"DESARICE" IS A GAMIFICATION OF PADDY PRODUCTION'S FORGOTTEN WORDS (MORIBUND)
There is an urgent need to solve
the market pain of designing and developing e-learning platform. The pain is
often of wondering whether it really works for its target audience or of
fearing to encounter the damage already done scenario ,when the system is not
engaging enough after it has reached the market.
An iterative method is usually an
approach to solve this pain where designers will design, test, redesign and
retest a system before it gets to market. However, iterative methods are
usually long, time consuming, tedious and costly. Testing in usability lab, a
special room with cameras and one-way mirror is often expensive to build or
rarely available.
NEMD version 3.0 can reduce time
constraint, give immediate feedback without a special lab. The system measures
engagement in a NORMA (Natural, Observation and Reflection of Multimedia
Application) experimental setting concept. As a Proof of Concept (POC) of a theoretical model - NORMA™ Engagement Multimedia Design Model,
this fully automated system can measure user engagement whilst interacting in
real-time. Data gathered are users’ facial expression, the interface at time of
interaction, user engagement level and overall engagement pattern of 40
minutes, 2 hours or more.
Gamification for paddy production activity and processes originally known as RICEVILLE but later was changed to "DesaRice" a "VR" game. "DesaRice" software was developed as another proof of concept (POC) of a patented research called NEMD Model System ( a system to measure user engagement behaviour whist interacting with a multimedia interface).
As mentioned above, "DesaRice" is a game that came from research paper, this make it as a real happening game that once happened in Malaysia by paddy process as a staple food in Asia. The development of this game had started from 2010 to 2014 using two grant scheme 1)Fundamental Research Grant Scheme (2010/2012) 2)Research University Grant Scheme (2012/2014)
"DesaRice" is a result of a research paper done by Dr.Normahdiah Sheik Said (PhD Cognitive Ergonomics). Malay Language Department, University Putra Malaysia of Faculty Modern Language and Communication.While collecting data for her research, Dr. Normahdiah and her team realized that there was a threat in preserving language, culture and heritage due to death of words (moribund words). 19 moribund words of tools, methods and processes of paddy production are facing extinction if not well preserved.
"DesaRice" new look
"DesaRice" simple philosophy is to educate today's youth about long forgotten used words of the activity, tools, processes in paddy production. The storyline of the game is full of historical journey where players will be taken back into time.
"DesaRice" a grain of rice, a drop of farmers sweat is a game to remind and educate the generation of Gen Y, Gen X and Baby Boomers of the Net-Gens of today so that they can learn in fun way.
The interface for "DesaRice" is as below in 2D which we hope to develop and market it into a 3D VR game or mobile app.
Special features come in real pictures and videos of paddy processes to support gamers for better understanding of this industry growth from traditional processes to modern processes. All tools and information used in the game was confirmed its authenticity by academician. Another special feature of "DesaRice" is the function of NEMD model system which can measure any lope-hole of "DesaRice" and suggest better solution in ensuring preoccupation for gamers while playing.
Reasons why paddy production was choose as our first storyline for educational gamification model because rice is staple food of Asia and potential for commercialization is high. The project also supported by paddy museum in Langkawi, Kedah Malaysia since it beneficial to tourism industry, eco-tourism industry and as education tool.
"DesaRice" team member are:
Normahdiah Sheik Said, PhD (Assoc Prof)
Associate Fellow at Centre for Academic Development (CADe), UPM. Founder of Norma™ Engagement Multimedia Design Model.
Co-Creator for "DESARICE"
Nadiah Suboh
Commercialization Adviser for "DESARICE"
A.Zakir Jaafar
CEO & Founder of FlashJobs, CEO of Commercialization PSP University Putra Malaysia
Commercialization Manager for "DESARICE"
Aisha Wani Ismail
ENGAGEMENT THEORY
For market testing, a demo flash had been created as 2D virtual reality game. "DesaRice" demo flash link: -
AWARDS for "DESARICE" 2D VR GAME:-
-THE END-
The Effect of Vitamin E and Beta Carotene on the Incidence of Lung Cancer and Other Cancers in Male Smokers
Previous studies have suggested that higher intakes of vitamin E (alpha-tocopherol) and beta carotene may be associated with a reduced risk of lung cancer. In particular, epidemiologic studies have linked the intake of vegetables rich in beta carotene with a lower risk of cancer (especially lung cancer) and have suggested that certain micronutrients are inhibitors of cancer1,2. The Alpha-Tocopherol, Beta Carotene Cancer Prevention Study was a randomized, double-blind, placebo-controlled primary-prevention trial undertaken to determine whether supplementation with alpha-tocopherol, beta carotene, or both would reduce the incidence of lung cancer in male smokers. A secondary outcome of interest was the incidence of other cancers. Lung cancer was deemed a particularly appropriate target for this trial because of its high incidence, its generally poor prognosis, and the existence of a well-defined high-risk population (i.e., smokers)3. In this report we describe the initial overall results of the study, which was conducted in Finland as a joint project of the National Public Health Institute of Finland and the U.S. National Cancer Institute.
before randomization.
