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A New Experience in the Turkish Health System in Response to COVID-19

Published online by Cambridge University Press:  11 September 2023

Şafak Kıran Open the ORCID record for Şafak Kıran [Opens in a new window]  and
Sedat Bostan Open the ORCID record for Sedat Bostan [Opens in a new window]
Şafak Kıran*
Affiliation:
Department of Health Management, Karadeniz Technical University, Trabzon, Türkiye
Sedat Bostan
Affiliation:
Department of Health Management, Karadeniz Technical University, Trabzon, Türkiye
*
Corresponding author: Şafak Kıran; Email: [email protected]
Rights & Permissions [Opens in a new window]

Abstract

Objective:

A substantial amount of work addressing strategies on how to respond to the coronavirus disease (COVID-19) crisis already exists. However, there is simply not enough evidence to support a systematic and all-encompassing approach. This study aims to systematically review and present the roadmap of Turkiye’s response to COVID-19.

Methods:

This study is based on a thematic content analysis of official policy documents to present the roadmap in Turkiye’s fight against COVID-19. The analysis included 46 press releases accessed from the Ministry of Health’s website. The coding structure was created by the researchers based on the literature. Documents were analyzed by dividing them into 3 periods: the panic period, the controlled normalization period, and the normalization period. Each document was sub-coded under the main themes of “concerns” and “strategies” and interpreted by comparing them with each other.

Results:

The study results show that different categories and coding structures were formed between periods. Some categories that emerged under the theme of concerns were “vaccine concerns” and “social concerns.” Similarly, some categories that appeared under the theme of strategies were “vaccine strategies,” “monitoring and surveillance strategies,” and “intervention strategies.”

Conclusion:

The results provide policy-makers with an appropriate conceptual framework to deal with the pandemic crisis that may be encountered in the future.

Keywords

COVID-19document analysispandemic crisisresponse
Type
Original Research
Information
Disaster Medicine and Public Health Preparedness , Volume 17 , 2023 , e483
Copyright
© The Author(s), 2023. Published by Cambridge University Press on behalf of Society for Disaster Medicine and Public Health

The World Health Organization (WHO) declared coronavirus disease (COVID-19) a public health emergency of international concern on January 30, 2020, after publishing its first awareness report on pneumonia on December 31, 2019. Eventually, it was described as a pandemic on March 11, 2020. Reference Kavaliunas, Ocaya and Mumper1,2 This pandemic has caused countries to take a different path from the way they have dealt with public health problems before. Since then, many countries have enforced strategies such as social distancing, staying at home, travel restrictions, and limiting social life to stop the spread of the virus, reduce infection rates, and “flatten the curve” by preventing hospital congestion. Reference Warner and Zhang3

Two main strategies are highlighted to take action to reduce or prevent the destructive effects of the pandemic. These are mitigation and suppression. The first focuses on slowing the spread of the pandemic, whereas the second emphasizes taking strict action to stop the pandemic’s expansion. Reference Kavaliunas, Ocaya and Mumper1 For example, Sweden has followed a policy of fighting the pandemic based mainly on soft measures. Monitoring, close monitoring, and the close relationship between society and government constitutes the main lines of Sweden’s fight against the pandemic. Reference Kavaliunas, Ocaya and Mumper1 Unlike Sweden, China has put forward stricter methods of fighting the pandemic. The level of quarantine, isolation, and restrictions to suppress the pandemic was high, overall. Reference Chen, Yang and Yang4 In France, strict practices came to the fore with closures and quarantines. In 2011, France prepared its pandemic preparedness plan based on the WHO’s pandemic influenza risk management guideline. This plan formed the mainstay of the fight against the pandemic. Reference Ghanchi5 Turkiye, like most countries, resorted to strict measures such as quarantine, isolation, and restriction in the fight against the pandemic. In 2019, it prepared its own National Pandemic Influenza Preparedness Plan based on the guidelines created by the WHO and the European Centre for Disease Prevention and Control (ECDC). Just before the first COVID-19 case was reported, it established the Coronavirus Scientific Committee, which serves as an advisor for active policy-making and implementation. Recently, many studies reveal how countries are coping with the pandemic. However, there is a paucity of evidence on the systematic and comprehensive aspect of combating the pandemic. This study is based on a systematic review to present the roadmap of Turkiye’s fight against COVID-19 in its general framework and to trace the footprints of the campaign through the press releases of the Coronavirus Science Board, which was established on January 10, 2020, within the Ministry of Health.

