Global, regional, and national burden of acute myeloid leukemia, 1990–2021: a systematic analysis for the global burden of disease study 2021

Background Acute myeloid leukemia (AML), as the most common subtype of leukemia in adults, is characterised by rapid progression and poor prognosis. In the context of the rapid development of medical technology and the complexity of social factors, a detailed report describing the latest epidemiological patterns of AML is important for decision makers to allocate healthcare resources effectively. Methods Our research utilized the latest data sourced from the Global Burden of Disease (GBD) 2021. To delineate the burden of AML, we comprehensively described the incidence, deaths, disability-adjusted life years (DALYs), and the associated age-standardized rates per 100,000 persons (ASR) spanning from 1990 to 2021 stratifies according to age, sex, socio-demographic index (SDI), and nationality. Additionally, we extracted and analyzed data about the risk factors that contribute to AML-related deaths and DALYs. Results According to our study, the incidence of AML has continued to rise globally from 79,372 in 1990 to 144,645 in 2021 and AML affected the male and the elderly populations disproportionately. Furthermore, there was a significant positive correlation between the burden of AML and the SDI value. Developed nations generally exhibited higher age-standardized incidence rate, age-standardized death rate, and age-standardized disability-adjusted life year rate than the developing nations. We also analyzed the prevalence of smoking, high body mass index, and occupational benzene and formaldehyde exposure in the AML population in different SDI regions. Moreover, smoking and high body mass index were more prevalent in developed countries, whereas occupational exposure to these chemicals was the predominant risk factor in developing countries. Conclusion The global burden of AML has increased over the past 32 years, with rising morbidity and mortality. The incidence of AML is differentially distributed across different SDI countries or regions. AML incidence is higher in the elderly and in men. The proportions of smoking, high body mass index, and occupational exposure to benzene and formaldehyde varied by region. The findings highlight the need for region-specific prevention and call for future research on preventive strategies and new treatments to lower AML incidence and improve patient outcomes. Supplementary Information The online version contains supplementary material available at 10.1186/s40364-024-00649-y.


Introduction
Acute myeloid leukemia (AML) is a genetically heterogeneous clonal disease that originates in the bone marrow [1], marked by abnormal proliferation and arrested differentiation of primitive bone marrow cells, impairing normal hematopoietic function and leading to lifethreatening cytopenia and transfusion dependency [2].AML can affect any age group but is most prevalent among adults, with its incidence increasing with age [3].Given the trend of population aging, AML incidence is expected to rise annually [4].With the rapid advances in medical diagnostic, treatment technologies, accelerated population ageing, and the complex influence of social factors such as lifestyle [5,6] and occupational exposures [7,8], the global disease burden of AML is undergoing a rapid and profound change.Thus, the global disease burden of AML merits an updated assessment to understand its specific impact on public health better.
AML is notable for its genetic heterogeneity, manifested by a wide range of molecular and cytogenetic abnormalities, including changes in chromosome number and structure, mutations, and the formation of fusion genes [9][10][11].The diagnosis of AML requires comprehensive multilevel testing including cytomorphological, cytogenetic and molecular genetic assessment to determine its genetic heterogeneity for subsequent precise medication.For example, AML carrying a PML-RARA fusion gene resulting from a t (15;17) translocation is diagnosed as acute neutrophilic leukemia, and treatment with all-trans retinoic acid and arsenite may be very effective [12].Other patients may have mutations in genes such as FLT3-ITD, TP53, etc., which usually portend a poorer prognosis and require the addition of appropriate targeted agents or a more aggressive treatment regimen during subsequent therapy [13][14][15].Nowadays, the treatment of AML usually consists of induction chemotherapy and consolidation therapy after remission.Depending on prognostic stratification and individual patient factors, hematopoietic stem cell transplantation may be considered to minimize the risk of disease recurrence.The advent of novel targeted therapeutic agents and strategies has markedly improved the remission rates among AML patients [16,17].The impact of consolidation therapy and minimal residual disease (MRD) monitoring on the recurrence rate is multifaceted [18].Despite the emergence of new treatments, conventional intensive chemotherapy remains the predominant modality for AML treatment [19], accompanied by significant complications such as severe infections, anaemia, and thrombocytopenia due to bone marrow suppression.These adverse events are closely associated with patients' baseline characteristics and necessitate substantial economic resources for supportive care [20][21][22].The variability in the disease burden of AML across different countries can be attributed to factors such as the widespread implementation of early screening, the sophistication of diagnostic testing, the availability of novel targeted drugs, chimeric antigen receptor T-cell (CAR-T) therapy, and the disparities in medical resource allocation.
The Global burden of disease (GBD) study is a seminal resource for comprehending the epidemiological landscape of various diseases, encompassing their prevalence, incidence, deaths, and disability-adjusted life years (DALYs).Compared with previous studies on AML using GBD data [23,24], we gained information from AMLspecific data from the latest 2021 GBD study.In addition, the present study provides a more comprehensive breakdown of AML incidence, deaths, DALYs, and risk factors by age, sex, geographic region, and social development index (SDI), with a focus on SDI distributions of disease burden and temporal trends.The present analysis is poised to assist clinicians, epidemiologists, and health policymakers in enhancing the distribution of medical resources and in formulating more robust public health strategies.

