High Rate of Uncaptured Myelodysplastic Syndrome Cases at the State Cancer Registry Level

Blood ◽  
2010 ◽  
Vol 116 (21) ◽  
pp. 1890-1890
Author(s):  
Christopher R. Cogle ◽  
Michelle R Iannacone ◽  
Ashley Cole ◽  
Daohai Yu ◽  
Alan F. List ◽  
...  
Keyword(s):  
Cancer Registry ◽  
Search Strategy ◽  
Keyword Search ◽  
Conflicts Of Interest ◽  
Cancer Registries ◽  
Population Based ◽  
Case Finding ◽  
The State ◽  
Refractory Anemia ◽  
Cancer Data

Abstract Abstract 1890 The myelodysplastic syndromes (MDS) became reportable malignancies to U.S. population-based cancer registries including the Surveillance, Epidemiology and End Results (SEER) Program in 2001. Registries capture information on MDS cases through reports sent by hospitals and physicians’ offices. Electronic pathology (E-path) reports generated by private pathology laboratories are another potential source for finding cases; however, the sheer volume of E-path reports generated and the limited resources of cancer registries preclude the review of all E-path reports. Therefore, some registries rely on probability scoring based on keyword hits to identify reports most likely consistent with a diagnosis of cancer. Given the diverse morphologic features of MDS pathology and our earlier observation that MDS is often diagnosed and managed in the outpatient setting (Rollison, et al. Blood 2008), we hypothesized that MDS is often not captured by state cancer registries. To estimate the proportion of uncaptured MDS cases in Florida, all E-Path reports sent to Florida Cancer Data System (FCDS), the state cancer registry, in 2006 were queried using a unique keyword search strategy based on an algorithm of identifying bone marrow biopsy reports that met the inclusion and exclusion diagnostic terminology for MDS. Of 7,111 E-path reports identified, only 18% corresponded to individuals registered in FCDS as having been diagnosed with MDS. To estimate the percentage of uncaptured MDS cases in the remaining 82% of E-Path reports, a stratified random sample of E-path reports were reviewed by a single hematologist/oncologist to determine whether the E-path reports were consistent with MDS and to assign an MDS subtype. The strata for random sampling included: 1) reports that linked individuals registered as having been diagnosed with cancers other than MDS in FCDS (48%) versus those that did not link to FCDS (34%) and 2) four categories based on number of keyword hits. Overall, E-path reports corresponding to 285 individuals were reviewed, of which 71 were determined to have MDS. The percentage of uncaptured cases seemed to be lower for those individuals that were registered in FCDS as having a previous cancer (17%) than that for those who did not link to FCDS (28%) and increased with number of keyword hits. Based on the percentages of uncaptured cases estimated within each of the eight strata, and the distribution of those stratified factors in the total sampling frame, we estimated that 641 MDS cases were likely uncaptured, representing approximately 45% of the captured and uncaptured cases combined. Thus, current case finding mechanisms by population-based cancer registries capture approximately half of the true MDS cases. Compared to MDS cases captured by FCDS, uncaptured MDS cases were younger (< 65) (p=0.01), less likely to have Refractory Anemia (RA) and more likely to have Refractory Cytopenia with Multilineage Dysplasia (RCMD) (p=0.002). Gender and race seemed to be similar between the groups. Together, these data indicate that current population-based case finding methods are not capturing a large percentage of MDS cases. Application of a keyword search strategy to identify cases among E-Path reports is a feasible technique to improve MDS case ascertainment in population-based cancer registries until greater resources are committed. Disclosures: No relevant conflicts of interest to declare.

A Keyword Search Strategy to Identify Missed Cases of Myelodysplastic Syndromes in Population-Based Cancer Registries.