The first COVID-19 case in Turkiye was announced by the Minister of Health on March 11, 2020. Reference Budak and Korkmaz6 Since the first case was reported, the Turkish Government has endeavored to use resources to their maximum capacity and develop coping strategies. In addition, The National Pandemic Influenza Preparedness Plan, constituted by the Ministry of Health in 2019, served as the main framework of the fight against COVID-19. 7

Early COVID-19 decisions and actions in Turkiye often applied to January, February, March, April, and May 2020. For instance, a COVID-19 guide was created in January to compile data about the illness from a single source. Restrictions on land and air travel for countries like China, Iran, Italy, South Korea, and Iraq were placed in February. Recreational and social activities were restricted in March, and more countries were subject to travel restrictions. In April, curfews for particular age groups were implemented in various provinces, and the entrances and exits to 31 cities shut down. Central exams rescheduled for May. Reference Budak and Korkmaz6

Throughout the COVID-19 process, the Presidency of the Republic of Turkiye and many public and voluntary social service organizations played a crucial role in policy-making. Reference Cansever8Reference Turan and Hamza Çelikyay10 However, the Coronavirus Science Board has stepped forth among policy committees and has been one of the main actors directing policies to fight against the pandemic. Reference Cansever8,Reference Türkoğlu and Yılmaz11

The Coronavirus Science Board was established as an advisory committee with the participation of academician medical scientists working in fields such as infection, microbiology, virology, internal diseases, intensive care, and pulmonary diseases. 12 The number of members, which consisted of 26 scientists at the beginning, 13 increased to 31, 12 then to 38 in the following processes. 14 Also, every decision taken by the board is advisory. The board primarily reports its recommendations to the Ministry of Health, and the enforcement authority of the decisions rests with the Ministry of Health. In addition, recommendations and decisions taken by the board so far have been marked by the government and put into practice. Reference Güreşçi15 For instance, a speech to the public happened 20 days after the first case, where the president emphasized that they enforced the decisions 1 by 1 in line with the recommendations of the Coronavirus Science Board. 16 Again, in the meeting held toward the end of the pandemic, the president stated that the board was the biggest supporter of pandemic management by displaying an exemplary existence worldwide. 17 On the other hand, the Ministry of Interior has sent an additional circular on COVID-19 precautions to 81 provincial governors in line with the Recommendation of the Coronavirus Science Board and the instruction of the president. 18 Also, in the statement made by the Ministry of Interior, it was reported that the basic procedures and principles regarding the controlled normalization process, which entered into force on March 1, 2021, were determined in harmony with the recommendations of the Coronavirus Science Board. 19 In addition, the measures taken by the Ministry of Interior on many issues such as mask use, New Year’s events, travel and curfew restrictions, educational activities, quarantine, and crowded events were based on the recommendations of the Coronavirus Science Board. Reference Kurulu20 Therefore, the recommendations and decisions of the Science Board have been guiding policy-makers in the fight against COVID-19 and contributing greatly to the formation of policies.

The Coronavirus Science Board held meetings during the pandemic and made press releases afterward. They made their first press release on July 22, 2020, and have continued to hold meetings and made statements systematically since that date. The press releases included suggestions on issues of general concern and strategies to respond to the virus. Reference Duyuruları21

Methods

This study was carried out with a document analysis, and press releases of the Coronavirus Science Board were examined. Reviewing policy documents allows us to rebuild, maintain, and change our understanding of social reality and struggle. Reference Patton22 Recently, the document analysis method has been used frequently in research on health policies. Reference Baum23Reference Rosella, Wilson and Crowcroft25

Document Analysis

Document analysis is a qualitative analysis method used to rigorously and systematically analyze the content of written documents. Like other methods used in qualitative research, a document analysis requires examining and interpreting data to make sense of them, building an understanding of the topic, and developing empirical knowledge. Reference Kıral26

