Rupananda J. Mallia

442 total citations
15 papers, 360 citations indexed

About

Rupananda J. Mallia is a scholar working on Pulmonary and Respiratory Medicine, Radiology, Nuclear Medicine and Imaging and Biomedical Engineering. According to data from OpenAlex, Rupananda J. Mallia has authored 15 papers receiving a total of 360 indexed citations (citations by other indexed papers that have themselves been cited), including 7 papers in Pulmonary and Respiratory Medicine, 7 papers in Radiology, Nuclear Medicine and Imaging and 6 papers in Biomedical Engineering. Recurrent topics in Rupananda J. Mallia's work include Photodynamic Therapy Research Studies (7 papers), Laser Applications in Dentistry and Medicine (5 papers) and Spectroscopy Techniques in Biomedical and Chemical Research (4 papers). Rupananda J. Mallia is often cited by papers focused on Photodynamic Therapy Research Studies (7 papers), Laser Applications in Dentistry and Medicine (5 papers) and Spectroscopy Techniques in Biomedical and Chemical Research (4 papers). Rupananda J. Mallia collaborates with scholars based in India, Canada and Ireland. Rupananda J. Mallia's co-authors include Narayanan Subhash, Patrick Z. McVeigh, Jayaprakash Madhavan, Anitha Mathews, Brian C. Wilson, Israël Veilleux, Paul Sebastian, Rejnish Kumar, Mini Jose and Carl Fisher and has published in prestigious journals such as Cancer, Journal of Biomedical Optics and Head & Neck.

In The Last Decade

Rupananda J. Mallia

15 papers receiving 351 citations

Peers — A (Enhanced Table)

Peers by citation overlap · career bar shows stage (early→late) cites · hero ref

Name h Career Trend Papers Cites
Rupananda J. Mallia India 11 144 108 105 95 84 15 360
Dinglong Ma United States 11 179 1.2× 134 1.2× 162 1.5× 7 0.1× 70 0.8× 14 344
Charlotta Eker Sweden 6 294 2.0× 73 0.7× 261 2.5× 17 0.2× 145 1.7× 7 432
Shuichiro FUKUSHIMA Japan 10 114 0.8× 113 1.0× 26 0.2× 13 0.1× 13 0.2× 26 313
Angelica Chiorean Romania 9 104 0.7× 42 0.4× 115 1.1× 2 0.0× 28 0.3× 27 333
Simarpreet Virk Sandhu Switzerland 6 52 0.4× 16 0.1× 26 0.2× 55 0.6× 25 0.3× 19 243
Sheng-Hao Tseng Taiwan 10 199 1.4× 69 0.6× 260 2.5× 2 0.0× 31 0.4× 22 373
Gerd Hoffmann Germany 13 40 0.3× 9 0.1× 205 2.0× 13 0.1× 38 0.5× 32 423
Aparecida Maria Cordeiro Marques Brazil 13 78 0.5× 27 0.3× 365 3.5× 7 0.1× 30 0.4× 29 452
Jelmer J. A. Weda Netherlands 6 262 1.8× 82 0.8× 136 1.3× 1 0.0× 19 0.2× 7 331
V. De Coste Italy 11 32 0.2× 4 0.0× 82 0.8× 6 0.1× 88 1.0× 29 347

Countries citing papers authored by Rupananda J. Mallia

Since Specialization
Citations

This map shows the geographic impact of Rupananda J. Mallia's research. It shows the number of citations coming from papers published by authors working in each country. You can also color the map by specialization and compare the number of citations received by Rupananda J. Mallia with the expected number of citations based on a country's size and research output (numbers larger than one mean the country cites Rupananda J. Mallia more than expected).

Fields of papers citing papers by Rupananda J. Mallia

Since Specialization
Physical SciencesHealth SciencesLife SciencesSocial Sciences

This network shows the impact of papers produced by Rupananda J. Mallia. Nodes represent research fields, and links connect fields that are likely to share authors. Colored nodes show fields that tend to cite the papers produced by Rupananda J. Mallia. The network helps show where Rupananda J. Mallia may publish in the future.

Co-authorship network of co-authors of Rupananda J. Mallia

This figure shows the co-authorship network connecting the top 25 collaborators of Rupananda J. Mallia. A scholar is included among the top collaborators of Rupananda J. Mallia based on the total number of citations received by their joint publications. Widths of edges represent the number of papers authors have co-authored together. Node borders signify the number of papers an author published with Rupananda J. Mallia. Rupananda J. Mallia is excluded from the visualization to improve readability, since they are connected to all nodes in the network.