Blood ◽  
2009 ◽  
Vol 114 (22) ◽  
pp. 4852-4852
Author(s):  
Christopher R Cogle ◽  
Ashley Cole ◽  
Iman Imanirad ◽  
Leena Kamat ◽  
Daohai Yu ◽  
...  
Keyword(s):  
Pilot Study ◽  
Cancer Registry ◽  
Myelodysplastic Syndromes ◽  
Search Strategy ◽  
Keyword Search ◽  
Cancer Registries ◽  
Population Based ◽  
Incidence Rates ◽  
Cancer Data ◽  
Pathology Reports

Abstract Abstract 4852 BACKGROUND Myelodysplastic syndromes (MDS) were reclassified from blood disorders to neoplasms in the tenth edition of the International Classification of Diseases and, as a result, became reportable malignancies to population-based cancer registries in 2001. Recent analyses of data from the North American Association of Central Cancer Registries (NAACCR), which includes registries reporting to the National Cancer Institute's Surveillance, Epidemiology, and End Results (SEER) Program, provided the first opportunity to investigate the incidence and survival of patients with myelodysplastic syndromes (MDS) in the U.S. However, several lines of evidence suggest that reported MDS incidence rates are considerably underestimated (Rollison, Blood 2008). Due to the unique patterns in diagnosis and treatment of MDS, many MDS patients may not access hospital-based care, particularly during the early stages of their disease. These cases are potentially missed by population-based cancer registries if they are not routinely reported to such registries by their private physicians. Given the potential for under-reporting, it was hypothesized that the true incidence of MDS is higher than currently estimated by population-based cancer registries and that previously missed MDS cases could be identified through careful systematic review of electronic pathology reports obtained from private laboratories. To test this hypothesis, a feasibility pilot study was initiated in collaboration with the Florida Cancer Data System (FCDS), the statewide cancer registry, which uses electronic pathology (E-Path) reporting. METHODS All E-Path reports sent by private pathology laboratories to FCDS in 2006 were queried using MDS keyword terms, including words and phrases potentially representative of MDS (e.g., myelodysplastic, ringed sideroblast, Pelger-Huet, etc.). E-path reports that matched one or more of the search terms were compared to the FCDS database to distinguish E-path reports that corresponded to individuals already in the FCDS database from those that corresponded to individuals who were not in the FCDS database. For those individuals within the FCDS database that linked to one or more E-path reports, demographic characteristics were compared between those with a previous MDS diagnosis recorded in MDS and those with one or more diagnoses of cancers other than MDS. Within the latter group, E-path reports were categorized by number of keyword hits, and a random sample of 50 E-path reports from each category were reviewed by a single hematologist/oncologist (CRC) to confirm the diagnosis of MDS. The percentage of missed cases was calculated as the number of E-path reports that were determined to be MDS divided by the number of E-path reports reviewed. RESULTS The initial query captured 121,279 E-path reports. After excluding 40,894 duplicate records, 80,385 unique E-path reports were identified, of which 19,812 linked to a cancer patient registered in FCDS. Of those 19,812 E-path reports, 1,452 (7%) linked to patients for whom a diagnosis of MDS was recorded in FCDS, and 18,357 linked to patients with cancer diagnoses other than MDS. The probability of an E-path report linking to an MDS case increased with the number of keyword hits in the E-path report (p <0.0001). As compared to FCDS-registered patients with cancers other than MDS who linked to an E-path report matching at least one MDS keyword, those registered with MDS were older (p<0.0001) and more likely to be male (p = 0.0002). Based on the review of 200 randomly selected cases, the overall percentage of missed MDS cases was 3.5%, with the percentage increasing with number of keyword hits. For reports deemed non-MDS by the cancer registry yet matching 6+ MDS keywords, at least 14% were missed cases of MDS. CONCLUSION This pilot study demonstrated the potential for MDS cases to be missed, even when the patients are already registered as having another type of cancer in population-based cancer registries. Application of a keyword search strategy to identify missed cases of MDS among electronic pathology reports is a feasible technique for improving case ascertainment of MDS in population-based cancer registries. Given the existence of missed MDS cases, it is likely that MDS incidence rates are underestimated at the population level. Disclosures No relevant conflicts of interest to declare.