Data source
GBD 2021 study meticulously gathers data on the incidence and mortality rates of 288 causes of death from an array of sources.Key data sources encompass vital registration and verbal autopsy, which furnish comprehensive details on all 288 causes.To enhance this, the study also incorporates surveys, censuses, surveillance systems, and cancer registries, providing more nuanced information.Furthermore, data from police records, open-source databases, and minimally invasive tissue sampling are used to capture insights on specific diseases and injuries.For data processing and estimation, GBD 2021 utilizes advanced techniques like the Cause of Death Ensemble Model (CODEm), guaranteeing the precision and robustness of the results.In cases where data is limited or the epidemiology is unusual, the study employs alternative models and approaches.When cancer registry coverage or reliable mortality data is absent, GBD 2021 turns to methods such as predictive modeling, data sharing, and expert consultation to estimate the missing data [25].
Data specific to AML consisting of incidence, deaths, DALYs, and corresponding age-standardized rates, were downloaded from the Global Health Data Exchange (GHDx) website (https://vizhub.healthdata.org/gbdresults/)[26].Furthermore, the GBD study quantifies the levels and trends of 88 contributory risk factors linked to the disease burden, employing a framework for comparative risk assessment [27].
The incidence and mortality of AML were identified using the International Classification of Diseases, Ninth Revision (ICD-9) and Tenth Revision (ICD-10).Specifically, AML incidence was identified through the ICD-9 codes C92.0-C92.02,C92. Background information, such as the SDI, was also gathered for subsequent correlational analyses.The SDI values, ranging from 0 to 1, reflect the level of social development in a country.Summary exposure value (SEV) is the RR-weighted prevalence of exposure and a univariate measure of risk-weighted exposure.A value of SEV = 0 indicates the population is not at excess risk and SEV = 1 indicates the population is at its highest risk.In GBD 2021, final values are multiplied by 100 for a scale of 0-100, with 100 indicating the population is at the highest prevalence and 0 indicating the population is at the lowest prevalence.Furthermore, the GBD 2021 study stratified the global countries into five quintiles based on the SDI (higher, high-middle, middle, low-middle, and lower) and 21 geographical regions.

