Tumbuhan yang mempunyai kelimpahan tinggi dan boleh mengumpul logam berat dengan banyak boleh digunakan sebagai bio-penunjuk. Tujuan kajian ini adalah untuk melihat kesesuaian Melastoma malabathricum sebagai bio-penunjuk bagi pencemar logam berat dalam tanih bekas lombong. Dalam kajian ini, lima belas sampel Melastoma malabathricum dan tanih telah diambil di tapak bekas lombong besi dan timah Pelepah Kanan Kota Tinggi, Johor. Tiga bahagian tumbuhan (akar, batang, daun) telah dianalisis untuk mengkaji penyerapan kandungan logam berat Cu, Fe dan Mn. Parameter tanih yang dikaji meliputi parameter fizikal dan kimia. Hasil kajian taburan saiz partikel tanih menunjukkan kebanyakan tanih di kawasan kajian adalah jenis berpasir dan bertekstur pasir berlom. Kandungan bahan organik adalah sekitar 1.45 hingga 5.91%. Nilai pH bagi tanih di kawasan kajian adalah sekitar 3.55 hingga 5.68 iaitu bersifat sangat asid ke asid. Kekonduksian elektrik tanih adalah antara 2.14 hingga 2.58 mS/cm. Hasil kajian menunjukkan bahawa, kepekatan logam-logam berat dalam tanih ialah 12070 hingga 65545 mg/kg bagi Fe, 1070.3 hingga 11956.3 mg/kg bagi Mn dan 386.5 hingga 4753.2 mg/kg bagi Cu. Kandungan logam-logam berat dalam bahagian-bahagian tumbuhan pula adalah mengikut turutan seperti berikut; Fe>Mn>Cu. Didapati bahawa spesies tumbuhan Melastoma malabathricurn adalah sesuai sebagai penunjuk biologi logam berat Fe dan Mn.
Kesan penggunaan kitosan terhadap nanozarah kuprum (Cu) yang disintesis menggunakan sinaran gama sebagai sumber agen penurunan telah dijalankan dalam sistem akues. Dos sinaran terserap yang digunakan adalah 50 kGy manakala penambahan isopropanol adalah penting sebagai penggarut kepada radikal pengoksidaan serta meningkatkan peranan agen penurun yang terhasil daripada proses radiolisis. Analisis serapan optik-uv telah mencirikan sifat optik larutan nanozarah Cu yang disintesis. Ketulenan fasa kristal nanozarah Cu yang terbentuk dalam matrix kitosan telah dibuktikan dengan pembelauan sinar-X (xRD). Berdasarkan imej mikroskop imbasan elektron (TEM), nanozarah Cu yang terhasil adalah berbentuk sfera dengan julat saiz 6-10 nm kecuali nanozarah Cu yang disintesis dalam kepekatan kitosan 03% wlv yang menunjukkan taburan bentuk yang tidak sekata. Analisis spektrofotometer transformasi Fourier inframerah (FHR) yang dijalankan telah mengesahkan kehadiran sebatian kitosan dalam sampel nanozarah Cu dengan kepekatan kitosan 0.1 dan 0.3% wlv. Kajian ini mendapati penggunaan kitosan dapat melindungi nanozarah Cu daripada pengoksidaan oleh persekitaran. Saiz nanozarah juga didapati meningkat seiring dengan peningkatan kepekatan kitosan yang digunakan.
Molluscan shells are attracting research interest due to the diverse application properties possessed. As shells are very similar to bones, this study was conducted to analyze the mineral and physiochemical composition of Cockle (Anadara granosa) shell and three other types of molluscan shell, namely Strombus canarium, Oliva sayana and Terebra dislocata as potential biomaterial for bone tissue engineering applications. Approximately 200 g of shells from each species were processed and powdered for the purpose of this study. Carbon was analyzed using the carbon analyzer while minerals and heavy metals through ICP-MS. The phase purity and crystallographic structures of the powders were identified using X-Ray Diffractometer (XRD) while the chemical functionality was determined using the Fourier transform infrared (FTIR) spectrophotometer. The analysis showed that Cockle shells contained higher content of calcium and carbon including varying amount of other minor elements comparatively. However, all four types of shell powders were found to contain below detectable levels of toxic elements. Physiochemical analysis on phase purity and crystallographic structures showed similar characteristics of carbonate group present in all four shell types. A predominantly aragonite form of calcium carbonate was detected in both XRD diffractogram and FTIR spectra for all samples. Our findings demonstrated that different types of molluscan shells have almost similar mineral and physiochemical characteristics and a predominantly aragonite form of calcium carbonate that provides a strong basis for their use as a potential bone tissues engineering material.
