Your search keyword '"HUSSAIN, MANZOOR"' showing total 6 results

1. High resolution melting curve analysis enables rapid and reliable detection of G6PD variants in heterozygous females

Author

Islam, Md Tarikul, Sarker, Suprovath Kumar, Talukder, Shezote, Bhuyan, Golam Sarower, Rahat, Asifuzzaman, Islam, Nafisa Nawal, Mahmud, Hasan, Hossain, Mohammad Amir, Muraduzzaman, A. K. M., Rahman, Jakia, Qadri, Syeda Kashfi, Shahidullah, Mohammod, Mannan, Mohammad Abdul, Tahura, Sarabon, Hussain, Manzoor, Saha, Narayan, Akhter, Shahida, Nahar, Nazmun, Begum, Firoza, Shirin, Tahmina, Akhteruzzaman, Sharif, Qadri, Syed Saleheen, Qadri, Firdausi, and Mannoor, Kaiissar

Published

2018

2. High resolution melting curve analysis targeting the HBB gene mutational hotspot offers a reliable screening approach for all common as well as most of the rare beta-globin gene mutations in Bangladesh.

Author

Islam, Md Tarikul, Sarkar, Suprovath Kumar, Sultana, Nusrat, Begum, Mst. Noorjahan, Bhuyan, Golam Sarower, Talukder, Shezote, Muraduzzaman, A. K. M., Alauddin, Md, Islam, Mohammad Sazzadul, Biswas, Pritha Promita, Biswas, Aparna, Qadri, Syeda Kashfi, Shirin, Tahmina, Banu, Bilquis, Sadya, Salma, Hussain, Manzoor, Sarwardi, Golam, Khan, Waqar Ahmed, Mannan, Mohammad Abdul, and Shekhar, Hossain Uddin

Subjects

GENETIC mutation, BETA globin, BETA-Thalassemia, EXONS (Genetics), PUBLIC health

Abstract

Background: Bangladesh lies in the global thalassemia belt, which has a defined mutational hot-spot in the betaglobin gene. The high carrier frequencies of beta-thalassemia trait and hemoglobin E-trait in Bangladesh necessitate a reliable DNA-based carrier screening approach that could supplement the use of hematological and electrophoretic indices to overcome the barriers of carrier screening. With this view in mind, the study aimed to establish a high resolution melting (HRM) curve-based rapid and reliable mutation screening method targeting the mutational hot-spot of South Asian and Southeast Asian countries that encompasses exon-1 (c.1 - c.92), intron-1 (c.92 + 1 - c.92 + 130) and a portion of exon-2 (c.93 - c.217) of the HBB gene which harbors more than 95% of mutant alleles responsible for beta-thalassemia in Bangladesh. Results: Our HRM approach could successfully differentiate ten beta-globin gene mutations, namely c.79G > A, c.92 + 5G > C, c.126_129delCTTT, c.27_28insG, c.46delT, c.47G > A, c.92G > C, c.92 + 130G > C, c.126delC and c. 135delC in heterozygous states from the wild type alleles, implying the significance of the approach for carrier screening as the first three of these mutations account for ~85% of total mutant alleles in Bangladesh. Moreover, different combinations of compound heterozygous mutations were found to generate melt curves that were distinct from the wild type alleles and from one another. Based on the findings, sixteen reference samples were run in parallel to 41 unknown specimens to perform direct genotyping of the beta-thalassemia specimens using HRM. The HRM-based genotyping of the unknown specimens showed 100% consistency with the sequencing result. Conclusions: Targeting the mutational hot-spot, the HRM approach could be successfully applied for screening of beta-thalassemia carriers in Bangladesh as well as in other countries of South Asia and Southeast Asia. The approach could be a useful supplement of hematological and electrophortic indices in order to avoid false positive and false negative results. [ABSTRACT FROM AUTHOR]