Statistical analysis
Prior research has extensively detailed the protocols and methods for GBD research [28].In this study, we employed annual incidence cases, death cases, DALYs, and their respective age-standardized rates per 100,000 persons (ASR) to illustrate the burden of AML.
The ASR (per 100,000 population) in accordance with the direct method is calculated by summing up the products of the age-specific rates (a.i., where i denotes the ith age class) and the number of persons (or weight) (wi) in the same age subgroup i of the chosen reference standard population, then dividing the sum of standard population weights.By utilizing age-standardized incidence rate (ASIR), age-standardized death rate (ASDR), and agestandardized DALY rate, it is possible to facilitate comparisons across populations of varying age distributions and sizes and to enhance the accuracy of comparisons between populations.DALYs function as a comprehensive metric, encapsulating the reduction in healthy life expectancy due to diseases, encompassing premature mortality and disability.
As in previous GBD rounds, cause-specific mortality rates for most causes were estimated using the Cause of Death Ensemble Model, a modeling tool developed for the GBD that evaluates the out-of-sample predictive validity of different statistical models and covariate permutations and combines these results to produce causespecific mortality estimates, with alternative strategies to model causes of insufficient data, major changes in reporting during the study period, or epidemiological anomalies.
To analyze changes in ASR over time, we utilized Estimated Annual Percentage Change (EAPC) values.The EAPC was determined using the formula y = α + βx + ε, where y represents the natural logarithm of the ASR and x corresponds to the calendar year.Subsequently, the EAPC was calculated as 100 × (exp(β) − 1).A positive EAPC and its corresponding 95% confidence intervals (CIs) signifies an increasing trend in ASR, whereas a negative EAPC and its corresponding 95% CIs indicate a decreasing trend in ASR.
Moreover, this study employed the Pearson correlation coefficient (ρ) to examine the association between ASIR, ASDR and SDI, to elucidate the impact of socioeconomic determinants on the AML burden.In the meticulous analysis of the GBD 2021 study, the computation of Pearson correlation coefficients is carefully tailored to navigate the extensive disparities in population magnitude and case frequencies across various countries and global regions.This sophisticated process incorporates age-standardization methods and the conversion of raw data into age-standardized rates, utilizing population-weighted averages to ensure each demographic's equitable contribution.The Pearson correlation coefficient is derived through the product-moment correlation formula, with due consideration to the statistical power and precision of the estimates, while also accounting for ecological inference to prevent erroneous causal interpretations at the individual level.Furthermore, the determination of confidence intervals for these coefficients, along with comprehensive sensitivity analyses, evaluates the stability of the results against potential data biases and quality inconsistencies, ultimately yielding robust and reliable indicators of association within the nuanced domain of international health data.
All statistical procedures and data manipulation were conducted by stringent academic protocols, utilizing R software version 3.6.3.This approach was instrumental in ensuring the academic rigor and dependability of the research findings.

Incidence burden of AML
The global incidence of AML increased from 79,372 in 1990 to 144,645 in 2021.However, the ASIR decreased from 1.77 per 100,000 persons in 1990 to 1.73 per 100,000 population in 2021.There has been an increase in incidence cases across all SDI quintiles, with the highest increase observed in the high SDI quintile at 1.04% (95%CI: -0.93 to 1.11).The high SDI quintile had the highest ASIR from 1990 to 2021, reaching 2.88 per 100,000 persons in 2021 and 2.65 per 100,000 persons in 1990.The ASIR exhibited an upward trend in the high and low-middle SDI quintiles while showed a decrease in the other three quintiles.Specifically, high SDI quintile had the most significant increase in ASIR with EAPC at 0.41 (95%CI: 0.25 to 0.56), whereas middle SDI quintile had the most significant decrease in ASIR with EAPC at -0.4 (95%CI: -0.46 to 0.34).Geographically, in 2021, High-income North America, with 23,676 cases, Western Europe, with 24,638 cases, and East Asia, with 19,156 cases, were the top 3 regions with the highest incidence cases.From 1990 to 2021, most regions showed an increasing trend in ASIR.Australasia (0.95 (95%CI: 0.69 to 1.21)), Central Europe (0.92 (95%CI: 0.78 to 1.07)), and Western Europe (0.87 (95%CI: 0.74 to 1.01)) exhibited the most significant increase, while East Asia had a noticeable decreasing trend in ASIR (-1.39 (95%CI: -1.57 to 1.2)).Furthermore, a significant positive correlation existed between SDI and ASIR (ρ = 0.640, p< 0.001) (Table 1).For country and regional observations, USA, China and India showed the highest disease burden, with 21,533, 17,835 and 11,040 incidence cases in 2021 (Table S1).Meanwhile, Australia recorded the highest ASIR at 4.9 per 100,000 persons in the same year (Fig. 1A).From 1990 to 2021, Mauritius showed the highest increase in ASIR with an EAPC of 5.12 (95%CI: 1.91 to 8.43), while the Northern Mariana Islands experienced the most significant decline with an EAPC of -3.23 (95%CI: -3.53 to -2.93) (Fig. 2A).China underwent an apparent decrease in ASIR with an EAPC of -1.51 (95%CI: -1.7 to -1.32), while USA(EAPC: 0.37 (95%CI: 0.14 to 0.61)) and India(EAPC:0.17(95%CI: 0.07 to 0.27)) had an increase.Moreover, ASIR demonstrated an upward trend as the regional SDI increased (ρ = 0.624, p< 0.001) (Fig. 3A).

