred to Khatam Al- Anbia Hospital with extensive destruction of left orbital cavity. She had eye pains for 4 years and the chief complaint was existence of larvae lasting months. The patient had been visited by ophthalmologist and many larvae were seen in her destructed left eye (Fig. 1). Pri- mary diagnosis was myiasis of left upper lid (LUL) and suspected recurrent BCC (Basal cell carcinoma). The ophthalmologist referred her to the laboratory of parasitology of Imam Reza Hospital of Mashhad. Some live larvae were removed by parasitologist (Fig. 2). The collected larvae were evaluated and con- firmed to be larvae of the C. bezziana by di- agnosis of one pair of anterior spiracle larvae and with 4 to 6 lobes at the ends, located on the first segment, and one pair of posterior spiracles at the bottom of the third instar of the larvae (Fig. 3). The maggots placed on a dish of raw meat in a glass jar containing moist sand. The jar closed with cotton and incubated at room temperature. The maggots burrowed into the meat and stayed for some time. At last they leave meat to enter the sand in order to pupate. Then the jar examined periodically for the emergent flies (Fig. 4). Tissues from LUL and medial canthus and remaining of larvae were removed by sur- gery. The eye was patched. After patho- logical studies, revealed Basal cell carcinoma and this disease could provide an appropriate condition for larvae growth of C. bezziana and caused a secondary ophthalmomyiasis. Fig. 1. The patient with extensive destruction of left orbital cavity Fig. 2. Maggots of Chrysomya bezziana removed from the patient's eye http://jad.tums.ac.ir Published Online: July 16, 2014 J Arthropod-Borne Dis, June 2015, 9(1): 125–130 F Berenji et al.: A Case of Secondary … 127 Fig. 3. Larval spiracles of Chrysomya bezziana Fig. 4. Emergent flies from pupae Discussion Ophthalmomyias is accounts for <5% of human myiasis (Wilhelmus 1986) but the status of this disease is not clear in Iran. Immigration and traveling are two important reasons for increasing the imported cases (Langan et al. 2004). Some studies have been done on ophthalmomiyasis in our country that most known cases were caused by O. ovis and one by flesh fly (Janbakhsh et al. 1977, Razmjou et al. 2007, Yaghoubi and Heydari 2013). Dermatobia hominis and O. ovis (sheep botfly) which are endemic to tropical or subtropical areas are two major causes of ophthalmomyiasis in the world (Lagacé-Wiens et al. 2008). The first re- ported case of ophthalmomyiasis by O. ovis has been reported in 1977 (Janbakhsh et al. 1997). Many parts of Iran are located in sub- tropical area and people are in contact with sheep, goats and many other domestic ani- mals in rural regions. According to this in- formation, the number of infected cases are probably more than reported (Lagacé-Wiens et al. 2008). External ophthalmomyiasis is the most common form of ocular myasis which symp- toms are like conjunctivitis (Khataminia et al. 2011). In one study on 8 farmers with external ophthalmomyiasis in Fars Province of Iran, all the larvae from the bulbar con- junctiva were removed and the symptoms resolved as soon as removal action. The number of larvae obtained from each person were about 1 to 5 and all of them were iden- tified as O. ovis (Diptera: Oestridae) larvae (Masoodi et al. 2004). Ophthalmomyiasis interna occurs when larvae penetrate into the eye (Ramonas et al. 2006). Two cases of ophthalmomyiasis interna have been reported form Iran in a 70 years old woman with bilateral subretinal mi- gration of larvae and 12 years old boy with migration of blowfly larvae (Diptera: Calliphoridae) form anterior chamber to pos- terior chamber after 3 days (Farahvash et al. 1998, Sharifipour et al. 2008). This study described a case of secondry ophthalmomyiasis caused by C. bezziana. Chrysomya bezziana belongs to Calliphoridae family and suborder Brachycera (suborder Cyclorrhapha), also named as screw worm of the old world (Chemonges-Nielsen 2008). Human