Cancers other than lung cancer were also identified through the Finnish Cancer Registry, with medical records reviewed by clinicians at the central study office.
A data and safety monitoring committee was convened twice annually throughout the study to review its progress and integrity and to evaluate unblinded data relevant to safety and efficacy.
Kaplan-Meier cumulative-incidence plots and two-sided nominal P values derived from the unweighted log-rank statistic8 are presented for each intervention separately: alpha-tocopherol as compared with no alpha-tocopherol, and beta carotene as compared with no beta carotene. The effect of intervention is expressed as the percentage change in the incidence of an end point and its 95 percent confidence interval. Computations of confidence intervals were based on the binomial distribution, derived from conditioning on the number of cases and adjustment of probabilities for the number of person-years of follow-up in the two comparison groups8,9.
The preliminary data on cancers other than lung cancer are presented in the form of counts and rates of incidence according to intervention group. Two or more of the five primary cancers in a single participant were counted as separate cases in each category, but were counted only once within each category (even in the category “other cancers”). Thus, the cancer counts are not mutually exclusive. Cases of carcinoma in situ of the lung (n = 6) and basal-cell carcinoma of the skin (n = 217) were excluded from the analysis. Cause-specific data on deaths are presented in the form of counts and mortality rates in mutually exclusive cause-of-death categories according to intervention group. The categories are based on the following ICD-9 codes: cancer (140 through 208), ischemic heart disease (410 through 414), hemorrhagic stroke (430 through 432), ischemic stroke (433 through 436 and 438), other cardiovascular disease (390 through 405, 415 through 429, 437, and 440 through 459), injuries and accidents (800 through 999), and other causes (001 through 139, 210 through 389, and 460 through 799). Only cases in which cancer was the underlying cause of death were included among the deaths due to cancer.
Median Base-Line Characteristics of the Participants, According to Whether They Received Alpha-Tocopherol and Beta Carotene.) or during follow-up, except those directly related to supplementation. A total of 6131 participants stopped smoking during the trial; the numbers who quit in the various intervention groups differed by less than 26. Similarly, 9061 participants left the study for any reason, including death; the groups differed in the number of such dropouts by less than 37.
who did not receive the agents (Table 2Table 2Serum Concentrations of Alpha-Tocopherol and Beta Carotene before and after Supplementation, According to Intervention.).
according to intervention are shown in Figure 1Figure 1Kaplan-Meier Curves for the Cumulative Incidence of Lung Cancer among Participants Who Received Alpha-Tocopherol Supplements and Those Who Did Not (Upper Panel) and among Participants Who Received Beta Carotene Supplements and Those Who Did Not
(Lower Panel)., Figure 2Figure 2Number and Incidence (per 10,000 Person-Years) of Cancers, According to Site, among Participants Who Received Alpha-Tocopherol Supplements and Those Who Did Not (Upper Panel) and among Participants Who Received Beta Carotene Supplements and Those Who Did Not (Lower
Panel)., and Figure 3Figure 3Deaths and Mortality Rates (per 10,000 Person-Years), According to Cause of Death, among Participants Who Received Alpha-Tocopherol Supplements and Those Who Did Not (Upper Panel) and among Participants Who Received Beta Carotene Supplements and Those Who Did Not (Lower Panel).. For alpha-tocopherol recipients, the small reduction in incidence (2 percent) during the entire trial was not statistically significant (P = 0.8 by the log-rank test). Among the men who received beta carotene, an excess cumulative incidence of lung cancer was observed after 18 months and increased progressively thereafter, resulting in an 18 percent difference in incidence by the end of the study (95 percent confidence interval, 3 to 36 percent; P = 0.01) between the participants who received beta carotene and those who did not. The results were essentially identical when the analysis was restricted to men who had no yellowing of the skin or to those with lung cancers detected radiographically during the study. Mortality due to lung cancer was also apparently higher in the groups that received beta carotene than in those that did not (P = 0.08). No difference associated with the presence or absence of beta carotene supplementation was observed in the case fatality rate or in the length of time from diagnosis to death.
