The levels of processing effect under nitrogen narcosis.

Previous research has consistently demonstrated that inert gas (nitrogen) narcosis affects free recall but not recognition memory in the depth range of 30 to 50 meters of sea water (msw), possibly as a result of narcosis preventing processing when learned material is encoded. The aim of the current research was to test this hypothesis by applying a levels of processing approach to the measurement of free recall under narcosis. Experiment 1 investigated the effect of depth (0-2 msw vs. 37-39 msw) and level of processing (shallow vs. deep) on free recall memory performance in 67 divers. When age was included as a covariate, recall was significantly worse in deep water (i.e., under narcosis), compared to shallow water, and was significantly higher in the deep processing compared to shallow processing conditions in both depth conditions. Experiment 2 demonstrated that this effect was not simply due to the different underwater environments used for the depth conditions in Experiment 1. It was concluded memory performance can be altered by processing under narcosis and supports the contention that narcosis affects the encoding stage of memory as opposed to self-guided search (retrieval).

[1]  E Bettinghausen,et al.  Memory deficits at 0.6 MPa ambient air pressure. , 1998, Undersea & hyperbaric medicine : journal of the Undersea and Hyperbaric Medical Society, Inc.

[2]  D Z H Levett,et al.  Bubble trouble: a review of diving physiology and disease , 2008, Postgraduate Medical Journal.

[3]  Malcolm Hobbs,et al.  Anxiety and psychomotor performance in divers on the surface and underwater at 40 m. , 2011, Aviation, space, and environmental medicine.

[4]  Klaus P. Ebmeier,et al.  Timing of onset of cognitive decline: results from Whitehall II prospective cohort study , 2012, BMJ : British Medical Journal.

[5]  A Baddeley,et al.  Anxiety, manual dexterity and diver performance. , 1985, Ergonomics.

[6]  W. Kneller,et al.  Effect of nitrogen narcosis on free recall and recognition memory in open water. , 2009, Undersea & hyperbaric medicine : journal of the Undersea and Hyperbaric Medical Society, Inc.

[7]  F. Craik,et al.  Levels of Pro-cessing: A Framework for Memory Research , 1975 .

[8]  T. S. Hyde,et al.  Differential effects of incidental tasks on the organization of recall of a list of highly associated words. , 1969 .

[9]  Lars Nyberg,et al.  Levels of processing: A view from functional brain imaging , 2002, Memory.

[10]  G Bodiwala,et al.  Open water scuba diving accidents at Leicester: five years' experience. , 1999, Journal of accident & emergency medicine.

[11]  H. Curran,et al.  A ‘levels of processing’ study of the effects of benzodiazepines on human memory , 1988 .

[12]  J. B. Demb,et al.  Functional Magnetic Resonance Imaging of Semantic Memory Processes in the Frontal Lobes , 1996 .

[13]  Cemal Pulak,et al.  The Uluburun shipwreck: an overview , 1998 .

[14]  J. K. Zander,et al.  The Effect of Pressure and Time on Information Recall , 2008 .

[15]  W Sterk,et al.  Health and efficiency in trimix versus air breathing in compressed air workers. , 2006, Undersea & hyperbaric medicine : journal of the Undersea and Hyperbaric Medical Society, Inc.

[16]  B. Fowler,et al.  Effects of inert gas narcosis on rehearsal strategy in a learning task. , 1987, Undersea biomedical research.

[17]  Gershon Weltman,et al.  Effects of Environment and Experience on Underwater Work Performance , 1970 .

[18]  B Fowler Effect of hyperbaric air on short-term and long-term memory. , 1973, Aerospace medicine.

[19]  J. Douglas Medical problems of sport diving. , 1985, British medical journal.