Published

2018

3. Epidemiology of foot-and-mouth disease in Landhi Dairy Colony, Pakistan, the world largest Buffalo colony.

Author

Klein, Joern, Hussain, Manzoor, Ahmad, Munir, Afzal, Muhammad, and Alexandersen, Soren

Subjects

*FOOT & mouth disease, *WATER buffalo, *EPIDEMIOLOGY, *ANIMAL vaccination

Abstract

Background: Foot-and-mouth disease (FMD) is endemic in Pakistan and causes huge economic losses. This work focus on the Landhi Dairy Colony (LDC), located in the suburbs of Karachi. LDC is the largest Buffalo colony in the world, with more than 300,000 animals (around 95% buffaloes and 5% cattle, as well as an unknown number of sheep and goats). Each month from April 2006 to April 2007 we collected mouth-swabs from apparently healthy buffaloes and cattle, applying a convenient sampling based on a two-stage random sampling scheme, in conjunction with participatory information from each selected farm. Furthermore, we also collected epithelium samples from animals with clinical disease, as well as mouth-swabs samples from those farms. In addition, we analysed a total of 180 serum samples randomly collecting 30 samples each month at the local slaughterhouse, from October 2006 to March 2007. Samples have been screened for FMDV by real-time RT-PCR and the partial or full 1D coding region of selected isolates has been sequenced. Serum samples have been analysed by applying serotype-specific antibody ELISA and non-structural proteins (NSP) antibody ELISA. Results: FMDV infection prevalence at aggregate level shows an endemic occurrence of FMDV in the colony, with peaks in August 2006, December 2006 and February 2007 to March 2007. A significant association of prevalence peaks to the rainy seasons, which includes the coldest time of the year and the muslimic Eid-festival, has been demonstrated. Participatory information indicated that 88% of all questioned farmers vaccinate their animals. Analysis of the serum samples showed high levels of antibodies for serotypes O, A, Asia 1 and C. The median endpoint-titre for all tested serotypes, except serotype C, in VNT titration is at a serum dilution of equal or above 1/100. All 180 serum samples collected have been tested for antibodies against the non-structural proteins and all but four have been found positive. Out of the 106 swab-samples from apparently healthy and affected animals positive in real-time RTPCR, we sequenced the partial or full 1D coding region from 58 samples. In addition we sequenced the full 1D coding region of 17 epithelium samples from animals with clinical signs of FMD. From all sequenced samples, swabs and epithelium, 19 belong to the regional PanAsia II lineage of serotype O and 56 to the A/Iran/2005 lineage of serotype A. Conclusion: For an effective and realisable FMD control program in LDC, we suggest to introduce a twice annually mass vaccination of all buffaloes and cattle in the colony. These mass vaccinations should optimally take place shortly before the beginning of the two rainy periods, e.g. in June and September. Those vaccinations should, in our opinion, be in addition to the already individually performed vaccinations of single animals, as the latter usually targets only newly introduced animals. This suggested combination of mass vaccination of all large ruminants with the already performed individually vaccination should provide a continuous high level of herd immunity in the entire colony. Vaccines used for this purpose should contain the matching vaccine strains, i.e. as our results indicate antigens for A/Iran/2005 and the regional type of serotype O (PanAsia II), but also antigens of the, in this world region endemic, Asia 1 lineage should be included. In the long term it will be important to control the vaccine use, so that subclinical FMD will be avoided. [ABSTRACT FROM AUTHOR]

Published

2008

4. Genetic characterisation of the recent foot-and-mouth disease virus subtype A/IRN/2005.

Author

Klein, Joern, Hussain, Manzoor, Ahmad, Munir, Normann, Preben, Afzal, Muhammad, and Alexandersen, Soren

