|Year : 2020 | Volume
| Issue : 11 | Page : 2368-2371
Corneal transplantation and eye banking practices during COVID-19-related lockdown period in India from a network of tertiary eye care centers
Arvind Roy1, Sujata Das2, Sunita Chaurasia3, Merle Fernandes4, Somasheila Murthy3
1 Cornea and Anterior Segment Services, L V Prasad Eye Institute, Vijayawada, Andhra Pradesh, India
2 Cornea and Anterior Segment Services, L V Prasad Eye Institute, Bhubaneswar, Odisha, India
3 Cornea and Anterior Segment Services, L V Prasad Eye Institute, Hyderabad, Telangana, India
4 Cornea and Anterior Segment Services, L V Prasad Eye Institute, Vishakapatnam, Andhra Pradesh, India
|Date of Submission||10-Jul-2020|
|Date of Acceptance||24-Sep-2020|
|Date of Web Publication||26-Oct-2020|
Dr. Sunita Chaurasia
Cornea and Anterior Segment, LV Prasad Eye Institute, Hyderabad - 500 034, Telangana
Source of Support: None, Conflict of Interest: None
Purpose: The purpose of this study was to discuss the guidelines and modification of practices with respect to corneal transplantation and eye banking during the COVID-19 pandemic lockdown period and beyond, at a network of tertiary care centers in India. Methods: Descriptive study of the challenges faced in eye banking during the lockdown, and practices adopted to overcome the critical aspects in the clinical care of patients who presented with emergency corneal diseases requiring keratoplasty. Results: Complete lockdown orders from the Indian government, as a strategy to control the Coronavirus pandemic, resulted in drastic reduction of all types of elective corneal transplants and eye banking activities from March 24, 2020 to May 31, 2020. The sudden cessation of eye banking resulted in an acute demand and supply imbalance of fresh donor corneas for transplants during this time. Our network of eye banks addressed this issue by adopting glycerol preservation of donor corneas, which were subsequently utilized for tectonic penetrating keratoplasty. The donor cornea retrieval was resumed in a strategized manner 3 weeks prior to the date of exit of the lockdown, with modified guidelines on donor suitability, screening, retrieval, processing, and harvesting from various sources. A triage of keratoplasty priority was formulated to tide over the post lockdown shortage of corneas. We performed 31 therapeutic keratoplasties during the nationwide lockdown among our network of tertiary eye care centers. Conclusion: The study highlights the approach and strategies to manage and tide over an unprecedented crisis situation faced by corneal surgeons in general and, specifically, the eye banking community.
Keywords: COVID-19, donor cornea, eyebanking, keratoplasty
|How to cite this article:|
Roy A, Das S, Chaurasia S, Fernandes M, Murthy S. Corneal transplantation and eye banking practices during COVID-19-related lockdown period in India from a network of tertiary eye care centers. Indian J Ophthalmol 2020;68:2368-71
|How to cite this URL:|
Roy A, Das S, Chaurasia S, Fernandes M, Murthy S. Corneal transplantation and eye banking practices during COVID-19-related lockdown period in India from a network of tertiary eye care centers. Indian J Ophthalmol [serial online] 2020 [cited 2020 Nov 30];68:2368-71. Available from: https://www.ijo.in/text.asp?2020/68/11/2368/299049
The COVID-19 pandemic brought about dramatic changes in each and every aspect of human life. The very basis of human existence and nature that emphasized on “being social” was suddenly replaced with “social distancing” without a warning and preparedness for the same. In India, the pandemic crisis was managed by phased periods of lockdowns that began on March 24 and extended up to May 31.
Every medical specialty had to deal with several unprecedented problems and adopt strategies to provide continuity of patient care in a situation where they had no prior experience. The cornea specialty and eye banking fraternity had its own unique set of challenges that required several modifications and updated guidelines in the practice patterns from what existed in the pre COVID-19 era.
The purpose of this study is to highlight the management of emergency corneal transplants and newer eye banking protocols that were adopted during the lockdown period and beyond in India.
| Methods|| |
We assessed the standard operating procedures (SOP) for eye banking activities of our network of four eye banks formulated prior to lock down exit in India to address safety of eye bank personnel and donor corneas procured for transplantation. A review of all keratoplasty surgeries for emergency indications that were performed at the network of four tertiary centers of LV Prasad Eye Institute during the lockdown period was reviewed. The data of the emergency corneal procedures and donor cornea retrieval during this time period was collected from the institute's electronic medical records (EMR system: EyeSmart). The data on donor corneas collected and utilized was retrieved from the individual eye banks. The utilization of donor corneas for emergency keratoplasty at the eye bank network in the year 2019 during the same time period was collected for a comparison.