Inflammation plays an important role to the process of prostate carcinogenesis by increasing the rate of cell proliferation,
which contributes to an aggressive tumour phenotype. Cyclooxygenase-2 (COX-2) has been found overexpressed in
various types of cancer cells including prostate. The aim of this study was to investigate the COX-2 expressions in different
types of human prostate tissues. Paraffin-embedded prostate tissues from 263 samples were examined for the expression
of COX-2 marker by immunohistochemistry method. COX-2 was found highly expressed in prostate adenocarcinoma
(p=0.001) as compared to benign and normal tissues. The score of COX-2 expressions in most of normal prostate was
weak 49 (77.8%), while only 16 (16%) of BPH showed strong expression. 56 cases (56%) prostate cancer showed strong
COX-2 expression. Prostate cancer cases showed significant differences in staining patterns as tumour grade increased.
In addition, COX-2 expression was significantly correlated with Gleason score in cancerous tissues. This study suggests
that COX-2 overexpression is associated with prostate cancer and higher grade tumour.
Heat and mass transfer of MHD boundary-layer flow of a viscous incompress-
ible fluid over an exponentially stretching sheet in the presence of radiation is investi-
gated. The two-dimensional boundary-layer governing partial differential equations are
transformed into a system of nonlinear ordinary differential equations by using similarity
variables. The transformed equations of momentum, energy and concentration are solved
by Homotopy Analysis Method (HAM). The validity of HAM solution is ensured by com-
paring the HAM solution with existing solutions. The influence of physical parameters
such as magnetic parameter, Prandtl number, radiation parameter, and Schmidt num-
ber on velocity, temperature and concentration profiles are discussed. It is found that
the increasing values of magnetic parameter reduces the dimensionless velocity field but
enhances the dimensionless temperature and concentration field. The temperature dis-
tribution decreases with increasing values of Prandtl number. However, the temperature
distribution increases when radiation parameter increases. The concentration boundary
layer thickness decreases as a result of increase in Schmidt number.
Calcineurin inhibitors, cyclosporine and tacrolimus are increasingly becoming part of the standard immunosuppresant therapies for renaltransplanted patients in Malaysia. In this study, the clinical safety and efficacy of cyclosporine and tacrolimus in a Malaysian renal-transplanted population is compared. A fourteen-year retrospective review on all renal-transplanted patients (from September 1991 to September 2015) or patients being followed up at University Malaya Medical Centre (UMMC) on cyclosporine or tacrolimus regime was conducted. We collected the clinical and laboratory parameters at 3-month, 6-month, 7-month, 8-month, 9-month, 10-month, 11-month, 12- months, 2-year and 3-year following from transplantation for each drug. The mean cyclosporine and tacrolimus trough levels were within the recommended therapeutic ranges (189.16 ± 69.10 ng/ml and 7.84 ± 2.18 mg/day respectively). The mean low-density lipoprotein (LDL) was significantly higher at eleven months for tacrolimus compared to cyclosporine. Similarly, the mean total bilirubin level was significantly higher with cyclosporine as compared to tacrolimus between 3 – 9 months post transplantation but did not show any significant difference (p = 0.49). The overall monthly means of serum uric acid levels in patients were also similar, 380 ± 87 mg/dL (cyclosporine) and 390.96 ± 95.97 mg/dL (tacrolimus) (p = 0.49). The Kaplan-Meier survival rate is significantly longer (p = 0.03) with cyclosporine-based treatment as compared to tacrolimus. Overall, cyclosporine and tacrolimus did not show any significant difference in terms of safety and efficacy parameters among Malaysian renal-transplanted patients indicating that they may be used interchangeably.
