Wei Min HUANG
Nanyang Technological University, Singapore
Email: firstname.lastname@example.org, email@example.com
Tel: 0065 84664500
Fax: 0065 67924062
Carlo Massaroni was born in Anzio (Rome) in 1988.
He received the B.S. Degree in Biomedical Engineering from Università Campus Bio-Medico di Roma in December 2010. The Bachelor thesis title was "Perception Analysis of the form by the use of a numerical chessboard" and it was carried out in collaboration with the Bioinformatics Lab of the same University.
He received the M.S. Degree with highest honors in Biomedical Engineering from Università Campus Bio-Medico di Roma in December 2012. His graduation Thesis was entitled "Preliminary validation of a respiratory apparatus simulator for the assessment of metrological characteristics of a optoelectronic plethysmograph".
With his thesis he won two relevant National Price. On September he has been awarded the 2013 SIAMOC Dissertation Prize by the Italian Society of Clinical Movement Analysis (SIAMOC) in recognition of the outstanding quality of his undergraduate research. On October he has been awarded the 2013 GNB Dissertation Price by the Italian National Bioengineering Group (GNB) for outstanding contribute in the field of Rehabilitation and Prosthetics.
From April 2013 to January 2014 he worked as Biomechanical Researcher in the Unit of Rehabilitation at Scientific Institute for Research IRCCS Eugenio Medea of Conegliano (TV), as Scholarship Winner and Assignee for 2013.
He was PhD Student in Biomedical Engineering at Università Campus Bio-Medico di Roma from January 2014 to December 2016: he started working in the Laboratory of Measurements and Biomedical Instrumentation in January 2014, under the supervision of Prof. Sergio Silvestri.
In 2014 he has achieved the Professional Qualification as Industrial Engineer (Section A). He was Jury Aggregate Member as Topic expert in Biomedical Instrumentation during the State Examinations enabling the exercise of the profession of Engineer on behalf of Ordine degli Ingegneri of Rome. Section A - Industrial Section.
From February 2015 is Student Mentor for the International Biomechanics Society (ISB) in Instrumentation for Human Motion, Optoelectronic Systems and Optoelectronic Plethysmography.
On July 2015 he has been awarded the International Grant Travel Program Award by the International Society of Biomechanics (ISB) with the project "MoCBA - MOtion Capture for Breathing Assessment". MoCBA is an interdisciplinary project taking advantage of the research cooperation between the School of Sport & Exercise Sciences (SSES) at the University of Kent (Dr. Dickinson and Dr. Winter) and the School of Engineering, Research Unit of Measurement and Biomedical Instrumentation (UCBM) at the Campus Bio-Medico di Roma University. He is currently (until 22/04/2016) a Visiting PhD Student at University of Kent (Medway Campus, Kent, UK), where he is working in the Respiratory Clinic Unit.
On September 2017 he has been awarded the 2017 GNB Thesis Award by the Italian National Bioengineering Group (GNB) for outstanding contribute in the field of Biorobotics and Biomechanics.
2017 IEEE Sensor Council Travel Award (€ 1000) to attend the 2nd IEEE Sensors Summer
School on Optical Fibre Sensors at the University of Limerick, Ireland. 26th – 30th
June 2017 - Limerick, Ireland.
2016 European Society of Biomechanics (ESB) Travel Award (€ 400) to attend the 22nd
Congress of the European Society of Biomechanics (Respiratory Biomechanics
Session) - Lyon, France.
2015 International Society of Biomechanics (ISB) International Travel Grant (ITG2015) ($
2500) to fund the Research Project “MoCBA: Motion Capture for Breathing
Assessment” and to fund the foreign period of 6 months at University of Kent (UK).