Subjects

*FOOT & mouth disease virus, *GENETICS, *AMINO acid sequence, *PROTEINS

Abstract

Background: According to the World Reference Laboratory for FMD, a new subtype of FMDV serotype A was detected in Iran in 2005. This subtype was designated A/IRN/2005, and rapidly spread throughout Iran and moved westwards into Saudi Arabia and Turkey where it was initially detected from August 2005 and subsequently caused major disease problems in the spring of 2006. The same subtype reached Jordan in 2007. As part of an ongoing project we have also detected this subtype in Pakistan with the first positive samples detected in April 2006. To characterise this subtype in detail, we have sequenced and analysed the complete coding sequence of three subtype A/IRN/2005 isolates collected in Pakistan in 2006, the complete coding sequence of one subtype A/IRN/2005 isolate collected during the first outbreak in Turkey in 2005 and, in addition, the partial 1D coding sequence derived from 4 epithelium samples and 34 swab-samples from Asian buffaloes or cattle subsequently found to be infected with the A/IRN/2005 subtype. Results: The phylogenies of the genome regions encoding for the structural proteins, displayed, with the exception of 1A, distinct, serotype-specific clustering and an evolutionary relationship of the A/IRN/2005 sublineage with the A22 sublineage. Potential recombination events have been detected in parts of the genome region coding for the non-structural proteins of FMDV. In addition, amino acid substitutions have been detected in the deduced VP1 protein sequence, potentially related to clinical or subclinical outcome of FMD. Indications of differential susceptibility for developing a subclinical course of disease between Asian buffaloes and cattle have been detected. Furthermore, hitherto unknown insertions of 2 amino acids before the second start codon, as well as sublineage specific amino acids have been detected in the genome region encoding for the leader proteinase of A/IRN/2005 sublineage. Conclusion: Our findings indicate that the A/IRN/2005 sublineage has undergone two different paths of evolution for the structural and non-structural genome regions. The structural genome regions have had their evolutionary starting point in the A22 sublineage. It can be assumed that, due to the quasispecies structure of FMDV populations and the error-prone replication process, advantageous mutations in a changed environment have been fixed and lead to the occurrence of the new A/IRN/2005 sublineage. Together with this mechanism, recombination within the non-structural genome regions, potentially modifying the virulence of the virus, may be involved in the success of this new sublineage. The possible origin of this recombinant virus may be a co-infection with Asia1 and a serotype A precursor of the A/IRN/2005 sublineage potentially within Asian Buffaloes, as these appears to relatively easy become infected, but usually without developing clinical disease and consequently showing not a strong acute inflammatory immune response against a second FMDV infection. [ABSTRACT FROM AUTHOR]

Published

2007

5. Epidemiology and risk factors for pneumonia severity and mortality in Bangladeshi children <5 years of age before 10-valent pneumococcal conjugate vaccine introduction.

Author

Saha, Shampa, Hasan, Md, Kim, Lindsay, Farrar, Jennifer L, Hossain, Belal, Islam, Maksuda, Ahmed, Asm Nawshad Uddin, Amin, M Ruhul, Hanif, Mohammed, Hussain, Manzoor, El-Arifeen, Shams, Whitney, Cynthia G, and Saha, Samir K

Subjects

PNEUMONIA prevention, PNEUMONIA-related mortality, AGE distribution, HOSPITAL care, IMMUNIZATION, PNEUMOCOCCAL vaccines, PNEUMONIA, WATER supply, COMORBIDITY, SEVERITY of illness index, ODDS ratio