Deaths and DALYs burden of AML
The death cases also showed an upward trend globally, with 130,189 cases in 2021 and DALYs increased slightly to 4,135,056 in 2021.However, from 1990 to 2021, the global ASDR and age-standardized DALY rate showed a clear downward trend.At the SDI quintiles level, from 1990 to 2021, death cases and DALYs in all quintiles showed an upward trend, except for a slight decrease on DALYs in the high-middle SDI quintile (DALYs in 1990: 823,157; DALYs in 2021: 785,872).Moreover, except for an increase in ASDR in the low-middle SDI quintile (ASDR in 1990:1.09(95%CI: 0.74 to 1.65); ASDR in 2021:1.18(95%CI: 0.93 to 1.62)), the ASDR and agestandardized DALY rate of AML is significantly reduced in other quintiles.In 2021, the high SDI quintile had the highest death cases, ASDR, DALYs and age-standardized DALY rate, while the high-middle SDI quintile had the highest DALYs and age-standardized DALY rate in 1990.The ASDR for the high-middle SDI quintile declined significantly, with the EAPC of -0.36 (95%CI: -0.44 to -0.27) and the age-standardized DALY rate of -1.59 (95%CI: -1.7 to -1.48).As for geographical regions, Western Europe and High-income North America were the top two regions with the most death cases in 2021 (Western Europe: 22,485; High-income North American: 18,371).And the DALYs in East Asia were the highest in 2021 (586,467).At the same time, there was a statistically significant positive correlation between SDI, ASDR and age-standardized DALY rate (ASDR: ρ = 0.507, p < 0.001; age-standardized DALY rate: ρ = 0.125, p < 0.01) (Tables 2  and 3).

Sex and age distribution of incidence, deaths and DALYs
Globally, both ASIR and ASDR have shown a fluctuating trend of first increasing and then decreasing from 1990 to 2021.Overall, the ASIR and ASDR of males are significantly higher than those of females.Meanwhile, agestandardized DALY rate showed a significant downward trend in both males and females.
For males, ASIR and ASDR were highest in the high SDI quintile and lowest in the low SDI quintile between 1990 and 2021.The difference in age-standardized DALY rate between the high SDI quintile and the high-middle SDI quintile was slight in 1990 but the decline from     Moreover, death rates were higher among children (< 5 years, 5-14 years) in the low SDI quintile compared to other regions (Fig. 5A, B).Global DALY rates for males and females were decreasing, with the most significant declines in the high-middle SDI quintile (Fig. 5C).The number of incidence cases for both genders was rising,   while males experienced a greater increase, especially in high-middle SDI countries and in the age group of 70 years and older (Figure S1).The number of death cases was also significantly higher in age groups above 70 years.Moreover, the number of deaths is higher in males than those in females despite age and SDI groups.As the population ages, the number of DALYs increased in older groups (50-69 and 70+).