Documents are classified in various ways. Corbetta (2003) classified them as personal and institutional documents. Reference Corbetta and Patrick27 On the other hand, Dalglish et al. (2020) broadly classified documents as official documents, practice documents, legal documents, work documents, scientific work documents, media and communication documents, and other documents. Reference Dalglish, Khalid and McMahon28 The press releases of the Coronavirus Science Board examined in this study are considered official health policy documents and were reviewed according to the 4-stage approach proposed by Merriam (2018). Reference Merriam and Turan29 These stages are: (1) finding appropriate documents (policy selection), (2) checking the originality of documents, (3) establishing a systematic coding and cataloging, and (4) performing a data analysis (content analysis). Reference Merriam and Turan29,Reference Sak, Şahin Sak, Şendil and Nas30

Policy Selection and Checking the Originality

This study is based on the press releases on the “Statement on the Coronavirus Science Board Meeting” in the press releases tab of the website of the Ministry of Health. The first press release was made on July 22, 2020, and the last statement was made on March 3, 2022. Because the last statement was made outside the dates covered by this study, the study limits cover the dates July 22, 2020, and February 17, 2022. Until now, there have been 46 press releases in total. In addition, all documents included in the study are accessible to everyone on the relevant website. Reference Duyuruları21 Moreover, the originality of the selected documents was verified by 4 expert researchers from different computers by logging in from the same link. There was no change in the document selection after this stage.

The Coding Systematic

All documents were first carefully pre-assessed and read by the researchers. After the pre-assessment process, the documents were divided into 3 periods based on the development of the pandemic process and the contents of the science board statements: the panic period (until vaccination), the controlled normalization period (post-vaccine, until the Omicron variant), and the normalization period (post-Omicron variant).

Each document was sub-coded under the main themes of “concerns” and “strategies” and interpreted by comparing them with each other. While developing the coding structure, it was utilized from the literature. Reference Chen, Yang and Yang4,Reference Ghanchi5,Reference Abdi31Reference Zhang, Wang and Chang41

Table 1 shows the coding framework to identify the concerns on the agenda of the science board meeting and the proposed coping strategies. While “concerns” are defined as texts describing the possibility of negative consequences, “strategies” are texts that show which tools will be used effectively to manage the struggle process. As shown in Table 1, subcategories were developed under the themes of “concerns” and “strategies,” and sub-codes under each of these categories were developed according to 3 different periods. This strategy aims to provide an empirical basis for what concerns Turkiye has experienced in the fight against COVID-19 and what strategy-based policies are being addressed against these concerns.

Table 1. Coding structure

Data Analysis (Content Analysis)

The documents were divided into themes, categories, and codes using the content analysis method. Content analysis is the process of organizing the information about the primary questions of the research into categories. Reference Bowen42 This process requires a careful and more focused rereading and reviewing of data. Reference Kalogirou, Dahlke, Davidson and Yamamoto43 In this study, documents were read multiple times to ensure consistency in themes, categories, and coding.

The first coding was done between February 2022 and April 2022 by the principal researcher according to the predetermined theme, category, and coding structure. Other researchers have cross-coded using the same strategy to evaluate the results. Problems that arose during the coding process were discussed and resolved by the research team members.

Results

In this section, the categories and codes under the themes of “concerns” and “strategies” are presented by comparing the differences between the panic period, controlled normalization period, and normalization period.

Concerns in the Fight Against COVID-19

The category and coding structure of the “concerns” theme is shown in Table 2.

Table 2. “Concerns” category and coding structure

The Panic Period

Concerns about the panic period are grouped under 4 categories. The most reported concerns are case concerns, such as new patients, loss of life, and incidence of cases in risk groups, and social concerns, such as compliance with measures and transportation mobility. Some sample expressions of the concerns in this period are as follows:

However, in recent months, we are witnessing significant increases in the number of cases and deaths, with a similar course to the whole world. (November 16, 2020)

We hope to see the results of our citizens’ more meticulous compliance with the restrictive measures we have implemented in the last few weeks. (December 17, 2020)

Watching matches in crowds similar to the ones in stadiums can facilitate transmission and increase the spread rate of the disease. (July 22, 2020)

Detailed planning is carried out, including the identification and prioritization of risky groups, the reorganization of our healthcare personnel, who spend all their energy under a heavy patient load, in the vaccination campaign, and logistics management. (December 2, 2020)

The Controlled Normalization Period

The vaccination is started at the beginning of the controlled normalization period. The most reported concerns are vaccine concerns such as “opposition,” “procrastination behavior,” and “hesitancy.” Additionally, unlike the panic period, 3 different categories emerged and were coded as “information concerns,” “drug concerns,” and “mental concerns.” In this period, it was noteworthy that concerns such as “opposition” and “hesitancy” were emphasized together with concerns about information. Here are some examples of expressions of concern during this period:

