Health in Sudan explained

Sudan is still one of the largest countries in Africa, even after the split of the Northern and Southern parts. It is one of the most densely populated countries in the region and is home to over 37.9[1] million people.

Sudan is a young population country with the median age 19.6 years. The total life expectancy for males and females at birth was estimated at around 62 and 66 years, respectively, and this is considered the average for least developed countries. The under-five child mortality rate was 77/1000 in 2015 compared to 128/1000 in 1990 and the maternal mortality ratio was 360/100,000 in 2015 compared to 720/100,000 in 1990.

Sudan has a high incidence of debilitating and sometimes fatal diseases, the persistence of which reflects difficult ecological conditions, high levels of malnutrition, an inadequate health-care system, and conflict and violence.[2] Sudan is also susceptible to non-communicable diseases, natural and manmade disasters. Drought, flood, internal conflicts, and outbreaks of violence are quite common which bring about a burden of traumatic disease and demand for high quality emergency health care.[3]

The Human Rights Measurement Initiative[4] finds that Sudan is only fulfilling 62.0% of what it should be fulfilling for the right to health based on its level of income.[5] Following the war in Sudan after 15 April 2023, many health facilities, staff and related infrastructure in the country have been severely impacted, with large sections of the population unable to receive health treatment.

History of health care in Sudan

The history of medical research and providing professional medical health care in Sudan can be traced back to 1903 when the Wellcome Research Laboratory was established in Khartoum as a part of Gordon Memorial College.[6]

The reorganization of the services dealing with scientific research in Sudan in April 1935 made the Stack Medical Research Laboratories the official research organ of the Sudan Medical Service, and Dr. E. S. Horgan-Archibald's successor was appointed Director of the laboratories and Assistant Director (Research) Sudan Medical Service. The Wellcome Tropical Research Laboratories ceased to exist as such, but thereafter continued to operate as the Wellcome Chemical Laboratories. After being placed under the control of the Agricultural Research Service for the following four years, they were transferred back to the Sudan Medical Service in 1939.[7]

Since 1969, the National Public Health Laboratory (NPHL) has been the country's major centre for medical education, training, and research. In the 2020s, the laboratory faced severe challenges during the Sudanese revolution and the 2023 Sudan conflict, forcing a relocation to Port Sudan due to war-induced destruction.[8] Many health facilities, staff and related infrastructure in the country have been severely impacted, with large sections of the population unable to receive health treatment.[9]

Situation in the 21st century

Sudan, with an increasingly ageing population and high population growth, faces a double burden of disease, with rising rates of communicable and non-communicable diseases.

Vital statistics

PeriodLive births per yearDeaths per yearNatural change per yearCBR*CDR*NC*TFR*IMR*
1950–1955452 000233 000219 00046.524.022.56.65160
1955–1960510 000251 000259 00046.723.023.86.65154
1960–1965572 000268 000304 00046.621.824.76.60147
1965–1970647 000281 000365 00046.520.326.36.60137
1970–1975737 000298 000438 00046.218.727.56.60126
1975–1980839 000317 000522 00045.117.128.16.52116
1980–1985950 000339 000611 00043.615.528.06.34106
1985–19901 043 000361 000682 00041.714.427.36.0899
1990–19951 137 000374 000763 00040.113.226.95.8191
1995–20001 242 000387 000855 00038.612.026.65.5181
2000–20051 324 000373 000951 00036.510.326.25.1470
2005–20101 385 000384 0001 001 00033.89.424.44.6064
  • CBR = crude birth rate (per 1000); CDR = crude death rate (per 1000); NC = natural change (per 1000); IMR = infant mortality rate per 1000 births; TFR = total fertility rate (number of children per woman)

Life expectancy

PeriodLife expectancy in
Years
PeriodLife expectancy in
Years
1950–195544.51985–199055.1
1955–196047.11990–199556.0
1960–196549.21995–200057.6
1965–197051.22000–200559.4
1970–197553.12005–201061.5
1975–198054.02010–201563.6
1980–198554.5
Source: UN World Population Prospects[12]

