Year :
2022
| Month :
December
| Volume :
16
| Issue :
12
| Page :
QC09 - QC13
Full Version
Prevalence of Abnormal Uterine Bleeding and its Associated Risk Factors in Women of Perimenopausal Age Group- A Retrospective Study
Published: December 1, 2022 | DOI: https://doi.org/10.7860/JCDR/2022/59994.17252
Rajani Vaidya, S Vinayachandran, Sumangala Devi, B Prejisha, G Lekshminath, Sily Sreedharan, PK Jahrin
1. Assistant Professor, Department of Obstetrics and Gynaecology, Malabar Medical College, Kozhikode, Kerala, India.
2. Professor, Department of Obstetrics and Gynaecology, Malabar Medical College, Kozhikode, Kerala, India.
3. Professor, Department of Obstetrics and Gynaecology, Malabar Medical College, Kozhikode, Kerala, India.
4. Professor, Department of Obstetrics and Gynaecology, Malabar Medical College, Kozhikode, Kerala, India.
5. Professor, Department of Obstetrics and Gynaecology, Malabar Medical College, Kozhikode, Kerala, India.
6. Professor, Department of Pathology, Malabar Medical College, Kozhikode, Kerala, India.
7. Junior Resident, Department of Obstetrics and Gynaecology, Malabar Medical College, Kozhikode, Kerala, India.
Correspondence Address :
Rajani Vaidya,
No. 302, Om Shakti Nivas, 3rd Floor, Jalaram Industrial Estate, Bangalore-560076, Karnataka, India.
E-mail: dr.rajanivaidya@gmail.com
Abstract
Introduction: Abnormal Uterine Bleeding (AUB) is defined as any deviation from the normal menstrual cycle that is abnormal in regularity, duration, volume and frequency. AUB may be accompanied by pain and discomfort which presents a substantial burden on patient’s health, quality of life, society and healthcare system. There is also an increased incidence of associated co-morbidities like thyroid disease, diabetes and hypertension in AUB cases.
Aim: To estimate the prevalence of AUB according to the PALM-COEIN classification and its associated risk factors in the perimenopausal age group.
Materials and Methods: This retrospective study was conducted in the Gynaecology Department of Malabar Medical College, Kozhikode, Kerela, India. The data was collected from the medical records and computerised system of the hospital for a period of one year from January 2021 to December 2021. A total of 225 patients in the perimenopausal age group (40 years and above) attending Gynaecology Outpatient Department (OPD) and admitted with complaints of AUB was included. Patient’s information such as age, menstrual history, obstetric history, medical and surgical history, laboratory tests, imaging findings, endometrial biopsy results was obtained and analysed. Data was entered in Microsoft excel and analysed by using Statistical Package for the Social Science (SPSS) version 24.0.
Results: The total number of patients attending the Gynaecology OPD during the study period was 11765. The total number of AUB cases during the study period were 2154, so the prevalence for AUB was 18.3%. For the associated risk factors, 255 patients were considered, where maximum number of patients 103 (45.3%) were in the age group of 45-49 years. Structural causes accounts for 175 (77.6%) cases. Hypertension was the most common risk factor associated with AUB 68 (30.2%), followed by diabetes 32 (14.2%) and thyroid disorders 15 (6.6%).
Conclusion: The prevalence of AUB was 18.3% in present study. Abnormal Uterine Bleeding-Ovulatory dysfunction and Abnormal Uterine Bleeding- Endometrial had statistically significant association with thyroid disease.
Keywords
Co-morbidities, Endometrial biopsy, Heavy menstrual bleeding, Thyroid disease
Introduction
Abnormal Uterine Bleeding (AUB) is a common condition in the perimenopausal age group women (1). AUB leads to loss of productivity and may result in surgical interventions including hysterectomy. More than one third of the patients present with AUB to the OPD (1). The management of such a common ailment in a population with wide healthcare diversity like India, requires uniform clinical practice guidelines. The main goal of AUB management is to identify the patients with potential risk of developing malignancy and to rule out the underlying endometrial hyperplasia with atypia or endometrial cancer by subjecting to histopathological examination (1). The International Federation of Gynaecology and Obstetrics (FIGO) and the American College of Obstetricians and Gynaecologists (ACOG) have recommended that a systematised nomenclature, the PALM-COEIN acronym, [Polyp, Pdenomyosis, Leiomyoma, Malignancy, and Hyperplasia, Coagulopathy, Ovulatory dysfunction, Endometrial, Iatrogenic, and not yet classified] be used to describe abnormal menses and to abandon the terminologies like menorrhagia and menometrorrhagia. (1),(2) A standard menstrual pattern index has been incorporated in the classification based on frequency, duration, regularity, volume and intermenstrual bleeding (2),(3).