There is a global supply shortage for the vaccine and a year’s weariness for the measure. I believe we will get through this together, hand in hand. (March 10, 2021)

Someone comes out and says that a 50 million deal was made with China, not 100 million. I have stated the agreements with China many times and in all detail. Apparently, they started a smear campaign based on only the first part of the agreement with China. (May 5, 2021)

I would like to address our citizens who are not against vaccination but hesitate to be vaccinated; If you hesitate and hold back, we’ll be missing one, and each shortfall will delay us in reaching our goal of social immunity. (June 30, 2021)

The Normalization Period

The normalization period was the period in which concerns were expressed less than in other periods. In this period, concerns were grouped under 4 categories. Due to the Omicron variant losing its effect over time, a separate category emerged called “alleviation of concerns” in the normalization period. Some example statements of this period’s concerns are as follows:

Besides its easy transmission, no negative situation has been reported regarding its ability to make patients sick. In this respect, there is no unsettling situation for the Omicron variant. (December 15, 2021)

No one should hesitate to say out loud that we can safely use our Turkovac vaccine. (January 12, 2022)

The increase in the number of cases may turn into a high number of inpatients, even if the hospitalization rate is low. This is the worst scenario we don’t want to see. (January 12, 2022)

Strategies in the Fight Against COVID-19

Under the “strategies” theme, each category and coding is presented by comparing the differences between the periods. The category and coding structure is shown in Table 3.

Table 3. “Strategies” category and coding structure

The Panic Period

Five categories emerged under the theme of “strategies” in the panic period. The most emphasized strategies are “monitoring and surveillance strategies” and “intervention strategies.” Some of the examples of statements about strategies for this period are as follows:

With the filiation application in Turkiye, detected cases, as well as their contacts, are screened, and those who have symptoms are tested. (July 22, 2020)

Today, many countries have started to reapply restrictions on social movements, including lockdown measures. And it was decided to recommend the implementation of concrete measures to prevent the spread of the disease. (November 16, 2020)

The Controlled Normalization Period

In the controlled normalization period, 5 categories emerged under the theme of “strategies.” Due to the application of the vaccine in this period, more emphasis was placed on “vaccine strategies.” Within “vaccine strategies,” there are strategies such as “vaccination priority setting,” “increasing vaccine capacities,” “vaccine effectiveness research,” “innovative vaccine development and production studies,” and “transfer of vaccine technologies.” Some example statements of strategies for this period are as follows:

Following our healthcare workers, the vaccinations of our citizens living in nursing homes and nursing homes for the disabled and the elderly have been completed. This group, for which we have the highest responsibility to protect, was first vaccinated. Citizens aged 90 and over 85 were vaccinated gradually at their homes. In addition, if there were citizens over the age of 65 living in the same household as the citizens we vaccinated at their homes due to their advanced age, their vaccinations were also carried out at there. (January 27, 2021)

As of March 1, we have passed into the controlled and gradual normalization period, which we call “on-the-spot decision”. Not only the Ministry of Health but also our state and people are fighting the pandemic together with all its elements. (March 10, 2021)

The normalization period

In the normalization period, strategies were aimed at complete normalization, as the concrete evidence increased for the effectiveness of vaccines and confidence in the vaccine. In this period, “vaccine strategies,” “monitoring and surveillance strategies,” and, unlike in other periods, strategies for “mitigating interventions” were emphasized. Thanks to the introduction of the domestic vaccine TURKOVAC and the decrease in foreign dependency on the vaccine, 2 basic strategies regarding the vaccine were emphasized. These are “domestic vaccine emergency use approval” and “domestic vaccine dissemination.” Some example statements of strategies for this period are as follows:

Mask use, compliance with hygiene rules, and full compliance with ambient ventilation rules are required in our schools. Face-to-face education will continue in our schools. (January 5, 2022)

Our vaccine, Turkovac, has been distributed to all provinces, and its distribution to the districts has begun. Two weeks later, the vaccine will be distributed to family physicians. Also, the use of our domestic vaccine is recommended at the highest level for all our citizens. (February 17, 2022)

Discussion

This policy analysis aims to systematically examine the official statements of the Coronavirus Science Board to reveal the general framework of Turkiye’s roadmap in the fight against the pandemic and to trace the footsteps of the conflict. The analysis results show that Turkiye’s fight against COVID-19 consists of 3 periods.

