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Clinical Presentation of Patients with Pituitary Tumour and its Correlation to Magnetic Resonance Imaging: An Observational Study |
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Shaju Mathew, Geo Paul K Jose, Paruvakkattil Kunjan Balakrishnan, Ebitha K Elias 1. Associate Professor, Department of Neurosurgery, Government Medical College, Kottayam, Kerala, India. 2. Senior Resident, Department of Neurosurgery, Government Medical College, Kottayam, Kerala, India. 3. Professor and Head, Department of Neurosurgery, Government Medical College, Kottayam, Kerala, India. 4. Senior Resident, Department of Ophthalmology, Government Medical College, Kottayam, Kerala, India. |
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Correspondence Address : Geo Paul K Jose, ‘Kurikkattayil’, Muttambalam P.O., Kottayam-686004, Kerala, India. E-mail: geopaul87@gmail.com |
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ABSTRACT | ||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
: Introduction: Pituitary tumours are common intracranial tumours affecting mainly the 4th to 7th decade of life. A detailed understanding of these pituitary tumour patients, especially regarding their clinical and MRI profile would help in its early detection.It also help in deciding upon further management (medical or surgical or radiation), thus helping in improved outcome. Aim: To find out the common clinical presentations and the MRI findings of pituitary tumour. Materials and Methods: A cross-sectional observational study was carried out among 88 patients admitted with diagnosis of pituitary tumour in a tertiary care center from 1st June 2018 to 30th September 2019. The study involved initial clinical assessment followed by MRI brain of all the patients included in the study. To find out relationship between imaging findings and clinical symptoms statistical analysis was done. Results: The most common clinical presentations were headache in 55 patients (commonly throbbing type in frontal region) and visual field defects in 52 patients (uni/bitemporal hemianopia). A 51 (58%) patients had suprasellar extension and 35 (39.8%) patients had tumour already progressed to parasellar extension stage at time of detection of adenoma. Most of the patients detected with pituitary tumours (i.e., 63.6%) had grade two invasion. Four incidental adenomas were detected and none of them had parasellar extension. Among 35 patients with parasellar extension, 27 (77.1%) patients had visual disturbance. In 45 (51.1%) patients without parasellar extension had no sellar floor involvement. Visual disturbance was significantly associated with the parasellar extension of the tumour. Conclusion: Headache and visual field defects were the most common clinical presentation among pituitary tumour patients. Patients with tumours having parasellar extension are more likely to have visual disturbance than with patients having only suprasellar extension. Radiologically, pituitary tumours tend to expand only into suprasellar area, then it involves the parasellar area, followed by sellar floor which occurred last. | ||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
Keywords : Headache, Parasellar, Suprasellar, Visual field defect | ||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
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DOI and Others :
10.7860/IJARS/2021/48451:2703
Date of Submission: Jan 08, 2021 Date of Peer Review: Apr 05, 2021 Date of Acceptance: May 03, 2021 Date of Publishing: Oct 01, 2021 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: |
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INTRODUCTION | ||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
About 10% of intracranial tumour are constituted by pituitary tumours. The most common type of pituitary disorder is pituitary adenoma (1). Based on type of hormone secreted and primary cell of origin, pituitary adenomas are classified into non functioning and functioning adenomas (2). Pituitary tumours can also be categorised based on their size. If the tumour is more than or equal to 10 mm, it is considered a macroadenoma; if it is smaller than 10 mm, it is considered a microadenoma. Macroadenomas are less common than microadenomas (42.6% v/s 57.4%) (3). Pituitary tumour clinical presentations include signs and symptoms due to mass effect, hypersecretion of pituitary hormones, under secretion of pituitary hormones, features of pituitary apoplexy and incidental detected tumours (Table/Fig 1) (4),(5),(6),(7),(8),(9),(10),(11),(12),(13),(14),(15),(16),(17),(18),(19),(20),(21),(22),(23),(24),(25),(26),(27),(28),(29),(30). These tumours are classified acoording to extension and invasion using Modified Hardy Classification System (31). The most common age group affected are from forth to seventh decade of life (32). A clear understanding regarding various clinical presentation of pituitary tumour help in its early detection and treatment. Magnetic Resonance Imaging (MRI) is the imaging investigation preferred for pituitary tumours because of its better soft tissue contrast. MRI also provides important information regarding the gland and the adjacent anatomical structures. This helps in planning medical or surgical or radiation treatment for the patient. The study was conducted to find out the common clinical presentations and imaging findings in pituitary tumour patients and also to find out the association between extension and invasion of tumour to clinical symptoms. Current literature does not give much information regarding prediction of growth pattern of pituitary tumours using imaging. Knowledge about growth pattern in pituitary tumours is very useful in treatment planning. This study was also aimed to predict the growth pattern in pituitary tumours. The results from the study may help in early detection of pituitary tumour. This may help in early and effective treatment of these tumours. | ||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