infestation is uncommon, but may occur with outbreaks in dogs, pigs and cattle in rural areas (Goddard 2003). Human myiasis infestation by C. bezziana has been reported from south Asia, Africa, Saudi Arabia, Indonesia Islands, Phillipines, Guinea and Persian Gulf of Iran and is well docu- mented in India (Lane and Crosskey 1993). Ophthalmomyiasis caused by C. bezziana is particularly damaging. There are two re- ported cases for orbit myiasis caused by C. http://jad.tums.ac.ir Published Online: July 16, 2014 J Arthropod-Borne Dis, June 2015, 9(1): 125–130 F Berenji et al.: A Case of Secondary … 128 bezziana in Iran. The first has described in Sina Hospital in a 90-year-old woman from Andimeshk with ocular rupturing and outpouring of hundreds of C. bezziana larvae and the second was in Imam Khomeini Hos- pital in Ahvaz .The patient was an 87-year- old woman with a severely necrotized left orbit and several live larvae of C. bezziana (Radmanesh et al. 2000, Khataminia et al. 2011). A pre-existing ocular lesion such as gonococcal conjunctivitis [gonorrhea] and periocular neoplastic ulcers, endophthalmitis may predispose to ophthalmomyiasis by at- tracting flies. In neglected patients, fly lar- vae may destroy orbital tissue and cause a marked inflammation and secondary bacte- rial infection. Certain fly larvae can pene- trate through the conjunctiva and sclera and cause internal ophthalmomyiasis of the para- sitic dipterous larvae. When this occurs, a single larva usually gains access into the eye. Most affected individuals are asympto- matic, but severe visual loss may occur (Klintworth 2012). In present case predis- posing factor was BCC. Chrysomya bezziana is an obligate ecto- parasite in the animals and afflicts humans especially in some conditions such as poor hygienic lifestyle, working in contaminated areas during the warm seasons (Soleimani Ahmadi et al. 2009). Infestation in humans and livestock are often observed in the wound, normal body orifices such as eye, ear, nose and mouth. The manifestations include pruritus, pain, inflammation, redness, eosinophilia, second- ary bacterial infections. It rarely results in death of the patient (Wall and Shearer 1997). In the present study, the patient lived in rural area of Mazandaran with poor sanitary con- ditions where there is a relationship between people and animals. Ophthalmomyiasis caused by C. bezziana is particularly damaging and a rare case of orbital myiasis due to C. bezziana has been documented (Klintworth 2012). Periorbital tissues that have been compromised by sur- gery, tumors, infections or ischemia may predispose towards myiasis since the flies feed on exudates, blood, secretions and de- composing tissue (Balasubramanya et al. 2003). In this study, the patient had none di- agnostic BCC which made a risk factor for internal ophthalmomyiasis. To our knowledge this is the third case of ophthalmomyiasis caused by C. bezziana that leads to a sever destruction. In all of cases the patients were elderly with under- lying disease, two with BCC and one with a type of skin cancer (Radmanesh et al. 2000, Khataminia et al. 2011). Conclusion Although human ophthalmomyiasis is a rare disease but it may be emerging and in- creasing. Besides the status of this disease is not clear in Iran but in this paper we report a rare case with ophthalmomyiasis due to C. bezziana which basal cell carcinoma could provide an appropriate condition for larvae growth of mentioned fly and caused a sec- ondary ophthalmomyiasis. It is considered that many metabolic diseases (diabetes mellitus) and cancers (ba- sal or squamous cell carcinoma), as well as poor hygiene can provide a suitable ground for myiasis because of delaying in wound healing in these diseases. Dermatologist and ophthalmologist must be alert about myiasis that can affect the patients with cancerous lesion. Acknowledgement The authors greatly acknowledge Mr. Majid Ganjbakhsh for his kind efforts. 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