The National Pandemic Influenza Preparedness Plan, prepared by the Ministry of Health in 2019 before COVID-19 in Turkiye, formed the main framework of the fight against COVID-19. 7 Also, before the first case was seen, the Coronavirus Science Board, established under the Ministry of Health on January 10, 2020, became the first task force to act as an advisory board in the fight against the pandemic. Reference Cansever8,Reference Türkoğlu and Yılmaz11 Similar committees have been established in various countries, like Italy Reference Grasselli, Pesenti and Cecconi44 and Singapore. Reference Lee, Chiew and Khong35

In this study, the coding structure for concerns was generally related to vaccination, cases, social life, and the health system. Strategies, on the other side, involve vaccine strategies, monitoring and surveillance strategies, intervention strategies, referral strategies, and institutional strategies. The WHO has created a strategic preparedness and response plan to COVID-19 for countries in 2020 and 2021. The COVID-19 response plan is divided into 10 fundamental pillars in 3 broad groups. These pillars are infodemic management, risk communication and community engagement, surveillance, contact tracing and case study, travel, trade and points of entry, laboratories and diagnostics, infection prevention and control, clinic management, maintenance of primary health systems, coordination and planning, operational support and logistics, and accelerated research and innovation. 40

The strategies coded in this study generally correspond to the ones put forward by the WHO. For instance, in the operational support and logistics pillar, the primary focus of the Coronavirus Science Board is to work closely with countries at the regional level to understand their detailed needs and contexts and adapt technical and operational support, accordingly. Other results show that Turkiye closely follows global developments as part of its monitoring and surveillance strategies and carries out studies on international vaccine agreements and the transfer of vaccine technologies within the scope of vaccine strategies. Similar strategy examples are apparent in various countries—such as, in China, social distance, staying at home, Reference Chen, Yang and Yang4 technological infrastructure that will provide access to reliable information, Reference Zhang, Wang and Chang41 and case tracking and guidance Reference Ruan, Wen and Zeng38 ; in Italy, the establishment of a monitoring and surveillance center, Reference Onder, Rezza and Brusaferro36 and case tracking and isolation Reference Carenzo, Costantini and Greco45 ; in Iran, inter-agency collaborations, Reference Seddighi46 online information sharing and referral, social distancing, and staying at home Reference Raeisi, Tabrizi and Gouya37 ; and, in Japan, widespread testing Reference Shirato, Nao and Katano47 and travel restrictions. Reference Nishiura, Kobayashi and Yang48

Limitations

To demonstrate how a nation is responding to the COVID-19 outbreak, we only included the decisions of the Coronavirus Science Board in this analysis. Examining reports, publications, and written and visual official records will enable a more detailed examination. In addition, the COVID-19 pandemic is still ongoing. This study covers a specific cross-section of the pandemic process.

Conclusion

The COVID-19 process has been a period in which technological opportunities were used intensively, and follow-up and reporting procedures worked very quickly. For instance, the Coronavirus Science Board of the Ministry of Health tried to take advantage of all the opportunities in this process and made a significant contribution to the implementation of appropriate policies with efficient recommendations. On the other hand, public health crisis preparedness is not a newly created separate response system in times of a crisis. Also, the most important result of the study is the framework put forward by a scientific organization such as the Coronavirus Science Board in the fight against the global pandemic. Hence, in the future, countries will need a comprehensive “vaccine strategy,” an effective “monitoring and surveillance strategy,” an effective “intervention strategy,” a versatile “institutional strategy,” and an appropriate “guidance strategy.” One of the best features of science boards is that they provide more participation by contributing to the decisions taken and policies based on evidence. This ensures that both the majority of the public and the political groups have a positive attitude toward the decisions and the policies implemented.

Acknowledgments

The authors thank Polen Translation for their kind support in language translation.

Author contributions

Şafak Kıran (ŞK) conceived the study. Sedat Bostan contributed to the design of the study. Both authors collected and analyzed the data. ŞK wrote the first draft of this paper. Both authors revised the content of the paper and interpretation of the findings. ŞK drafted the manuscript. Both authors made substantial contributions to revising the manuscript and provided final approval of the version to be published.