The PALM-COEIN classification is aetiopathogenesis based where PALM describes the structural (organic) causes like polyp, adenomyosis, leiomyoma, malignancy and COIEN denoting the non structural (Non organic) causes like coagulopathy, ovulatory dysfunction and other causes of AUB (1),(2) The reported prevalence of AUB in India is about 17.9% (4). Previous studies have shown that prevalence varies between different regions and it ranges between 10-30% (4),(5),(6). AUB and Heavy Menstrual Bleeding (HMB) are not synonymous. HMB is defined as excessive menstrual blood loss which interferes with a woman’s physical, emotional and social quality of life. (1) The diagnosis of AUB depends on comprehensive assessment of the medical history and examination combined with blood tests, imaging modalities and histopathology. Different bleeding patterns also helps in the clinical diagnosis of various causes of AUB. The bleeding patterns, according to the new nomenclature is based on frequency, regularity, duration and volume of blood flow during menses. Based on this, it is categorised into frequent/infrequent cycles, regular/irregular cycles, prolonged/shortened cycles, heavy/light flow (1).
Diabetes and hypertension are known risk factors associated in the people at risk of developing endometrial malignancy and premalignant conditions (1). The management options for women with AUB is either medical or surgical interventions. Medical management is the first line therapeutic option once malignancy has been ruled out. Surgical management includes both minimally invasive and open techniques such as hysterectomy and myomectomy (1). There are only few studies comparing the association of AUB in perimenopausal age group with medical disorders (4),(5),(6). In this study, we have analysed the perimenopausal age group and associated co-morbidities compared to the other studies where reproductive age group population was considered.
Hence, present study was conducted to find the association and prevalence of medical co-morbidities in the people with AUB and to analyse the prevalence of AUB according to the PALM COEIN classification in perimenopausal age group and the risk factors associated with it.
Material and Methods
This retrospective study was conducted in the Department of Obstetrics and Gynaecology (OBG), Malabar Medical College, Kozhikode, Kerala, India. The data of January 2021 to December 2021 was collected retrospectively and data were analysed during March 2022 to July 2022. Ethical Committee clearance was obtained before collecting the data [IEC no-MMCHRC &IEC/2022]. As it is a retrospective observational study, data was collected from the medical records, verbal telephonic consent was taken and confidentiality was maintained.
Inclusion criteria: The patients in the perimenopausal age group (40 years and above) attending OBG, OPD and admitted with complaints of AUB were included.
Exclusion criteria: Patients with pregnancy and pregnancy related conditions, postmenopausal women, vaginal bleeding caused by vaginal and cervical causes were excluded.
Sample size calculation: Sample size was calculated using the formula:
n=Z2 P(100-P)/ d2
Where n=sample size,
Z=standard normal deviate (for 95% confidence interval, the value is taken as 1.96)
P=prevalence or proportion of interest (from previous similar studies)
d=precision (allowable error)
N=(1.96)2*30*70/ (6)2
=224.09
For an estimated prevalence of 30% AUB, with 6% absolute precision, 95% confidence interval, a minimum sample size of 225 was calculated (1),(4).
Study Procedure
• Data Collection: The data was collected retrospectively from the medical records and computerised system of the hospital. Patient’s information such as age, parity, menstrual history (Bleeding patterns according to FIGO classification (1), obstetric history, medical [associated co-morbidities] and surgical history, laboratory tests {Complete Blood Count (CBC), Coagulation tests, Thyroid Stimulating Hormone (TSH), Prolactin, Random Blood Sugar (RBS)], imaging findings (transabdominal/transvaginal ultrasound), endometrial biopsy results were obtained. The data was collected through a structured proforma. For prevalence of AUB, total number of AUB cases among the total number of patients attending the Gynaecology OPD was taken.