Anaemia still constitutes a public health problem in the world, especially in the developing countries (1). Nutritional deficiency remains a major causative factor (2). During pregnancy, growth of the foetus, placenta and the larger amount of circulating blood in the expectant mother will lead to an increase in the demand for nutrients, especially iron and folic acid. Many women start their lives with insufficient iron stores, but also, because of inadequate child spacing, they have little time to build up their iron levels between pregnancies. In pregnancy, anaemia has been shown to be associated with an increased risk of maternal and fetal morbidity and mortality (3,4,5). Iron and folic acid supplementation is routinely given to pregnant mothers in Malaysia. It is anticipated that pregnant mothers who comply strictly with the prescribed iron supplement will maintain adequate iron stores at parturition. However, the compliance rate among rural mothers in Kelantan is often poor (6). Kelantan is also one of the most socio-economically underdeveloped
Stool samples obtained from 120 Malay children, aged below 6 years, in Mukim Ijok, Kuala Selangor, were tested. Enteric pathogens were found in 7.5% of specimens. Enteropathogenic Escherichia coli (EPEC) was the most common enteric pathogen isolated (6.7%) followed by Salmonella spp (0.83%). The rate of isolation was independent of age and sex.
Competition for limited available water for crop production is an ever-increasing issue for
farmers due to increasing demand of irrigation water worldwide. Due to high energy cost
in operating pressurized irrigation systems, energy-efficient low-pressure wick irrigation
systems can play important roles for smallholder greenhouse crop production by ensuring
higher water use efficiency than most traditional approaches. The objectives of this study
were to investigate HYDRUS 2D-simulated water distribution patterns in soil and soilless
growing media, and to evaluate water balance in these media under capillary wick irrigation
system. To accomplish these objectives, eggplants (Solanum melongena L.) were grown
in potted peatgro and sandy clay loam in a greenhouse experiment, water distribution was
simulated by using HYDRUS 2D software package and compared with the measured
values, and water uptake by the plant roots was determined for water balance calculation.
The wetting pattern was found axially symmetric in both growing media (peatgro and
soil) under the wick emitters. The simulated
water distribution in both growing media
revealed dependency of spatial extent of the
wetted zone on water application period and
hydraulic properties of the media. The mean
absolute error (MAE) in water content over
depth varied from 0.04 to 0.10 m3 m−3 and the root mean square error (RMSE) varied from 0.04 to 0.11 m3 m−3. Deviations between the
measured and simulated water contents in the peatgro medium were larger over depth than
over lateral distance. In contrast, the model criteria matched well for the sandy clay loam
and provided MAE of 0.01 to 0.02 m3 m−3 and RMSE of 0.01 to 0.03 m3 m−3, indicating
good agreement between the measured and simulated water contents.
Socioeconomic development in Malaysia, over the past few decades, has led to the improvement and expansion of the public healthcare system. This system has provided universal access to a low-priced package of comprehensive health care leading Malaysia to claim to have achieved universal health coverage (UHC). However, the Malaysian health landscape is changing rapidly. Provision of private care has grown especially in large urban towns, mainly in response to public demand. Thus far, private care has been predominantly bought and utilised by the rich but because of differentials in quality of care between the public and private sector, unabated expansion of the private health sector has the potential to adversely affect universal access to care. This effect may be accentuated in the coming years by demographic changes in the country specifically by the ageing of the population. This paper is intended to highlight challenges to UHC in Malaysia in the face of the changing health landscape in the country and to offer some suggestions as to how these challenges can be met.
Oil spill introduces hydrocarbons into the marine environment and forms oil slicks, which aggregate with other debris to form tarballs. Tarballs are composed of toxic hydrocarbons, which persist in the environment, causing economic and ecological damages. This work studied the isolation and optimization of diesel-oil biodegradation by an indigenous bacterium, identified by 16S rRNA gene sequence analysis, in tarball. An experimental methodology using a Taguchi orthogonal array was applied to optimize the effects of diesel concentration, salinity, nitrate concentration, pH, temperature, agitation speed and time. An isolated bacterium identified as Cellulosimicrobium cellulans removed 88.4% of diesel oil under optimized conditions, where initial diesel-oil concentration was 5% (v/v), NaCl concentration was 20 gL-1 and NH4NO3 concentration was 2 gL-1 in Minimal Salt Media at pH 7, 40oC and 100 revolutions per minute for 5 days. Tarballs harbor hydrocarbon-degrading C. cellulans that can be used under optimized conditions to design an effective oil spill bioremediation technique for mitigating oil pollution.
