1.Effects of Aroma Hand Massage on the Stress Response and Sleep of Elderly Inpatients.
Ji Eun LEE ; Young Whee LEE ; Hwasoon KIM
Journal of Korean Academy of Fundamental Nursing 2011;18(4):480-487
PURPOSE: This study was done to examine the effects of aroma hand massage on stress response and sleep in hospitalized elderly patients. METHODS: A non-equivalent pre-and post-test design was used. Sixty-six hospitalized patients were recruited using a convenience sampling method and assigned to the experimental (n=34) or the control group (n=32). For the experiment, bergamot, lavender, and roman camomile oil were mixed in 2:1:1 ratio to provide aroma hand massage to both hands of each patient in the experimental group for 5 minutes per hand, for 3 days. Post-test data collection was conducted three days after completion of the hand massage. RESULTS: The experimental group had significantly lower stress score (t=-2.648, p=.010, and anxiety scores (t=-4.166, p=.000), and higher sleep measurement scores (t=2.328, p=.023) than those in the control group. CONCLUSION: These results indicate that short-term application of aroma hand massage for hospitalized elderly patients has a positive effect on hospitalization stress, anxiety, and sleep. Therefore, aroma hand massage should be applied as a nursing intervention to reduce stress response and enhance sleep in elderly hospitalized patients.
Aged
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Anxiety
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Aromatherapy
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Chamaemelum
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Data Collection
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Hand
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Hospitalization
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Humans
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Inpatients
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Lavandula
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Massage
2.Analysis of Experimental Researches in Korea on the Effects of Aromatherapy to Relieve Pain.
Jeong Sook PARK ; Jeong Eon PARK ; Jang Soon YANG ; Hye Weon KWAK ; Jung An HAN
Korean Journal of Hospice and Palliative Care 2011;14(1):8-19
PURPOSE: This study identifies research trends and provides fundamental data related to curative power of aromatherapy to relieve pain in Korea. METHODS: The study analyzed 44 experimental studies on humans that were published in Korea before the end of December, 2009. The key words used for searching were: aroma, aromatherapy, hyang-yobeob, hyanggi-yobeob, hyanggichilyo, aromatherapy and pain, headache, scapulodynia, omodynia, feeling uncomfortable in the perineal region, sense of pain, labor pains, arm pain, menstrual pain, aches, and dysmenorrheal. Those words were found on websites, including those for Korea Education & Research Information Service, the National Assembly Library, KISS, KoreaMed, and NDSL. Collected data were analyzed using descriptive statistics. RESULTS: The results showed that most of essential oils to relieve pain is composed of three to four kinds of oils, including Lavender, Roman chamomile, Rosemary, and Clarysage. Aromatherapy is applied usually by means of massage (50%), inhalation (13.6%), or a combination of the above two (13.6%). Measuring instruments as a dependent variable include VAS, questionnaire, GRS, blood pressure, pulse, and Algometer. Aromatherapy plays an important role in soothing headaches and arthralgia. However, when it comes to labor and menstrual pain, it doesn't seem to be effective. CONCLUSION: The study found that different kinds of oil, frequencies, and periods of time are used for the same symptoms. Further research should employ standardized oil blending, application, duration, and measuring instruments, and more systematically analyze the effects of aromatherapy to establish the effects on relieving pain.
Arm
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Aromatherapy
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Arthralgia
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Blood Pressure
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Chamaemelum
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Dysmenorrhea
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Female
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Headache
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Humans
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Information Services
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Inhalation
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Korea
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Labor Pain
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Lavandula
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Massage
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Oils
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Oils, Volatile
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Pregnancy
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Surveys and Questionnaires
3.Comparison of antioxidant activity between two species of chamomiles produced in Xinjiang by TLC-bioautography.
Song-Lin HAN ; Xin-Xia LI ; Qiang-Hui MIAN ; Wei LAN ; Yan LIU
China Journal of Chinese Materia Medica 2013;38(2):193-198
OBJECTIVETo compare the antioxidant active components from two species of chamomile-matricaria and Roman chamomile produced in Xinjiang.
METHODThe TLC-bioautography was used, with 1,1-Diphenyl-2-picrylhydrazyl (DPPH) radical as the experimental model. The peak areas of various antioxidant components were obtained by TLC-scanning for analyzing antioxidant active components contained in volatile oil extracts and flavone extracts from the two species of chamomiles. The total peak area was taken as the indicator for comparing the antioxidant capacities of the two types of extracts, and comparing them with the total antioxidant activity of flavone extracts of the two species of chamomiles.
RESULTSAccording to the result of TLC-bioautography in volatile oil extracts from the two species of chamomiles, volatile oil extracts from chamomile showed four white antioxidant spots, including en-yne-dicycloether, and volatile oil extracts from Roman chamomile showed only one white antioxidant spot. The TLC-scanning result showed that the peak area of antioxidant spots of volatile oil extracts from chamomile was significantly larger than that of volatile oil extracts from Roman chamomile. According to the test on the antioxidant activity of the two species of chamomiles with ultraviolet-visible spectrophotometry, the concentration of chamomile after scavenging 50% of DPPH radicals was 0.66 g x L(-1), whereas the figure for Roman chamomile was 0.33 g x L(-1). According to the result of TLC-bioautography in flavone extracts from the two species of chamomiles, flavone extracts from chamomile showed seven yellowish antioxidant spots, including apigenin and apigenin-7-glucoside, and flavone extracts of Roman chamomile showed eight yellowish antioxidant spots, including apigenin and apigenin-7-glucoside. The TLC-scanning results showed that the peak area of antioxidant spots of flavone extracts from Roman chamomile was significantly larger than that of flavone extracts from chamomile.
CONCLUSIONVolatile oil extracts from the two species of chamomiles have significant difference in the antioxidant activity in TLC-bioautography. Specifically, the antioxidant activity of volatile oil extracts from chamomile is stronger than volatile oil extracts from Roman chamomile; the known antioxidant active components in volatile oil extracts from chamomile is en-yne-dicycloether, while all of the other three antioxidant active components as well as antioxidant active components in volatile oil extracts from Roman chamomile are unknown components and remain to be further determined. Considering the significant difference in the number of antioxidant active spots in volatile oil extracts from the two species of chamomiles, the result can be applied to distinguish the two species of chamomiles. The antioxidant activity determination result for flavone extracts from two species of chamomiles was consistent with the result of TLC-bioautography, showing that flavone extracts from chamomile and Roman chamomile are more antioxidant active, while that of Roman chamomile is stronger than chamomile. Flavone extracts from both of the two species of chamomiles contain apigenin and pigenin-7-glucoside, which are known, while all of the other five antioxidant active components contained in flavone extracts from chamomile and the other six antioxidant active components contained in flavone extracts from Roman chamomile are unknown and remain to be further identified. The method lays a foundation for further identification of antioxidant active components contained in chamomile.
Antioxidants ; chemistry ; isolation & purification ; Apigenin ; chemistry ; isolation & purification ; Biphenyl Compounds ; metabolism ; Chamaemelum ; chemistry ; Chromatography, Thin Layer ; methods ; Flavones ; chemistry ; isolation & purification ; Free Radical Scavengers ; chemistry ; isolation & purification ; Glucosides ; chemistry ; isolation & purification ; Matricaria ; chemistry ; Oils, Volatile ; chemistry ; isolation & purification ; Picrates ; metabolism ; Plant Extracts ; chemistry ; isolation & purification ; Plant Oils ; chemistry ; isolation & purification