Health policies, systems and financing

The socioeconomics of Sudan began deteriorating after the separation of South Sudan. There is still conflict in Darfur, South Kordofan and Blue Nile states. Sudan’s economy has suffered a great deal from this: first, from a fall in oil prices and, more recently, from the loss of revenue from South Sudan for oil transportation. In addition, there are continuing sanctions and a trade embargo. Due to these occurrences, funds for health have been cut, adding to the fragility of the health sector. In the past, the health financing system in Sudan has undergone several changes, from a tax-based system in the late 1950s to the introduction of user fees along with social solidarity schemes such as the Takaful system.[13] The social health insurance scheme was implemented in 1995. The private sector also grew exponentially, leading to increased out-of-pocket spending from households. In 2006, free emergency care for the first 24 hours was announced, and the free finance policy for children under 5 and pregnant women was adopted in 2008. Sudan has also reviewed health system financing using the OASIS approach as a prelude to framing its national strategy for health financing. Also, the country has embarked on developing detailed roadmaps for providing universal health coverage to its population.[14]

Health services in Sudan are provided by the Federal and State Ministries of Health, military medical services, police, universities, and the private sector. The districts or localities which are the closest to people are mainly pro policies. Plans in Sudan are produced at three levels: federal, state, and district (also called locality), providing primary health care, health promotion, and encouraging community participation in caring for their health and the environment. They are responsible for water and sanitation services as well. This well-established district system is a key component of the decentralization approach pursued in Sudan, which in turn gives a broader space for local management and administration and allows for overcoming the leadership and supervision efforts by superior bodies.

There is one Federal Ministry of Health (FMOH) and 18 State Ministries of Health (SMOH). The federal level is responsible for the provision of nation-wide health policies, plans, strategies, overall monitoring and evaluation, coordination, training, and external relations. The state level is concerned with state's plans, strategies, and work with federal guidelines for funding and implementation of plans. Meanwhile, the localities are mainly concerned with implementation and service delivery.

The Federal Ministry of Health, Ministry of Veterinary and Animal Resources, and Agriculture and Corps Ministry are members of what is called the Public Health Council, which is the main national legislative body providing regulatory instructions, particularly those regarding zoonotic diseases. A major product of this council is the Public Health Act of 1975. Nevertheless, states and localities are empowered to set their own regulations and laws based on their needs. Additional regulatory bodies are available, including the Medical Council and the Allied Health Council, which are in charge of doctors' and health providers' certification and licensing.

Health Service Delivery

The health services provided in Sudan follow the classical three basic arrangements: primary, secondary, and tertiary health care. The primary health care is the first encounter for the patients and includes, as mentioned by the organizations, the dressing stations, dispensaries, primary health care units and health centers; the latter forms the referral point from the lower facilities. The importance of PHC is that it provides essential care to all and improves the health status of the community as a whole. In 2003. a package of health care services was introduced to the PHC facilities. This package included vaccination of children, nutrition, reproductive health (RH), integrated management of childhood immunization (IMCI), management of common diseases and prescribing essential medications. This line of care is almost entirely provided by the public sector.

On the other hand, both public and private sectors work together in the provision of the secondary and tertiary lines of care. Though, the private sector has been functioning mainly in urban areas. Screening, diagnostic, and therapeutic services are being provided in both health centres and hospitals as secondary care, whereas major surgical, rehabilitative, and subspecialized tertiary care is being provided mainly at larger public hospitals, including teaching hospitals, private hospitals, and specialized centers. These hospitals and centers accepts patients without being referred from the lower facilities indicating a poor referral system.

In the last decade, the number of hospitals has been an increasing trend and it continues to be. It is agreed that a core component of primary health care is health promotion. This is limited in Sudan in spite of the presence of health problems requiring health awareness campaigns, like communicable diseases, malnutrition, and even non-communicable diseases. Furthermore, in regard to the services provided at the PHC, these services are not achieving optimum utilization rates. For example, only 81.6% of PHC units provide vaccination for children and 67.3% provide family planning services. Although these numbers are improving in comparison to the past, they are not ideal and further emphasis on coverage, availability, and accessibility is required. Another notifiable weakness regarding PHC is that, unlike the secondary and tertiary services that are increasing in number, PHC units are decreasing either due to cessation of function or in comparison to population growth.