scholarly journals Pilot Study on the Application of Telemedicine as a Tool for a Population-Based Cancer Registry in Hlegu Township, Yangon Region, Myanmar

2018 ◽  
Vol 4 (Supplement 1) ◽  
pp. 22s-22s
Author(s):  
Khin Saw Aye ◽  
KhinThet Wai ◽  
Yan Naing Swe ◽  
Ssu Wynn Mon ◽  
Nan Cho Nwe Mon ◽  
...  
Keyword(s):  
Information Technology ◽  
Palliative Care ◽  
Pilot Study ◽  
Cancer Registry ◽  
Conflicts Of Interest ◽  
Cancer Registries ◽  
Population Based ◽  
Public Hospitals ◽  
Cancer Data ◽  
Patients With Cancer

Abstract 57 Purpose The cancer burden is rising and threatens the social and economic development of low- and middle-income countries, including Myanmar, in the ASEAN region. A quality cancer registry plays a unique role in planning, the evaluation of cancer control program, treatment, and palliative care. To date, there is a paucity of studies in Myanmar that have focused on the implementation of a population-based cancer registry. In addition, the concept of telemedicine with the use of information technology applications as appropriate during implementation needs to be introduced. Such an approach may be beneficial to those working at the grassroots level for the overall improvement of the processes of community reporting, confirmation of diagnoses, effective referral for palliative care, and the establishment of cancer registries. Methods A pilot study was therefore carried out to formulate the strategic approach for establishing a population-based cancer registry in Hlegu Township in Northern Yangon District, Myanmar. First, the cancer data entry software was created and installed on mobile phones as an information technology tool to initialize telemedicine. Next, 15 health assistants in Hlegu Township were trained in the collection of data and the entry of basic information on patients with cancer, including name, age, gender, national ID, education, occupation, primary diagnosis, and the site of metastasis of confirmed cancer cases through mobile phone applications and reported to the cancer database unit at the Department of Medical Research. Results A total of 126 patients with cancer were registered in Hlegu Township from June 2016 to May 2017. The estimated prevalence of disease is 4.6 per 10,000 people. The most common age at cancer diagnosis was 46 to 65 years (73.58%). Female sex was 2.5 times predominant than male sex (72% v 27%). Among 91 registered female patients with cancer, the three most common cancers were breast (32.35%), cervix (16.17%) and uterine (15.17%). Eighty-five patients with cancer (67.46%) received their diagnosis in public hospitals. Overall, 59% of patients received combination treatment, 19% received surgery only, 16% were treated with traditional medicine, 3% were treated with radiotherapy only, and 3% were treated with chemotherapy only. Conclusion This study is a first step in applying the concept of telemedicine to the creation of a population-based cancer registry in a resource-limited setting. More concerted efforts are needed to move toward a well-established population-based cancer registry in Myanmar. AUTHORS' DISCLOSURES OF POTENTIAL CONFLICTS OF INTEREST No COIs from the authors.

Pilot Study on the Application of Telemedicine as a Tool for Population-Based Cancer Registry in Hlegu Township, Yangon Region, Myanmar

2019 ◽  
Vol 31 (2) ◽  
pp. 111-115
Keyword(s):  
Pilot Study ◽  
Cancer Registry ◽  
Control Program ◽  
Cancer Registries ◽  
Population Based ◽  
Public Hospitals ◽  
Cancer Case ◽  
Cancer Data ◽  
Patients With Cancer ◽  
Strategic Approach