Funding statement

None received.

Competing interests

The authors have declared that they have no competing interests.

References

Kavaliunas, A, Ocaya, P, Mumper, J, et al. Swedish policy analysis for COVID-19. Health Policy Technol. 2020;9(4):598-612. doi: 10.1016/j.hlpt.2020.08.009 CrossRefGoogle ScholarPubMed
Timeline: WHO’s COVID-19 Response. World Health Organization. Published 2020. Accessed February 2, 2022. https://www.who.int/emergencies/diseases/novel-coronavirus-2019/interactive-timeline Google Scholar
Warner, ME, Zhang, X. Social safety nets and COVID-19 stay home orders across US states: a comparative policy analysis. J Comp Policy Anal Res Pract. 2021;23(2):176-190. doi: 10.1080/13876988.2021.1874243 CrossRefGoogle Scholar
Chen, S, Yang, J, Yang, W, et al. COVID-19 control in China during mass population movements at New Year. Lancet. 2020;395(10226):764-766. doi: 10.1016/s0140-6736(20)30421-9 CrossRefGoogle Scholar
Ghanchi, A. Adaptation of the national plan for the prevention and fight against pandemic influenza to the 2020 COVID-19 epidemic in France. Disaster Med Public Health Prep. 2020;14(6):805-807. doi: 10.1017/dmp.2020.82 CrossRefGoogle Scholar
Budak, F, Korkmaz, Ş. COVID-19 pandemi sürecine yönelik genel bir değerlendirme: Turkiye örneğİ. Sosyal Araştırmalar ve Yönetim Dergisi. 2020;1:62-79. doi: 10.35375/sayod.738657 CrossRefGoogle Scholar
Ministry of Health. Pandemik influenza ulusal hazırlık planı. General Directorate of Public Health; 2019.Google Scholar
Cansever, İH. COVID-19 sürecinde Turkiye’de sağlik politikalari. Başkent Üniversitesi Sağlık Bilimleri Fakültesi Dergisi-BÜSBİD. 2021;6:86-104.Google Scholar
İşlek, E, Özatkan, Y, Bilir, MK, et al. COVID-19 pandemi yönetiminde Turkiye örneği: sağlık politikası uygulamaları ve stratejileri. Turkiye Sağlık Politikaları Enstitüsü. 2020. 2020/2.Google Scholar
Turan, A, Hamza Çelikyay, H. Turkiye’de KOVİD-19 ile mücadele: politikalar ve aktörler. Uluslararası Yönetim Akademisi Dergisi. 2020;3(1):1-25. doi: 10.33712/mana.733482 CrossRefGoogle Scholar
Türkoğlu, MC, Yılmaz, FK. Sağlık politikasi analizi: Turkiye’de COVID-19 pandemi döneminde uygulanan sağlik politikaları. Toplumsal Politika Dergisi. 2021;2(1):11-29.Google Scholar
Turkiye’nin Koronavirüsle Mücadele Politikasına ‘Bilim Kurulu’ yön Veriyor. Anadolu Ajansı. Updated March 24, 2020. Accessed February 8, 2022. https://www.aa.com.tr/tr/koronavirus/turkiyenin-koronavirusle-mucadele-politikasina-bilim-kurulu-yon-veriyor/1777215 Google Scholar
İşte COVID-19 Savaşçısı Bilim İnsanları. Milliyet. Published 2020. Accessed February 12, 2022. https://www.milliyet.com.tr/gundem/iste-kovid-19-savascisi-bilim-insanlari-6154577 Google Scholar
Koronavirüs Bilim Kurulu’na 7 Üye Daha Eklendi. Evrensel. Published 2020. Accessed February 12, 2022. https://www.evrensel.net/haber/401435/koronavirus-bilim-kuruluna-7-yeni-uye-eklendi Google Scholar
Güreşçi, M. COVID-19 Salgınında Turkiye’de Kriz Yönetimi İletişimi: T.C. Sağlık Bakanlığı. Avrasya Sosyal ve Ekonomi Araştırmaları Dergisi. 2020;7(5):53-65.Google Scholar
Turkiye, Koronavirüs Salgınını Yenecek Güce ve Kapasiteye Sahiptir. Presidency of the Republic of Turkiye. Published 2020. Accessed February 10, 2022. https://www.tccb.gov.tr/haberler/410/118091/-Turkiye-koronavirus-salginini-yenecek-guce-ve-kapasiteye-sahiptir- Google Scholar