The six cases of carcinoma in situ that were excluded from these analyses were distributed as follows: three each among participants who received alpha-tocopherol and those who did not, and two cases among participants who received beta carotene and four among those who did not. There was one new case of lung cancer among the 113 participants excluded after randomization; the man was assigned to receive alpha-tocopherol.
The lack of reduction in the incidence of lung cancer among the men given supplemental beta carotene may be explained by bias, an inadequate duration of supplementation, the use of the wrong dose, or an inappropriate study population. Bias can be discounted, since the intervention groups were balanced in terms of all the relevant characteristics we studied. The study population was large, and case ascertainment was essentially complete. In addition, the men in the various intervention groups sought treatment at virtually the same time for lung cancer, as measured by the length of time from diagnosis to death, and even for such minor problems as yellowing of the skin. Moreover, analyses of the incidence of lung cancer that were restricted to participants who did not report yellowing of the skin or to cases diagnosed on the chest film obtained at the study examination yielded results similar to those for the entire cohort; this similarity of results essentially rules out bias caused by self-selection or by differences in diagnostic procedures.
It is plausible that the intervention period was too short to inhibit the development of cancers resulting from a lifetime of exposure to cigarette smoke and other carcinogens. Beta carotene may not be the active cancer-inhibiting component of the fruits and vegetables identified as protective in observational studies, or the intake of beta carotene may be only a nonspecific marker for lifestyles that protect against cancer. Although it is conceivable that the dose we used was too low, this seems unlikely, since that dose exceeded by many times the dietary intake of beta carotene in epidemiologic studies that found a strong inverse association between the consumption of carotene-rich foods and the incidence of lung cancer10,11. Finally, study findings regarded as showing supplementation to be beneficial or harmful may occur by chance.
The lack of benefit of beta carotene is particularly surprising given the substantial and consistent epidemiologic evidence of an association between a higher beta carotene intake and a lower incidence of lung cancer,11-15 including the results of the cohort-based analysis in this study. Furthermore, a recent large trial in China found a significant reduction in mortality due to cancer among persons whose diets were supplemented daily with the combination of beta carotene (15 mg), alpha-tocopherol (30 mg), and selenium (50 μg) for 5 1/4 years16.
We also observed no beneficial effect of alpha-tocopherol on the incidence of lung cancer or on mortality due to this disease. At the start of the trial, the a priori evidence that alpha-tocopherol prevented lung cancer was less substantial than that for beta carotene, and since then little additional evidence has been accumulated17-19. Possible explanations for the lack of effect are similar to those for beta carotene, although the relatively low dose and the short duration of supplementation merit greater consideration in the case of alpha-tocopherol. Furthermore, we observed no interaction between alpha-tocopherol and beta carotene in their effect on the incidence of lung cancer.
The apparently protective effect of alpha-tocopherol against prostate cancer and, to a lesser extent, against colorectal cancer is intriguing. Although there was little or no evidence linking alpha-tocopherol to the incidence of cancers at either of these sites when the trial started, limited observational data consistent with these findings have now been published20-22. Although these results are suggestive, many comparisons with these two agents were made in these analyses, increasing the possibility that some of the apparent benefits may have occurred by chance alone. Additional data from the continued follow-up of the participants in this and other intervention studies are needed before conclusions can be drawn about the role of alpha-tocopherol in preventing these cancers.
Our results raise the possibility that supplementation with beta carotene may be harmful in smokers. The higher mortality due to ischemic heart disease and lung cancer among the beta carotene recipients requires more detailed analysis, and information from other studies is also needed. We are aware of no other data at this time, however, that suggest harmful effects of beta carotene, whereas there are data indicating benefit16,23. Furthermore, there are no known or described mechanisms of toxic effects of beta carotene, no data from studies in animals suggesting beta carotene toxicity, and no evidence of serious toxic effects of this substance in humans24. In the light of all the data available, an adverse effect of beta carotene seems unlikely; in spite of its formal statistical significance, therefore, this finding may well be due to chance.
The higher mortality due to hemorrhagic stroke among the participants receiving alpha-tocopherol also requires careful review. Alpha-tocopherol has effects on platelet function25,26 that could conceivably underlie this observation.
In summary, we found no overall reduction in the incidence of lung cancer or in mortality due to this disease among male smokers who received dietary supplementation with alpha-tocopherol, beta carotene, or both in this large trial in Finland. The results of this study raise the possibility that these substances may have harmful as well as beneficial effects. Longer observation of the participants in this trial and data from other studies of people at normal risk27,28 or high risk29 for cancer will be required to determine the full spectrum of effects of these agents. Public health recommendations about supplementation with these micronutrients would be premature at this time.