A quality-cancer registry plays an unique role in planning, evaluation of cancer control program, treatment, and palliative care. To date, there is a paucity of studies in Myanmar that have focused on the implementation of a population-based cancer registry. The concept of combing telemedicine to this implementation may be beneficial to those working at the grass-roots level for the overall improvement of the processes of community reporting, effective referral for cancer care, and the establishment of cancer registries. A pilot study was therefore carried out to formulate the strategic approach for establishing a population-based cancer registry in Hlegu Township in Northern Yangon District. First, the cancer data entry software was created and installed on mobile phones as an information technology tool to initialize telemedicine. Then, 15 Health Assistants (HA) in Hlegu Township were trained for data collection to get basic information on cancer-confimed patients using mobile phone applications followed by online-based reporting to the cancer database unit. A total of 126 patients with cancer were registered from June 2016 to May 2017. The estimated prevalence of disease is 4.6 per 10,000 people. The most common age group at cancer diagnosis was 46 to 65 years (73.58%). Among 91 registered female patients with cancer, the three most common cancers were breast (25.39%), cervix (12.69%) and uterine (11.9%). Eighty-five patients with cancer (67.46%) received their diagnosis in public hospitals. Overall, 59% of patients received combination treatment, 19% received surgery only, 16% were treated with traditional medicine, 3% were treated with radiotherapy only, and 3% were treated with chemotherapy only. This study is the first of its kind, combing the concept of telemedicine to the creation of a population-based cancer registry. A complete and true picture of the cancer burden in the studied population can be provided without using enormous resources. This strategic approach is most appropriate to collect information of every cancer case in resource limited setting like Myanmar.

The Population Based Incidence of Myelodysplastic Syndrome (MDS): Utility of Multiple Data Sources and Follow-up.

Blood ◽  
2009 ◽  
Vol 114 (22) ◽  
pp. 245-245
Author(s):  
Rajat Kumar ◽  
Charles Musuka ◽  
Humaira Khair ◽  
Matthew D. Seftel ◽  
David Szwajcer ◽  
...  
Keyword(s):  
Bone Marrow ◽  
Cancer Registry ◽  
Conflicts Of Interest ◽  
Bone Marrow Examination ◽  
Cancer Registries ◽  
Population Based ◽  
Accurate Estimate ◽  
Teaching Hospitals ◽  
Course Of Illness

Abstract Abstract 245 Background: The incidence of MDS in Canada is not known. Diagnosis of MDS is often challenging as dysplastic features on bone marrow may be non-specific, requiring exclusion of other disorders. The province of Manitoba, with a population of 1.2 million, has a cancer registry which has included patients with MDS since 2001. In this province, hematology diagnostic services are centralized at two teaching hospitals and the few bone marrows performed outside are reviewed centrally. This provided us with the opportunity to use registry data and bone marrow records to determine the incidence of MDS. We hypothesized that for an accurate estimate, a proportion of MDS cases would require follow-up data. Methods: Retrospective study to examine all cases of MDS, which included chronic myelomonocytic leukemia (CMML) diagnosed in Manitoba. All adult Manitobans diagnosed with MDS and CMML (excluding RAEB-T), from 01/2006 to 12/2007 were identified from the cancer registry using ICD-O-3 topography code C42.1 and morphology codes 9980/3, 9982/3, 9983/3, 9985/3, 9986/3, 9987/3, 9989/3 and 9945/3. Bone marrow records for the same period were reviewed to identify all cases that had features of MDS. The clinical charts of all these patients were reviewed centrally to exclude those whose clinical course or repeat investigations suggested an alternative diagnosis. Results: A total of 80 patients with newly diagnosed MDS were identified. The age adjusted incidence of MDS was 3.26/100,000. Incidence was higher in men (4.05/100,000) as against women (2.57/100,000). Incidence varied significantly with age at diagnosis: <49yr: 0.12; 50–59yr: 2.24; 60–69yr: 10.63; 70–79yr: 20.41 and >80yr: 21.93. Eleven cases (13.75%) were not known to the cancer registry but were detected on reviewing the bone marrow data. From the registry, nine cases (11.25%) were excluded as the chart review and follow-up revealed alternative diagnoses. Conclusions: The incidence of MDS for Manitoba is similar to published rates in Europe and the USA. This may be an underestimation of the actual incidence, as elderly patients may not undergo bone marrow examination if the therapeutic intervention is only supportive. Cancer registries that include MDS based on one-time bone marrow reports should include a review process of confirming or excluding the diagnosis of MDS based on follow up investigations and course of illness. Disclosures: No relevant conflicts of interest to declare.