Regional disparities

It is difficult to generalize health care in Sudan because of the great disparity between the major urban areas and the rest of the country. Indeed, the availability of health care in urban settings is one cause of rural to urban migration. In terms of access to health care, Sudan can be subdivided into three categories: distinctly rural, rural near urban areas, and the capital region. In rural areas, especially outlying provinces, standard health care is completely absent. For the most part, there are neither doctors nor clinics in these regions. When illness occurs, home remedies and rest are often the only potential “treatments” available, along with a visit to a faqih or to a sorcerer, depending on region and location. Rural areas near cities or with access to bus or rail lines are slightly more fortunate. Small primary-care units staffed by knowledgeable, if not fully certified, health workers dispense rudimentary care and advice and also issue referrals to proper clinics in urban areas. Provincial capitals have doctors and hospitals but in insufficient numbers and of insufficient quality to meet rising demand.[15]

The Three Towns of the capital region boast of the best medical facilities and doctors in the country, although many of these would still be considered substandard in other parts of the world. Here, health care is available in three types of facilities: the overcrowded, poorly maintained, and underequipped government hospitals; private clinics with adequate facilities and equipment, often operated by foreign-educated doctors and charging prices affordable only by the middle and upper classes; and public clinics run by Islamist da’wa (religiously based charities) or by Christian missionaries, where adequate health care is available for a nominal fee. Not surprisingly, many patients flock to the third category where it is available.

WHO maintained offices in the capitals of each of Darfur’s three states in 2005 and oversaw the effort to provide health services there. More than 13,000 national and international personnel were involved in providing food, clean water, sanitation, primary health care, and medical drugs to the region’s refugees. In 2006, some 2.5 million Darfuri were in need of assistance, and an estimated 22 percent of children suffered from acute malnutrition. One researcher reported that, as of 2011, reliable information on Eastern Sudan was scarce, but overall health conditions could be gauged from under-five child mortality rates per 1,000 live births. In 2005, WHO reported that these ranged from 117 in Al-Gedaref State, to 165 in Red Sea, to 172 in Blue Nile, all high even by standards of comparable developing countries.

Communicable diseases

Poor sanitation and inadequate health care explain the presence of many communicable diseases in Sudan. Acute respiratory infections, hepatitis E, measles, meningitis, typhoid, and tuberculosis are all major causes of illness and mortality. More restricted geographically but affecting substantial portions of the population in the areas of occurrence is schistosomiasis (snail fever), found in the White Nile and Blue Nile areas and in irrigated zones between the two Niles.

Malaria

Malaria is the leading cause of morbidity and mortality in Sudan, and the entire population is at risk. It commands an inordinate amount of Sudan’s limited medical expertise. In 2003, hospitals reported 3 million cases; malaria victims accounted for up to 40 percent of outpatient consultations and 30 percent of all hospital admissions. In Darfur alone in 2005, doctors reported 227,550 cases; doctors, however, did report greater success in saving patients than in past years. In 2007, a study was conducted in Sudan which revealed the underreporting of malaria episodes and deaths to the formal health system, with the consequent underestimation of the disease burden.[16]

Children less than five years of age had the highest mortality rate and DALYs, emphasizing the known effect of malaria on this population group. Females lost more DALYs than males in all age groups, which altered the picture displayed by the incidence rates alone. The epidemiological estimates and DALYs calculations in this study form a basis for comparing interventions that affect mortality and morbidity differently, by comparing the amount of burden averted by them. The DALYs would mark the position of malaria among the rest of the diseases, if compared to DALYs due to other diseases. Uncertainty around the estimates should be considered when using them for decision making and further work should quantify this uncertainty to facilitate utilisation of the results.[16] More epidemiological studies are required to fill in the gaps revealed in this study and to more accurately determine the effect and burden of the disease.

Diarrhea

A lack of safe water means that nearly 45 percent of children suffer from diarrhea, which leads to poor health and weak immune systems.

Yellow fever

The World Health Organization was notified by the Federal Ministry of Health of Sudan of an outbreak of yellow fever in 2012 which affected five states in Darfur.[17] The yellow fever outbreak resulted in 847 suspected cases including 171 deaths. To reduce the spread of yellow fever, the World Health Organization worked with the Federal Ministry of Health in Sudan on a vaccination campaign that halted the outbreak.[18]

HIV/AIDS

See main article: HIV/AIDS in Sudan. Sudan is considered to be a country with an intermediate HIV and AIDS prevalence[19] by the World Health Organization (WHO).

The main mode of transmission worldwide is through heterosexual contact, which is no different in Sudan. In Sudan, heterosexual transmission accounted for 97% of HIV positive cases. As of January 5, 2011, the Adult(15-49) prevalence in Sudan was found to be 0.4%, an estimated 260,000 people were living with HIV and there were 12,000 HIV related annual deaths.[20] A population based study was conducted in 2002 which estimated the sero-prevalence to be 1.6%. According to recent studies, the HIV and AIDS prevalence in Sudan among blood donors has increased from 0.15% in 1993 to 1.4% in 2000.