Number of Publications: 43
Connective Tissue, Drugs
Action, Microscopy, Protein Modeling, Bone Structure, Trace/major Elements,
Image Processing, Electromagnetism, Spectroscopy, Biometrics, Human Networks
Dr. Mohammed Rachidi received his PhD/ Doctorate Degree in Human and Molecular Genetics (with High Honors) at the prestigious ''Pasteur Institute'' (Paris, France), in the Department of Molecular and Cellular Genetics headed by the Professor François JACOB (Nobel Prize in Physiology/Medicine), where he studied the Cellular & Molecular Mechanisms underlying Brain Morphogenesis, Visual System development, CaMKinases & Biological Clock Function in Drosophila. Dr. Rachidi extended these Molecular Genetics works to Functional Genomics at Pasteur Institute and at Center National of Research Scientific CNRS and played key fundamental roles in different collaborative research projects with prestigious laboratories in Europe, Japan & United States. Remarkably, Dr. Rachidi collaborated with the Professor Michael ROSBASH (Nobel Prize in Physiology/Medicine 2017) in the Molecular Mechanisms of 2 genes involved in Circadian Clock. Dr. Rachidi published with Professor ROSBASH this important work in the EMBO Journal Entitled : ''A New Gene encoding a putative Transcritpion Factor Regulated by the Drosophila Circadian Clock''. Postdoctoral training & Assistant Professor with Professor Nicole LeDOUARIN at the prestigious ''College De France'' & Institute of Cellular & Molecular Embryology (Paris), Dr. Rachidi studied some Chicken & Xenopus molecules acting in Bone Morphogenetic Protein BMP signaling pathways and identified their Mouse & Human homologs involved in differentiation of specific domains of neuronal progenitors, in cerebellum development and Joubert syndrome (a form of cerebellar ataxia). These experiences of Dr. Rachidi in the Molecular Genetics and in several Animal Models were extended to Human Molecular Genetics of Down syndrome (DS) & to Molecular and Cellular Mechanisms underlying Brain morphogenesis of Trisomic & Transgenic Mouse Models of DS and also of numerous stages of Embryonic & Fetal DS patients to elucidate the Neurogenetic Basis of Functional alterations Associated with Mental Retardation. Director of Research in Human Molecular Genetics, Faculty of Medicine University Paris 5 (France), with High Honours for Notable Scientific Research Contributions, Breakthroughs & Discoveries in Drosophila & Mouse & Human Molecular Genetics & Neurosciences, Dr. Rachidi has vast experiences with different Research Interests in Modern Molecular Genetics, Neuroscience & Biomedical Research. Dr. Rachidi realized numerous ''Discoveries and Innovations'' to name a few: (1) - Discovery of Quantitative Assessment of Gene [removed]QAGE) as a New Method in situ detecting Differential Overexpression of Candidate Genes for Mental Retardation in Down syndrome Brain Regions & for Other Diseases caused by Regionalized Quantitative Transcriptional Alterations for greater interpretation of functional processes driving gene expression. (2) - Discovery of New Cerebellar & Cerebral Phenotypes in Transgenic mouse in vivo Library of Human Down syndrome Critical Region. (3) - Discovery of a Novel Light Microscopy Technology as Powerful Tool in Developmental Biology & Biomedical & Neuroscience Research. (4) - Discovery of New Genes involved in Brain Morphogenesis & in Visual System development; in Biological Clock; in Learning & Memory and in Mental Retardation in Down syndrome & Joubert syndrome. (5) - Discovery of the First Proposed Model of Molecular and Cellular Mechanism Elucidating Neurogenetic and Neurocognitive Basis of Functional Impairments Associated with Mental Retardation in Down syndrome: in this Model Gene Dosage Effects on transcriptional variations and the nature of gene products and their functional relationships are explained with the different aspects of neuronal differentiation. Dr. Rachidi published numerous articles in highly Prestigious International Journals with High Impact Factor like EMBO, Genomics, DNA Research, Gene, Mechanisms of Development, Cytogenetics & Genome Research, Neuroscience Research, International Journal of Developmental Neuroscience, Cell Tissue Research, American Journal of Intellectual Developmental Disability, European Journal of Paediatric Neurology...and in numerous journals of Elsevier & Springer. He has also authored numerous Chapters & Books. Dr. Rachidi has been honoured worldwide as Invited Distinguished Speaker, Chairman or Invited Honourable Organizing Committee Member in numerous International Conferences, Seminars & Workshops in Europe, USA & Asia. Dr Rachidi received numerous Awards & Honors and He is an Editor, Associate Editor, Executive Editor & Editor in Chief in numerous International peer-reviewed Journals.
