Chapter 22 – Ophthalmology in a Field Hospital




Abstract




The role of the ophthalmologist in the field hospital is important and irreplaceable; ocular injuries during a disaster can result in considerable disability and often require the care of an ophthalmologic surgeon. The ophthalmology field is a high technology area with the need for expensive equipment that are not available in the field hospital. The working scenario for the ophthalmologist in the delegation is very different than the one existing in a hospital in developed countries; therefore, first and foremost, a change in mental attitude is needed.


Understanding the characteristics of ocular injuries during various types of disasters in different geographical areas is important to be able to prepare for them properly, both mentally and practically.


Another dominant factor is time: the nature of ophthalmology patient’s varies significantly as time passes.


While in the first days after the disaster most ocular injuries are related to disaster, as time passes most of the referral patients are nondisaster related injuries such as chronic ocular problems of the local population.


This chapter covers the preparation needed for treating ocular injuries during disasters and the ophthalmology layout in the field hospital scenario.





Chapter 22 Ophthalmology in a Field Hospital



Erez Tsumi



Introduction


There are many events that require a field hospital: some are natural disasters while some are human made. Although ocular injuries are not the most common injuries in these incidents, acute eye injuries during a disaster can result in considerable disability and often require the care of an ophthalmologic surgeon. In some areas in the world, especially in developing countries, blindness resulting from untreated eye injury can cause serious economic burden and even the loss of life. This is why the first objective in the management of eye injuries is to save sight and to prevent the progression of conditions that could produce further damage. Field hospitals are deployed most often in countries with low-level medical infrastructure.


This chapter covers the preparation for treating ocular injuries in the field hospital during disasters. The role and the importance of the ophthalmologist during disasters is to provide services for both victims and relief workers during the end of the emergency phase and ongoing rehabilitation. Specific ocular patterns of injury will be described according to the type of the disaster, its geographical area, and the time elapsed from the disaster.


The ophthalmology field is a high-technology area with the need for expensive equipment and therefore is not fully established in developing countries, causing a significant gap between the needs and the treatment capabilities. This gap intensifies during a disaster and dictates the ophthalmologist’s work environment and functional capabilities in the field hospital, which are very different to those existing in a hospital in developed countries. For example, there is an absence of diagnostic tools for ocular injuries such as CT or MRI scanners, which are basic tools in modern ophthalmology, as well as more advanced diagnostic tools, such as the fluorescein angiography, optical coherence tomography, and so on.


While in other medical disciplines, basic equipment in the field hospital is sufficient, ocular trauma care relies largely on the OR. The ophthalmology instruments are very advanced and expensive, and include microscope, phaco and vitrectomy machines, and laser. The field hospital is not prepared in terms of equipment and staff, which often dictates “damage-control” treatment in penetrating ocular injuries. After the initial treatment, patients with severe injuries should be transferred to a regular medical center for definitive treatment. This difference between the ocular field and the other medical fields is even greater with the passage of the first wave of trauma victims and the arrival of the patients with chronic ocular problems. The field-hospital resources are limited in those cases, especially for elective eye surgery requiring advanced equipment. This sharp transition between the ophthalmologist’s everyday work at his or her hospital and the work at the field hospital is dramatic and therefore requires, first and foremost, a change in mental attitude. This limited framework, beyond the need for a change in mindset, also raises significant ethical questions. However, even with these limitations, the goal of the field hospital remains the provision of optimal care possible under these circumstances.


Understanding the characteristics of ocular injuries during various types of disasters in different geographical areas is important to be able to prepare for them properly, both mentally and practically[1,2]. The type and the location of the disaster dictate the needs of the affected population and the medical mission preparation[35].



Epidemiology


The field hospital is usually ready for work a few days after a disaster. As time passes following the disaster, the nature of the referrals to the field hospital changes. Initially, most of the referrals are trauma or disaster related, but later in the deployment the ocular problems are chronic conditions such as cataract, pterygium, dry eye, and refractive errors.


The epidemiology of ocular injuries during mass-casualty events differs significantly in terms of extent, type, and severity of the injuries, and depends on the nature of the event and its location. There are differences between the injuries sustained during the various types of disasters, as well as those made by humans. It is vital to understand the characteristics of ocular injuries during various types of disasters in different geographic areas to be able to prepare for them properly[6,7]. The type and the location of the disaster dictate the needs of the affected population and the medical mission’s preparation[810].