All Works

15 of 15 papers shown
1.
Mallia, Rupananda J., Patrick Z. McVeigh, Carl Fisher, Israël Veilleux, & Brian C. Wilson. (2014). Wide-Field Multiplexed Imaging of EGFR-Targeted Cancers Using Topical Application of NIR SERS Nanoprobes. Nanomedicine. 10(1). 89–101. 34 indexed citations
2.
McVeigh, Patrick Z., Rupananda J. Mallia, Israël Veilleux, & Brian C. Wilson. (2013). Widefield quantitative multiplex surface enhanced Raman scattering imagingin vivo. Journal of Biomedical Optics. 18(4). 46011–46011. 44 indexed citations
3.
Mallia, Rupananda J., Patrick Z. McVeigh, Israël Veilleux, & Brian C. Wilson. (2012). Filter-based method for background removal in high-sensitivity wide-field-surface-enhanced Raman scattering imagingin vivo. Journal of Biomedical Optics. 17(7). 760171–760171. 23 indexed citations
4.
McVeigh, Patrick Z., Rupananda J. Mallia, Israël Veilleux, & Brian C. Wilson. (2012). Development of a widefield SERS imaging endoscope. Proceedings of SPIE, the International Society for Optical Engineering/Proceedings of SPIE. 8217. 821704–821704. 6 indexed citations
5.
Subhash, Narayanan, et al.. (2010). Characterization of dental caries by LIF spectroscopy with 404-nm excitation. Lasers in Medical Science. 26(3). 299–305. 11 indexed citations
6.
Mallia, Rupananda J., Narayanan Subhash, Paul Sebastian, et al.. (2010). In vivo temporal evolution of ALA-induced normalized fluorescence at different anatomical locations of oral cavity: Application to improve cancer diagnostic contrast and potential. Photodiagnosis and Photodynamic Therapy. 7(3). 162–175. 10 indexed citations
7.
Mallia, Rupananda J., Narayanan Subhash, Jayaprakash Madhavan, et al.. (2010). Diffuse Reflection Spectroscopy: An Alternative to Autofluorescence Spectroscopy in Tongue Cancer Detection. Applied Spectroscopy. 64(4). 409–418. 28 indexed citations
8.
Mallia, Rupananda J., Narayanan Subhash, Anitha Mathews, et al.. (2009). Clinical grading of oral mucosa by curve‐fitting of corrected autofluorescence using diffuse reflectance spectra. Head & Neck. 32(6). 763–779. 25 indexed citations
9.
Mallia, Rupananda J., Anitha Mathews, Rejnish Kumar, et al.. (2009). Discriminant analysis of autofluorescence spectra for classification of oral lesions in vivo. Lasers in Surgery and Medicine. 41(5). 345–352. 37 indexed citations
10.
Mallia, Rupananda J., Anitha Mathews, Rejnish Kumar, et al.. (2008). Oxygenated hemoglobin diffuse reflectance ratio for in vivo detection of oral pre-cancer. Journal of Biomedical Optics. 13(4). 41306–41306. 37 indexed citations
11.
Mallia, Rupananda J., et al.. (2008). Laser‐induced autofluorescence spectral ratio reference standard for early discrimination of oral cancer. Cancer. 112(7). 1503–1512. 48 indexed citations
12.
Mallia, Rupananda J., et al.. (2007). Investigation of in vitro dental erosion by optical techniques. Lasers in Medical Science. 23(3). 319–329. 10 indexed citations
13.
Mallia, Rupananda J., Shaji Thomas, Rajendra Kumar, et al.. (2007). P259c Oral pre-malignancy detection using autofluorescence spectral ratios. 2(1). 209–210. 2 indexed citations
14.
Subhash, Narayanan, et al.. (2005). Tooth caries detection by curve fitting of laser‐induced fluorescence emission: A comparative evaluation with reflectance spectroscopy. Lasers in Surgery and Medicine. 37(4). 320–328. 28 indexed citations
15.
Subhash, Narayanan, et al.. (2004). Quantification of stress adaptation by laser-induced fluorescence spectroscopy of plants exposed to engine exhaust emission and drought. Functional Plant Biology. 31(7). 709–719. 17 indexed citations

Rankless uses publication and citation data sourced from OpenAlex, an open and comprehensive bibliographic database. While OpenAlex provides broad and valuable coverage of the global research landscape, it—like all bibliographic datasets—has inherent limitations. These include incomplete records, variations in author disambiguation, differences in journal indexing, and delays in data updates. As a result, some metrics and network relationships displayed in Rankless may not fully capture the entirety of a scholar's output or impact.

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