Koronavirüs Tedbirleri Kapsamında Uygulanan Kapalı Mekânlardaki Maske Kullanma Zorunluluğu Tümüyle Kaldırılmıştır. Presidency of the Republic of Turkiye. Published 2022. Accessed February 10, 2022. https://www.tccb.gov.tr/haberler/410/136646/-koronavirus-tedbirleri-kapsaminda-uygulanan-kapali-mek-nlardaki-maske-kullanma-zorunlulugu-tumuyle-kaldirilmistir- Google Scholar
81 İl Valiliği’ne Koronavirüs Tedbirleri Konulu Ek Genelge Gönderildi. Ministry of Interior. Published 2020. Accessed February 10, 2022. https://www.icisleri.gov.tr/81-il-valiligine-koronavirus-tedbirleri-konulu-ek-genelge-gonderildi-08-09-20 Google Scholar
Koronavirüs ile Mücadelede Kontrollü Normalleşme Süreci. Ministry of Interior. Published 2021. Accessed February 10, 2022. https://www.icisleri.gov.tr/koronavirus-ile-mucadelede-kontrollu-normallesme-sureci Google Scholar
Kurulu, Bilim. Ministry of Interior. Published 2022. Accessed February 10, 2022. https://www.icisleri.gov.tr/arama/ara/Bilim%20Kurulu Google Scholar
Duyuruları, Basın. Ministry of Health. Published 2022. Accessed February 10, 2022. https://www.saglik.gov.tr/TR,3197/basin-duyurulari.html Google Scholar
Patton, MQ. Qualitative research and evaluation methods. Sage Publications; 2002.Google Scholar
Baum, F. The new public health. 4th ed. Oxford University Press; 2016.Google Scholar
Flitcroft, K, Gillespie, J, Salkeld, G, et al. Getting evidence into policy: the need for deliberative strategies? Soc Sci Med. 2011;72(7):1039-1046. doi: 10.1016/j.socscimed.2011.01.034 CrossRefGoogle ScholarPubMed
Rosella, LC, Wilson, K, Crowcroft, NS, et al. Pandemic H1N1 in Canada and the use of evidence in developing public health policies—a policy analysis. Soc Sci Med. 2013;83:1-9. doi: 10.1016/j.socscimed.2013.02.009 CrossRefGoogle ScholarPubMed
Kıral, B. Nitel bir veri analizi yöntemi olarak doküman analizi. Siirt Üniversitesi Sosyal Bilimler Enstitüsü Dergisi. 2020;8(15):170-189.Google Scholar
Corbetta, P. Social research: theory, methods and techniques. Patrick, B, trans. Sage Publications; 2003.CrossRefGoogle Scholar
Dalglish, SL, Khalid, H, McMahon, SA. Document analysis in health policy research: the READ approach. Health Policy Plan. 2021;35(10):1424-1431. doi: 10.1093/heapol/czaa064 CrossRefGoogle ScholarPubMed
Merriam, SB. Nitel Araştırma Desen ve uygulama için bir rehber. Turan, s. Ankara: Nobel Yayınevi; 2018.Google Scholar
Sak, R, Şahin Sak, İT, Şendil, ÇÖ, Nas, E. Bir araştırma yöntemi olarak doküman analizi. Kocaeli Üniversitesi Eğitim Dergisi. 2021;4(1):227-250. doi: 10.33400/kuje.843306 CrossRefGoogle Scholar
Abdi, M. Coronavirus disease 2019 (COVID-19) outbreak in Iran: actions and problems. Infect Control Hosp Epidemiol. 2020;41(6):754-755. doi: 10.1017/ice.2020.86 CrossRefGoogle ScholarPubMed
Wells, CR, Sah, P, Moghadas, SM, et al. Impact of international travel and border control measures on the global spread of the novel 2019 coronavirus outbreak. Proc Natl Acad Sci U S A. 2020;117(13):7504-7509. doi: 10.1073/pnas.2002616117 CrossRefGoogle ScholarPubMed
Du, Z, Wang, L, Cauchemez, S, et al. Risk for transportation of coronavirus disease from Wuhan to other cities in China. Emerg Infect Dis. 2020;26(5):1049-1052. doi: 10.3201/eid2605.200146 CrossRefGoogle ScholarPubMed