Abstract

Background: Pneumonia is the leading infectious cause of morbidity and mortality in young children in Bangladesh. We present the epidemiology of pneumonia in Bangladeshi children <5 years before 10-valent pneumococcal conjugate vaccine introduction and investigate factors associated with disease severity and mortality.Methods: Children aged 2-59 months admitted to three Bangladeshi hospitals with pneumonia (i.e., cough or difficulty breathing and age-specific tachypnea without danger signs) or severe pneumonia (i.e., cough or difficulty breathing and ≥1 danger signs) were included. Demographic, clinical, laboratory, and vaccine history data were collected. We assessed associations between characteristics and pneumonia severity and mortality using multivariable logistic regression.Results: Among 3639 Bangladeshi children with pneumonia, 61% had severe disease, and 2% died. Factors independently associated with severe pneumonia included ages 2-5 months (adjusted odds ratio [aOR] 1.60 [95% CI: 1.26-2.01]) and 6-11 months (aOR 1.31 [1.10-1.56]) relative to 12-59 months, low weight for age (aOR 1.22 [1.04-1.42]), unsafe drinking water source (aOR 2.00 [1.50-2.69]), higher paternal education (aOR 1.34 [1.15-1.57]), higher maternal education (aOR 0.74 [0.64-0.87]), and being fully vaccinated for age with pentavalent vaccination (aOR 0.64 [0.51-0.82]). Increased risk of pneumonia mortality was associated with age <12 months, low weight for age, unsafe drinking water source, lower paternal education, disease severity, and having ≥1 co-morbid condition.Conclusions: Modifiable factors for severe pneumonia and mortality included low weight for age and access to safe drinking water. Improving vaccination status could decrease disease severity. [ABSTRACT FROM AUTHOR]

Published

2016

6. High resolution melting curve analysis targeting the HBB gene mutational hot-spot offers a reliable screening approach for all common as well as most of the rare beta-globin gene mutations in Bangladesh.

Author

Islam MT, Sarkar SK, Sultana N, Begum MN, Bhuyan GS, Talukder S, Muraduzzaman AKM, Alauddin M, Islam MS, Biswas PP, Biswas A, Qadri SK, Shirin T, Banu B, Sadya S, Hussain M, Sarwardi G, Khan WA, Mannan MA, Shekhar HU, Chowdhury EK, Sajib AA, Akhteruzzaman S, Qadri SS, Qadri F, and Mannoor K

Subjects

Adolescent, Bangladesh, Child, Child, Preschool, Genetic Carrier Screening economics, Hemoglobin E genetics, Humans, Infant, Mutation, beta-Thalassemia genetics, Genetic Carrier Screening methods, Nucleic Acid Hybridization methods, beta-Globins genetics, beta-Thalassemia diagnosis

Abstract

Background: Bangladesh lies in the global thalassemia belt, which has a defined mutational hot-spot in the beta-globin gene. The high carrier frequencies of beta-thalassemia trait and hemoglobin E-trait in Bangladesh necessitate a reliable DNA-based carrier screening approach that could supplement the use of hematological and electrophoretic indices to overcome the barriers of carrier screening. With this view in mind, the study aimed to establish a high resolution melting (HRM) curve-based rapid and reliable mutation screening method targeting the mutational hot-spot of South Asian and Southeast Asian countries that encompasses exon-1 (c.1 - c.92), intron-1 (c.92 + 1 - c.92 + 130) and a portion of exon-2 (c.93 - c.217) of the HBB gene which harbors more than 95% of mutant alleles responsible for beta-thalassemia in Bangladesh., Results: Our HRM approach could successfully differentiate ten beta-globin gene mutations, namely c.79G > A, c.92 + 5G > C, c.126&#95;129delCTTT, c.27&#95;28insG, c.46delT, c.47G > A, c.92G > C, c.92 + 130G > C, c.126delC and c.135delC in heterozygous states from the wild type alleles, implying the significance of the approach for carrier screening as the first three of these mutations account for ~85% of total mutant alleles in Bangladesh. Moreover, different combinations of compound heterozygous mutations were found to generate melt curves that were distinct from the wild type alleles and from one another. Based on the findings, sixteen reference samples were run in parallel to 41 unknown specimens to perform direct genotyping of the beta-thalassemia specimens using HRM. The HRM-based genotyping of the unknown specimens showed 100% consistency with the sequencing result., Conclusions: Targeting the mutational hot-spot, the HRM approach could be successfully applied for screening of beta-thalassemia carriers in Bangladesh as well as in other countries of South Asia and Southeast Asia. The approach could be a useful supplement of hematological and electrophortic indices in order to avoid false positive and false negative results.

Published

2018