Polio

Sudan has been polio-free since 2009 but is vulnerable to transmission from refugees from high-risk countries. A polio vaccination campaign was launched in 2018, supported by the World Health Organization. 5 million doses have been provided.[21]

Non-communicable diseases

Sickle cell disease

In Sudan, sickle cell disease was first reported in 1926 by Archibald.[22] The disease is considered one of the major types of anemia, especially in Western Sudan where the sickle cell gene is frequent [23] Sickle cell disease is the major haemoglobinopathy seen in Khartoum, the capital of Sudan. This may be attributed to the migration of tribes from western Sudan as a result of drought and desertification in the 1970s and 1980s, and the conflicts in Darfur in 2005. The rate is higher in Western Sudanese ethnic groups particularly in Messeryia tribes in Darfur and Kordofan regions.[24] [25]

Cardiovascular disease

The Federal Ministry of Health issues an annual health statistical report that includes data on causes of hospital mortality. Over the past decade, cardiovascular disease has been consistently reported in the top 10 causes of hospital mortality, with malaria and acute respiratory infections as the first two causes.[26]

The SHHS reported a prevalence of 2.5% for heart disease. Hypertensive heart disease (HHD), rheumatic heart disease (RHD), ischaemic heart disease (IHD) and cardiomyopathy constitute more than 80% of CVD in Sudan. Hypertension (HTN) had a prevalence of 20.1 and 20.4% in the SHHS and STEPS survey, respectively. There were poor control rates and a high prevalence of target-organ damage in the local studies. RHD prevalence data were available only for Khartoum state and the incidence has dropped from 3/1 000 people in the 1980s to 0.3% in 2003. There were no data on any other states. The coronary event rates in 1989 were 112/100 000 people, with a total mortality of 36/100 000. Prevalence rates of low physical activity, obesity, HTN, hypercholesterolaemia, diabetes and smoking were 86.8, 53.9, 23.6, 19.8, 19.2 and 12%, respectively, in the STEPS survey. Peripartum cardiomyopathy occurs at a rate of 1.5% of all deliveries. Congenital heart disease is prevalent in 0.2% of children.

Diabetes

In Sudan, the national prevalence of diabetes in adults is 7.7% and is expected to reach 10.8% in 2035. There were over 2.247.000 cases of diabetes in Sudan in 2017.[27]

Malnutrition

On 20 June 2022, according to an analysis on food security in Sudan released by the Integrated Food Security Phase Classification (IPC), it was assessed that nearly a quarter of the country's population (11.7 million people) faced acute hunger due to the increase in communal conflicts and other acts of armed violence, economic problems after the 2019 Sudanese coup d'état, the displacement of more civilians, and the arrival of more refugees from neighboring countries such as South Sudan, Eritrea, Syria, Ethiopia, Central African Republic, Chad, and Yemen.[28]

In 2023, UNICEF reported that Sudan has one of the highest majority rates of malnutrition among children in the world. There are more than 3 million malnourished children, of which 611,000 are harshly wasted and at high risk of death.[29]

Levels and trends in under-5 and infant mortality

Maternal health

Oral health in Sudan

Little data is found in the literature about oral health in Sudan before the 1960s. Studies conducted after that showed different results because they were carried out in different populations and clinical settings.

About 772 dentists were practicing in Sudan (2 dentists/ 100 000) in 2008. Dental services are included in insurance schemes with the exception of dentures, orthodontic treatments and plastic surgery.[31]

Decay-missing-filled index

The decay-missing-filled index are indicators used to determine the status of dental caries. The table below is from a 1993 report on such data.[32] [33]

% Affected; dmf; 4–5 years old - !Age % affected !dmft d !m f !Year - !4–5 years* 42 1.68 1.62 0.03 0.03 1990
* A total of 275 pre-school children inkindergartens from Khartoum were studied.
% Affected; DMFT; different age groups - Khartoum state, - !Age group DMFT !D M !F Year - 12 years (Khartoum State) [34] 0.5 0.4 0.03 0.03 2007-08 - 16–24 years[35] 4.2 2.9 1.2 0.1 2009–10 - 25–34 years 5.5 3.3 1.9 0.3 2009–10 - 35–44 years 8.7 4.1 4.2 0.3 2009–10 - 45–54 years 9.8 4.0 5.5 0.2 2009–10 - 55–64 years 12.2 3.9 8.0 0.3 2009–10 - 65–74 years 14.4 3.0 11.3 0.2 2009–10 - 75+ years 15.0 3.3 11.8 0.0 2009–10

