Obstructive Sleep Apnea Syndrome: A Preliminary Navigated Transcranial Magnetic Stimulation Study

Maja Rogić Vidaković; Joško Šoda; Ana Jerković; Benjamin Benzon; Karla Bakrač; Silvia Dužević; Igor Vujović; Mario Mihalj; Renata Pecotić; Maja Valić; Angela Mastelić; Maximilian Vincent Hagelien; Marina Zmajević Schőnwald; Zoran Đogaš

doi:10.2147/NSS.S253281

Obstructive Sleep Apnea Syndrome: A Preliminary Navigated Transcranial Magnetic Stimulation Study

Nat Sci Sleep. 2020 Aug 6:12:563-574. doi: 10.2147/NSS.S253281. eCollection 2020.

Authors

Maja Rogić Vidaković¹, Joško Šoda², Ana Jerković¹, Benjamin Benzon¹, Karla Bakrač¹, Silvia Dužević¹, Igor Vujović², Mario Mihalj³, Renata Pecotić^{1

4}, Maja Valić^{1

4}, Angela Mastelić⁵, Maximilian Vincent Hagelien¹, Marina Zmajević Schőnwald⁶, Zoran Đogaš^{1

4}

Affiliations

¹ University of Split, School of Medicine, Department of Neuroscience, Laboratory for Human and Experimental Neurophysiology (LAHEN), Split, Croatia.
² University of Split, Faculty of Maritime Studies, Signal Processing, Analysis and Advanced Diagnostics Research and Education Laboratory (SPAADREL), Split, Croatia.
³ University Hospital Split, Department of Neurology, Laboratory of Electromyoneurography, Split, Croatia.
⁴ University of Split, Split Sleep Medical Center, Split 21000, Croatia.
⁵ University of Split, School of Medicine, Department of Medical Chemistry and Biochemistry, Split, Croatia.
⁶ Clinical Medical Centre "Sisters Of Mercy", Department of Neurosurgery, Clinical Unit for Intraoperative Neurophysiologic Monitoring, Zagreb, Croatia.

Abstract

Purpose: An increase in resting motor threshold (RMT), prolonged cortical silent period duration (CSP), and reduced short-latency afferent inhibition (SAI), confirmed with previous transcranial magnetic stimulation (TMS), suggest decreased cortical excitability in obstructive sleep apnea syndrome (OSAS). The present study included MRI of OSAS patients for navigated TMS assessment of the RMT, as an index of the threshold for corticospinal activation at rest, and SAI as an index of cholinergic neurotransmission. We hypothesize to confirm findings on SAI and RMT with adding precision in the targeting of motor cortex in OSAS.

Subjects and methods: After acquiring head MRIs for 17 severe right-handed OSAS and 12 healthy subjects, the motor cortex was mapped with nTMS to assess the RMT and SAI, with motor evoked potentials (MEPs) recorded from the abductor-pollicis brevis (APB) muscle. The 120%RMT intensity was used for the SAI by a paired-pulse paradigm in which the electrical stimulation to the median nerve is followed by magnetic stimulation of the motor cortex at inter-stimulus intervals (ISIs) of 18-28 ms (ISIs_18-28). The SAI control condition included a recording of MEPs without peripheral stimulation. Latency and amplitude of MEP at RMT at 120%RMT for eleven different at ISIs_18-28 were analyzed.

Results: The study showed a significantly lower percentage deviation of MEP amplitude at ISIs_(18-28ms) from the control condition between OSAS and healthy subjects (U=44.0, p=0.01). The intensity of stimulation at RMT was significantly higher in OSAS subjects (U=55.0, p=0.04*). Correlation analysis showed that BMI significantly negatively correlated (ρ=-0.47) with MEP amplitude percentage deviation in OSAS patients.

Conclusion: The nTMS study results in increased RMT, and reduced cortical afferent inhibition in OSAS patients for SAI at ISIs_18-28, confirming previous findings of impaired cortical afferent inhibition in OSAS. Future nTMS studies are desirable to elucidate the role of RMT and SAI in diagnostics and treatment of OSAS, and to elucidate the usefulness of nTMS in OSAS research.

Keywords: motor evoked potentials; obstructive sleep apnea; primary motor cortex; short-latency afferent inhibition; transcranial magnetic stimulation; transcutaneous electrical nerve stimulation.

Grants and funding

Croatian Science Foundation (HRZZ) supported this research via grant TIHO2_SLEEP_BREATH 5935, which was obtained by professor Zoran Đogas.