Neuroscience and Artificial Intelligence Research Group (NAIRG)
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The Neuroscience and Artificial Intelligence Research Group (NAIRG) is a research group at Hamadan University of Medical Sciences (UMSHA) that focuses on the intersection of neuroscience and artificial intelligence (AI). NAIRG was established in 2022 as a part of the Student Research Committee (SRC) of UMSHA and later became affiliated with the Department of Neuroscience, School of Science and Advanced Technologies in Medicine.
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πOur Focus:
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Research Interests:
πNeurosciences
πNeuroimaging
πComputational Neuroscience
πBrain Stimulation
πElectrophysiology
πBehavioral Neuroscience
πPersonalized Medicine
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Our main focus at NAIRG is to provide a better understanding of neuroscience and AI and the application of different methods of AI to understand medical diseases, especially neurodegenerative and neuropsychiatric disorders, with the hope of improving predicting their prognosis and monitoring these diseases.
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We have projects on various neuroscience topics, including neurodegenerative diseases, cognitive neurosciences, and neuroimaging. In particular, we conduct experimental neurosciences using electrophysiology and behavioral techniques.
Research Interests:
πNeurosciences
πNeuroimaging
πComputational Neuroscience
πBrain Stimulation
πElectrophysiology
πBehavioral Neuroscience
πPersonalized Medicine
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#NAIRG_Membership
The NAIRG is a research group that fosters the development of young and keen researchers who are interested in the nervous system and its related fields. The NAIRG provides an environment where all the members are supported and challenged by mentors who are involved in every stage of every project. The NAIRG assigns each new member an important but manageable project that suits their level of expertise. The NAIRG values mentorship, responsibility, discipline, and punctuality and strives to create a culture of learning and teaching. Members are expected to become future mentors and pass the torch to the next generation of students. This approach has enabled the NAIRG to work on many projects and publish some of them in reputable journals within a span of just over a year. The NAIRG has also become an attractive place for many students in UMSHA who want to join the group and pursue their research interests. The NAIRG owes its success to hardworking mentors, members, and ever-caring supervisors. As a community, we look forward to continually improving and delivering a better understanding of neuroscience and artificial intelligence fields in medicine to help improve people's health everywhere.
@NAIRG_Channel
The NAIRG is a research group that fosters the development of young and keen researchers who are interested in the nervous system and its related fields. The NAIRG provides an environment where all the members are supported and challenged by mentors who are involved in every stage of every project. The NAIRG assigns each new member an important but manageable project that suits their level of expertise. The NAIRG values mentorship, responsibility, discipline, and punctuality and strives to create a culture of learning and teaching. Members are expected to become future mentors and pass the torch to the next generation of students. This approach has enabled the NAIRG to work on many projects and publish some of them in reputable journals within a span of just over a year. The NAIRG has also become an attractive place for many students in UMSHA who want to join the group and pursue their research interests. The NAIRG owes its success to hardworking mentors, members, and ever-caring supervisors. As a community, we look forward to continually improving and delivering a better understanding of neuroscience and artificial intelligence fields in medicine to help improve people's health everywhere.
@NAIRG_Channel
#NAIRG_Publicationπ§
This study investigated the restorative and antimicrobial effects of Scrophularia striata hydroalcoholic extract (SHE) on first- and second-grade pressure ulcers in patients with brain and spinal cord lesions
π PDF file of this article is available in NAIRG channel
π Title: The antimicrobial and healing effect of Scrophularia striata Boiss hydroalcoholic extract on first-and second-grade pressure wounds in patients with brain and spinal cord injury: a randomized clinical trial. Evidence-Based Complementary and Alternative Medicine.
π₯ Link: https://www.hindawi.com/journals/ecam/2022/8522937/
π doi: 10.1155/2022/8522937
π Journal name: Evidence-based Complementary and Alternative Medicine
π Authors: Zahra Bagheri, Amir Larki-Harchegani, Shabnam Pourmoslemi, Amir Nili-Ahmadabadi, Ebrahim Bakhtiari, Hamid Safarpour, Ali Fathi Jouzdani, Morteza Shamsizadeh
π Abstract: The study investigated the restorative and antimicrobial effects of Scrophularia striata hydroalcoholic extract (SHE) on first- and second-grade pressure ulcers in patients with brain and spinal cord lesions
π Result:This study analyzed 140 patients, dividing them into four groups based on demographic characteristics. The patients were not significantly different in terms of gender, age, occupation, education, marriage, and residence. The study found that most patients were hospitalized due to spinal cord injury (SCI) and cerebrovascular accident (CVA), with most having grade 2 ulcers. The mean ulcer size before and ten days after intervention showed a significant difference between the four groups. The decreasing process slope of the mean ulcer size in patients of experiment group 2 was steeper compared to the control and placebo groups. By the tenth day of intervention, 63.3% of patients in experiment group 1, 100% in experimental group 2, and 26.7% in the control group had healing ulcers. No complete recovery was observed in any placebo patients during ten days of intervention. The time of complete ulcer healing patients in experiment group 2 was less than in group 1 and the control group.