Dr. Mohammed Rachidi has vast experiences with different Research Interests in Modern Molecular Genetics, Neurosciences & Biomedical Research, to name a few : Cellular & Molecular Mechanisms underlying Brain Morphogenesis, Visual System, Biological Clock, Synaptic Protein Targeting, Synaptic Plasticity, CaMKII & CAMGUK/MAGUK, Learning and Memory. Functional Genomics & Mechanisms controlling Transposition at Cell Cycle. Transcription, Protein Translation & Virus-Like Particle Formation. Bone Morphogenetic Protein BMP signaling pathways, Mouse and Human Homeobox Genes, Cell Fate Determination and Differentiation, Neuronal Progenitors in Cerebellum development and Joubert syndrome. Trisomy 21, Intellectual Disability, Candidate Genes, Expression studies, Genotype-Phenotype Associations, Trisomic and Transgenic Mouse Models of Down syndrome, Neurogenetic and Neurocognitive Basis of Functional Impairments Associated with Intellectual Disability. Drosophila & Mouse & Human.
List of Publications:
- Rachidi, M. (2019). Pharmacotherapeutic Challenges for Rescuing Mental Retardation and Improving Brain Function in Down Syndrome. Biophamaceutics and Therapeutic Challenges, 2019, (In Press).
- Rachidi, M. (2018). The Genetic Dosage Imbalance Linked to Clinical Brain Alterations and Mental Disability in Down syndrome could be Targeted for Therapeutics Development.
Medical Journal of Clinical Trials and Case studies. 2018, 2 (5): 000150.
- Rachidi, M. (2018). The Molecular Pathogenesis of Down Syndrome-Associated Diseases and the Promising Potential Therapeutic Targets.
Clinical and Medical Investigations, 2018, Vol. 3(1), 1-2.
- Rachidi, M. (2018). Trisomy of Chromosome 21 provides a Genetic Model for the Role of Aneuploidy in Cell Cycle Alterations, Leukemia, Tumors and Cancer (In Press).
- Rachidi, M. (2016). Neurogenetic Disorders of Down Syndrome and Potential Pharmacotherapies for Mental Retardation.
American Journal of Clinical Neurology and Neurosurgery, 2016, Vol. 2, No. 4, 2016, pp. 45-49.
- Rachidi, M. (2015). Towards the Identification of Genetic Targets for Therapeutics of Intellectual Disability in Down syndrome.
J.J. Cenetics, 2015.
- Rachidi, M. and Lopes, C. (2013). Mental Retardation and Human Chromosome 21 Gene Overdosage: From Functional Genomics and Molecular Mechanisms towards Prevention and Treatment of the Neuropathogenesis of Down Syndrome.
Handbook of Neurochemistry and Molecular Neurobiology. In Genomics, Proteomics, and the Nervous System, Advances in Neurobiology, Springer Publishers 3rd Ed 2013.
- Rachidi M., Tetaria C., Lopes C. (2011). “Cell cycle alteration in Down syndrome”. In Berhardt LV. (Ed.), Advances in Medicine and Biology, 2011, Vol. 20. Nova Science Publisher.
- Rachidi, M. and Lopes, C. (2010). Molecular and Cellular Mechanisms Elucidating the Neurocognitive Basis of Functional Impairments Associated with Intellectual Disability in Down syndrome.
American Journal of Intellectual Developmental Disabilities, 2010; 115., 83-112.
- Rachidi, M. and Lopes, C. (2010). Cell Cycle Alteration in Down syndrome.
International Journal of Medical and Biological Frontiers, 2010, Volume 16, Issue 3/4, Nova Science Publishers.
- Rachidi, M. and Lopes, C. (2009). Gene Expression Regulation in Down syndrome: Dosage Imbalance Effects at Transcriptome and Proteome Levels. Handbook of Down syndrome Research, Edition Nova Science Publishers, Inc., 2009, 55-87
- Rachidi, M., Delezoide, A-L., Delabar, J.M. and Lopes, C. (2009). A quantitative assessment of gene [removed]QAGE) reveals differential overexpression of DOPEY2, a candidate gene for mental retardation, in Down syndrome brain regions.