Periodontal disease

% having highest score (CPI); Different Age groups - ! rowspan="2" Age Group ! rowspan="2" Number of Dentate !0 1 !2 3 !4 Year - !No Disease Bleeding on probing !Calculus Pd 4–5 mm !Pd 6+ mm - 15 years [36] 160 45 23 33 0 0 1990 - 15–19 years 126 0 1 0 95 4 1991 - 35–44 years 101 0 0 3 71 26 1991
[37]

Cleft lip and palate

This malformation showed a prevalence of 0.9 per 1000 in Sudan. More girls are affected than boys, with a male:female ratio of 3:10 (44% cleft lip with cleft palate, 30% only cleft palate, and 16% cleft lip alone).[38]

Further reading

External links

Notes and References

  1. Web site: Sudan: WHO statistical profile. 2014. September 6, 2015. WHO.
  2. Encyclopedia: Bechtold. Peter K.. Diseases. Berry. LaVerle. Sudan: a country study. 2015. Federal Research Division, Library of Congress. 978-0-8444-0750-0. 5th. Washington, D.C.. 136. . Though published in 2015, this work covers events in the whole of Sudan (including present-day South Sudan) until the 2011 secession of South Sudan..
  3. Ebrahim. Ebrahim Mohammed Abdullah. Ghebrehiwot. Luam. Abdalgfar. Tasneem. Juni. Muhammad Hanafiah. 2017-09-06. Health Care System in Sudan: Review and Analysis of Strength, Weakness, Opportunity, and Threats (SWOT Analysis). Sudan Journal of Medical Sciences. 12. 3. 133. 10.18502/sjms.v12i3.924. 1858-5051. . . free.
  4. Web site: Human Rights Measurement Initiative – The first global initiative to track the human rights performance of countries . 2023-05-01 . humanrightsmeasurement.org.
  5. Web site: Sudan - Human Rights Tracker . 2023-05-01 . rightstracker.org . en.
  6. National Framework for Ethics in Health Research Involving Human Subjects. Elsayed. Dya Edin Mohammed. July 2006. 1. 3. Sudanese Journal of Public Health. https://web.archive.org/web/20090424033046/http://www.sjph.net.sd/files/v1i3p192-196.pdf. 2009-04-24. dead.
  7. Book: A. BAYOUMI**. MEDICAL RESEARCH IN THE SUDAN SINCE 1903*. 275.
  8. Web site: 2023-09-18 . WHO upgrades Public Health Laboratory in Port Sudan for outbreak preparedness and response . 2024-04-16 . World Health Organization - Regional Office for the Eastern Mediterranean . en-gb.
  9. News: Ahmed . Kaamil . 2023-07-21 . Sudan: Attacks on health workers jeopardise remaining hospitals operating in Khartoum . en . The Guardian . 2023-07-31.
  10. Web site: Country Cooperation Strategy: Sudan. https://web.archive.org/web/20100518214144/http://www.who.int/countryfocus/cooperation_strategy/ccsbrief_sdn_en.pdf. dead. May 18, 2010. May 2014. September 6, 2015. WHO.
  11. http://esa.un.org/unpd/wpp/index.htm World Population Prospects: The 2010 Revision
  12. Web site: World Population Prospects – Population Division – United Nations. 2017-07-15.
  13. Gaafar . Reem . Reem Gaafar . June 2014 . Sudan Health System Financing review and recommendations . dead . The Evidence the Public Health Institute's Quarterly Newsletter . 10 . https://web.archive.org/web/20160203222528/http://www.phi.edu.sd/sites/default/files/Newsletter%2010.pdf . February 3, 2016 . September 6, 2015.
  14. Web site: Health systems financing review: What is OASIS. https://web.archive.org/web/20160304110431/http://www.who.int/health_financing/systems_review/en/index2.html. dead. March 4, 2016. 2015. WHO.
  15. Encyclopedia: Regional disparities . Sudan: a country study . . Washington, D.C. . Bechtold . Peter K. . 2015 . Berry . LaVerle . 5th . 132–133 . 978-0-8444-0750-0 . . Though published in 2015, this work covers events in the whole of Sudan (including present-day South Sudan) until the 2011 secession of South Sudan..