• As per the PALM-COEIN classification system (2), the potential causes of AUB were established and then categorised accordingly. The diagnosis was done, according to the FIGO classification system by one or more of these assessments like history, physical examination, imaging studies, blood investigations. Histopathological examination by endometrial sampling was employed in the OPD whenever required for diagnosis.
P-Polyps categorised as present or absent based on the history, per speculum examination, ultrasound/histopathological examination.
A-Adenomyosis diagnosis was made based on history, ultrasound features (asymmetrical myometrial appearance and enlarged uterus).
L-Leiomyoma identified by clinical examination and ultrasound.
M-If malignancy or premalignancy was suspected, endometrial biopsy will be obtained.
C-Coagulopathy was identified by medical history and diagnosed by coagulation tests.
O-Ovulatory dysfunction included AUB cases due to anovulation, attributable to endocrinopathies, polycystic ovarian syndrome, hypo/hyperthyroidism, hyperprolactinaemia and weight changes.
E-Endometrial causes include those AUB cases who have predictable and cyclical bleeding typical to ovulatory cycles. The cause may be endometrial in origin. It is a diagnosis of exclusion.
I-Iatrogenic group includes intrauterine contraceptives, gonadal steroids, antibiotics, anticoagulants.
N-Not yet classified, rare pathologies or poorly defined causes which do not fit in the above categories.
• Bleeding pattern was defined by following FIGO 2018 criteria (1).
1. Frequency-amenorrhoea for duration of 90 days, cycle length >38 days (infrequent) or <24 days (frequent).
2. Duration-normal duration is ≤8 days; prolonged duration >8 days.
3. Regularity-normal or regular (shortest to longest variation ≤7-9 days); irregular (≥8-10 days).
4. Volume-only patient determined-light, normal and heavy; heavy (HMB)-bleeding volume sufficient to interfere with the woman’s quality of life.
5. Intermenstrual bleeding-bleeding between cyclically regular onset of menses, either random or cyclic.
Statistical Analysis
Data was entered in MS excel and analysed by using SPSS version 24.0. Descriptive statistical measure like percentage and inferential statistical test like Chi-square and Fisher’s exact probability test was applied. Association was interpreted statistically significant at p-value <0.05. Categorical variables were summarised as percentages. The statistical analysis was done on the basis of percentage distribution of the total number of patients. The results are expressed in terms of percentages and proportions.
Results
The total number of patients attending the Gynaecology OPD during the study period was 11765. To know the prevalence, total AUB cases encountered OBG OPD during the study duration was considered. The total number of AUB cases during the study period was 2154. The prevalence of AUB was 18.3% [2154/11765]. Among these AUB cases, the data of 225 patients was collected through random sampling, to study the associated factors.
Structural (polyp+adenomyosis+leiomyoma+malignancy) causes accounts for 175 (77.6%) cases as per the PALM-COEIN classification, leiomyoma (AUB-L) was the most prevalent cause of AUB in the study. Next common cause of abnormal uterine bleeding was adenomyosis (AUB-A) followed by AUB-P (Table/Fig 1).
Maximum number of patients, 102 (45.3%) were in the age group of 45-49 years followed by 90 (40%) patients aged between 40-44 years and 33 (14.6%) aged 50 years and above.
Majority of patients, 88 (39.1%), complained of HMB as chief complaint. The other menstrual irregularities found were prolonged bleeding 52 (23.1%), frequent bleeding 35 (15.5%) and intermenstrual bleeding 24 (10.6%). Around 68 (30.2%) women had associated hypertension with AUB, followed by diabetes and thyroid disorders (Table/Fig 2). Hypertension was the most common risk factor associated with AUB. Hypertension was seen in 23 (26.1%) AUB-L patients, 13 (26.5%) AUB-A cases and 11 (50%) AUB-O cases. Among 88 AUB-L patients, 23 patients had associated hypertension. However, the association between hypertension and none of the types of AUB was statistically significant (Table/Fig 3).