Material and Methods | ||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
A prospective observational study was carried out in a tertiary care center from 1st June 2018 to 30th September 2019, among patients admitted to Department of Neurosurgery with diagnosis of pituitary tumour. After obtaining Ethical Committee approval (Institutional Review Board Number: 139/2018). Sample size calculation: Formula for sample size: Sample Size (N)= Za2 PQ/d2 {Za=1.96, P=prevalence of various types of pituitary tumour (percentage of nonfunctioning pituitary tumour)=40.6%, Q=(1-P)=59.4%, d=absolute precision=10%} (33) N=1.96×1.96×40.6×59.4/10×10=92.64˜93 Inclusion criteria: Diagnosed cases of pituitary tumour by neurosurgeon or neurologist or radiologist were included in this study. Exclusion criteria: Cases without proper documention of clinical presentation and cases without proper imaging studies were excluded in this study. Study Procedure The study involved assessment of clinical profiles of all pituitary tumour patients admitted in the neurosurgery ward. This included checking of the following symptoms and signs- headache, visual disturbance, vomiting, imbalance, urinary incontinence, memory impairment, 3rd, 4th, 5th, 6th cranial nerve palsies, infertility, amenorrhoea, decreased libido, galactorrhoea, Cushing’s disease, acromegaly, hyperthyroidism, hypopituitarism, features of pituitary apoplexy and asymptomatic (incidentally detected tumours). This was followed by MRI, to classify tumour according to its extension (suprasellar and parasellar extensions) and invasion (size of tumour and involvement of sellar floor) using Modified Hardy Classification system (Table/Fig 2) (31). STATISTICAL ANALYSIS Microsoft Excel software was used to enter the data which was collected. The statistical analysis was done using version 16.0 Statistical Package for the Social Sciences (SPSS) software. Analysis was done to find out the relationship between extension and invasion of tumour to clinical symptoms. Numerical data was represented as mean±SD, whereas percentages were calculated for categorical data. Cross tabs and Chi-square test were used to compare numerical and categorical variables respectively. Probability ≤0.05 was considered statistically significant. | ||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
Results | ||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
The most common age group of presentation was between 41-50 years (28.4%). The age of presentation ranged from 13-82 years, with mean age of presentation 51.23±13.72 years (Table/Fig 3). Among the 88 patients in study population, 32 (36.4%) were males and 56 (63.6%) were females. Among females, 33 (59%) patients were from the age group of 41-60 years. Male to female ratio was found to be 4:7. The common clinical presentations were headache and visual disturbance seen in 55 (62.5%) and 52 (59.1%) patients respectively (Table/Fig 4). Hormone hypersecretion was seen in 33 (37.5%) patients, whereas 55 (62.5%) patients had either normal or low hormone levels. In the study, only two patients were found without suprasellar extension. A 51 (58%) patients had suprasellar extension (i.e., stage A, B and C). A 35 (39.8%) patients had already progressed to parasellar extension stage (i.e., stage D and E) at time of detection of adenoma (Table/Fig 5). Most of the patients detected with pituitary tumour (i.e., 63.6%) had grade 2 invasion (sella normal or focally expanded tumour <10 mm) (Table/Fig 5). In the study, four incidental adenomas were detected and none of them had parasellar extension, which was found to be statistically significant. Among 35 patients with parasellar extension, 27 (77.1%) patients had visual disturbance, which was of statistical significance. In 45 (51.1%) patients without parasellar extension had no sellar floor involvement which was found to be statistically significant (Table/Fig 6). | ||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
Discussion | ||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
This study included 32 males and 56 females. Among females, 33 (59%) patients were from the age group of 41-60 years. Male: female ratio was 4:7. The observation by Gittleman H et al., in their study during the period of 2004-2009 in United States, had reported similar results with females being most commonly affected (32). The index study showed 41-50 years age group was most commonly affected by pituitary tumour, 28.4% cases came from this age group. According to Gittleman H et al., the most common age group of presentation was from fourth to seventh decade of life (32). An Indian study by Bhuyan M et al., among 32 patients, showed median age of detection pituitary tumour as 37 years and female to male ratio of presentation as 1.67, thus supporting the findings in present study (33). In the study, the common clinical presentations were headache and visual