The eye banking practices and SOP's, clinical care and management protocols of corneal conditions that were followed routinely, prior to COVID-19 times, were similar across the LVP network and are described briefly as below:
A. Routine eye banking practices at the network of eye banks: The eye banks are affiliated and located within the premises of the tertiary ophthalmology care center at the four cities in India (Hyderabad, Bhubaneswar, Vishakhapatnam, and Vijayawada). The four eye banks harvest cornea predominantly (~ 70%) through Hospital Cornea Retrieval Program (HCRP) that are operational at the local general hospitals in the cities. A smaller percentage (~30%) of donor corneas are retrieved through voluntary donations and from affiliated cornea collection centers in the neighboring areas around the four cities. The donor cornea is stored in either MaCarey–Kaufman (MK) medium (3–4 days) or Cornisol preservation medium (10–14 days).
There is no waiting list for keratoplasty patients at any of the tertiary eye care centers. Hence, the network of eye banks also provides for community distribution of corneas nationwide through a central Cornea Distribution System.
B. Emergency keratoplasty management guidelines: The major indication of emergency corneal transplants in the network is due to microbial keratitis. Medical management with specific antibiotics based on culture and sensitivity testing is the first line of management for microbial keratitis. Those cases of microbial keratitis that present in advanced stages threatening or involving the limbus, refractory to medical treatment, and/or develop complications such as large corneal perforations or melts not amenable to cyanoacrylate tissue adhesive application are managed by emergency therapeutic/tectonic keratoplasty.
| Results|| |
A. Modifications in eye banking practices
a. Immediate drastic reduction of donor retrieval
After the nationwide complete lockdown that was announced from March 24, 2020, there was absence of all modes of private and public transport facility. The donor cornea retrieval at the local HCRP hospitals in the cities and from neighboring areas, as well as cornea collection from affiliated centers and voluntary eye donation services, came to an abrupt halt. Simultaneously, there was a reduction in the number of patients that were referred for management of elective and emergency corneal conditions resulting in a sharp drop in the need for donor corneas.
b. Shift to glycerol preservation
The two available modes of donor cornea storage, MK medium and Cornisol, allowed for short- and intermediate-term storage, respectively; hence, there was a felt need for long-term preservation of donor corneas that would serve for emergency keratoplasty. As the lockdown period had uncertainties for tissue retrieval and utilization, the donor corneas reaching near expiry in the Cornisol corneal storage media were transferred to Glycerol for preservation and stored at -80°C for tectonic keratoplasty. Glycerol used for preservation was readily available from the pharmacies [Glycerol (medicinal use, oral route), Arihant traders, Hyderabad, India]. Glycerol was first autoclaved, and subsequently, donor cornea was transferred in the eye bank under a biological laminar airflow unit. The corneas processed in glycerol were then stored at -80°C.
c. Cessation of precut tissues for posterior lamellar surgeries
Preparation of precut donor lenticules for Descemet's stripping automated endothelial keratoplasty under sterile conditions for distribution to corneal surgeons is an independent facility in our network eye banks. This facility was shut down completely as elective surgeries stopped at the tertiary centers, local community hospitals, and surgical centers.
d. Resumption of donor cornea retrieval guidelines
Donor cornea retrieval was initiated in staggered manner in the last 3 weeks of the lockdown (on May 11) after careful strategic planning and revision of protocols and SOPs. The safety protocols are enumerated in [Table 1], and the detailed account of eye banking operations is provided in Annexure 1 (Supplementary file)[Additional file 1]. The donor cornea retrieval was restricted to only to non-COVID-19 hospitals (those not involved in the testing and management of COVID-19 patients). The voluntary eye donation home calls were minimized due to uncertainties pertaining to the exact cause of death and concerns of social distancing in this situation. Data was shared among the network eye bank personnel as to make available relevant information on tissue availability and utilization. Opinion was sought from eye bank medical directors with regard to queries related to donor screening whenever needed. A total of 30 donor corneas from 15 donors were retrieved and utilized during this time. One donor cornea collected before the lockdown period and stored in glycerol was also utilized.
B. Cornea clinical services strategic planning measures
a. Patient triage for keratoplasty and alternatives to emergency keratoplasty
A general working guideline was formulated on classification of corneal conditions that required priority management based on the clinical condition and individual need of the patient [Table 2]. During the lockdown phase, the surgical decision of therapeutic/tectonic keratoplasty was made based on the patient's ability to review at local eye clinics or the network hospitals after keratoplasty, associated systemic comorbidities along with the corneal condition. Those with systemic comorbidities who expressed their inability to follow up after keratoplasty even at local hospitals, either due to lack of facility or other reasons as assessed during their clinic visit, were managed with alternative procedures of maintaining globe integrity such as amniotic membrane grafting, tenoplasty, tarsorrhaphy, and Gunderson's flap. A plan to perform keratoplasty at a later date was explained at the time of management with these interim measures.
