Physiological effects of night vision goggle counterweights on neck musculature of military helicopter pilots.

UNLABELLED Increased helmet-mounted mass and specific neck postures have been found to be a cause of increased muscular activity and stress. However, pilots who use night vision goggles (NVG) frequently use counterweight (CW) equipment such as a lead mass that is attached to the back of the flight helmet to provide balance to counter the weight of the NVG equipment mounted to the front of the flight helmet. It is proposed that this alleviates this stress. However, no study has yet investigated the physiological effects of CW during an extended period of time during which the pilots performed normal operational tasks. METHODS Thirty-one Canadian Forces pilots were monitored on consecutive days during a day and a NVG mission in a CH-146 flight simulator. Near infrared spectroscopy probes were attached bilaterally to the trapezius muscles and hemodynamics, i.e., total oxygenation index, total hemoglobin, oxyhemoglobin, and deoxyhemoglobin, were monitored for the duration of the mission. Pilots either wore CW (n = 25) or did not wear counterweights (nCW, n = 6) as per their usual operational practice. RESULTS Levene's statistical tests were conducted to test for homogeneity and only total oxygenation index returned a significant result (p < or = 0.05). For the near infrared spectroscopy variables, significant differences were found to exist between CW and nCW pilots for total hemoglobin, deoxyhemoglobin, and oxyhemoglobin during NVG flights. The CW pilots displayed less metabolic and hemodynamic stress during simulated missions as compared to the nCW pilots. CONCLUSION The results of this study would suggest that the use of CW equipment during NVG missions in military helicopter pilots does minimize the metabolic and hemodynamic responses of the trapezius muscles.

[1]  H. Vanharanta,et al.  Neck training and +Gz-related neck pain: a preliminary study. , 1998, Military medicine.

[2]  H. Vanharanta,et al.  +Gz-related neck pain: a follow-up study. , 1994, Aviation, space, and environmental medicine.

[3]  J R Brock,et al.  Back pain in Australian military helicopter pilots: a preliminary study. , 1998, Aviation, space, and environmental medicine.

[4]  B. P. Butler,et al.  Helmeted head and neck dynamics under whole-body vibration. , 1992 .

[5]  Wayne J Albert,et al.  Monitoring individual erector spinae fatigue responses using electromyography and near infrared spectroscopy. , 2004, Canadian journal of applied physiology = Revue canadienne de physiologie appliquee.

[6]  Marcus Thuresson,et al.  On neck load among helicopter pilots : Effects of head worn equipment, whole body vibration and neck position , 2005 .

[7]  D. Delpy,et al.  Optical pathlength measurements on adult head, calf and forearm and the head of the newborn infant using phase resolved optical spectroscopy. , 1995, Physics in medicine and biology.

[8]  Jameel Adam,et al.  Results of NVG-Induced Neck Strain Questionnaire Study in CH-146 Griffon Aircrew , 2004 .

[9]  Jan Linder,et al.  Mechanical load and EMG activity in the neck induced by different head-worn equipment and neck postures , 2005 .

[10]  S. Arridge,et al.  Experimentally measured optical pathlengths for the adult head, calf and forearm and the head of the newborn infant as a function of inter optode spacing. , 1992, Advances in experimental medicine and biology.

[11]  D. Delpy,et al.  Quantification in tissue near–infrared spectroscopy , 1997 .

[12]  O Hämäläinen,et al.  Effect of Gz forces and head movements on cervical erector spinae muscle strain. , 1992, Aviation, space, and environmental medicine.

[13]  Sandra G. Hart,et al.  Helicopter human factors , 1988 .

[14]  Thomas W Pelham,et al.  The etiology of low back pain in military helicopter aviators: prevention and treatment. , 2005, Work.

[15]  Jurandir Nadal,et al.  Back muscle EMG of helicopter pilots in flight: effects of fatigue, vibration, and posture. , 2004, Aviation, space, and environmental medicine.

[16]  J A Lopez-Lopez,et al.  Determination of lumbar muscular activity in helicopter pilots: a new approach. , 2001, Aviation, space, and environmental medicine.

[17]  James F. Knight,et al.  Neck muscle activity and perceived pain and discomfort due to variations of head load and posture. , 2004, Aviation, space, and environmental medicine.

[18]  Yukio Kobayashi,et al.  Tissue oxygenation monitor using NIR spatially resolved spectroscopy , 1999, Photonics West - Biomedical Optics.

[19]  S. Rissanen,et al.  Muscle strain during aerial combat maneuvering exercise. , 1996, Aviation, space, and environmental medicine.

[20]  Jan Linder,et al.  Neck muscle activity in helicopter pilots: effect of position and helmet-mounted equipment. , 2003, Aviation, space, and environmental medicine.

[21]  H Ashrafiuon,et al.  Effects of weight and center of gravity location of head-supported devices on neck loading. , 1997, Aviation, space, and environmental medicine.

[22]  Karin Harms-Ringdahl,et al.  Neck strength and myoelectric fatigue in fighter and helicopter pilots with a history of neck pain. , 2005, Aviation, space, and environmental medicine.