Supported by a contract (NO1-CN-45165) with the National Cancer Institute.
Drs. Olli P. Heinonen and Demetrius Albanes assume responsibility for the integrity of this manuscript on behalf of the Alpha-Tocopherol, Beta Carotene Cancer Prevention Study Group.
before randomization.
Eligibility
Participants were recruited in 1985 through 1988 from the respondents to a postal survey (n = 224,377) who lived in the designated study region. To be eligible, they had to be smokers (five or more cigarettes per day at entry), 50 to 69 years old, and willing to give informed written consent. Potential participants with a history of cancer or serious disease limiting their ability to participate, those taking supplements of vitamin E, vitamin A, or beta carotene in excess of predefined doses, and those being treated with anticoagulant agents were excluded. Before their enrollment, the participants were interviewed at 1 of 14 local study centers to obtain details of their medical, dietary, smoking, and occupational histories and information about other risk factors for cancer. Each participant's dietary intake of alpha-tocopherol and beta carotene was estimated from the diet-history questionnaire5; levels of alpha-tocopherol and beta carotene were measured in serum samples by high-performance liquid chromatography6. Participants identified after randomization as ineligible (n = 113) were equally distributed among the four intervention groups; they included men with preexisting cancer other than nonmelanoma skin cancer (n = 64), men with lung cancer identified on the base-line chest film (n = 33), users of vitamin supplements in excess of the study limits (n = 15), and 1 nonsmoker.Randomization and Blinding
The participants at each of the 14 study sites were randomly assigned to one of the four intervention groups. Treatment assignments were based on a two-by-two factorial design that permitted assessment of the effects of the two supplements independently. Thus, half the participants received alpha-tocopherol (n = 14,564) and half did not (n = 14,569). Similarly, half received beta carotene (n = 14,560) and half did not (n = 14,573). The proportion of participants who reported yellowing of the skin at any time during active follow-up was 34 percent in the two groups that received beta carotene, as compared with 7 percent in the groups given no beta carotene; persistent yellowing of the skin (during two thirds or more of the follow-up visits) was reported by 8.8 percent of the participants who received beta carotene, as compared with 0.3 percent of those who did not. Participants and all study staff involved in the ascertainment of end points and the assignment of final diagnoses remained blinded to the participants' treatment assignments throughout the trial.Delivery of Supplements and Assessment of Compliance
The study agents were formulated as synthetic dl-alpha-tocopheryl acetate (50 percent powder) and synthetic beta carotene (10 percent water-soluble beadlets); all formulations were colored with quinoline yellow. Capsules were packaged in coded blister-pack wallets in calendar format provided by Hoffmann-LaRoche (Basel, Switzerland). All participants took a single capsule daily. The participants received a new supply of capsules at each of their thrice-yearly follow-up visits. Visits began in April 1985 for some participants and were concluded in April 1993 for all. Compliance was assessed by counts of the remaining capsules at each visit, by measurement of serum alpha-tocopherol and beta carotene levels after three years of supplementation, and by measurements in random serum samples throughout the study4.Assessment of End Points
Cases of lung cancer were identified through the Finnish Cancer Registry7. All cases known to have been diagnosed up to April 30, 1993, are included in this report. To enhance the ascertainment of cases, a chest film was obtained at a study visit every 28 months and at each participant's exit from the study. For various reasons, the final chest film was not available for 494 of the surviving men. There were no differences among the intervention groups in the proportion of exit chest films available for analysis or in the reasons why no film was obtained. All diagnostic information for each case of lung cancer was reviewed by the Clinical Review Committee for confirmation and staging. Clinical diagnoses were based on histologic features in 77 percent of the cases, on cytologic analysis alone in 15 percent, and on clinical data alone in 8 percent.Cancers other than lung cancer were also identified through the Finnish Cancer Registry, with medical records reviewed by clinicians at the central study office.
Monitoring of Safety and Efficacy
Possible side effects of the interventions were assessed at each follow-up visit by means of a questionnaire covering symptoms and an interview focusing on illnesses since the most recent visit that had led to a visit to a doctor or to hospitalization. Information on morbidity unrelated to cancer was also obtained from the Finnish National Hospital Discharge Registry. Deaths (n = 3570) were identified from the National Death Registry, a branch of Statistics Finland. The underlying cause of death was coded by trained nosologists using the International Classification of Diseases, ninth revision (ICD-9), and reviewed at the study coordinating center; the death certificate was not available for four participants. In 91 percent of all deaths, the cause was based on the autopsy findings (54 percent), the inpatient diagnosis, or both.A data and safety monitoring committee was convened twice annually throughout the study to review its progress and integrity and to evaluate unblinded data relevant to safety and efficacy.