The therapeutic keratoplasties could be performed without a delay, as glycerol preserved corneas were used on the occasions when donor corneas stored either in MK or Cornisol medium were unavailable. It is likely that there may have been a preference for a more conservative approach to the management of microbial keratitis, as offering therapeutic keratoplasty would obviously need a more frequent follow-up visits. As travel restrictions existed in these times, it is possible that therapeutic keratoplasty may have been advised only when absolutely felt essential in the course of management.
b. Surgical interventions and outcomes
A total of 31 penetrating keratoplasties (PKPs) were performed in the LVPEI network during the lockdown period (16 – Hyderabad, 4 – Vishakhapatnam, 2 – Bhubaneshwar, 9 – Vijaywada). Of these, 7 were in emergency and 24 were in urgent category. Twelve surgeries were performed using glycerol preserved corneas. Majority (n = 30) of the keratoplasty procedures were performed for microbial keratitis [16 were fungal, 4 were bacterial (gram positive cocci-2, gram negative bacillus-2) and 10 where microorganism could not be ascertained]; and one was a sterile corneal melt following chemical injury. Mean age of patients that underwent keratoplasty was 46.9 years, range (8–72) years. There were 23 males and 8 females who underwent PKP. The globe integrity was maintained in all patients except one. Three eyes had clear grafts at the last follow-up period of 3 months, 4 grafts (all with glycerol preserved corneas) had persistent epithelial defects that needed tarsorrhaphy augmentation, 23 eyes had graft edema, and 1 eye (Therapeutic PKP performed for an infected and partially extruded keratoprosthesis) eventually developed phthisis. During this time, no donor corneas were sent to corneal surgeons outside the network.
In the year 2019, from March 24 to May 31, 2019, 1766 corneal tissues were collected and utilized 1001 for transplants; of which 158 were therapeutic PKP. Out of 1001 corneas, 442 transplants including 94 therapeutic transplants were performed within the LVPEI network and the remaining 348 tissues were sent to cornea surgeons outside the network.
| Discussion|| |
In the most recent available global survey of cornea transplantation and eye banking, India was in the “almost sufficient” category with second highest numbers of cornea collection and utilization after the US. Even so, India with its population of 1.3 billion requires to target for 100,000 transplants, with 200,000 donor collection (since average utilization rate is 50%) annually to eliminate the burden of corneal blindness in the country.
Nevertheless, it was obvious from the keratoplasty trends over the years from Eye Bank Association of India that the growth of eye banking in India was showing positive trends until the nation was hit by unprecedented times as a result of the COVID-19 pandemic. The impact of this pandemic led to a disruption and cessation of the eye banking activities. It is anticipated that there could be a nationwide downward spiraling in eye banking activities for an uncertain duration that is likely to create an imbalance of demand versus supply of corneas in the times to come. With very little knowledge about the novel coronavirus, COVID-19, the donor cornea retrieval and screening for transplants necessitate dynamic considerations in eye banking protocols and processes. Further, as most types of keratoplasty are vision restoring/enhancing surgical procedures, a priority stratification of patients with respect to their visual and social needs is required in times of shortage of corneas. Additionally, eye banks have to evolve alternative modes of donor cornea preservation that will allow for continuous supply of corneas at least for emergency reasons. Management options for alternatives to keratoplasty and reassessment of existing preferred practice patterns are the need of the hour.
Our study illustrates the challenges and navigator strategies with respect to eye banking and management of emergent corneal conditions requiring keratoplasty during the coronavirus related nationwide lockdown.
It is well known that the radical changes in eye banking practice patterns during the Coronavirus outbreak have occurred globally and likely to continue evolving in future. The main reasons for these are: first, the potential risk of acquiring the infection during cornea retrieval, and second, the potential risk of Coronavirus transmission to the recipient from a positive donor. As of now, International tissue banks have not reported a transmission of corona virus due to tissue, cell transplantation, or blood transfusion., Although so far, no evidence exists on the transmission of coronavirus via corneal transplantation, the lack of evidence is not an assurance of safety of usage of corneas from these donors. A liberal use of povidone iodine 5% is likely to be a reliable method of decontamination of the ocular surface [Annexure 1].