This study was conducted to explore the manager’s perception towards Generation Y
employees particularly in the IT industry in Selangor. A case study approach was adopted in
which data was obtained through semi-structured interviews. Purposive sampling technique
was used and a total of eight (8) informants participated and interviewed. The data obtained
from the interview were qualitatively analyzed. Data analysis was conducted by adopting a
content analysis framework in which obtained data were divided into four (4) phases
including condensation, code, category and inference and summarize. The findings showed
majority of the managers perceived that openness to experience, conscientious and
extraversion’ are the most common personalities among Generation Y employees. Besides
that, the findings also revealed that in terms of work ethics, Generation Y employees are
perceived as accountable of own’s actions, respect authority, transparency and loyal. The
result of this study implicates the organization in terms of attrition and turnover rate among
Generation Y employees and organizational branding. The result of this study provided
some recommendations to HR practitioners and organizations in managing and handling at
the workplace.
Tripoli coastal aquifer, Libya, which is located in a densely urbanised area, is the primary source of water supply in Tripoli city. In the last few decades and due to population growth, more than 100 wells have been drilled in Tripoli aquifer for the purpose of increasing pumping to meet demand on groundwater. The urbanisation at the Tripoli upper aquifer system has reduced the recharge rates and affected the groundwater storage. In this study, changes in groundwater dynamics in Tripoli’s unconfined aquifers were simulated using MODFLOW-2005 code. The model was calibrated and validated using measured and simulated values. Statistical tests such as coefficient of determination, R2 mean error, mean absolute error, and the root mean square error were computed and found to be 0.97, 0.31, 1.70 and 2.32 respectively. The simulation will assist in the assessment of the long term saline water intrusion. Calibrated transient groundwater flow models for the years 2020 – 2100 indicated that this case is likely to occur along pumping profiles with high pumping rates. Simulation results show that the groundwater levels will decline and exceed 12 m in the Southern area while in the Northern area near the coastal line, depletion is continuous and more than 70 wells will face saline water intrusion by the year 2100. Doubling the pumping rate from the wells will accelerate the drop in the groundwater levels and about 98% of the wells will be subjected to high salinity level by 2100. The salinity levels in these wells will make the groundwater unfit for human consumption.
Hepatitis C infection is a major public health problem that can be dealt with urgent and timely attention. Recently, WHO Global Hepatitis Report showed that 71 million people, equivalent to approximately 1% of the world population, are infected with hepatitis C. The disease incidence, mortality rate and risk factors vary across geographical regions. The virus is transmitted primarily through drug injection and exposure to infected blood products in healthcare and community settings. The common causes of death related to virus infections are decompensated liver cirrhosis and hepatocellular carcinoma. Hepatitis C infection is mainly prevented by identifying and controlling any possible risk factors for virus transmission because treatment is costly and limited in availability. In this review, articles discussing the natural history, epidemiology and risk factors for hepatitis C infection are reviewed.
Tujuan kajian ini adalah untuk mengkaji kesan pengubahsuaian raket badminton dalam prestasi kemahiran kanak-kanak. Saiz raket badminton yang digunakan oleh kanak-kanak telah dikecilkan bagi membolehkan mereka bermain mengikut ciri-ciri fizikal mereka. Seramai 40 orang kanak-kanak berusia antara 7 hingga 9 tahun, yang tidak mempunyai pengalaman dalam bermain badminton telah menyertai kajian ini. Kanak-kanak telah dibahagikan kepada dua buah kumpulan secara rawak iaitu kumpulan raket yang diubahsuai (RU) dan kumpulan raket piawai (RP). Kedua-dua buah kumpulan telah menjalani program latihan selama lima minggu, yang telah dikendalikan oleh seorang jurulatih yang berkelayakan. Prestasi pukulan hadapan peserta telah diukur dan dianalisis menggunakan ujian-t sampel bebas. Hasil ujian mendapati terdapat perbezaan yang signifikan terhadap penggunaan raket bersaiz piawai antara kumpulan RU dan kumpulan RP, t (38) = 2.51, p < .05. Manakala bagi penggunaan raket yang diubahsuai juga menunjukkan terdapat perbezaan yang signifikan antara kumpulan RU dan kumpulan RP, t (38) = 4.53, p < .05. Dapatan kajian turut mendapati bahawa kumpulan RU mempunyai prestasi pukulan hadapan yang lebih baik berbanding kumpulan RP apabila menggunakan raket yang diubahsuai dan raket piawai. Keputusan ini menunjukkan bahawa kumpulan RU mempunyai proses pemindahan pembelajaran kemahiran yang lebih baik semasa menggunakan raket yang diubahsuai dan raket piawai berbanding kumpulan RP. Kesimpulannya, pengubahsuaian saiz raket dapat meningkatkan prestasi kemahiran di kalangan kanak-kanak dalam sukan badminton.
