BACKGROUND: Deep brain stimulation (DBS) in the ventral tuberal hypothalamus (VTH) is currently under investigation for the treatment of severe obesity. Stimulation impact on a number of closely related hypothalamic neural systems could potentially influence normal hypothalamic function and thereby generate adverse side effects. OBJECTIVE: To assess the feasibility and safety of VTH DBS in a non-primate large animal model. METHODS: In the VTH of 6 Göttingen minipigs, quadropolar leads were implanted bilaterally (n = 2) or unilaterally (n = 4), using optimized MRI sequences allowing identification of major diencephalic landmarks. Heart rate, weight, behavior and nighttime locomotor activity were recorded throughout the study period. Two of the unilaterally implanted minipigs were examined with [15O]H2O positron emission tomography (PET) scans performed in DBS-off and DBS-on mode. RESULTS: VTH DBS elicited an amplitude-dependent increase in heart rate and transient aggressive behavior. PET demonstrated that VTH DBS caused a global increase in cerebral blood flow velocities and decreased mean transit time. CONCLUSIONS: VTH DBS results in behavioral and physiological changes, which may derive from activation of closely related limbic and autonomic networks. Caution and further studies of longer length should be requested before this procedure is used more widely in humans.
BACKGROUND: Deep brain stimulation (DBS) in the ventral tuberal hypothalamus (VTH) is currently under investigation for the treatment of severe obesity. Stimulation impact on a number of closely related hypothalamic neural systems could potentially influence normal hypothalamic function and thereby generate adverse side effects. OBJECTIVE: To assess the feasibility and safety of VTH DBS in a non-primate large animal model. METHODS: In the VTH of 6 Göttingen minipigs, quadropolar leads were implanted bilaterally (n = 2) or unilaterally (n = 4), using optimized MRI sequences allowing identification of major diencephalic landmarks. Heart rate, weight, behavior and nighttime locomotor activity were recorded throughout the study period. Two of the unilaterally implanted minipigs were examined with [15O]H2O positron emission tomography (PET) scans performed in DBS-off and DBS-on mode. RESULTS:VTH DBS elicited an amplitude-dependent increase in heart rate and transient aggressive behavior. PET demonstrated that VTH DBS caused a global increase in cerebral blood flow velocities and decreased mean transit time. CONCLUSIONS:VTH DBS results in behavioral and physiological changes, which may derive from activation of closely related limbic and autonomic networks. Caution and further studies of longer length should be requested before this procedure is used more widely in humans.
Authors: Carsten R Bjarkam; Dariusz Orlowski; Laura Tvilling; Johannes Bech; Andreas N Glud; Jens-Christian H Sørensen Journal: J Vis Exp Date: 2017-04-13 Impact factor: 1.355
Authors: O A Abulseoud; N A Gawad; K Mohamed; C Vadnie; U M Camsari; V Karpyak; M A Frye; D-S Choi Journal: Transl Psychiatry Date: 2015-03-24 Impact factor: 6.222
Authors: Osama A Abulseoud; Ulas M Camsari; Christina L Ruby; Khalid Mohamed; Noha M Abdel Gawad; Aimen Kasasbeh; Mehmet Y Yüksel; Doo-Sup Choi Journal: Int J Bipolar Disord Date: 2014-06-14
Authors: Ruth Franco; Erich T Fonoff; Pedro Alvarenga; Antonio Carlos Lopes; Euripides C Miguel; Manoel J Teixeira; Durval Damiani; Clement Hamani Journal: Brain Sci Date: 2016-07-18
Authors: Ruth R Franco; Erich T Fonoff; Pedro G Alvarenga; Eduardo J L Alho; Antonio Carlos Lopes; Marcelo Q Hoexter; Marcelo C Batistuzzo; Raquel R Paiva; Anita Taub; Roseli G Shavitt; Euripides C Miguel; Manoel J Teixeira; Durval Damiani; Clement Hamani Journal: JAMA Netw Open Date: 2018-11-02