The eyes account for only 0.1% of the total body surface area, yet during an explosion as many as 10% of survivors may suffer eye trauma[11]. On September 11, 2001 – the attacks on the World Trade Center – the incidence rate for ocular injury was higher than any other type of injury, with a rate of 59.7 injuries per 100 worker-years[12]. During some types of disasters, ocular injuries may be among the most commonly encountered morbidities [610,1315].


During three different disasters, the Israeli field hospitals saw a similar rate of ocular injuries: 3.96% at the Haiti earthquake, 4.98% at the Philippines typhoon, and 5.58% at the Nepal earthquake and avalanche (Figure 22.1)[16]. The ocular injuries during disasters can be divided into two main categories: disaster related and nondisaster related, since the ophthalmologist is replacing the basic infrastructures that have been destroyed as a result of the disaster.





Figure 22.1 Ocular injuries in disasters


The ocular injuries that are typical to disasters are foreign bodies, eyelid laceration, blunt trauma, and penetrating eye injuries[1721]. The nature of the disaster and its location dictate the type of the acute ocular injuries treated in the field hospitals. There are more ocular foreign bodies and intraocular foreign bodies in urban areas compared to rural areas. Moreover, the kind of natural disaster affects the nature of the injuries: in earthquakes, face and eyelid laceration and ocular blunt trauma are usually the most common due to the collapse of buildings[22]. Typhoons, due to the strong winds, usually cause injuries characterized by ocular foreign bodies, penetrating eye injuries, and blunt trauma (Table 22.1)[23].




Table 22.1 Chief disaster-related ocular injuries
































































Diagnosis Haiti earthquake 2010 Philippines typhoon 2013 Nepal Earthquake and avalanche 2015
Face/scalp laceration 40% 0 4.8%
Eyelid/eyebrow laceration 13.3% 7.1% 0
Loose sutures/need for suture removal 13.3% 0 0
Orbital fractures 0 7.1% 9.5%
Exposure keratitis 0 14.3% 19%
Foreign body 3.3% 42.9% 28.6%
Subconjunctival hemorrhage 6.6% 7.1% 19%
Preterm retinopathy of prematurity 3.3% 0 0
Blunt trauma 20% 21.4% 19%
Penetrating ocular trauma 0 0 0

The geographical location of the disaster affects the type of chronic ocular problems the field hospital will deal with in the second phase of the nondisaster-related injuries. In the tropical maritime climate with high ultraviolet light exposure (the pterygium belt), cataract and pterygium are the most frequent presenting pathologies[2426]. In underserved regions suffering from poverty and poor sanitary conditions, acute and chronic conjunctivitis are very common causes for patients to turn to the field hospitals[27].


Although one must suspect ocular injuries when a patient suffers from facial injuries, sometimes the presentation of these conditions can be more subtle, and it is often difficult to diagnose and appropriately triage these ocular conditions during the acute phase[2830].



Preparing for Disasters


Proper preparation of the field hospital to treat ocular injuries requires meticulous planning. The field hospital’s success depends on its ability to cope with the field demand. The lack of advanced eye surgical equipment imposes a very conservative management policy for ocular injuries and a damage-control approach. Moreover, field-hospital resources, which are restricted due to transport limitations, may cause a depletion of supplies. This makes prioritization and triage the cornerstones on which the field hospital is built. Precise and accurate preparation, and selecting the right medical personnel and equipment suitable to the exact disaster guarantee the mission’s success.



Personnel


During disasters, the number and disciplines of the medical staff in the delegation are limited. However, the inclusion of an ophthalmologist is essential if significant ocular injuries are to be treated, as no other specialist is capable of treating these injuries. Ophthalmologists will be found in type 2-plus and type 3 emergency medical teams (EMTs). In lower-level facilities, ocular care will be provided by other physicians. During a disaster, the field hospital provides not only urgent care but also everyday medical care for the population. Considering the high prevalence of ocular injuries, the emergency response teams must include an ophthalmologist. Although the number of ophthalmologists needed will be determined according to the nature and the extent of the specific disaster, usually one ophthalmologist will meet the field hospital’s needs. There is a need for an ophthalmologist who is a surgeon with a preference for an oculoplastic surgeon who can treat orbital and ocular trauma, and facial and eyelid laceration. Ideally, the ophthalmologist will have previous experience in treating ocular injuries in a field hospital during disasters. If possible, it is advisable to include an ophthalmologist with no previous field hospital exposure to enlarge the pool of experienced personnel. There is also a need for close cooperation between the various medical disciplines such as an otolaryngologist for combined treatment of orbital fractures and a plastic surgeon when there is a need for wound coverage.


Paramedical personnel are very important and can assist in testing visual acuity, applying dressings, keeping the medical records, and serving as an interpreter if possible.