International Journal of Developmental Neuroscience, 2009, 27, 393-398.
- Rachidi, M., Tetaria, C., and Lopes, C. (2008). Trisomy of Human Chromosome 21 and Cell Cycle Control. In Leroy NH., Fournier NT. (Eds.): Cell Cycle Control: New Research, Nova Science Publishers, Inc., 2008, 159-189.
- Rachidi, M. and Lopes, C. (2008). Mental retardation and associated neurological dysfunctions in Down syndrome: a consequence of dysregulation in critical chromosome 21 genes and associated molecular pathways.
European Journal of Paediatric Neurology, 2008, 12, 168-182.
- Rachidi, M. and Lopes, C. (2008). Molecular Mechanisms of Mental Retardation in Down syndrome. Rachidi, M. and Lopes, C. (Editors), Nova Biomedical Book: Edition Nova Science Publishers, Inc., 2008, pp 1-94.
- Rachidi, M., Lopes, C.; C Vayssettes, D J. Smith, E M Rubin, J.M Delabar. (2007). New Cerebellar Phenotypes in YAC Transgenic mouse in vivo Library of Human Down syndrome Critical Region 1.
Biochemical Biophysical Research Communications, 2007, 364(3), 488-494.
- Rachidi, M. and Lopes, C. (2007). Molecular Mechanisms of Mental Retardation in Down Syndrome. In Carson MI. (Ed.): Focus on Mental Retardation Research. Nova Science Publishers, Inc. 2007, pp. 77-134.
- Rachidi, M. and Lopes, C. (2007). Mental retardation in Down syndrome: From gene dosage imbalance to molecular and cellular mechanisms.
Neuroscience Research, 2007, 59(4), 349-369.
- Rachidi, M. and Lopes, C. (2006). Differential transcription of Barhl1 homeobox gene in restricted functional domains of the central nervous system suggests a role in brain patterning.
International Journal of Developmental Neuroscience, 2006, 24(1), 35-44.
- Rachidi, M., Lopes, C., Delezoide, A.L. and Delabar, J.M. (2006). C21orf5, a human candidate gene for brain abnormalities and mental retardation in Down Syndrome.
Cytogenetics and Genome Research, 2006, 112(1-2), 16-22.
- Lopes, C., Delezoide, A.L., Delabar, J.M. and Rachidi, M. (2006). BARHL1 homeogene, the human ortholog of the mouse Barhl1 involved in cerebellum development, shows regional and cellular specificities in restricted domains of developing human central nervous system.
Biochemical Biophysical Research Communications, 2006, 339, 296-304.
- Rachidi, M., Lopes, C., Costantine, M. and Delabar J.M. (2005). C21orf5, a new member of dopey family involved in morphogenesis, could participate to neurological alterations and mental retardation in Down syndrome.
DNA Research, 2005, 12, 203-210.
- Rachidi, M., Lopes, C., Charron, G., Delezoide, AL., Paly, E., Bloch, B. and Delabar, JM. (2005). Spatial and temporal localization during embryonic and fetal human development of the transcription factor SIM2 in brain regions altered in Down syndrome.
International Journal of Developmental Neuroscience, 2005, 23, 475-484.
- Rachidi, M., Lopes, C., Benichou, J.C., Hellio, R. and Maisonhaute, C. (2005). Virus-like particle formation in Drosophila melanogaster germ cells suggests a complex translational regulation of the retrotransposon cycle and new mechanisms inhibiting transposition.
Cytogenetics and Genome Research, 2005, 111(1), 88-95.
- Lopes, C., Chettouh, Z., Delabar, J.M. and Rachidi, M. (2003). The differentially expressed C21orf5 gene in the medial temporal-lobe system could play a role in mental retardation in Down syndrome and transgenic mice. Biochemical Biophysical Research Communications, 2003, 305, 915-924.