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This study investigated the restorative and antimicrobial effects of Scrophularia striata hydroalcoholic extract (SHE) on first- and second-grade pressure ulcers in patients with brain and spinal cord lesions
π PDF file of this article is available in NAIRG channel
π Title: The antimicrobial and healing effect of Scrophularia striata Boiss hydroalcoholic extract on first-and second-grade pressure wounds in patients with brain and spinal cord injury: a randomized clinical trial. Evidence-Based Complementary and Alternative Medicine.
π₯ Link: https://www.hindawi.com/journals/ecam/2022/8522937/
π doi: 10.1155/2022/8522937
π Journal name: Evidence-based Complementary and Alternative Medicine
π Authors: Zahra Bagheri, Amir Larki-Harchegani, Shabnam Pourmoslemi, Amir Nili-Ahmadabadi, Ebrahim Bakhtiari, Hamid Safarpour, Ali Fathi Jouzdani, Morteza Shamsizadeh
π Abstract: The study investigated the restorative and antimicrobial effects of Scrophularia striata hydroalcoholic extract (SHE) on first- and second-grade pressure ulcers in patients with brain and spinal cord lesions
π Result:This study analyzed 140 patients, dividing them into four groups based on demographic characteristics. The patients were not significantly different in terms of gender, age, occupation, education, marriage, and residence. The study found that most patients were hospitalized due to spinal cord injury (SCI) and cerebrovascular accident (CVA), with most having grade 2 ulcers. The mean ulcer size before and ten days after intervention showed a significant difference between the four groups. The decreasing process slope of the mean ulcer size in patients of experiment group 2 was steeper compared to the control and placebo groups. By the tenth day of intervention, 63.3% of patients in experiment group 1, 100% in experimental group 2, and 26.7% in the control group had healing ulcers. No complete recovery was observed in any placebo patients during ten days of intervention. The time of complete ulcer healing patients in experiment group 2 was less than in group 1 and the control group.
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Wiley Online Library
The Antimicrobial and Healing Effect of Scrophularia striata Boiss Hydroalcoholic Extract on Firstβ and SecondβGrade Pressure Woundsβ¦
Introduction and Objectives. Pressure wound is one of the most common problems in patients with brain and spinal cord lesions leading to complications such as severe pain, infection, and frequent hos...
π Title: The antimicrobial and healing effect of Scrophularia striata Boiss hydroalcoholic extract on first-and second-grade pressure wounds in patients with brain and spinal cord injury: a randomized clinical trial. Evidence-Based Complementary and Alternative Medicine.
π₯ Link: https://www.hindawi.com/journals/ecam/2022/8522937/
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π₯ Link: https://www.hindawi.com/journals/ecam/2022/8522937/
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8522937.pdf
790.2 KB
π Title: The antimicrobial and healing effect of Scrophularia striata Boiss hydroalcoholic extract on first-and second-grade pressure wounds in patients with brain and spinal cord injury: a randomized clinical trial. Evidence-Based Complementary and Alternative Medicine.
π₯ Link: https://www.hindawi.com/journals/ecam/2022/8522937/
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π₯ Link: https://www.hindawi.com/journals/ecam/2022/8522937/
@NAIRG_Channel
#NAIRG_Publicationπ§
Aluminum phosphide (ALP) is among the most significant causes of brain toxicity and death in many countries. Curcumin (CUR), a major turmeric component, is a potent protective agent against many diseases, including brain toxicity. This study aimed to examine the probable protection potential of nanomicelle curcumin (nanomicelle-CUR) and its underlying mechanism in a rat model of ALP-induced brain toxicity.
π PDF file of this article is available in NAIRG channel
π Title: How can nanomicelle-curcumin modulate aluminum phosphide-induced neurotoxicity?: Role of SIRT1/FOXO3 signaling pathway
π₯ Link: https://www.aimspress.com/article/doi/10.3934/Neuroscience.2023005
π doi: 10.3934/Neuroscience.2023005
π Journal name: AIMS Neuroscience
2023, Volume 10, Issue 1: 56-74.