AML burden attributable to risk factors
From 1990 to 2021, smoking, high body mass index, and occupational exposure to benzene or formaldehyde were the most common potential risk factors related to AML in the GBD study, of which smoking was the most significant contributor.In 2021, Among the 21 geographical regions considered, High-income North America had the highest proportion of death cases and DALYs attributed to smoking, accounting for 22% and 19.70%.Conversely, Western Sub-Saharan Africa had the lowest percentages, with only 0.4% of death cases and 0.2% of DALYs (Fig. 7A).Meanwhile, High-income North America had the highest proportion of death cases and DALYs attributed to high BMI among the geographical regions, accounting for 13% and 12.8%.Conversely, Eastern Sub-Saharan Africa had the lowest percentages, with only 3.5% of death cases and 2.5% of DALYs associated with high BMI (Fig. 7B).Among the countries and territories considered, Andean Latin America had the highest proportion of DALYs attributed to occupational exposure to benzene, accounting for 1.3%.Central Latin America had the highest proportion of deaths attributed to occupational exposure to benzene, accounting for 1.1% and Western Europe had the lowest proportion of death cases, only 0.3%.Meanwhile, Central Europe had the lowest proportion of DALYs attributed to occupational exposure to benzene, accounting for 0.5% (Fig. 7C).In 2021, Among the 21 geographical regions considered, East Asia had the highest proportion of death cases and DALYs attributed to occupational exposure to formaldehyde, accounting for 0.4% and 0.5% (Fig. 7D).