Statistical Analysis
Analyses of trial results focused on estimating the overall effect of the two supplements on the incidence of cancer and on mortality due to cancer or other causes. Analyses were based on the intention-to-treat principle; that is, follow-up and case ascertainment continued regardless of whether participants continued in the trial. We tested for an interaction between the effects of alpha-tocopherol and beta carotene by means of a proportional-hazards model8.Kaplan-Meier cumulative-incidence plots and two-sided nominal P values derived from the unweighted log-rank statistic8 are presented for each intervention separately: alpha-tocopherol as compared with no alpha-tocopherol, and beta carotene as compared with no beta carotene. The effect of intervention is expressed as the percentage change in the incidence of an end point and its 95 percent confidence interval. Computations of confidence intervals were based on the binomial distribution, derived from conditioning on the number of cases and adjustment of probabilities for the number of person-years of follow-up in the two comparison groups8,9.
The preliminary data on cancers other than lung cancer are presented in the form of counts and rates of incidence according to intervention group. Two or more of the five primary cancers in a single participant were counted as separate cases in each category, but were counted only once within each category (even in the category “other cancers”). Thus, the cancer counts are not mutually exclusive. Cases of carcinoma in situ of the lung (n = 6) and basal-cell carcinoma of the skin (n = 217) were excluded from the analysis. Cause-specific data on deaths are presented in the form of counts and mortality rates in mutually exclusive cause-of-death categories according to intervention group. The categories are based on the following ICD-9 codes: cancer (140 through 208), ischemic heart disease (410 through 414), hemorrhagic stroke (430 through 432), ischemic stroke (433 through 436 and 438), other cardiovascular disease (390 through 405, 415 through 429, 437, and 440 through 459), injuries and accidents (800 through 999), and other causes (001 through 139, 210 through 389, and 460 through 799). Only cases in which cancer was the underlying cause of death were included among the deaths due to cancer.
Results
Characteristics of the Participants
At study entry, the men in the cohort averaged 57.2 years of age, smoked an average of 20.4 cigarettes daily, and had smoked for an average of 35.9 years. There were no differences among the intervention groups with respect to any characteristic or risk factor for lung cancer that we evaluated at base line (Table 1Table 1 Median Base-Line Characteristics of the Participants, According to Whether They Received Alpha-Tocopherol and Beta Carotene.) or during follow-up, except those directly related to supplementation. A total of 6131 participants stopped smoking during the trial; the numbers who quit in the various intervention groups differed by less than 26. Similarly, 9061 participants left the study for any reason, including death; the groups differed in the number of such dropouts by less than 37.
Lung Cancer and Base-Line Alpha-Tocopherol and Beta Carotene Levels
When the placebo group was divided according to quartiles with regard to the base-line serum alpha-tocopherol or beta carotene concentration, the incidence of lung cancer was higher among the subjects in the lowest quartile group than among those in the highest (incidence per 10,000 person-years, lowest vs. highest quartile group: alpha-tocopherol, 56.8 vs. 41.8; beta carotene, 53.3 vs. 43.1). There was, moreover, an inverse association between dietary intake of alpha-tocopherol and beta carotene at base line and the risk of lung cancer during the trial (incidence per 10,000 person-years, lowest vs. highest: alpha-tocopherol, 61.4 vs. 40.6; beta carotene, 47.9 vs. 39.9).Compliance
Compliance, estimated on the basis of residual-capsule counts, was excellent, with four out of five active participants taking more than 95 percent of their capsules. In addition, there were no differences in capsule consumption among the intervention groups (median percentage of capsules taken, 99.0 percent in each). Participants receiving active treatment accounted for 86 percent of the total follow-up, whereas the remaining 14 percent was contributed by men who died or dropped out and therefore did not consume capsules. Compliance with intervention was confirmed by the substantial increases in serum alpha-tocopherol and beta carotene concentrations in the groups receiving the active agents, whereas the levels changed little in thosewho did not receive the agents (Table 2Table 2Serum Concentrations of Alpha-Tocopherol and Beta Carotene before and after Supplementation, According to Intervention.).
