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  • 1.
    Ng, Kevin
    et al.
    Linköpings universitet, Institutionen för biomedicinska och kliniska vetenskaper, Centrum för social och affektiv neurovetenskap. Linköpings universitet, Medicinska fakulteten.
    Lafee, Odai Waleed Mohammad
    Linköpings universitet, Institutionen för biomedicinska och kliniska vetenskaper, Centrum för social och affektiv neurovetenskap. Linköpings universitet, Medicinska fakulteten.
    Bouchatta, Otmane
    Linköpings universitet, Institutionen för biomedicinska och kliniska vetenskaper, Centrum för social och affektiv neurovetenskap. Linköpings universitet, Medicinska fakulteten.
    Makdani, Adarsh D.
    Liverpool John Moores Univ, England.
    Marshall, Andrew G.
    Univ Liverpool, England.
    Olausson, Håkan
    Linköpings universitet, Institutionen för biomedicinska och kliniska vetenskaper, Centrum för social och affektiv neurovetenskap. Linköpings universitet, Medicinska fakulteten. Region Östergötland, Sinnescentrum, Neurofysiologiska kliniken US.
    Mcintyre, Sarah
    Linköpings universitet, Institutionen för biomedicinska och kliniska vetenskaper, Centrum för social och affektiv neurovetenskap. Linköpings universitet, Medicinska fakulteten.
    Nagi, Saad
    Linköpings universitet, Institutionen för biomedicinska och kliniska vetenskaper, Centrum för social och affektiv neurovetenskap. Linköpings universitet, Medicinska fakulteten.
    Human Foot Outperforms the Hand in Mechanical Pain Discrimination2024Ingår i: eNeuro, E-ISSN 2373-2822, Vol. 11, nr 2, artikel-id 0412232024Artikel i tidskrift (Refereegranskat)
    Abstract [en]

    Tactile discrimination has been extensively studied, but mechanical pain discrimination remains poorly characterized. Here, we measured the capacity for mechanical pain discrimination using a two-alternative forced choice paradigm, with force-calibrated indentation stimuli (Semmes-Weinstein monofilaments) applied to the hand and foot dorsa of healthy human volunteers. In order to characterize the relationship between peripheral nociceptor activity and pain perception, we recorded single-unit activity from myelinated (A) and unmyelinated (C) mechanosensitive nociceptors in the skin using microneurography. At the perceptual level, we found that the foot was better at discriminating noxious forces than the hand, which stands in contrast to that for innocuous force discrimination, where the hand performed better than the foot. This observation of superior mechanical pain discrimination on the foot compared to the hand could not be explained by the responsiveness of individual nociceptors. We found no significant difference in the discrimination performance of either the myelinated or unmyelinated class of nociceptors between skin regions. This suggests the possibility that other factors such as skin biophysics, receptor density or central mechanisms may underlie these regional differences.

  • 2.
    Yu, Huasheng
    et al.
    Univ Penn, PA 19104 USA.
    Nagi, Saad
    Linköpings universitet, Institutionen för biomedicinska och kliniska vetenskaper, Centrum för social och affektiv neurovetenskap. Linköpings universitet, Medicinska fakulteten.
    Usoskin, Dmitry
    Karolinska Inst, Sweden.
    Hu, Yizhou
    Karolinska Inst, Sweden.
    Kupari, Jussi
    Karolinska Inst, Sweden.
    Bouchatta, Otmane
    Linköpings universitet, Institutionen för biomedicinska och kliniska vetenskaper, Centrum för social och affektiv neurovetenskap. Linköpings universitet, Medicinska fakulteten.
    Yan, Hanying
    Univ Penn, PA USA.
    Cranfill, Suna Li
    Univ Penn, PA 19104 USA.
    Gautam, Mayank
    Univ Penn, PA 19104 USA.
    Su, Yijing
    Univ Penn, PA 19104 USA.
    Lu, You
    Univ Penn, PA 19104 USA.
    Wymer, James
    Univ Florida, FL USA.
    Glanz, Max
    Univ Florida, FL USA.
    Albrecht, Phillip
    Integrated Tissue Dynam LLC, NY USA.
    Song, Hongjun
    Univ Penn, PA 19104 USA.
    Ming, Guo-Li
    Univ Penn, PA 19104 USA.
    Prouty, Stephen
    Univ Penn, PA USA.
    Seykora, John
    Univ Penn, PA USA.
    Wu, Hao
    Univ Penn, PA USA.
    Ma, Minghong
    Univ Penn, PA 19104 USA.
    Marshall, Andrew
    Univ Liverpool, England.
    Rice, Frank L.
    Integrated Tissue Dynam LLC, NY USA.
    Li, Mingyao
    Univ Penn, PA USA.
    Olausson, Håkan
    Linköpings universitet, Institutionen för biomedicinska och kliniska vetenskaper, Centrum för social och affektiv neurovetenskap. Linköpings universitet, Medicinska fakulteten. Region Östergötland, Sinnescentrum, Neurofysiologiska kliniken US.
    Ernfors, Patrik
    Karolinska Inst, Sweden.
    Luo, Wenqin
    Univ Penn, PA 19104 USA.
    Leveraging deep single-soma RNA sequencing to explore the neural basis of human somatosensation2024Ingår i: Nature Neuroscience, ISSN 1097-6256, E-ISSN 1546-1726Artikel i tidskrift (Refereegranskat)
    Abstract [en]

