Malikova MA

Boston University, Boston Medical Center, Department of Surgery, Boston, MA, USA

Kaliaev AO

Avesta Central Hospital, Saratov, Russia

Sukhoruchkin AA

Stroygrad Medical Center, Kirsanov, Russia

Bakhmetev AS

Saratov State Medical University named after V. I. Razumovsky, Saratov, Russia

DOI: 10.15761/SCRR.1000104


Objective : This is a study to assess the impact of the global system for mobile communication (GSM) mobile phone electromagnetic radiation on the main vessels of the brain.

Material and methods: This was a cross sectional study which included 55 volunteers between 18-66 years old, who were examined by stationary device Philips HD 11 expert class phased sectoral sensor with a frequency of 2-4MHz at the Ultrasonic and Functional Diagnostics Department of the Mirotvortseva hospital, which is affiliated with Saratov State Medical University (SSMU) and in the clinic ” Stroygrad Medical Center ” in Kirsanov city, Tambov region.

Results: The study included 55 volunteers between 18-66 years old (average age was 38.95 years) with permeable trans-temporal acoustic windows and without chronic diseases such as hypertension, diabetes mellitus, chronic cerebral ischemia, coronary heart disease and no initial spasm in middle cerebral artery (MCA). The study was conducted in the supine position with enabled mobile phone in talk mode for 7 minutes. The blood flow velocity (BFV) and resistive index (RI) in the MCA (middle cerebral artery) were measured on both sides at baseline and after 7 minutes of talking on a mobile phone. Cerebral vasospasm was considered if detected RI was 0.65 and above.

In order to minimize the measurement error, the same modern mobile phone was utilized for all studied subjects. The analysis of the data revealed an initial increase in the BFV and RI in the MCA in all patients by the end of 7 minutes of conversation.  Unilateral spasm of various degree was detected by ultrasound in the middle cerebral artery of 27 out of 55 examined patients (50%) after 7 minutes of them talking on a mobile phone. Average RI value was 0.66 ± 0.04 on the ipsilateral side of MCA with range of a minimum RI detected at 0.59, and maximum value of 0.75. On the contralateral side of MCA an average RI value was detected as 0.66 ± 0.04, with range of 0.60-0.74. Therefore, interaction with mobile phone for period of time up to 7 minutes in most cases gave rise to moderately expressed spasm on both sides. The results were independent of gender and blood pressure.

Conclusions: MCA spasm recorded as a result of prolonged mobile phone call (about 7 minutes), was detected in 60% of examined subjects, which may indicate the importance of this potential risk factor in causing headaches and other negative psychological factors (i.e. lack of attention, sleep disturbances, irritability etc.).


The 21st century is the time of high level technology. There are a lot of gadgets of telecommunications in everyday use. The most popular gadgets are cell or mobile phones and smartphones. The dramatic worldwide increase in use of cellular phones has prompted concerns regarding potential harmful effects of exposure to radiofrequency-modulated electromagnetic fields (RF-EMFs). Of a particular concern has been the potential carcinogenic effects from the RF-EMF emissions of cell phones. [1] However, the results of epidemiologic studies, which examined association between the cell phone use and prevalence of brain tumors, have been inconsistent. Some studies showed increased risk, but the issue remains unresolved. [2]. RF-EMFs emitted by cell phones are absorbed in the brain within a range that could influence neuronal activity. [3] Thermal effects from RF-EMFs have also been invoked as a mechanism that could affect neuronal activity, although temperature changes produced by current cell phone technology are likely minimal. [4] Numerous studies have examined the effect of RF-EMR on a persons’ psychological status, the correlation between the duration of a call, and the development of cancer disease, etc. We found no results in current publications that demonstrated RF-EMR effect on brain vessels. It is well-established fact that persistent cerebral vasospasm causes persistent headaches, reduces efficiency, causes irritation, fatigue and disturbed sleep patterns. [5-8]


When analyzing the data obtained, an increase in BFV and RI in the MCA was found in all 55 examined subjects (100%) after 7 minutes of exposure to electromagnetic radiation emitted by mobile phone device.

The spasm of various degree was detected bilaterally in the MCA in 22 examined subjects by the end of a long conversation on a mobile phone (40 %). The moderately expressed unilateral spasm (mean RI value 0.72) was observed in 11 subjects out of 55 studied in total (20 %), including men with average age of 23.3 years old and women with average age 36.6 years. We noted a trend that patients who were 45 years old and above were less affected by EMR. This observation can be attributed to the more rigid arterial walls in older patients.

The spasm with mild to severe degree was detected in the younger group of subjects (18-45 years old). The artery walls are more elastic and probably more prone to be affected by EMR at a younger age. Thus, ultrasound exam allowed to see changes in the brain artery in majority of patients bilaterally after 7 minutes of interaction with EMR emitted by the mobile phone.


In this pilot study the talk for more than 7 minutes on a cell phone in most cases (60%) led to the spasm of the main cerebral artery in the assessed subjects, which indicates the high importance of EMR as a potential risk factor for headaches and other negative psychological factors (i.e. lack of attention, disturbance of the structure of sleep, irritability, memory impairment, etc.). When comparing the occurrence of spasm between ipsilateral and contralateral sides of MCA, it was noted that in most cases the ipsilateral side of the MCA got affected mostly. However, in some patient’s unilateral changes of RI and BFV were observed in either ipsilateral or contralateral side of the MCA. This is a pilot study which requires further prospective, randomized, controlled investigations to fully understand the degree of the effect of electromagnetic radiation emitted by the cell phones on the blood vessels of the brain.

  1. Volkow N.D, Tomasi D, Wang G.J, Vaska P, Joanna S. Fowler J.S (2011) Effects of cell phone radiofrequency signal exposure on brain glucose metabolism. JAMA 305: 808–813 [Crossref]
  2. Dubey RB1, Hanmandlu M, Gupta SK (2010) Risk of brain tumours from wireless phone use. J Comput Assist Tomogr 34: 799-807 [Crossref]
  3. Kleinlogel H, Dierks T, Koenig T, Lehmann H, Minder A (2008) Effects of weak mobile phone–electromagnetic fields (GSM, UMTS) on event related potentials and cognitive functions. Bioelectromagnetics. 29: 488–497 [Crossref]
  4. Wainwright P1 (2000) Thermal effects of radiation from cellular telephones. Phys Med Biol 45: 2363-2372 [Crossref]
  5. Logg C.R, Tai C.K, Log A, Anderson W.F, Kasahara N (2001) A uniquely stable replication-competent vector achieves efficient gene delivery in vitro and in solid tumours. Human Gene Therapy. 12: 921-932 [Crossref]
  6. Benson V.S, Pirie K, Schuz J, Reeves G.K, Beral V, Green J (2013) Mobile phone use and risk of brain neoplasms and other cancers: prospective study. Int J Epidemiol 42: 792-802 [Crossref]
  7. Frei P, Poulsen A.H, Johansen C, Olsen J, Steding-Jessen M (2011) Use of mobile phones and risk of brain tumours: update of Danish cohort study. BMJ 11: 343

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