Incidence of Lung Cancer and Mortality
A total of 876 newly diagnosed cases of lung cancer and 564 deaths due to lung cancer were identified in the entire cohort. There was no evidence of an interaction between the two supplements in their effect on lung cancer (incidence per 10,000 person-years: alpha-tocopherol alone, 47.3; alpha-tocopherol and beta carotene, 55.3; beta carotene alone, 57.2; and placebo, 47.7; likelihood-ratio test for interaction: chi-square = 0.04, P = 0.84). Our findings regarding the incidence of lung cancer and mortality from that diseaces
according to intervention are shown in Figure 1Figure 1Kaplan-Meier Curves for the Cumulative Incidence of Lung Cancer among Participants Who Received Alpha-Tocopherol Supplements and Those Who Did Not (Upper Panel) and among Participants Who Received Beta Carotene Supplements and Those Who Did Not
(Lower Panel)., Figure 2Figure 2Number and Incidence (per 10,000 Person-Years) of Cancers, According to Site, among Participants Who Received Alpha-Tocopherol Supplements and Those Who Did Not (Upper Panel) and among Participants Who Received Beta Carotene Supplements and Those Who Did Not (Lower
Panel)., and Figure 3Figure 3Deaths and Mortality Rates (per 10,000 Person-Years), According to Cause of Death, among Participants Who Received Alpha-Tocopherol Supplements and Those Who Did Not (Upper Panel) and among Participants Who Received Beta Carotene Supplements and Those Who Did Not (Lower Panel).. For alpha-tocopherol recipients, the small reduction in incidence (2 percent) during the entire trial was not statistically significant (P = 0.8 by the log-rank test). Among the men who received beta carotene, an excess cumulative incidence of lung cancer was observed after 18 months and increased progressively thereafter, resulting in an 18 percent difference in incidence by the end of the study (95 percent confidence interval, 3 to 36 percent; P = 0.01) between the participants who received beta carotene and those who did not. The results were essentially identical when the analysis was restricted to men who had no yellowing of the skin or to those with lung cancers detected radiographically during the study. Mortality due to lung cancer was also apparently higher in the groups that received beta carotene than in those that did not (P = 0.08). No difference associated with the presence or absence of beta carotene supplementation was observed in the case fatality rate or in the length of time from diagnosis to death.
The six cases of carcinoma in situ that were excluded from these analyses were distributed as follows: three each among participants who received alpha-tocopherol and those who did not, and two cases among participants who received beta carotene and four among those who did not. There was one new case of lung cancer among the 113 participants excluded after randomization; the man was assigned to receive alpha-tocopherol.
Other Cancers
A total of 1415 first cancers other than lung cancer were identified in 1331 subjects during the trial (basal-cell carcinoma of the skin was excluded, as were second cancers at a given site). Figure 2 shows the number of first cancers and their incidence, according to intervention group, at the five most common sites and at all other sites combined. The participants who received alpha-tocopherol had fewer cancers of the prostate and colorectum than those who did not receive alpha-tocopherol, whereas more cancers of the bladder, stomach, and other sites combined were diagnosed in the participants who received this supplement. The participants who received beta carotene had more cancers of the prostate and stomach and fewer cases of other cancers than those who did not receive beta carotene. There were two cancers other than lung cancer (melanoma and astrocytoma) among the participants who were excluded after randomization.Mortality
Altogether, 3570 deaths occurred during the trial. Among participants receiving alpha-tocopherol, there were fewer deaths caused by ischemic heart disease and ischemic stroke than there were among those who did not receive alpha-tocopherol, but more deaths due to cancers other than lung cancer or due to hemorrhagic stroke (Figure 3). Overall mortality was 2 percent higher in the alpha-tocopherol groups than in the groups that received no alpha-tocopherol (95 percent confidence interval, -5 to 9 percent; P = 0.6). There were more deaths due to lung cancer, ischemic heart disease, and ischemic and hemorrhagic stroke among recipients of beta carotene (Figure 3). Overall mortality was 8 percent higher among the participants who received beta carotene than among those not given beta carotene (95 percent confidence interval, 1 to 16 percent; P = 0.02).Discussion
Our results provide no evidence of a beneficial effect of supplemental vitamin E (alpha-tocopherol) or beta carotene in terms of the prevention of lung cancer. In fact, men who received beta carotene were found to have lung cancer more frequently than those who did not receive beta carotene. These results are sufficiently strong that it is highly unlikely that 20 mg of beta carotene per day confers any material protective effect against lung cancer among smokers over a period of about six years.The lack of reduction in the incidence of lung cancer among the men given supplemental beta carotene may be explained by bias, an inadequate duration of supplementation, the use of the wrong dose, or an inappropriate study population. Bias can be discounted, since the intervention groups were balanced in terms of all the relevant characteristics we studied. The study population was large, and case ascertainment was essentially complete. In addition, the men in the various intervention groups sought treatment at virtually the same time for lung cancer, as measured by the length of time from diagnosis to death, and even for such minor problems as yellowing of the skin. Moreover, analyses of the incidence of lung cancer that were restricted to participants who did not report yellowing of the skin or to cases diagnosed on the chest film obtained at the study examination yielded results similar to those for the entire cohort; this similarity of results essentially rules out bias caused by self-selection or by differences in diagnostic procedures.