Diabetes mellitus was also seen more commonly in AUB-L, AUB-O, AUB-A. Out of total 88 patients with AUB-L, 8 had diabetes and there was a significant association found between diabetes and AUB-L. However, the association between hypertension and none of the types of AUB other than AUB-L was statistically significant (Table/Fig 4).
Thyroid diseases was seen more commonly in AUB-O, AUB-E. Out of 22 AUB-O cases, 5 (22.7%) patients had associated thyroid disease. Among 20 AUB-E cases, 4 (25%) patients had a history of thyroid disease. AUB-O and AUB-E had statistically significant association with thyroid diseases (Table/Fig 5).
Discussion
Prevalence of AUB among the patients attending Gynaecology OPD during the study period was 18.3%. Kotagasti T in their study, found prevalence of AUB as 18.23% which is similar to present study (6). The prevalence of AUB varies between 9-14% among menarche and menopause women (7). In India, prevalence of AUB is reported to be 17.9% (4). AUB was found to be more common in 45-49 years (45.3%) of age group followed by 40-44 years (40%) of age group. The comparison of findings of present study with contrast studies (8),(9),(10) are shown in (Table/Fig 6).
The incidence of menstrual disorders increases with increase in age (10). In this study, HMB was the most common complaint found in 39.1% women. Similar findings were reported by Nair R and Mallikarjuna M, (8), which found heavy menstrual bleeding in 64% followed by intermenstrual bleeding in 18% of cases. The most common cause of AUB in the present study is leiomyoma with a prevalence of 39.10%, followed by adenomyosis (21.7%) and polyp (13.3%), ovulatory, unlike studies by Gouri SR et al., (11) and Goel P and Rathore SB, (12) where most common was AUB-O but disorders were comparable to Qureshi FU and Yusuf AW, (13) and Ratnani R and Meena NA, (14), where the common cause of AUB was leiomyoma. The comparison of findings of present study with contrast studies [11-14] are shown in (Table/Fig 7).
AUB is one of the common menstrual problems faced by women during their perimenopausal period, which is defined as the period of 2-8 years preceding menopause and one year after the final menses (15). Follicular development during perimenopause is very unpredictable which leads to variable estrogen levels. This results in anovulatory cycles which causes irregular abnormal uterine bleeding. (15)
The prevalence of AUB-L from previous studies varies between 9-30% (16). Prevalence of AUB-L is more with advancing age, 35.1% in 40-49 years age group when compared to young people i.e. (24.3%) in age group of 30-39 years (16). AUB-M accounts for 1.9-5% of AUB cases (16). The prevalence of AUB -M in the present study was 3.5%.
The prevalence of adenomyosis is different among different subset of population. Prevalence of adenomyosis in women undergoing assisted reproductive technology is 20-25% (17), with associated endometriosis in 20-80% (18), and 20.9% in the general population undergoing ultrasound (19). Uterine polyps are hyperplastic overgrowths of endometrial glands with prevalence of 7.8-34.9% (20).
Hypertension is the most common co-morbidity which was associated with AUB in the present study (30.8%), followed by diabetes and thyroid disease. Both hypertension and fibroid are highly prevalent diseases that are associated with significant subsequent morbidity [21,22]. Both these conditions involve alterations of smooth muscle cells; in case of fibroids, there are alterations seen in the myometrium and vascular smooth muscle, whereas in hypertension, only the vascular smooth muscle is altered. Hypertension is a consistently identified risk factor for uterine fibroids (23).
In the study conducted by Subedi S et al., thyroid disorders were seen in 10.6% patients with AUB. Thus, there is an association among causes of AUB and medical disorders (24). The perimenopausal age is also associated with development of medical comorbidities like diabetes, hypertension (25). Significant association was found between thyroid disease and AUB-O and AUB-E which explains the hormonal imbalance and causes of AUB. In the study done by Mitra N et al., hypertension was found in 18% patients, followed by diabetes in 12% patients of AUB, followed by hypothyroidism in 6% patients (26).