Eye banking operations across the globe have undergone several modifications on account of the Coronavirus pandemic. Some of the priorities include safety of eye bank personnel, updating SOP, transitioning to normalcy while addressing financial stability, and focusing on newer techniques of long-term corneal preservation. Medical directors of eye banks are urged to dynamically assess organizational challenges and review operational capability of individual eye banks taking into account current realities. Our strategies for resumption of donor cornea retrieval led to changes in practice pattern of all functions of the eye bank that has been elucidated in [Table 1]. Screening criteria were reinforced to rule out COVID-19 infection in the donor or close contacts by a detailed history. The usage of Personal Protective Equipment (PPE) was made mandatory during cornea retrieval. Similarly, protocols were laid down for handling movement of tissue to the eye bank and while processing the tissue within the eye bank. One aspect that was considered while formulating the guidelines was testing of the donors for COVID-19 infection either using RT-PCR methods from naso/oropharyngeal swabs or antibody testing from the donor's blood sample collected during retrieval. As per the Eye Bank Association of America (EBAA) guidelines, RT-PCR has 2–22% false negative rate and testing in postmortem samples is not recommended. Few studies mention on keeping some amount of blood sample for future testing. There is a lack of clarity on the interpretation of COVID-19 antibody testing methods in the deceased donor's blood sample. Also, various logistics would be involved in this additional step while recovering cornea. Hence, presently, our guidelines lay emphasis on stringent donor screening criteria based on clinical history rather than on testing the donors.
During the period of nationwide lockdown, our eye banking activities reduced to 3% compared to a similar time period from the previous year. In addition, we had a threefold reduction of total number of therapeutic keratoplasty procedures. Of these, 38.7% (n = 12/31) were performed using glycerol preserved corneas. With variable lockdown exit plans, it would be recommended to scale-up eye bank activities gradually over the months based on how the prevailing situation unfold.
The downscaling of cornea collection during this time generated interest in long-term preservation methods to improve the flexibility of donor cornea availability for keratoplasty. There are several techniques of long-term and very long-term donor corneal preservation. Organ culture is a long-term preservation method that allows for storage of donor corneas with endothelial viability for 4–6 weeks. However, the organ culture methods are technology intensive and need human resources trained in this technique. Due to lack of experience with organ culture techniques of preservation in Indian eye banks, this strategy could not be adopted during this time. The other methods of long-term preservation such as gamma irradiation, glycerol preservation, freeze drying, and lyophilization allow for corneal preservation for those keratoplasty, where endothelial health is not a particular concern.,, The glycerol preservation of corneas using cryopreservation/ deep freezing techniques is a simple strategy of very long-term (2 years) cornea preservation for emergency keratoplasty. This technique was adopted in the eye banks to allow for preservation of corneas that were reaching near expiry in short-term and intermediate corneal preservation medium. Although there are several intraoperative and postoperative challenges in keratoplasty using glycerol preserved corneas, we found that until the last available follow-up, the globe integrity was well maintained after therapeutic keratoplasty in these patients.
Several methods have been recommended to maintain the integrity of the globe when corneal tissues are unavailable. These include cyanoacrylate glue for sealing corneal perforations. Tissue adhesives provide tectonic support without impeding the access of drugs to the underlying corneal stroma. Tissue adhesives assisted in healing of 63% cases of keratitis and provided tectonic support in an additional 12% cases while awaiting corneal transplantation. A study on comparison of fibrin with cyanoacrylate glue found no difference between the two modalities on resolution though fibrin was noted to have adherence of 2 weeks with faster rate of epithelialization and less vascularization compared to cyanoacrylate. Conjunctival flaps have been described in medical literature since more than half a century. Gunderson reported conjunctival flaps to successfully aid resolution of microbial keratitis with minimal vascularization while allowing partial visualization that facilitates monitoring of infection. There have been several modifications of this technique with advancement of the tenons capsule for additional tectonic support, amniotic membrane, and bipedicle graft for enhanced vascular supply.,, The limitations for conjunctival flaps include lack of adequate tectonic support in larger perforations, vascularization of the cornea, and reduced chances of graft survival for keratoplasty performed later on.
As the world battles this pandemic and eye banks work to resume the state of near normalcy that existed earlier, there is a need for corneal surgeons to maintaining a priority list for keratoplasty, which was in practice a few decades ago. Prioritization of distribution may be divided into two broad categories: emergency and routine elective surgeries. This categorization may change geographically depending on the volume of patients seeking care [Table 2].
Looking towards the future, adoption of various long-term donor cornea preservation techniques may be important. Research ideas may be implemented and tested for long-term preservation of the endothelial cell viability.
| Conclusion|| |
Our study highlights the approach and strategies to manage and tide over an unprecedented crisis faced by corneal surgeons in general and, specifically, the eye banking community because of COVID-19-related lockdown. Newer insights about COVID-19 and its management are likely to lead to formulation and implementation of newer practice guidelines and protocols in the future.
The authors acknowledge the eye bank team members for their help in preparing the manuscript.
Financial support and sponsorship
Hyderabad Eye Research Foundation.
Conflicts of interest
There are no conflicts of interest.
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