  16. The burden of malaria in Sudan: incidence, mortality and disability – adjusted life – years. 2007.
  17. Yellow fever in Sudan - update . The World Health Organization . 3 December 2013 . https://web.archive.org/web/20140814124451/http://www.who.int/csr/don/2012_12_03/en/. dead. August 14, 2014.
  18. Web site: Yellow fever in Sudan. https://web.archive.org/web/20140810103343/http://www.who.int/csr/don/2012_11_13/en/. dead. August 10, 2014. World Health Organization. 28 June 2015.
  19. UNAIDS, U., and WHO: assessment of the epidemiological situation. UNAIDS; 2004.
  20. "Global Health Observatory Data Repository". Retrieved 14 January 2015.
  21. News: Sudan launches anti-polio campaign to vaccinate 3 million children . https://web.archive.org/web/20180717100226/http://www.xinhuanet.com/english/2018-07/17/c_137330708.htm . dead . July 17, 2018 . 14 September 2018 . African News . 17 July 2018.
  22. Archibald, R. G. “A case of sickle cell anemia in Sudan.” Transactions of the Royal Society of Tropical Medicine and Hygiene, Vol. 19, No. 7, 1926, p. 389.
  23. .Mohammed, Abdelrahim O., et al. “Relationship of the sickle cell gene to the ethnic and geographic groups populating the Sudan.” Public Health Genomics, Vol. 9, No. 2, 2006, pp. 113-20.
  24. Federal Ministry of Health. Development of a national package for management of Sickle Cell Disorders. 8 Apr 2013. Khartoum
  25. Sabahelzain . Majdi Mohammed . Hamamy . Hanan . The ethnic distribution of sickle cell disease in Sudan . The Pan African Medical Journal . 3 May 2014 . 18 . 13 . 10.11604/pamj.2014.18.13.3280 . 25360197 . 4213521 . 1937-8688. Material was copied from this source, which is available under a Attribution 2.0 Generic (CC BY 2.0) License.
  26. A Suliman. August 2011. The state of heart disease in Sudan. Cardiovascular Journal of Africa. 22. 4. 191–196. 3721897. 21881684. 10.5830/CVJA-2010-054. Material was copied from this source, which is available under a Creative Commons License.
  27. Web site: Members. idf.org. 2019-09-15.
  28. Web site: Sudan Humanitarian Update, June 2022 . . June 2022.
  29. Web site: Sudan . UNICEF.
  30. Maternal & Child Health in Sudan byPaul Gubbins & Damien de Walque
  31. Web site: Health Systems Profile- Sudan, Regional Health Systems Observatory- EMRO. https://web.archive.org/web/20160611150017/http://apps.who.int/medicinedocs/documents/s17310e/s17310e.pdf. dead. June 11, 2016. 2006. WHO.
  32. Web site: Oral Health Database. EMRO - MALMÖ UNIVERSITY.
  33. The prevalence of caries in groups of children aged 4-5 and 7-8 in Khartown, Sudan.. Raadal ... M. 1993. International Journal of Paediatric Dentistry. 10.1111/j.1365-263X.1993.tb00041.x. 8329338. 3. 1. 9–15.
  34. Oral health status of 12-year-old school children in Khartoum state, the Sudan; a school-based survey.. Nurelhuda NM, Trovik TA, Ali RW, Ahmed MF . 2009. BMC Oral Health. 9. 10.1186/1472-6831-9-15. 19527502. 2704173. 15. 9 . free .
  35. Khalifa N, Allen PF, Abu-Bakr NH, Abdel-Rahman ME, Abdelghafar KO . 2012. BMC Oral Health. 12. 10.1186/1472-6831-12-5. 22364514. 3311612. 12. 5 . free .
  36. Web site: Periodontal country Profiles. WHO Global Oral Databank - Niigata UNiversity.
  37. Web site: Oral Health Database. EMRO- MALMO UNIVERSITY.
  38. Prevalence of cleft lip and palate in a hospital-based population in the Sudan.. Suleiman AM, Hamzah ST, Abusalab MA, Samaan KT . 2005. Int J Paediatr Dent. 10.1111/j.1365-263x.2005.00626.x. 15854114. 15. 3. 185–189.