disturbance seen in 62.5% and 59.1% patients respectively. The headache was usually in the frontal region which was throbbing in quality. Other location of headache described by patients included retro-orbital region, holocranial, nonspecific. Though, a detailed analysis regarding location and quality of headache in the patients were not done in this study, a study by Gondim JA et al., in 2009 had similar observation in regard to the location of headache (34). The reason stated for development of headache includes traction, displacement or inflammation of intracranial pain-sensitive structures (such as basal 13duramater, cranial nerves and blood vessels), meningeal irritation or its involvement in spreading tumours, due to involvement cavernous sinus (contains structures that are sensitive to pain, such as the trigeminal nerve/ganglion and internal carotid artery), increase in intrasellar pressure, psychological and biochemical- neuroendocrine causes (34). The most common visual disturbance was visual field defects (unilateral/bilateral temporal hemianopia) in this study. The mass effect caused by the tumour is the main reason for visual field defect (9). Jane JA et al., and Thapar K et al., have described pituitary hyperfunction symptoms (such as galactorrhoea, decreased libido, amenorrhoea, infertility, acromegaly) as common clinical presentation (4),(5). But in this study, 62.5% patients had hormone level either normal or low, which suggest that most of the tumours in the index series were non functioning adenomas and only 37.5% patients had hormone hypersecretion. Hence, the signs and symptoms due to mass effect were the most common clinical presentations in this study. The study by Bhuyan M et al., had reported similar results, with most common clinical presentation as headache and visual disturbance seen in 75% and 50% patients respectively (33). In the study, 4 (4.5%) incidental adenomas were detected, of which one had no suprasellar extension and three had suprasellar extension. But none of them were having parasellar extension, which was found to be statistically significant. This suggests that patient with parasellar extension of pituitary tumour rarely remain asymptomatic. A 10-12% of patients in the series by Molitch ME were incidentally detected tumours (diagnosed by routine MRI, which showed subtle signal intensity changes in pituitary gland) (35). In this study, the radiological classification of lesions was done based on Wilson’s Modification of Hardy’s classification. Regarding extension of tumour, the most common radiological extension was stage B which included 24 patients (27.2%). This was followed by 19 patients each in stages A and D. A 51 (58%) patients had suprasellar extension (i.e., stage A, B and C). A 35 (39.8%) patients had already progressed to parasellar extension stage (i.e., stage D and E) at time of detection of adenoma. Only two patients were found without suprasellar extension. Ramakrishnan VR et al., in their study on 106 patients, had reported suprasellar extension in 67% patients (36). Regarding sellar floor invasion, most of the patients (i.e., 63.6%) were detected to have grade 2 invasion (sella normal or focally expanded tumour <10 mm). Whereas Grade 1 invasion (sella normal or focally expanded, tumour 10 mm) was found only in 8% patients. A 25 (28.4%) patients had sellar floor erosion (grade 3 and grade 4). Similar percentages were reported in the study by Scheithauer BW et al., in 1986 among 365 pituitary tumour cases which estimated rate of gross invasion by pituitary adenomas as approximately 35% (37). In patients without parasellar extension (51), 26 had no visual disturbance. But among 35 with parasellar extension, 27 (77.1%) had visual disturbance. Pituitary macroadenoma with suprasellar extension usually develop superior temporal quadrantanopia, but this is often neglected by the patients and when patient presents with visual disturbance, tumour would have extended to parasellar areas and may also have involved other cranial nerves (38). This might explain the reason for statistically significant relationship between parasellar extension and visual disturbance. In this study, when sellar floor involvement was compared with parasellar extension, 45 (51.1%) patients without parasellar extension (i.e., stage 0, and stage A, B, C) did not have sellar floor erosion (i.e., Grade 1 and 2). Where as 19 (21.5%) patients had both parasellar extension and sellar floor erosion. Again 35 (39.8%) patients had parasellar extension, whereas 25 (28.4%) patients only had sellar floor erosion. These findings were found to be statistically significant. This means initially pituitary tumours tend to expand only in suprasellar area without involving the parasellar region or sellar floor. But as it starts to expand further, parasellar extension tend to occur first, and sellar floor involvement occurs last. This may be explained by the mechanical property of bone which is hard to erode, hence supra and parasellar extension may occur earlier than sella floor erosion. Limitation(s) The study had more number of patients with non functioning adenomas, due to bias in admission (as most of the functioning adenomas like prolactinomas where managed medically on outpatient basis). | ||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
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Original article / research
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