Limitation(s)
Because of the limitations in data collection and small sample size, the association between hypertension and diabetes could not be established adequately in the present study. The association of medical co-morbidities with AUB was also limited only to hypertension, diabetes, thyroid disease.
Conclusion
The prevalence of AUB was 18.3% in the study population. AUB-O and AUB-E had statistically significant association with thyroid diseases. Clinicians should emphasise in the assessment and treatment of co-existent risk factors. Structural causes were the most common cause of AUB, among which AUB-L accounted for the majority of cases. A detailed history with special importance on age and type of bleeding pattern with gynaecologic examination helps in reaching a proper diagnosis in the OPD. PALM-COEIN classification helps in reaching the proper diagnosis and to decide the management options for different causes. This study serves as a pilot analysis to assess the association between the different AUB types and chronic medical conditions.
Reference
| 1. | Munro MG, Critchley HOD, Fraser IS, FIGO Menstrual Disorders Committee. The two FIGO systems for normal and abnormal uterine bleeding symptoms and classification of causes of abnormal uterine bleeding in the reproductive years: 2018 revisions. Int J Obs Gynecol. 2018;143(3):393-08.
[ CrossRef] [ PubMed] | 2. | Munro MG, Critchley HO, Broder MS, Fraser IS, FIGO Working Group on Menstrual Disorders. FIGO classification system (PALM-COEIN) for causes of abnormal uterine bleeding in nongravid women of reproductive age. Int J Gynecol Obstet. 2011;113(1):03-13.
[ CrossRef] [ PubMed] | 3. | Management of acute abnormal uterine bleeding in nonpregnant reproductive-aged women. Committee Opinion No. 557. American College of Obstetricians and Gynecologists. Obstet Gynecol. 2013;121:891-96.
[ CrossRef] [ PubMed] | 4. | Sharma A, Dogra Y. Trends of AUB in tertiary centre of Shimla hills. J Midlife Health. 2013;4(1):67-68.
[ CrossRef] [ PubMed] | 5. | Kazemijaliseh H, Tehrani FR, Behboudi-Gandevani S, Khalili D, Hosseinpanah F, Azizi F. A population-based study of the prevalence of abnormal uterine bleeding and its related factors among iranian reproductive-age women: An updated data. Arch Iran Med. 2017;20(9):558-63.
| 6. | Kotagasti T. Prevalence of different menstrual irregularities in women with abnormal uterine bleeding (AUB)-an observational study. Int J Curr Res. 2015;7(10):66-70.
| 7. | Fraser IS, Langham S, Uhl-Hochgraeber K. Health-related quality of life and economic burden of abnormal uterine bleeding. Expert Rev Obstet Gynecol. 2009;4(2):179-89.
[ CrossRef] | 8. | Nair R, Mallikarjuna M. Clinical profile of patients with abnormal uterine bleeding at a tertiary care hospital. Int J Reprod Contracept Obstet Gynecol. 2015;4(6):1753-57.
[ CrossRef] | 9. | Kumari A, Kumar R. Abnormal uterine bleeding in perimenopausal age: An observational study. Indian J Obstet Gynecol Res. 2018;5(4):539-43.
[ CrossRef] | 10. | Sinha K, Gurung P, Sinha HH, Bhadani PP. Study on abnormal uterine bleeding among adult women in a tertiary care hospital in Bihar, India. Int J Reprod Contracept Obstet Gynecol. 2018;7(8):3136-41.
[ CrossRef] | 11. | Gouri SR, Lakshmi PV, Rani NG, Kumar NA. Categorization of the causes of abnormal uterine bleeding according to PALM-COEIN classification. Int J Sci Study. 2016;4(2):104-07.
| 12. | Goel P, Rathore SB. PALM-COEIN FIGO classification for diagnosis of abnormal uterine bleeding: Practical Utility of same at Tertiary Care Centre in North India. Sch J App Med Sci. 2016;4(8A):2771-73.
| 13. | Qureshi FU, Yusuf AW. Distribution of causes of abnormal uterine bleeding using the new FIGO classification system. JPMA. 2013;63(8):973-75.
| 14. | Ratnani R, Meena NA. Clinico-pathological analysis of causes of abnormal uterine bleeding according to PALM-COEIN classification: Study based in a rural teaching hospital of Central India. J Med Sci Clin Res. 2017;5(09):28196-00.