Other available personnel who should be taken into consideration if available are the local medical paramedical personnel, who can assist in providing medical help, and in mediating with the local population and the local authorities.



Equipment


A list of medical equipment for the ocular clinic must be created as part of the requirements of the field hospital. The list should include necessary basic equipment and options for additional equipment depending on the type of disaster. Because of weight restrictions and the amount of equipment required for the field hospital, the list of required equipment must be carefully planned and adapted to the type of disaster and the expected injuries. Furthermore, the ophthalmologist’s assumption must be that there will be no extra equipment or reinforcements and therefore the use of the equipment should be planned with careful thought and restraint. The priority is equipment to treat urgent ocular injuries that are disaster related such as foreign bodies, eyelid lacerations, and penetrating injuries. The second priority is equipment for treatment of chronic and nondisaster-related conditions such as dry eye and eye infections. The amount of equipment brought will dictate the extent of help and care the ophthalmologist can provide during the disaster. One major limitation of the field hospital is the inability to perform complex eye surgery, in part because of the lack of equipment needed for those operations.


Recommended ophthalmologist equipment




  • Examination room:




    1. 1. Direct ophthalmoscope



    2. 2. Indirect ophthalmoscope



    3. 3. Diagnostic lenses: 78 D or 90 D lens for slit lamp, 20 D lens for indirect ophthalmoscope



    4. 4. Slit lamp with Goldmann applanation tonometer (and spare light bulbs)



    5. 5. Rechargeable, cordless slit-lamp microscope



    6. 6. Snellen near and distance vision charts: full sized and pocket sized



    7. 7. Tonometer: Tono-Pen tonometer and tip cover protection



    8. 8. Fluorescein sodium ophthalmic strips: thin strips of fluorescein sodium 0.6 mg



    9. 9. Eye plastic shields



    10. 10. Contact lenses



    11. 11. Eye pads



    12. 12. Plastic/Transpore tape




  • Operating theater:




    1. 1. Ophthalmic loupes



    2. 2. Speculum



    3. 3. Lacrimal cannula



    4. 4. Micro-needle holder



    5. 5. Forceps



    6. 6. Scissors: corneal scissors



    7. 7. Punctum dilator



    8. 8. Scalpel



    9. 9. Needle: 25 g



    10. 10. Sutures: coated VICRYL suture: 7–0, 6–0, 5–0. 10/0 nylon double armed



    11. 11. Desmarres eyelid retractor



    12. 12. Slit blades (keratome)



    13. 13. Retrobulbar needle



    14. 14. Surgical eye sponges



    15. 15. 5 ml disposable syringes luer lock; 2 ml disposable syringes luer lock



    16. 16. Eye drape




  • Ocular medication:




    1. 1. Acute treatment: disaster related




      1. a. Eye drops and ointments




        1. i. Antibiotics: eye drops gentamicin sulfate 0.3%, eye drops ofloxacin 0.3%, ophthalmic ointment chloramphenicol 5%



        2. ii. Steroids: eye drops dexamethasone sodium phosphate 0.1%, ophthalmic ointment polymyxin B sulfate 6000 U/ml



        3. iii. Mydriatics: eye drops tropicamide 0.5%



        4. iv. Cycloplegics: eye drops cyclopentolate HCl 1%, eye drops phenylephrine HCl 10%



        5. v. Antiglaucomatous: eye drops brimonidine tartrate 0.15%, eye drops pilocarpine HCl 2%, eye drops latanoprost 50 μg/ml, eye drops dorzolamide HCl 2%, eye drops timolol maleate 0.5%



        6. vi. Tear substitute: eye drops hydroxypropyl methylcellulose 0.3%





    2. 2. Ophthalmic betadine 5%



    3. 3. Anesthesia




      1. a. Localin eye drops (eye drops benoxinate HCl 0.4%)



      2. b. Lidocaine



      3. c. Marcaine




    4. 4. Uramox: blister tablets acetazolamide 250 mg




  • Chronic treatment: disaster nonrelated:




    1. 1. Eye drops diclofenac sodium 0.1%




      1. a. Antiherpetic



      2. b. Acyclovir 3%




    2. 2. Vernal conjunctivitis




      1. a. Topical antihistamines



      2. b. Cyclosporine A




    3. 3. Chronic blepharitis treatment




      1. a. Blephamide



      2. b. Tea tree oil



      3. c. Oral tetracycline



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Sep 4, 2020 | Posted by in EMERGENCY MEDICINE | Comments Off on Chapter 22 – Ophthalmology in a Field Hospital

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