Discussion
AML is a prevalent hematological malignancy characterized by rapid disease progression, acquired treatment resistance, and frequent relapses [29,30].It poses complex challenges to global public health, spurring ongoing discussions regarding its worldwide burden [23,31,32].In this study, we explore the disease burden across various populations and periods using the latest GBD database and assess the epidemiological trends in AML through EAPC calculations over the past 32 years.From 1990 to 2021, the incidence cases of AML surged from 79,372 to 144,645, reflecting a significant global increase.The result potentially attributed to population expansion, aging, and enhanced diagnostic technologies [33].Furthermore, there was a global increase in AMLrelated deaths, while the ASDR and age-standardized DALYs were decreasing.The rise in fatalities may be associated with the growing number of cases, but the declining ASDR suggested that there may have been improvements in the medical treatment and management of AML patients.Similarly, the reduction in agestandardized DALYs implied a decrease in disease burden per unit of the population.In addition, we also examined the relationship between the incidence, mortality, and DALYs of AML and SDI.We found that the incidence increased the most and the ASIR was the highest in high-SDI quintile, which may be related to the improvement of diagnostic efficiency.In addition, factors such as increased environmental pollution, faster pace of life, greater mental stress, and widespread obesity in high-SDI quintile may also lead to increased incidence [34].In addition, the number of deaths and DALYs in high-SDI quintile was the highest, and their corresponding ASDR and age-standardized DALYs showed an upward trend.This result may be related to the aggravation of the aging of the population in these regions.The increase in ASIR in middle and low SDI quintile may be related to lifestyle, genetic factors, and environmental factors.The ASDR increased in middle and low SDI quintile, but it decreased in other SDI quintiles, this phenomenon may reflect the lack of medical resources in middle and low SDI quintiles [35].The decrease of incidence in low SDI quintile may be related to low diagnostic efficiency and incomplete data collection.Among them, both ASIR and ASDR in East Asia have decreased significantly, reflecting the continuous improvement of public health measures and medical care systems in the region.The occurrence and death rates of AML globally show intricate patterns, influenced by various factors such as population demographics, economic advancement, and healthcare quality [36].Tailored prevention and control measures are essential for different SDI quintiles to lessen the overall impact of AML on a global scale.
The escalating global burden of AML attributable to population ageing is multifaceted, encompassing not only an increase in the incidence rate but also numerous challenges associated with its therapeutic management [4,37].Our findings indicate that across all geographical regions, there is a concomitant increase in the incidence rate, death, and DALYs for AML with growing age.Notably, the incidence of AML climbs with age, and the death rate for patients diagnosed beyond the age of 65 exceeds 90% [3].Ageing is a pivotal factor contributing to the pathogenesis of leukemia, with the accumulation of environmental exposures over time, the build-up of genetic mutations, immune system dysregulation, aberrant bone marrow hematopoiesis, and heightened levels of chronic inflammation [38][39][40] all of which incrementing the risk of AML.This is intrinsically linked to the association between AML incidence and age-related clonal hematopoiesis [41,42].Current AML treatment guidelines recommend the high-dose cytarabine consolidation chemotherapy or allogeneic stem cell transplantation (Allo-HSCT) based on the individual's disease risk profile to mitigate the risk of relapse [11].However, the efficacy of this therapeutic approach is limited, with a curative rate ranging from approximately 35-45% in patients under 60, while in those over 60, the cure rate diminishes to less than 15% [43].On one front, the combination of demethylating agents with the BCL-2 inhibitor Venetoclax has demonstrated benefit in the elderly and those unsuitable for intensive therapy [44,45], and a multitude of clinical trials are investigating the safety and efficacy of multitargeted drug combinations for the treatment of relapsed and refractory AML [46,47].On the other hand, over the past five decades, the pace of progress in AML research and treatment has been relatively modest.The intensified induction regimen comprising cytarabine and anthracycline drugs, commonly referred to as the "7 + 3 regimen, " which was introduced in the 1970s for AML treatment, remains the cornerstone of therapy [48].Nonetheless, chemotherapy resistance, disease recurrence, and limited therapeutic options for elderly or ineligible patients for intensive treatment persist as formidable challenges in the management of AML [49,50].
Our study also investigated potential risk factors for AML-related death [51].Lifestyle, occupational exposure, and carcinogens in the living environment are closely related to the risk of AML [52].Specifically, high body mass index (BMI), occupational exposure to benzene, formaldehyde, and smoking are key factors in the occurrence of AML [53].Overweight and obesity significantly increase AML risk, with a meta-analysis has demonstrated that individuals with overweight and obesity are at a 23% higher risk of developing AML compared to normal-weight individuals [54].However, high BMI does not significantly impact the overall survival or diseasefree survival in non-APL AML patients.Occupational exposure to formaldehyde and benzene also significantly raises AML risk [55,56].For instance, a study assessed the risk of death from AML and other lymphohematopoietic malignancies due to formaldehyde exposure and found an increased risk associated with certain types of lymphohematopoietic malignancies.However, there is no significant correlation with AML itself [57].Another study evaluated the cancer risk from formaldehyde exposure within anatomical laboratory settings, revealing that the assessed cancer risk for the staff exceeded the limits recommended by the United States Environmental Protection Agency (EPA) [58].Regarding the relationship between occupational exposure to benzene and AML, current research has not definitively established a direct link between benzene exposure and AML.However, as a known carcinogen, benzene remains a significant consideration in the occupational environment for the incidence of AML [23].Smoking is a well-documented risk factor with multiple meta-analyses indicating an increased risk of AML [59].For example, a systematic review and meta-analysis included 20 case-control studies involving 7,538 AML patients and 137,924 healthy controls [60].Another updated meta-analysis covered 23 studies published from 1993 to 2013, involving 7,746 cases of AML [61].Additionally, a pooled analysis of nine cohort studies conducted in Japan showed an increased risk of AML associated with smoking [62].In conclusion, high BMI, occupational exposure to formaldehyde and benzene, and smoking are pivotal risk factors for the incidence and mortality of AML.These factors are particularly evident in developed regions with high AML morbidity and mortality.Consequently, effective intervention strategies targeting these risk factors are imperative for reducing the burden of AML.
Our research also has several limitations.Firstly, clinical processes such as data collection and patient care in AML in 2020-2021 may be affected due to the COVID-19 pandemic.The GBD research process corrects for these potential limitations through a variety of methods, such as the use of modelling to estimate missing data or adjusting analytical strategies to account for the influence of the epidemic [63].However, these adjustments may themselves introduce a degree of uncertainty.While the GBD database encompasses many countries and regions globally, the accuracy and completeness of data may differ across regions.Particularly in low-and middleincome countries, the data may be less detailed or subject to bias.The classification and definitions of diseases in the GBD database may differ from those in other international databases or studies, potentially compromising the accuracy of disease burden assessments.Furthermore, while data from various periods and regions may be influenced by differing medical practices, diagnostic techniques, and reporting systems, leading to biases when analyzing long-term trends.Additionally, while the GBD database employs various epidemiological indicators to assess disease burden comprehensively, these indicators may not fully capture the complete impact of AML on patients' quality of life and socioeconomic status.Finally, the GBD database offers population-level data, which may not include detailed individual patient information, thus limiting in-depth analysis of the epidemiological characteristics of specific subtypes or patient groups in AML.