- Takamatsu, Y., *Nakagoshi, H., *Rachidi, M., Lopes, C. Nishida, Y. and Ohsako, S. (2002). Characterization of the dCaMKII-GAL4 driver line whose expression is controlled by the. Drosophila Ca²+/calmodulin dependent protein kinase II promoter.
Cell Tissue Research., 2002, 310(2), 237-252.
- Lopes, C., Gassanova, S., Delabar, J.M. and Rachidi, M. (2001). The CASK/Lin-2 Drosophila Homologue, Camguk, Could Play a Role in Epithelial Patterning and in Neuronal Targeting.
Biochemical Biophysical Research Communications, 2001, 284(4), 1004-1010.
- Lopes, C., Rachidi, M., Charron, G., Chamoun, Z., Dahmane, N., Toyama, K., Chettouh, Z., Vekemans, M., Bloch, B., Delezoide, A.L. and Delabar, JM. (2001). Conservation of the CNS expression pattern of new genes from the Down syndrome chromosomal region-1: human genes and their murine orthologs.
Cytogenetics and Cell Genetics, 2001, 92(1-2), 1-22.
- Rachidi, M., Lopes, C., Gassanova, S., Sinet, P.M., Vekemans, M., Attie, T., Delezoide, A.L. and Delabar, J.M. (2000). Regional and cellular specificity of TPRD, the tetratricopeptide Down Syndrome gene, during embryonic development.
Mechanisms of Development, 2000, 93(1-2), 189-193.
- Delabar, J.M., Rachidi, M., Lopes, C., Charron, G., Chamoun, Z, Dahmane, N., Toyama, K., Chettouh, Z., Vekemans, M., Bloch, B. and Delezoide, A.L. (2000). Conservation of the CNS expression pattern of new genes from the Down Syndrome Chromosomal Region-1: Human genes and their Murine orthologs.
European Journal Neuroscience, 2000, 12(Supp 11), 297.
- Orti, R., Rachidi, M., Viallard, F., Toyama, K., Lopes, C., Taudien, S., Rosenthal, A., Sinet, P.M. and Delabar, J.M. (2000). Characterisation of a novel gene, C21orf6, mapping to a critical region of chromosome 21q22.1 involved in the monosomy 21 phenotype and its murine ortholog.
Genomics, 2000, 64(2), 203-210.
- Rahmani, Z., Lopes, C., Rachidi, M. and Delabar, J.M. (1999). Expression of the mnb (dyrk) protein in adult and embryonic mouse tissues.
European Journal of Human Genetics, 1999, 7(Supp.1), 111.
- Rachidi, M., Lopes, C., Takamatsu, Y., Ohsako, S., Benichou J.C. and Delabar, J.M. (1999). Dynamic expression pattern of Ca2+/calmodulin-dependent protein kinase II gene in the central nervous system of Drosophila throughout development.
Biochemical Biophysical Research Communications, 1999, 260(3), 707-711.
- Lopes, C., Rachidi, M., Gassanova, S., Sinet, P.M. and Delabar, J.M. (1999). Developmentally regulated expression of mtprd, the murine ortholog of tprd, a gene from the Down syndrome chromosomal region 1.
Mechanisms of Development, 1999, 84(1-2), 189-193.
- Rahmani, Z., Lopes, C., Rachidi, M. and Delabar, J.M. (1998). Expression of the Mnb (dyrk) protein in adult and embryonic mouse tissues.
Biochemical Biophysical Research Communications, 1998, 253(2), 514-518.
- Rachidi, M., Lopes, C. and Benichou, J.C. (1997). Genetical analysis of visual system disorganizer (vid), a new gene involved in normal development of eye and optic lobe of the brain in Drosophila melanogaster.
Genetica, 1997, 99, 31-45.
- Rachidi, M., Lopes, C., Benichou, J.C. and Rouyer, F. (1997). Analyse of period circadian expression in the Drosophila head by in situ hybridization. Journal of Neurogenetics, 1997, 11, 255-263.
- Rouyer, F., Rachidi, M., Pikielny, C. and Rosbash, M. (1997). A new gene encoding a putative transcritpion factor regulated by the Drosophila circadian clock.
