Minoo Sisakhti scite author profile

Introduction: The Iranian Brain Imaging Database (IBID) was initiated in 2017, with 5 major goals: provide researchers easy access to a neuroimaging database, provide normative quantitative measures of the brain for clinical research purposes, study the aging profile of the brain, examine the association of brain structure and function, and join the ENIGMA consortium. Many prestigious databases with similar goals are available. However, they were not done on an Iranian population, and the battery of their tests (e.g. cognitive tests) is selected based on their specific questions and needs. Methods: The IBID will include 300 participants (50% female) in the age range of 20 to 70 years old, with an equal number of participants (#60) in each age decade. It comprises a battery of cognitive, lifestyle, medical, and mental health tests, in addition to several Magnetic Resonance Imaging (MRI) protocols. Each participant completes the assessments on two referral days. Results: The study currently has a cross-sectional design, but longitudinal assessments are considered for the future phases of the study. Here, details of the methodology and the initial results of assessing the first 152 participants of the study are provided. Conclusion: IBID is established to enable research into human brain function, to aid clinicians in disease diagnosis research, and also to unite the Iranian researchers with interests in the brain.

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The Effect of Cognitive Load on the Retrieval of Long-Term Memory: An fMRI Study

Sisakhti

Sachdev

Batouli

2021

Front. Hum. Neurosci.

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One of the less well-understood aspects of memory function is the mechanism by which the brain responds to an increasing load of memory, either during encoding or retrieval. Identifying the brain structures which manage this increasing cognitive demand would enhance our knowledge of human memory. Despite numerous studies about the effect of cognitive loads on working memory processes, whether these can be applied to long-term memory processes is unclear. We asked 32 healthy young volunteers to memorize all possible details of 24 images over a 12-day period ending 2 days before the fMRI scan. The images were of 12 categories relevant to daily events, with each category including a high and a low load image. Behavioral assessments on a separate group of participants (#22) provided the average loads of the images. The participants had to retrieve these previously memorized images during the fMRI scan in 15 s, with their eyes closed. We observed seven brain structures showing the highest activation with increasing load of the retrieved images, viz. parahippocampus, cerebellum, superior lateral occipital, fusiform and lingual gyri, precuneus, and posterior cingulate gyrus. Some structures showed reduced activation when retrieving higher load images, such as the anterior cingulate, insula, and supramarginal and postcentral gyri. The findings of this study revealed that the mechanism by which a difficult-to-retrieve memory is handled is mainly by elevating the activation of the responsible brain areas and not by getting other brain regions involved, which is a help to better understand the LTM retrieval process in the human brain.

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Investigating A Hypothesis on The Mechanism of Long-Term Memory Storage

Batouli

Sisakhti

2019

Neuroquantology

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Memory is a fundamental cognitive function of the human, and long-term memory (LTM) plays a substantial role in it. Despite all the research, the mechanism of the storage of LTM data in the brain, as well as the brain areas responsible for it, are not clearly identified yet. There is an ancient philosophical idea that the human memory is stored in an extracorporeal space, i.e. the human soul. In this study, using a materialistic approach, we aimed to take one step in investigating the role of human soul in brain functionality by assessing the compliance of this old idea with the available neuroscientific facts. Although with the current knowledge of the human it is not possible to accept nor to deny or examine the existence of soul, we think people in the fields of neuroscience, psychology, or psychiatry should start speaking about "human soul" in their works; belief in soul is nearly as old as the history of human, and one day people should start to scientifically investigate it.

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A Probabilistic Atlas of the Pineal Gland in the Standard Space

Razavi

Raminfard

Hormozi

et al. 2021

Front. Neuroinform.

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Pineal gland (PG) is a structure located in the midline of the brain, and is considered as a main part of the epithalamus. There are numerous reports on the facilitatory role of this area for brain function; hormone secretion and its role in sleep cycle are the major reports. However, reports are rarely available on the direct role of this structure in brain cognition and in information processing. A suggestion for the limited number of such studies is the lack of a standard atlas for the PG; none of the available MRI templates and atlases has provided parcellations for this structure. In this study, we used the three-dimensional (3D) T1-weighted MRI data of 152 healthy young volunteers, and provided a probabilistic map of the PG in the standard Montreal Neurologic Institute (MNI) space. The methods included collecting the data using a 64-channel head coil on a 3-Tesla Prisma MRI Scanner, manual delineation of the PG by two experts, and robust template and atlas construction algorithms. This atlas is freely accessible, and we hope importing this atlas in the well-known neuroimaging software packages would help to identify other probable roles of the PG in brain function. It could also be used to study pineal cysts, for volumetric analyses, and to test any associations between the cognitive abilities of the human and the structure of the PG.

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Minoo Sisakhti

Iranian Brain Imaging Database: A Neuropsychiatric Database of Healthy Brain

The Effect of Cognitive Load on the Retrieval of Long-Term Memory: An fMRI Study

Investigating A Hypothesis on The Mechanism of Long-Term Memory Storage

A Probabilistic Atlas of the Pineal Gland in the Standard Space

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