    The versatility of somatosensation arises from heterogeneous dorsal root ganglion (DRG) neurons. However, soma transcriptomes of individual human (h)DRG neurons-critical information to decipher their functions-are lacking due to technical difficulties. In this study, we isolated somata from individual hDRG neurons and conducted deep RNA sequencing (RNA-seq) to detect, on average, over 9,000 unique genes per neuron, and we identified 16 neuronal types. These results were corroborated and validated by spatial transcriptomics and RNAscope in situ hybridization. Cross-species analyses revealed divergence among potential pain-sensing neurons and the likely existence of human-specific neuronal types. Molecular-profile-informed microneurography recordings revealed temperature-sensing properties across human sensory afferent types. In summary, by employing single-soma deep RNA-seq and spatial transcriptomics, we generated an hDRG neuron atlas, which provides insights into human somatosensory physiology and serves as a foundation for translational work. Dorsal root ganglia (DRGs) contain a plethora of neuron types. The authors show that the existence of human-specific DRG neuronal types and microneurography recordings reveal distinct temperature-sensing properties across human sensory afferent types.

  • 3.
    Chaibi, Ilias
    et al.
    Cadi Ayyad Univ, Morocco.
    Bouchatta, Otmane
    Linköpings universitet, Institutionen för biomedicinska och kliniska vetenskaper, Centrum för social och affektiv neurovetenskap. Linköpings universitet, Medicinska fakulteten. Cadi Ayyad Univ, Morocco.
    Bennis, Mohamed
    Cadi Ayyad Univ, Morocco; Cadi Ayyad Univ, Morocco.
    Ba-Mhamed, Saadia
    Cadi Ayyad Univ, Morocco.
    The Role of the Anterior Cingulate Cortex in Aggression and Impulsivity2023Ingår i: Behavioral Neuroscience, ISSN 0735-7044, E-ISSN 1939-0084, Vol. 137, nr 3, s. 155-169Artikel i tidskrift (Refereegranskat)
    Abstract [en]

    Aggression is a complex social behavior that evolved in the context of defending a territory, fighting for limited resources, and competing for mates and protection. Although aggression considered as a negative or undesirable emotion is an essential part of many species repertoire of social behaviors. For humans, the motivations, actions, and limits of aggressive acts are not always clear. However, uncontrolled aggression may have destructive consequences, and it develops inappropriately into violence. At the neural level, several studies demonstrated that aggression is related to cortical abnormalities, including the anterior cingulate cortex (ACC). This review summarizes the state of the literature regarding the involvement of ACC in the neurobiology of aggression and impulsivity. We will first review structural and neuroanatomical studies, including volumetric and functional investigations of aggression. Next, we will discuss the neurochemical and neuropharmacological studies of aggression related to the ACC. We will focus mainly on the gamma-aminobutyric acid/glutamate balance, as well as the serotoninergic system. Finally, we will try to integrate these results and reconcile discrepancies in the field and suggest recommendations for future studies.

  • 4.
    Bouchatta, Otmane
    et al.
    Linköpings universitet, Institutionen för biomedicinska och kliniska vetenskaper, Centrum för social och affektiv neurovetenskap. Linköpings universitet, Medicinska fakulteten. Univ Bordeaux, France; Cadi Ayyad Univ, Morocco.
    Aby, Franck
    Univ Bordeaux, France.
    Sifeddine, Wahiba
    Cadi Ayyad Univ, Morocco.
    Bouali-Benazzouz, Rabia
    Univ Bordeaux, France.
    Brochoire, Louison
    Univ Bordeaux, France.
    Manouze, Houria
    Cadi Ayyad Univ, Morocco.
    Fossat, Pascal
    Univ Bordeaux, France.
    M'Hamed, Saadia Ba
    Cadi Ayyad Univ, Morocco.
    Bennis, Mohamed
    Cadi Ayyad Univ, Morocco.
    Landry, Marc
    Univ Bordeaux, France.
    Pain hypersensitivity in a pharmacological mouse model of attention-deficit/hyperactivity disorder2022Ingår i: Proceedings of the National Academy of Sciences of the United States of America, ISSN 0027-8424, E-ISSN 1091-6490, Vol. 119, nr 30, artikel-id e2114094119Artikel i tidskrift (Refereegranskat)
    Abstract [en]

    Clinical evidence suggests that pain hypersensitivity develops in patients with attention-deficit/hyperactivity disorder (ADHD). However, the mechanisms and neural circuits involved in these interactions remain unknown because of the paucity of studies in animal models. We previously validated a mouse model of ADHD obtained by neonatal 6-hydroxydopamine (6-OHDA) injection. Here, we have demonstrated that 6-OHDA mice exhibit a marked sensitization to thermal and mechanical stimuli, suggesting that phenotypes associated with ADHD include increased nociception. Moreover, sensitization to pathological inflammatory stimulus is amplified in 6-OHDA mice as compared to shams. In this ADHD model, spinal dorsal horn neuron hyperexcitability was observed. Furthermore, ADHD-related hyperactivity and anxiety, but not inattention and impulsivity, are worsened in persistent inflammatory conditions. By combining in vivo electrophysiology, optogenetics, and behavioral analyses, we demonstrated that anterior cingulate cortex (ACC) hyperactivity alters the ACC-posterior insula circuit and triggers changes in spinal networks that underlie nociceptive sensitization. Altogether, our results point to shared mechanisms underlying the comorbidity between ADHD and nociceptive sensitization. This interaction reinforces nociceptive sensitization and hyperactivity, suggesting that overlapping ACC circuits may be targeted to develop better treatments.

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