EMBO Journal, 1997, 16(13), 3944-3954.
- Haoudi, A., Rachidi, M., Kim, M.H., Champion, S., Best-Belpomme, M. and Maisonhaute, C. (1997). Developmental expression analysis of the 1731 retrotransposon reveals an enhancement of Gag-Pol frameshifting in males of Drosophila melanogaster.
Gene, 1997, 196 (1-2), 83-93.
- Fassouane, A., Rachidi, M., Rouffaud, M.A., El-Abbouyi, A. and Nguyen, V.H. (1995). In vitro antifungal activity of Bacillus licheniformis FSJ-2 products against dermatophytes.
Journal of Mycology and Medicine, 1995, 5, 244-248.
- Rachidi, M. (1993). The Drosophila visual system: An elaborated building and a powerful model for developmental studies. Biomatec Journal, 1993, 4-5, 2-8.
Acetylcholinesterase reactivators as treatment of nerve agent and pesticide
intoxications; Acetylcholinesterase inhibitors in Alzheimer´s disease and Myasthenia
Gravis treatment; Synthesis of the detergents as disinfectants, decontamination
means and environment for micellar catalysis; Drug design and Development;
Chemical warfare agents; Biological warfare agents; Pharmaceutical Industry;
Project Management; Scientific Management; Technology Transfer;
Commercialization; Fund Raising; Cloud computing; Parallel computing; medical
devices development; toxins.
Dr. Rajasekharredy Pala is a Nano biotechnologist specialized in the synthesis of various metal and metal oxide nanoparticles with their application as drug delivery agents to the primary cilia. After his post-graduation he was selected for ICMR-Senior Research Fellowship under Biomedical Sciences in 2011 and during this period of his doctoral studies at CSIR-Indian Institute of Chemical Technology, India, he has earned handsome experience on the physical and chemical characterizations techniques of nanoparticles that are enveloped with various biologically active compounds such as protein, lipids and small molecular drugs for their biomedical applications. Dr. Pala working as a research associate in Chapman University and University of California Irvine from 2015.
Research Interest: Nanomedicine, Hypertension, Cancer, Renal diseases
Skype ID: raaja.biotech
List of Publications:
Rajasekharreddy Pala, Ashraf M. Mohieldin, Kiumars Shamloo, Rinzhin T. Sherpa, Sarmed H.
Kathem, Jing Zhou, Zhongyue Luan, Jian-Guo Zheng, Amir Ahsan, and Surya M. Nauli.
Personalized Nanotherapy by Specifically Targeting Cell Organelles To Improve Vascular
Hypertension. Nano Letters Article ASAP DOI: 10.1021/acs.nanolett.8b04138
2. Zeng, Y., Zhu, J., Wang, J., Parasuraman, P., Busi, S., Nauli, S. M., Wáng, Y., Pala,
Rajasekharreddy, Liu, G. (2018). Functional probes for cardiovascular molecular
imaging. Quantitative imaging in medicine and surgery, 8(8), 838-852 (co-corresponding
3. Pala, Rajasekharreddy., Jamal, M., Alshammari, Q., Nauli, S.M. The Roles of Primary Cilia in
Cardiovascular Diseases. Cells 2018, 7, 233. (Published as cover page)
4. Rajasekharreddy Pala, Yun Zeng, Subhaswaraj Pattnaik, Siddhardha Busi, Alomari Nedaa,
Nauli Surya M, Gang Liu, (2018). Functionalized Silver Nanoparticles for Sensing, Molecular
Imaging and Therapeutic Applications. Current Nanomedicine, Pages 1 - 17 (17).
5. Pala Rajasekharreddy, Pathipati Usha Rani, Mattapally Saidulu & Sanjay K. Banerjee (2017).
Ultra-small silver nanoparticles induced ROS activated Toll-pathway against Staphylococcus
aureus disease in silkworm model, Materials Science and Engineering: C, 77, 990-1002
6. Pala Rajasekharreddy, Chao Huang, Siddhardha Busi, Jobina Rajkumari, Ming-Hong Tai, Gang
Liu (2017). Green Synthesized Nanomaterials as Theranostic Platforms for Cancer Treatment:
Principles, Challenges and the Road Ahead. Current Medicinal Chemistry, 24, 1-17. Doi.