[ CrossRef] | 15. | World Health Organization. Research on menopause in the 1990’s: Report of a WHO Scientific group. Geneva: WHO Technical Report Series number 866; 1996.
| 16. | Sun Y, Wang Y, Mao L, Wen J, Bai W. Prevalence of abnormal uterine bleeding according to new International federation of gynecology and obstetrics classification in Chinese women of reproductive age: A cross-sectional study. Medicine. 2018;97(31):e11457.
[ CrossRef] [ PubMed] | 17. | Puente JM, Fabris A, Patel J, Patel A, Cerrillo M, Requena A. et al. Adenomyosis in infertile women: Prevalence and the role of 3D ultrasound as a marker of severity of the disease. Reprod Biol Endocrinol. 2016;14(1):60.
[ CrossRef] [ PubMed] | 18. | Di Donato N, Montanari G, Benfenati A, Leonardi D, Bertoldo V, Monti G, et al. Prevalence of adenomyosis in women undergoing surgery for endometriosis. Eur J Obstet Gynecol Reprod Biol. 2014;181:289-93.
[ CrossRef] [ PubMed] | 19. | Eisenberg VH, Arbib N, Schiff E, Goldenberg M, Seidman DS, Soriano D. Sonographic signs of adenomyosis are prevalent in women undergoing surgery for endometriosis and may suggest a higher risk of infertility. Biomed Res Int. 2017;2017:8967803.
[ CrossRef] [ PubMed] | 20. | Lee SC, Kaunitz AM, Sanchez-Ramos L, Rhatigan RM. The oncogenic potential of endometrial polyps: A systematic review and meta-analysis. Obstet Gynecol. 2010;116(5):1197-205.
[ CrossRef] [ PubMed] | 21. | Muntner P, Carey RM, Gidding S, Jones DW, Taler SJ, Wright Jr JT, et al. Potential US population impact of the 2017 ACC/AHA high blood pressure guideline. Circulation. 2018;137(2):109-18.
[ CrossRef] [ PubMed] | 22. | Stewart EA. Clinical practice. Uterine fibroids. N Engl J Med. 2015;372(17):1646-55.
[ CrossRef] [ PubMed] | 23. | Stewart EA, Cookson CL, Gandolfo RA, Schulze-Rath R. Epidemiology of uterine fibroids: A systematic review. BJOG: An International Journal of Obstetrics & Gynecology. 2017;124(10):1501-12.
[ CrossRef] [ PubMed] | 24. | Subedi S, Banerjee B, Manisha C. Thyroid disorders in women with dysfunctional uterine bleeding. Journal of Pathology of Nepal. 2016;6(12):1018-20.
[ CrossRef] | 25. | Matthews KA, Gibson CJ, El Khoudary SR, Thurston RC. Changes in cardiovascular risk factors by hysterectomy status with and without oophorectomy: Study of women’s health across the nation. J Am Coll Cardiol. 2013;62(3):191-200.
[ CrossRef] [ PubMed] | 26. | Mitra N, Patil P, Sethia A. Etiological factors of abnormal uterine bleeding according to PALMCOEIN classification in perimenopausal women in a tertiary care centre. Int J Reprod Contracept Obstet Gynecol. 2020;9(2):799-04. [ CrossRef] |
DOI: 10.7860/JCDR/2022/59994.17252
Date of Submission: Sep 03, 2022
Date of Peer Review: Sep 21, 2022
Date of Acceptance: Nov 21, 2022
Date of Publishing: Dec 01, 2022
AUTHOR DECLARATION:
• Financial or Other Competing Interests: None
• Was Ethics Committee Approval obtained for this study? Yes
• Was informed consent obtained from the subjects involved in the study? Yes
• For any images presented appropriate consent has been obtained from the subjects. NA
PLAGIARISM CHECKING METHODS:
• Plagiarism X-checker: Sep 09, 2022
• Manual Googling: Nov 15, 2022
• iThenticate Software: Nov 18, 2022 (19%)
ETYMOLOGY: Author Origin
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