Her, M. How is COVID-19 affecting South Korea? What is our current strategy? Disaster Med Public Health Prep. 2020;14(5):684-686. doi: 10.1017/dmp.2020.69 CrossRefGoogle Scholar
Lee, VJ, Chiew, CJ, Khong, WX. Interrupting transmission of COVID-19: lessons from containment efforts in Singapore. J Travel Med. 2020;27(3):1-5. doi: 10.1093/jtm/taaa039 CrossRefGoogle ScholarPubMed
Onder, G, Rezza, G, Brusaferro, S. Case-fatality rate and characteristics of patients dying in relation to COVID-19 in Italy. JAMA. 2020;323(18):1775-1776. doi: 10.1001/jama.2020.4683 Google ScholarPubMed
Raeisi, A, Tabrizi, JS, Gouya, MM. IR of Iran National Mobilization against COVID-19 epidemic. Arch Iran Med. 2020;23(4):216-219. doi: 10.34172/aim.2020.01 CrossRefGoogle ScholarPubMed
Ruan, L, Wen, M, Zeng, Q, et al. New measures for COVID-19 response: a lesson from the Wenzhou experience. Clin Infect Dis. 2020;28:866-869.CrossRefGoogle Scholar
Sorbello, M, El-Boghdadly, K, Di Giacinto, I, et al. The Italian coronavirus disease 2019 outbreak: recommendations from clinical practice. Anaesthesia. 2020;75(6):724-732. doi: 10.1111/anae.15049 CrossRefGoogle ScholarPubMed
COVID-19 Strategic Preparedness and Response Plan: Operational Planning Guideline: 1 February 2021 to 31 January 2022. World Health Organization. Published 2021. Accessed 18 July, 2022. https://apps.who.int/iris/handle/10665/340073 Google Scholar
Zhang, S, Wang, Z, Chang, R, et al. COVID-19 containment: China provides important lessons for global response. Front Med. 2020;14(2):215-219. doi: 10.1007/s11684-020-0766-9 CrossRefGoogle ScholarPubMed
Bowen, GA. Document analysis as a qualitative research method. Qual Res J. 2009;9(2):27-40. doi: 10.3316/qrj0902027 CrossRefGoogle Scholar
Kalogirou, MR, Dahlke, S, Davidson, S, Yamamoto, S. Integrating planetary health into healthcare: a document analysis. Health Policy. 2021;125(6):799-806. doi: 10.1016/j.healthpol.2021.04.002 CrossRefGoogle ScholarPubMed
Grasselli, G, Pesenti, A, Cecconi, M. Critical care utilization for the COVID-19 outbreak in Lombardy, Italy: early experience and forecast during an emergency response. JAMA. 2020;323(16):1545-1546. doi: 10.1001/jama.2020.4031 CrossRefGoogle ScholarPubMed
Carenzo, L, Costantini, E, Greco, M, et al. Hospital surge capacity in a tertiary emergency referral centre during the COVID-19 outbreak in Italy. Anaesthesia. 2020;75(7):928-934. doi: 10.1111/anae.15072 CrossRefGoogle Scholar
Seddighi, H. Trust in humanitarian aid from the earthquake in 2017 to COVID-19 in Iran: a policy analysis. Disaster Med Public Health Prep. 2020;14(5):e7-e10. doi: 10.1017/dmp.2020.54 CrossRefGoogle ScholarPubMed
Shirato, K, Nao, N, Katano, H, et al. Development of genetic diagnostic methods for detection for novel coronavirus 2019 (nCoV-2019) in Japan. Jpn J Infect Dis. 2020;73(4):304-307. doi: 10.7883/yoken.JJID.2020.061 CrossRefGoogle ScholarPubMed
Nishiura, H, Kobayashi, T, Yang, Y, et al. The rate of underascertainment of novel coronavirus (2019-nCoV) infection: estimation using Japanese passengers data on evacuation flights. J Clin Med. 2020;9(2):419. doi: 10.3390/jcm9020419 CrossRefGoogle ScholarPubMed
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Table 1. Coding structure

Figure 1

Table 2. “Concerns” category and coding structure

Figure 2

Table 3. “Strategies” category and coding structure