scholarly journals Using Hospital-Based Cancer Registry Data to Inform Establishment of Population-Based Cancer Registries in Western Kenya

2018 ◽  
Vol 4 (Supplement 2) ◽  
pp. 215s-215s
Author(s):  
G.C. Chesumbai ◽  
A.C. Koskei ◽  
N.G. Buziba ◽  
F.A. Chite
Keyword(s):  
Cancer Patients ◽  
Cancer Registry ◽  
Cultural Beliefs ◽  
Cancer Control ◽  
Cancer Registries ◽  
Population Based ◽  
Referral Hospital ◽  
Catchment Population ◽  
Cancer Data ◽  
Cancer Registry Data

Background: Eldoret Cancer Registry (ECR) is both a population-based cancer registry (PBCR) and hospital-based cancer registry (HBCR) located in Uasin Gishu County, western region of Kenya. As HBCR, it collects data on cancer cases seen at the Moi Teaching and Referral Hospital (M.T.R.H.), which is the second largest public referral hospital in Kenya and has a robust cancer diagnosis, treatment facilities and medical specialists. The catchment population of MTRH is estimated at 24 million. Aim: The aim of this study is to determine the number of cancer patients seen at MTRH by county and determine which counties will benefit most from establishment of a PBCR, based on their high incidence. Methods: Case finding is an active process. The E.C.R seeks clearance to collect data from the various data sources within MTRH. Trained cancer registrars visit the units on a regular basis to abstract and update cancer data into CanReg5. Quality checks and analysis of data are mainly done using CanReg5. Results: 16 years of HBCR data were analyzed. Out 20,423 cancer cases, Uasin Gishu county registered 39%. Nandi, Bungoma, Kakamega and Trans-Nzoia counties each registered 8%, 7%, 6% and 6% respectively. E-Marakwet and Busia both had 4% while other counties had below 2% of cancers cases registered for the period of analysis. Conclusion: Notably, there were high numbers of cancer patients registered from counties bordering Uasin Gishu. There is a high likelihood that there are more cases in these areas for patients who did not make it to MTRH due to preference, distance, SES, traditional/cultural beliefs etc. Establishing PBCRs will ensure a more comprehensive capture and reporting of cancer incidence and therefore necessitate proper planning for cancer control programs in those areas to reduce cancer burden and improve services for cancer patients and their families.

The Introduction of Hospital-Based Cancer Registries in Queensland

1989 ◽  
Vol 19 (1) ◽  
pp. 7-9 ◽  
Author(s):  
Sue Walker ◽  
Sheree Lloyd ◽  
Josie Parisi ◽  
Sari Sirvio
Keyword(s):  
Data Management ◽  
Medical Record ◽  
Cancer Registry ◽  
Health Department ◽  
Cancer Registries ◽  
Population Based ◽  
Support Network ◽  
Cancer Data ◽  
Cancer Registry Data ◽  
Area Of Interest

The management of cancer data is an expanding area of interest and employment for medical record administrators in Queensland. This is largely due to the software package and support network for hospital-based cancer registries that has been developed by the Data Management Unit of the Epidemiology and Prevention Unit in the State Health Department. The package is offered to any hospital interested in setting up and maintaining their own cancer data base and is completely compatible with the information requirements of the Queensland population-based registry. This paper describes the development of a hospital-based cancer registry system and the involvement of medical record administrators in cancer registry data management. (AMRJ 19(1), 6–8).

scholarly journals Historical Evolution of the Malawi National Cancer Registry: A Collaborative Effort to Develop and Sustain an Impactful Cancer Control Resource in a Low-Income Country