7. Jobina Rajkumari, Siddhardha Busi, Aneesh Cherukunnel Vasu, Pala Rajasekharreddy (2017),
Facile green synthesis of baicalein fabricated gold nanoparticles and their antibiofilm activity
against Pseudomonas aeruginosa PAO1. Microbial Pathogenesis, 107: 261-269.
8. Rajasekharreddy Pala, Nedaa Alomari, Surya M. Nauli (2017). Primary Cilium-Dependent
Signaling Mechanisms, International Journal of Molecular Sciences, 18, 2272.
9. Kiumars Shamloo, Juan Chen, Jasmine Sardar, Rinzhin T. Sherpa, Rajasekharreddy
Pala, Kimberly F. Atkinson,William J. Pearce, Lubo Zhang, Surya M. Nauli (2017). Chronic
Hypobaric Hypoxia Modulates Primary Cilia Differently in Adult and Fetal Ovine Kidneys.
Frontiers in Physiology, 8: 677.
10. Nauli, Surya M., Rajasekharreddy Pala, and Steven J. Kleene (2016). "Calcium channels in
primary cilia." Current Opinion in Nephrology and Hypertension 25 (5): 452-458.
11. Pala Rajasekharreddy and Pathipati Usha Rani (2014). Biofabrication of Ag nanoparticles using
Sterculia foetida L. seed extract and their toxic potential against mosquito vectors and HeLa
cancer cells. Materials Science and Engineering: C, 39, 203-212.
12. Pala Rajasekharreddy and Pathipati Usha Rani (2014). Biosynthesis and characterization of Pd
and Pt nanoparticles using Piper betle L. plant in a photoreduction method. Journal of Cluster
Science, 25: 1377-1388.
13. Praveen Kumar Kalavagunta, Rajasekharreddy Pala, Usha Rani Pathipati and Narender Ravirala
(2014). Identification of β-Naphthol derivatives as novel antifeedants and insecticides-I. Journal
of Agricultural and Food Chemistry, 62, 6571−6576.
14. Pala Rajasekharreddy and Pathipati Usha Rani (2012) Nontoxic effects of biologically
synthesized silver nanoparticles on silkworm, Bombyx mori L. Hexapoda 19 (1): 74–78.
Pathipati Usha Rani and Pala Rajasekharreddy (2011) Green synthesis of silver-protein (core–
shell) nanoparticles using Piper betle L. leaf extract and its ecotoxicological studies on Daphnia
magna. Colloids and Surfaces A: Physicochemical and Engineering Aspects. 389 (1-3): 188-194.
16. Pathipati Usha Rani, Pala Rajasekharreddy and Kommu Nagaiah (2011). Allelopathic effects of
(2n-octylcycloprop-1-enyl)-octanoic acid (I) against Four Major Weeds. Allelopathy Journal. 28
17. Pala Rajasekharreddy, Pathipati Usha Rani and Bojja Sreedhar (2010). Qualitative assessment of
silver and gold nanoparticle synthesis in various plants: a photobiological approach. Journal of
Nanoparticle Research, 12: 1711-1721.
18. Pala Rajasekharreddy and Pathipati Usha Rani (2010). Toxic properties of certain botanical
extracts against three major stored product pests. Journal of Biopesticides. 3(3): 586-589.
19. Pathipati Usha Rani and Pala Rajasekharreddy (2010). Insecticidal activity of (2n-octylcycloprop-
1-enyl)-octanoic acid (I) against three coleopteran stored product insects from Sterculia foetida
(L.). Journal of Pest Science, 83(3); 273-279.
20. Pathipati Usha Rani and Pala Rajasekharreddy (2009). Toxic and antifeedant activities of Sterculia
foetida (L.) seed crude extract against Spodoptera litura (F.) and Achaea janata (L.). Journal of
Biopesticides 2(2): 161-164.