Conclusion
This study reveals that from 1990 to 2021, there was a rising trend in the incidence and deaths of AML globally, with a more pronounced disease burden observed in males and the elderly population.We found a positive correlation between the incidence of AML and SDI values.Smoking, high body mass index (BMI), and occupational exposure to benzene and formaldehyde are the main risk factors for AML-related deaths.Smoking and high body mass index predominated in developed countries, while occupational exposure was the predominant risk factor in developing countries.These findings underscore the importance of developing preventive measures tailored to different regions and populations.Future research should focus on developing effective prevention strategies and exploring novel therapeutic approaches to reduce the incidence of AML and improve patient prognosis.

Fig. 1 Fig. 2
Fig. 1 The age-standardized rates of AML in 204 countries or territories in 2021: (A) The ASIR of 204 countries or territories in 2021; (B) the ASDR of 204 countries or territories in 2021; (C) the age-standardized DALY rate of 204 countries or territories in 2021.AML: acute myeloid leukemia; ASIR: agestandardized incidence rate; ASDR: age-standardized death rate; DALYs: disability-adjusted life years

Fig. 3
Fig. 3 The change trends and correlation analyses of incidence rate and SDI from 1990 to 2021.(A) The change trends and correlation of ASIR and SDI from 1990 to 2021 in 18 regions.(B) The change trends and correlation of ASDR and SDI from 1990 to 2021 in 18 regions.(C) The change trends and correlation of age-standardized DALY rate and SDI from 1990 to 2021 in 18 regions.SDI, socio-demographic index.(D) The change trends and correlation of ASIR and SDI from 1990 to 2021 in 204 countries.(E) The change trends and correlation of ASDR and SDI from 1990 to 2021 in 204 countries.(F) The change trends and correlation of age-standardized DALY rate and SDI from 1990 to 2021 in 204 countries.SDI: socio-demographic index

Fig. 4
Fig. 4 The change trends of age-standardized rates of AML among different SDI quintiles and sex: (A) the ASIR from 1990 to 2021; (B) The ASDR from 1990 to 2021; (C) The age-standardized DALY rate from 1990 to 2021.AML: acute myeloid leukemia; ASIR: age-standardized incidence rate; ASDR: agestandardized death rate; DALYs: disability-adjusted life years; SDI, socio-demographic index

Fig. 5
Fig. 5 The incidence rate, death rate and DALY rates of AML of five age groups in different SDI quintiles from 1990 to 2021: (A) The incidence rate of AML of five age groups in different SDI quintiles from 1990 to 2021; (B) The death rate of AML of five age groups in different SDI quintiles from 1990 to 2021; (C) The DALY rate of AML of five age groups in different SDI quintiles from 1990 to 2021.The five age groups included < 5 years, 5-14 years, 15-49 years, 50-69 years, and 70 + years; SDI: socio-demographic index.The influential factors for EAPC

Fig. 6 Fig. 7
Fig. 6 The correlation between EAPCs and age-standardized rate in 1990, and SDI in 2021: The correlation between EAPCs and ASIR in 1990 (A), and SDI in 2021 (D); The correlation between EAPCs and ASDR in 1990 (B), and SDI in 2021 (E); The correlation between EAPCs and age-standardized DALY rate in 1990 (C), and SDI in 2021 (F).The circles represent 204 countries or territories and the size of circle represents the number of AML patients ρ: Pearson's correlation coefficient; AML: acute myeloid leukemia; ASIR: age-standardized incidence rate; ASDR: age-standardized death rate; DALYs: disability-adjusted life years; SDI: socio-demographic index; EAPCs: estimated annual percentage changes

Table 1
The incidence cases and ASIR of AML in 1990 and 2021, and its temporal trends from 1990 to 2021

Table 2
The death cases and ASDR of AML in 1990 and 2021, and its temporal trends from 1990 to 2021

Table 3
The DALYs and age-standardized DALY rate of AML in 1990 and 2021, and its temporal trends from 1990 to 2021 remained basically stable and the 70 + age group had the highest incidence rates.Death rates were highest among the 70 + age group in the high SDI quintile and among 15-49 years old in the low-middle SDI quintile.