2017 ◽  
Vol 3 (2_suppl) ◽  
pp. 3s-3s
Author(s):  
Steady Chasimpha ◽  
Marie-Josèphe Horner ◽  
Charles Dzamalala ◽  
Satish Gopal
Keyword(s):  
Cancer Registry ◽  
Low Income ◽  
Conflicts Of Interest ◽  
Cancer Control ◽  
Population Based ◽  
Cancer Registration ◽  
High Quality ◽  
Cancer Burden ◽  
Cancer Data ◽  
National Cancer Registry

Abstract 26 Background: Population-based cancer registration is essential to inform cancer control, yet high-quality cancer registration is absent in much of Africa. We undertook this work to initiate and sustain the Malawi National Cancer Registry (MNCR) to: collect high-quality, population-based cancer data to describe the national burden; inform national cancer control programs and policies; provide a rich national resource for epidemiologic cancer research; and develop collaborations with other partners to increase MNCR impact. Methods: MNCR began in 1989 as a hospital-based pathology registry in Blantyre, Malawi. A population-based component was introduced in 1993 that initially covered the Blantyre district with active case finding. By using this platform, regular national surveys were initiated in 2005 and are carried out every 5 years. Building on this surveillance program, MNCR has pursued collaborations with the Malawi HIV unit to conduct a national HIV-Cancer Match Study to assess the evolving cancer burden in the antiretroviral scale-up era. MNCR has also collaborated with other regional registries through the African Cancer Registry Network. Results: MNCR has published descriptions of the cancer burden in Malawi and is one of few African data sources to contribute to the WHO’s Cancer Incidence in Five Continents. Kaposi sarcoma and cervical cancer are the most common cancers in men and women, respectively. Approximately 93,000 records from MNCR and the two largest HIV cohorts in Malawi have been linked, with preliminary data demonstrating 3,499 cancers among 15,920 antiretroviral initiators in Lilongwe. MNCR has also contributed to regional studies that have described the high incidence and young age for esophageal cancer in Africa. Conclusion: We must continue to improve the quality and coverage of population-based cancer registration throughout Malawi, update the HIV-cancer record linkage at regular intervals, and pursue further opportunities for collaboration. AUTHORS' DISCLOSURES OF POTENTIAL CONFLICTS OF INTEREST No COIs from the authors.

scholarly journals Strengthening African Population-Based Cancer Registration Through Regional Mentorship: UICC Fellowship Experience at Zimbabwe National Cancer Registry

2018 ◽  
Vol 4 (Supplement 2) ◽  
pp. 65s-65s ◽  
Author(s):  
L. Motsuku ◽  
E. Chokunonga ◽  
M. Sengayi ◽  
E. Singh ◽  
L. Khoali ◽  
...  
Keyword(s):  
Cancer Registry ◽  
Cancer Control ◽  
Cancer Registries ◽  
Population Based ◽  
Case Finding ◽  
Quality Data ◽  
Cancer Registration ◽  
High Quality ◽  
High Quality Data ◽  
National Cancer Registry