Pathipati Usha Rani and Pala Rajasekharreddy (2013). Plants: The green factories for synthesis
of nanomaterials” in the book “Nanotechnology Environment” Edited by J.N. Govil. Studium Press
A method for isolation of an Ortho Quinone Methide intermediate. Pala Rajasekharreddy
and K.P Kumar and (PCT/IB2015/057628), WIPO publication no. WO/2016/059511.
• Green synthesis of highly monodispersed silver nanoparticles by plant. P. Usha Rani and Pala
Rajasekharreddy (File No. 4020/DEL/2012).
• Novel synthesis of 2-aminobenzothiazolomethyl naphthol derivatives and their
antifeedant activity. KP Kumar, Pala Rajasekharreddy, V. Narendar & P. Usha Rani (File No
Optofluidics, Surface Wettability, Drug Delivery
Cell and tissue engineering
Research Interest: Non-point source, soil heavy metal, absorbing Material, and restoration
Time-domain optical brain
imaging, functional near-infrared ectroscopy,
fluorescence measurements, analyses of
an optical properties of the media, development of optical imaging systems, brain
optics, clinical applications
Knowledge Management, Cost Benefit Analysis Method – application in company and
in medical device market development, Healthcare, efectivness of medical
Research Interest: Electroporation, Electroloading,
Electrochemotherapy, Drug and Gene Delivery Systems, Molecular Imaging (EPR
imaging; optical imaging; multimodal imaging – MRI/EPR, MRI/optical), Cancer
Scaffold Design For Tissue
Engineering, Composites hydrogels For Bone Repair, Electrospinning and
Electrospraying technology, Scanning and Trasmission Electron Microscopy, Image
Analysis For Porosity Measurements, Chemical And Physical Properties
Characterization Of Composite And/Or Polymeric Substrates, Injectable Composite
Cements For Bone Cavity Filling.
Surgical planning and
simulation in esthetical facial surgeryTelemedicine o Biomedical engineering
Development, Cellular and Tissue Engineering Drug and Gene Delivery, Molecular
Diagnostics Photobioreactor Design
Research Interest: His research interests concentrate on the
biosensors (e.g. living cell sensor, DNA sensor and protein sensor) and BioMEMS
Functional Brain Imaging, Pre-surgical
Brain Mapping, Biomedical signal and Image Processing, Neural Engineering
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More than happy to assist the journal as required and confer my services. The website of the journal need to be improved. I recommend the journal for reputed indexing services. I recommend this journal to others for publication. The required information is easily approachable on the website.
The comments from editors and reviewers are fair and professional. The manuscript submission process in this journal is user friendly. I will definetely recomend this journal for getting major indexing platforms. I suggest my staff and friends who were experts in this journal to submit their works. The process between submission and publication timeline in this journal are satisfactory. I mostly like the rapid review process in this journal.
The required information is easily available on the journal webpage.
I like to continue the association with this journal and confer my services. The comments from editors and reviewers are fair and professional. The journal should expand the electronic readership as ease to access and lower costs. Manuscript submission in this journal is Hassle free. I suggest to some of my friends who are related to this journal scope to submit their manuscripts for publication. The manuscript submission and publication timeline process is appreciated. I can find the required information on the website freely.
It is my great pleasure to serve as Editor for the Journal. The comments from the reviewers/editors are fair and satisfactory. The journal should try hard to be indexed in Web of Science. Manuscript submission process is fast flowing. I recommend this journal to others for publication of their valuable research work. I am satisfied with the submission-publication timeline. I like most in your publication process is timely response. The required information is easily available on the website.
The comments from the reviewers/editors are fair and professional. I recommend the journal for reputed indexing services. I recommend this journal to others for publication of their research works. The required information is easily approachable on the website.
I wish to be associated with the journal as Editor and confer my services. The comments from the reviewers/editors are fair and professional. Manuscript submission process is rapid and smooth. It is necessary for the journal to get indexed in Pubmed. I recommend the journal for reputed indexing services. I recommend this journal to others for publication. I am satisfied with the submission-publication timeline. The required information is easily approachable on the website.
Malgorzata Gabriela WASNIEWSKA
University of Messina, Italy
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