It is plausible that the intervention period was too short to inhibit the development of cancers resulting from a lifetime of exposure to cigarette smoke and other carcinogens. Beta carotene may not be the active cancer-inhibiting component of the fruits and vegetables identified as protective in observational studies, or the intake of beta carotene may be only a nonspecific marker for lifestyles that protect against cancer. Although it is conceivable that the dose we used was too low, this seems unlikely, since that dose exceeded by many times the dietary intake of beta carotene in epidemiologic studies that found a strong inverse association between the consumption of carotene-rich foods and the incidence of lung cancer10,11. Finally, study findings regarded as showing supplementation to be beneficial or harmful may occur by chance.
The lack of benefit of beta carotene is particularly surprising given the substantial and consistent epidemiologic evidence of an association between a higher beta carotene intake and a lower incidence of lung cancer,11-15 including the results of the cohort-based analysis in this study. Furthermore, a recent large trial in China found a significant reduction in mortality due to cancer among persons whose diets were supplemented daily with the combination of beta carotene (15 mg), alpha-tocopherol (30 mg), and selenium (50 μg) for 5 1/4 years16.
We also observed no beneficial effect of alpha-tocopherol on the incidence of lung cancer or on mortality due to this disease. At the start of the trial, the a priori evidence that alpha-tocopherol prevented lung cancer was less substantial than that for beta carotene, and since then little additional evidence has been accumulated17-19. Possible explanations for the lack of effect are similar to those for beta carotene, although the relatively low dose and the short duration of supplementation merit greater consideration in the case of alpha-tocopherol. Furthermore, we observed no interaction between alpha-tocopherol and beta carotene in their effect on the incidence of lung cancer.
The apparently protective effect of alpha-tocopherol against prostate cancer and, to a lesser extent, against colorectal cancer is intriguing. Although there was little or no evidence linking alpha-tocopherol to the incidence of cancers at either of these sites when the trial started, limited observational data consistent with these findings have now been published20-22. Although these results are suggestive, many comparisons with these two agents were made in these analyses, increasing the possibility that some of the apparent benefits may have occurred by chance alone. Additional data from the continued follow-up of the participants in this and other intervention studies are needed before conclusions can be drawn about the role of alpha-tocopherol in preventing these cancers.
Our results raise the possibility that supplementation with beta carotene may be harmful in smokers. The higher mortality due to ischemic heart disease and lung cancer among the beta carotene recipients requires more detailed analysis, and information from other studies is also needed. We are aware of no other data at this time, however, that suggest harmful effects of beta carotene, whereas there are data indicating benefit16,23. Furthermore, there are no known or described mechanisms of toxic effects of beta carotene, no data from studies in animals suggesting beta carotene toxicity, and no evidence of serious toxic effects of this substance in humans24. In the light of all the data available, an adverse effect of beta carotene seems unlikely; in spite of its formal statistical significance, therefore, this finding may well be due to chance.
The higher mortality due to hemorrhagic stroke among the participants receiving alpha-tocopherol also requires careful review. Alpha-tocopherol has effects on platelet function25,26 that could conceivably underlie this observation.
In summary, we found no overall reduction in the incidence of lung cancer or in mortality due to this disease among male smokers who received dietary supplementation with alpha-tocopherol, beta carotene, or both in this large trial in Finland. The results of this study raise the possibility that these substances may have harmful as well as beneficial effects. Longer observation of the participants in this trial and data from other studies of people at normal risk27,28 or high risk29 for cancer will be required to determine the full spectrum of effects of these agents. Public health recommendations about supplementation with these micronutrients would be premature at this time.
Drs. Olli P. Heinonen and Demetrius Albanes assume responsibility for the integrity of this manuscript on behalf of the Alpha-Tocopherol, Beta Carotene Cancer Prevention Study Group.
Source Information
Address reprint requests to Dr. Heinonen at the National Public Health Institute, Mannerheimintie 166, Helsinki FIN-00300, Finland; or to Dr. Albanes at the Cancer Prevention Studies Branch, Division of Cancer Prevention and Control, National Cancer Institute, Executive Plaza N., Rm. 211, 9000 Rockville Pike, Bethesda, MD 20892.Nutrisi VeMMA - Super Jus yang mengandungi Beta-Karotena
Tahukah Anda bahawa Beta Karotena bukan sahaja baik untuk mata. Ianya, bahan anti-oksidan yang dikaitkan dengan kesihatan penglihatan (mata), kini dipercayai memberikan lebih manfaat kesihatan kepada organ-organ badan.