π Authors:
Milad Khodavysi
Nejat Kheiripour
Hassan Ghasemi
Sara Soleimani-Asl
Ali Fathi Jouzdani
Mohammadmahdi Sabahi
Zahra Ganji
Zahra Azizi
Akram Ranjbar
π Result: The study compared the MDA, TTG, TAC, and SOD levels of the ALP and CUR groups in brain tissue. MDA levels were significantly increased in the ALP group compared to the control group, while TTG levels were decreased in the ALP group. The ALP + CUR and ALP + nanomicelle-CUR groups had no significant difference in MDA levels compared to the control group. TAC levels were also significantly decreased in the ALP group compared to the control group, while the tissue TAC levels increased in the ALP + CUR and ALP + nanomicelle-CUR groups. The brain SOD level was significantly decreased in the ALP group compared to the control group, and the levels in the ALP + CUR and ALP + nanomicelle-CUR groups were not significantly different. The CUR and nanomicelle-CUR groups had no significant difference compared to the control group. The results suggest that the ALP group may have a higher SOD level than the CUR and nanomicelle-CUR groups.
@NAIRG_Channel
Aluminum phosphide (ALP) is among the most significant causes of brain toxicity and death in many countries. Curcumin (CUR), a major turmeric component, is a potent protective agent against many diseases, including brain toxicity. This study aimed to examine the probable protection potential of nanomicelle curcumin (nanomicelle-CUR) and its underlying mechanism in a rat model of ALP-induced brain toxicity.
π PDF file of this article is available in NAIRG channel
π Title: How can nanomicelle-curcumin modulate aluminum phosphide-induced neurotoxicity?: Role of SIRT1/FOXO3 signaling pathway
π₯ Link: https://www.aimspress.com/article/doi/10.3934/Neuroscience.2023005
π doi: 10.3934/Neuroscience.2023005
π Journal name: AIMS Neuroscience
2023, Volume 10, Issue 1: 56-74.
π Authors:
Milad Khodavysi
Nejat Kheiripour
Hassan Ghasemi
Sara Soleimani-Asl
Ali Fathi Jouzdani
Mohammadmahdi Sabahi
Zahra Ganji
Zahra Azizi
Akram Ranjbar
π Result: The study compared the MDA, TTG, TAC, and SOD levels of the ALP and CUR groups in brain tissue. MDA levels were significantly increased in the ALP group compared to the control group, while TTG levels were decreased in the ALP group. The ALP + CUR and ALP + nanomicelle-CUR groups had no significant difference in MDA levels compared to the control group. TAC levels were also significantly decreased in the ALP group compared to the control group, while the tissue TAC levels increased in the ALP + CUR and ALP + nanomicelle-CUR groups. The brain SOD level was significantly decreased in the ALP group compared to the control group, and the levels in the ALP + CUR and ALP + nanomicelle-CUR groups were not significantly different. The CUR and nanomicelle-CUR groups had no significant difference compared to the control group. The results suggest that the ALP group may have a higher SOD level than the CUR and nanomicelle-CUR groups.
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AIMS Neuroscience
How can nanomicelle-curcumin modulate aluminum phosphide-induced neurotoxicity?: Role of SIRT1/FOXO3 signaling pathway
<abstract>
<p>Aluminum phosphide (ALP) is among the most significant causes of brain toxicity and death in many countries. Curcumin (CUR), a major turmeric component, is a potent protective agent against many diseases, including brain toxicity. This studyβ¦
<p>Aluminum phosphide (ALP) is among the most significant causes of brain toxicity and death in many countries. Curcumin (CUR), a major turmeric component, is a potent protective agent against many diseases, including brain toxicity. This studyβ¦
How_can_nanomicelle-curcumin_modulate_aluminum_pho.pdf
1.3 MB
π Title: How can nanomicelle-curcumin modulate aluminum phosphide-induced neurotoxicity?: Role of SIRT1/FOXO3 signaling pathway
π₯ Link: https://www.aimspress.com/article/doi/10.3934/Neuroscience.2023005
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π₯ Link: https://www.aimspress.com/article/doi/10.3934/Neuroscience.2023005
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π Title: How can nanomicelle-curcumin modulate aluminum phosphide-induced neurotoxicity?: Role of SIRT1/FOXO3 signaling pathway
π₯ Link: https://www.aimspress.com/article/doi/10.3934/Neuroscience.2023005
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π₯ Link: https://www.aimspress.com/article/doi/10.3934/Neuroscience.2023005
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