Failure of pancreas can cause uncontrolled blood glucose levels in the body. This research focuses on type 1 diabetes patients who depend on external insulin injection. The Hovorka model was used as the mathematical model in the development of control algorithm for artificial pancreas. However, the model showed a lack of interaction on selected parameters and variables in its glucose-insulin dynamic system. An improvement on the Hovorka equations was done, but no work was carried out to simulate the proposed equations. The objectives of this study are to simulate the modified Hovorka equations using MATLAB and to compare the simulation results between the reference and modified ones. This study showed better interaction among all variables and parameters on its glucose-insulin dynamic system using the modified equations compared to the original equations. The lower administered amount of insulin, Ut at 16.7mU/min and 20mU/min could regulate the blood glucose level at normoglycemic condition throughout the study.
Introduction: The number of patients with poor glycaemic control who refuse insulin therapy is alarming. Factors that contribute to insulin refusal are important to study to identify high risk groups so that appropriate measures can be taken to prevent progression of uncontrolled diabetes. The objective of this study is to determine the risk factors of insulin refusal among type 2 diabetes mellitus patients with poor glycaemic control at Tanglin Health Clinic, Kuala Lumpur, Malaysia. Methods: A case control study was conducted among 216 cases and 230 controls using stratified sampling method. Cases were defined as patients with HbA1C more than 7.5% but not on insulin therapy despite being offered by the doctor whereas controls consist of patients with HbA1C of more than 7.5% but already on insulin therapy. Data was collected from April until May 2018, using a self-administered questionnaire. Analysis was done via IBM SPSS version 23.0. Results: Response rate for cases was 93.9% and response rate for controls was 100%. Risk factors of insulin refusal among poor glycaemic control includes age above 60 years old, tertiary level education, duration of diabetes less than 10 years, poor level of knowledge on insulin, fear on injection pain and fear to bruising due to injections. Conclusion: Hence, efforts must be taken to tackle the modifiable factors such as knowledge on insulin and diabetes, and fear on injections and bruises.
Interest in the use of intelligent packaging systems for food products has increased in recent years. Intelligent packaging
systems are those that monitor the condition of packaged foods to give information regarding the quality of the packaged
food during transport and storage. The potential of HEC/PANI film as pH indicator and pH sensor were evaluated. HEC/
PANI film was prepared by solution blending and casting method. Fourier transform infrared (FTIR) spectroscopy showed
that there was no chemical interaction between HEC and PANI. The film properties were retained chemically. The electrical
conductivity increment from 1.14×105 to 2.2 ×105
S/cm was observed when PANI was incorporated into the HEC film matrix.
Field emission scanning electron microscopy (FESEM) showed that the electrical conductance network of PANI was formed
in HEC/PANI film. The electrical sensitivity of the film has been studied with I-V characterization. The changes in color and
current of HEC/PANI film on interaction to pH buffer 1-14 shows its suitability as pH indicator and pH sensor for food.
Surface water quality monitoring is an important tool for enhancing the water body management system. This study focuses on the water quality of a lake based on rehabilitation work completed in 2014. This lake suffers from eutrophication and water quality degradation due to the increase in pollution rates and water source scarcity. Nine points were selected to represent the water quality status for the study area. Two river tributaries that pass through the University Malaya (UM) campus have been considered due of its potential as a water source for the lake. Field and laboratory analysis were conducted to understand the transport of water quality parameters. The data variations were analyzed using a multivariate statistical method to determine the significant differences between the lake and river. Based on the Malaysian Water Quality Index (WQI) and cluster analysis, the results indicated that the lake and river have different physico-chemical characteristics and the lake water has a better quality than the river. Comparison of the concentration for BOD, TSS, PO43- and NO3- between year 2009 and current study proved that the water quality has improved by 99.8% proving that the lake remediation is effective.