Kajian terkini melaporkan bahawa dengan pengambilan makanan yang kaya dengan beta karotena, dapat meningkatkan fungsi otak dan melindungi kulit dari matahari.
Beta Karotena (Beta-carotene) boleh ditemui dalam sayuran dan buah-buahan seperti lobak merah dan sayuran berwarna termasuklah buah oren. Nama Beta Karotena adalah berasal daripada nama Latin untuk lobak merah (carrot) yang memberikan hue warna kuning dan oren kepada sayuran dan buah-buahan.
Beta Karotena ditukarkan kepada Vitamin A (retinol) oleh badan manusia. Vitamain A diperlukan untuk penglihatan yang baik (good vision) dan menjaga kesihatan mata, membina sistem imunisasi, penjagaan kesihatan kulit (healthy skin) dan mucus membranes.
Seperti semua jenis karotenoids, beta karotena adalah kaya dengan anti-oksidan. Ia melindungi kita daripada kerosakan molekul yang dikenali sebagai radikal bebas (free radicals)
Dalam jangka masa yang panjang, kerosakan molekul boleh menyebabkan berlakunya penyakit kronik seperti penyakit jantung dan kanser. Kajian klinikal mendapati bahawa kandungan beta karotena yang tinggi dapat menghalang sensiviti terhadap cahaya matahari khususnya bagi pesakit erythropoietic protoporphyria.
Beta Karotena Sebagai Makanan Otak (Brain Food)
Kajian yang dijalankan di Universiti Harvard mendapati pengambilan beta karotena boleh menyelamatkan otak kerana ianya melambatkan penuaan kognitif anda (masalah lupa atau nyanyuk). Ini kerana beta karotena menentang kesan oksidatif yang boleh membahayakan sel otak untuk jangka masa panjang.
Beta Karotena Sebagai Pemelihara Kulit (Skin Saver)
Kajian dalam Photochemistry and Photobiology menyatakan, kandungan beta karotena secara signifikannya mampu melindungi kulit anda dari “sunburn” jika diambil dalam tempoh yang lama. Ianya bertindak melindungi kulit jika terdedah kepada cahaya matahari untuk tempoh yang lama.
Jangan lepaskan peluang untuk menjaga kesihatan anda dengan cara yang mudah melalui Jus Nutrisi VeMMA. Jangan gadaikan nikmat KESIHATAN anda!!!!!!
Nama alternatif bagi beta karotena:
B-carotene; Betacarotenum; Provitamin A; Trans-beta-carotene
Supporting Research:
Physician’s Desk Reference. 62nd ed. Montvale, NJ: Medical Economics Company, Inc.; 2007.
The Alpha-tocopherol, Beta-carotene Cancer Prevention Study Group. The effect of vitamin E and Beta Carotene on incidence of lung cancer and other cancers in male smokers. N Engl J Med. 1994;330:1029-1035.
Bjelakovic G, Nikolova D,Gluud LL, Simonetti RG, Gluud C. Mortality in randomized trials of antioxidant supplements for primary and secondary prevention: systematic review and meta-analysis. JAMA 2007;297:842-57.
Badan kita mempunyai kuasa untuk menyembuh dengan sendirinya melalui pemakanan yang sihat dan berkhasiat kerana makanan boleh juga melakukannya sepertimana ubat-ubatan.
Jus Vemma yang tinggi dengan Xanthones dan Orac, lengkap, berkhasiat dan semulajadi adalah antara yang terbaik pada masa kini. Just Drink it..
Menurut Dr Frederic Templeman dari Amerika yang menjalankan kajian mendapati Buah manggis mengandungi 40 jenis Xanthones berbeza yang tinggi yang mempunyai kuasa untuk menyembuh. Ia juga anti tumor dan anti kanser dan telah dibuktikan dengan lebih dari 50 kajian saintifik di seluruh dunia. Ia juga dapat menghalang radiasi bebas dari merosakkan sel-sel tubuh kita yang menjadi punca segala penyakit disamping membaikinya.
Menurutnya lagi, seramai 296 orang meninggal dunia setiap hari akibat reaksi atau alahan ubat-ubatan yang diberikan kepada pesakit.Jus Vemma yang tinggi dengan Xanthones dan Orac, lengkap, berkhasiat dan semulajadi adalah antara yang terbaik pada masa kini. Just Drink it..
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