Background: South Africa (SA) recently established an urban population-based cancer registry in Ekurhuleni metropolitan district in Gauteng Province. The Ekurhuleni Population-Based Cancer Registry (EPBCR) aims to inform cancer policy and comprehensive cancer control programs. The registry covers 3.5 million residents including public/private, rural/urban patients and a mix of the multiethnic SA population. The first complete year's data will be published in April 2018. It is crucial that high-quality data collected by newly established registries are comparable regionally and globally. The Union for International Cancer Control (UICC) fellowship provides a practical opportunity for South African National Cancer Registry staff to learn from the Zimbabwe National Cancer Registry (ZNCR), a well-established population-based registry in the region. Aim: To enhance the SA EPBCR through observation and application of methods for population-based cancer registration used at the ZNCR. Methods: A desktop review of published and unpublished articles/reports of the ZNCR was conducted. Semi-structured informal interviews were conducted with registry staff to understand data processes from case finding to reporting. Representative data sources were visited to understand case-finding processes. Results: The ZNCR was established in 1985 through a collaborative research agreement between the Ministry of Health (MoH) and International Agency for Research on Cancer (IARC). Its activities are overseen by a 17-member constituted multidisciplinary advisory committee. The registry staff comprise one registrar, one executive assistant (EA) and four health information assistants (HIA). The process of ensuring quality data are guided by the African Cancer Registry Network and the International Association of Cancer Registries standards for population-based cancer registries. The ZNCR uses a combination of active and passive case-finding methods where HIAs have unrestricted access to patient information in private and public sectors such as hospitals, pathology laboratories, radiotherapy centers and death registries. HIAs conduct patient interviews for accurate demographics and to complete missing information. Cases are coded according to International Classification of Diseases for Oncology-V3 and Canreg software is used for data entry, quality control and analysis. The hard copies are stored in locked cabinets in offices with restricted access. The data are then used for reporting and research. Conclusion: The support of government, commitment of advisory committee volunteers, highly trained and experienced staff are key elements behind the success of ZNCR. Strict adherence to international practices for population-based cancer registration has enabled ZNCR to produce high-quality data for research and cancer programs. The processes used by ZNCR will be customised and implemented at EPBCR.

scholarly journals Development of a National Cancer Registry in a Low Resourced Country: The Case of Kenya National Cancer Registry Programme

2018 ◽  
Vol 4 (Supplement 2) ◽  
pp. 216s-216s
Author(s):  
A. Korir ◽  
R. Gakunga ◽  
N. Okerosi ◽  
A. Karagu ◽  
N. Buziba ◽  
...  
Keyword(s):  
Cancer Registry ◽  
Hpv Vaccination ◽  
Cancer Registries ◽  
Population Based ◽  
National Registry ◽  
Cancer Registration ◽  
National Cancer Registry ◽  
Background Population ◽  
Geographical Regions ◽  
Entire Country

Background: Population-based cancer registration represents the gold standard for the provision of information on cancer incidence in a defined population (Bray F, et. al, IARC Technical Report No. 43). In Kenya, the incidence and prevalence of cancer has not been well documented. The existing population-based cancer registries (PBCRs) cover less than 10% of Kenya's population. Kenya is made up of 47 administrative counties and has a population of over 45 million people. Aim: To establish a National Cancer Registry Program that will compile national data on incidence, mortality and trends of cancer in Kenya over time. Methods: Three functional PBCRs have been in existence covering 3 counties: Nairobi, Eldoret and Kisumu. Needs assessment was conducted in the 3 registries. Additional support and resources were provided. New registries were set up in different geographical regions of Kenya. A centralized office to host the national registry was established and equipped at the Centre for Clinical Research, Kenya Medical Research Institute. Sensitization and awareness activities targeting the leaders in the selected counties were undertaken. Similarly trainings and technical support of the regional registries were conducted. Data were collected on to case registration forms, coded using the International Classification of Diseases for Oncology (ICD-O); data entry, validation and analysis done using IARC software CanReg5. Results: Variations in cancer occurrence in the different counties were noted. However the leading cancers were somewhat similar in the 8 counties with prostate and esophageal cancers being the leading in men while breast and cervical cancer being top among women. These variations could provide understanding on causation of certain types of cancers. Data highlights the need to develop and expand intervention programs like HPV vaccination, screenings, early detection and early treatment. Governments' allocation of resources to cancer registries and surveillance programs is important as well as building partnerships. Conclusion: In countries with limited resources it is expensive to develop a national cancer registry covering the entire country. Our program demonstrates that a national cancer registry program can be established by setting up regional population-based cancer registries that covers a reasonable population of the entire country and aggregating the data in a centralized system. Population-based cancer registries are critical in generating data on burden of cancer in specified populations. These data should be used to inform effective cancer control programs and research.

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