Displaying all 11 publications

Abstract:
Sort:
  1. BLUETT D
    J R Army Med Corps, 1950 Jul;95(1):14-27.
    PMID: 15437527
    Matched MeSH terms: Naval Medicine*
  2. DOW DC
    J R Army Med Corps, 1950 Sep;95(3):164-6.
    PMID: 14784967
    Matched MeSH terms: Naval Medicine*
  3. FORSTER MO
    J R Army Med Corps, 1951 Nov;97(5):328-39.
    PMID: 14889520
    Matched MeSH terms: Naval Medicine*
  4. CONWAY SM, CREMIN BJ
    J R Army Med Corps, 1956 Jan;102(1):70-2.
    PMID: 13307652
    Matched MeSH terms: Naval Medicine*
  5. SCOTT RW, STALBOW RB
    J R Army Med Corps, 1950 Oct;95(4):196-99.
    PMID: 14795504
    Matched MeSH terms: Naval Medicine*
  6. ARCHER TC
    J R Army Med Corps, 1958 Jan;104(1):1-13.
    PMID: 13502878
    Matched MeSH terms: Naval Medicine*
  7. HADFIELD GJ, HEBER AJ
    J R Army Med Corps, 1951 Jun;96(6):339-44.
    PMID: 14841731
    Matched MeSH terms: Naval Medicine*
  8. PILCHER RK
    J R Army Med Corps, 1954 Jan;100(1):50-4.
    PMID: 13131350
    Matched MeSH terms: Naval Medicine*
  9. CLYNE AJ
    Br Med J, 1954 Jul 03;2(4878):10-6.
    PMID: 13160514
    Matched MeSH terms: Naval Medicine*
  10. Rozali A, Rampal KG, Zin BM, Mohd Sidik S, Khairuddin H, Abd Halim M, et al.
    Med J Malaysia, 2006 Dec;61(5):647-50.
    PMID: 17623973 MyJurnal
    Underwater and Hyperbaric Medicine is a treatment modality gaining recognition in Malaysia. It uses the hyperbaric oxygen therapy (HBOT) approach where patients are placed in recompression chambers and subjected to oxygen therapy under pressure. In Malaysia it was introduced as early as the 1960's by the Royal Malaysian Navy to treat their divers for decompression illness (DCI), arterial gas embolism (AGE) and barotraumas. Other sectors in the armed forces, universities and private health centres began developing this approach too in the late 1990's, for similar purposes. In 1996, Underwater and Hyperbaric Medicine began gaining its popularity when the Institute of Underwater and Hyperbaric Medicine at the Armed Forces Hospital in Lumut started treating specific clinical diseases such as diabetic foot ulcers, osteomyelitis, and carbon monoxide poisoning and other diseases using HBOT. This paper discusses the development of this interesting treatment modality, giving a brief historical overview to its current development, as well as provides some thought for its future development in Malaysia.
    Matched MeSH terms: Naval Medicine
  11. Lee CT
    SPUMS J, 1998 Sep;28(3):125-32.
    PMID: 11542272
    The Sharpened Romberg Test (SRT) is a test of balance commonly used in Diving Medicine. Interpretation of an abnormal test can be confounded by several factors. This study was conducted to further evaluate the usefulness of the SRT. In the first part of the study, naval and civilian volunteers in a Naval Base were recruited as subjects. The SRT scores were recorded in two separate trials; once in the morning (4 attempts) and once in the evening (4 attempts) to evaluate the effect of practice on the SRT. In the second part of the study immediate pre- and post-dive scores in a group of divers were measured to evaluate: (1) the effect of decompression; (2) the effect of the normal post-dive fatigue; and (3) the vestibular effect of swaying after a boat ride. Comparisons were also made between the distributions of the SRTs of the normal subjects and those of a retrospective group of DCI patients treated at the Slark Hyperbaric Unit, Royal New Zealand Navy Hospital (RNZNH), Auckland. The SRT was found to have an early learning effect. Second attempts were significantly better than the first (p<0.001) within the same trial. However this learning effect plateaued by the third and fourth attempts. No difference was found between trials (morning and evening). There was a post-dive decline in the scores of the first attempts only (p<0.05). Subsequent second to fourth attempts were not affected by diving. The practice effect is only evident between the first and second attempts within the same trial but not between trials. The pre- and post-dive data showed that the SRT was not affected by decompression, post-dive fatigue or the vestibular sensation of swaying that is commonly experienced after a boat ride. Comparison of the distributions between controls and DCI patients showed a bimodal pattern. Fifty-four percent (54%) of the DCI patients had 'normal' scores (60 seconds), while 14% had scores between 16-35 seconds and 32% scored less than 15 seconds. In contrast, 95% of the control groups had 'normal' scores while 5% scored between 16-35 seconds. Therefore, accepting a score of less than 40 seconds as being "abnormal" will give the SRT a sensitivity of 46%, specificity of 95% and predictive value of 82%.
    Matched MeSH terms: Naval Medicine/methods
Filters
Contact Us

Please provide feedback to Administrator ([email protected])

External Links