### Peer Refereed

**M.I.****Teboh-Ewungkem**, J. Mohammed-Awel, F. Baliraine and S.M. Duke-Sylvester. The role of human movement on the spread of drug-resistant malaria during Intermittent Preventive Treatment (IPT) usage.**Submitted 2013**.- C.A. Ngonghala,
and G. A. Ngwa.**M. I. Teboh-Ewungkem**,**Submitted 2013.** - C.A. Ngonghala,
and G. A. Ngwa.**M. I. Teboh-Ewungkem**,**Submitted 2013.** **M. I. Teboh-Ewungkem,**Editorial: Malaria Models,*Mathematical Population Studies*,**20**: 55-56 (**2013**). doi:10.1080/08898480.2013.777234.-
**M. I. Teboh-Ewungkem,**G. A. Ngwa and C.A. Ngonghala. Models and proposals for malaria: a Review,*Mathematical Population Studies*,**20**: 57-81 (**2013**). doi:10.1080/08898480.2013.777237**.** **M. I. Teboh-Ewungkem**and M. Wang , Male fecundity and optimal gametocyte sex ratios for*Plasmodium falciparum*during incomplete fertilization,*J. Theor. Biol.***307,**183–192**(**2012**). DOI:**10.1016/j.bbr.2011.03.031.- C.A. Ngonghala, G. A. Ngwa and
**M. I. Teboh-Ewungkem**,*Math. Biosci.***240**(1), 45-62 (2012).**DOI: /10.1016/j.mbs.2012.06.003**. - S. Nourridine
**, M. I. Teboh-Ewungkem**, G. A. Ngwa, A mathematical model of the population dynamics of disease transmitting vectors with spatial consideration,*Journal of Biological Dynamics***5(**4), 335–365 (2011).**DOI:**10.1080/17513758.2010.508540 **M. I. Teboh-Ewungkem**and T. Yuster, A Within-Vector Mathematical Model of Plasmodium Falciparum and Implications of Incomplete Fertilization on Optimal Gametocyte Sex Ratio,*J. Theor. Biol.*,**264**(2):273-86 (2010). DOI: 10.1016/j.jtbi.2009.12.017**M. I. Teboh-Ewungkem**, C. N. Podder and A. B. Gumel, Mathematical Study of the Role of Gametocytes and an Imperfect Vaccine on Malaria Transmission Dynamics,*Bulletin of Mathematical Biology (BMB)*,**72**(1): 63-93, (2010). DOI: 10.1007/s11538-009-9437-3**M. I. Teboh-Ewungkem**, T. Yuster and N. H. Newman, A Mathematical Model of the Within — Vector Dynamics of the Plasmodium Falciparum Protozoan Parasite, In Infectious Disease Modelling Research Progress, (J.M. Tchuenche and C. Chiyaka, eds), Nova Science Publishers, pp. 177-199 (2010).**M. I. Teboh-Ewungkem**, Malaria Control: The Role of Local Communities as Seen through a Mathematical Model in a Changing Population-Cameroon, In Advances in Disease Epidemiology (J.M. Tchuenche and Z. Mukandavire, eds), Nova Science Publishers, pp. 103-140 (2009).- A. H. Lin Erickson, A. Wise, S. Fleming, M. Baird, Z. Lateef, A. Molinaro,
**M. I. Teboh-Ewungkem**, and L. De Pillis, A preliminary mathematical model of skin dendritic cell trafficking and induction of T cell immunity**.***Discrete and Continuous Dynamical Systems- Series B (DCDS B)***,****12**(2): 323 – 336 (2009) PDF. **M. I. Teboh-Ewungkem**and coauthors: T. Contenza, M. Cox, J. Novak, M. Vanderschoot, Teaching Module-Modeling Biological Populations, DIMACS Educational Module Series , 8 ( 4 ): 1-27 (2008).- (Monograph) M. I. Teboh-Ewungkem , The Mathematics of Oxygen and Substrate Diffusion: Mathematical Analysis of Oxygen, Myoglobin-Facilitated Oxygen and Substrate Diffusion within an Interacting Multi-capillary System in Skeletal Muscle, VDM Verlag Dr. Müller, ISBN 978-3-639-09777-1, (2008).
**M. I. Teboh-Ewungkem**and E. P. Salathe, The Role of Countercurrent Exchange in Preventing Hypoxia in Skeletal Muscle,*Bulletin of Mathematical Biology*(*BMB*),**68**(8): 2191-2204, (2006).**M. I. Teboh-Ewungkem**and E. P. Salathe, Substrate Diffusion from an Array of Capillaries with Co-current and Counter-Current Flow,*Mathl. Comput. Modelling*,**42**: 17-30 (2005).

### Other

- Buea International Conference on Mathematical Science,
*The Society of Mathematical Biology (SMB) Newsletter*,**23**: 3 (September 2010). - Report on the International Conference on Differential Equations and Applications in Mathematical Biology,
*The Society of Mathematical Biology (SMB) Newsletter*,**17**: 3 (September 2004).

**Invited Seminar Talks**

**New Jersey Institute of Technology (NJIT),**Department of Mathematics, NJ, April 2, 2013.**Title**: Complex Dynamics in a Model for the Vector-Borne Disease Malaria.**Dartmouth College Shapiro Visitor and Presenter,**New Hampshire, March 2, 2010.**Title**: A within-mosquito mathematical model of the malaria parasite*Plasmodium falciparum*and some implications for malaria control.**NIH (National Institute of Health) Scientific Seminar Series**, Bethesda, MD, January 27, 2009.**Title**:Mathematical modeling of the within-vector dynamics of*Plasmodium falciparum*: single and mixed strains.**Morgan State University Seminar Series Guest Speaker,**Dixon Research Center, Morgan State University, March 1, 2007.**Title**: A mathematical model to study the impact of the recovery rate on the dynamics and transmission of malaria in a changing population: Case of Cameroon.**Lafayette College BioConnections Speaker,**Lafayette College, October 30, 2006.**Title**: A mathematical model of a vector-borne infectious disease – Malaria.**University of Michigan**,**Ann Arbor**,**MI,**January, 2004.**Title**: Counter-current and co-current flow of oxygen and substrate transport in a multi-capillary system in skeletal muscles.**Lehigh University**, Mathematical Biology Colloquium, December, 2003.**Title**: Malaria dynamics in an endemic region.**Moravian College Seminar Series**, May, 2003.**Title**: Malaria Epidemics.**Lehigh University**, Graduate Student Colloquium, January, 2002.**Title**: Transport of oxygen and substrate with and without the inclusion of a facilitator across the capillary in the microcirculation.**University of Virgin Islands, St. Thomas,****Guest Speaker,**August, 2001.**Title**: The dynamics and transmission of malaria.

**Conference Presentations**

2013

- (Keynote Speaker)
**PASSHEMA**(Pennsylvania State System of Higher Education Mathematics Association) Annual Conference, Clarion University of Pennsylvania, April 19 and 20^{th}2013.**Title:**Modeling and Control of Malaria: The impact of the Anopheles mosquito lifestyle, feeding and reproductive habits.

2012

- (Invited Speaker at 2 different sessions)
**9th AIMS Conference on Dynamical Systems, Differential Equations and Applications**, Orlando, Florida, USA, July 1 – 5, 2012.

**Special Session-Modeling and Dynamics of Infectious Diseases: Talk Title-**Heterogeneity in the infectiousness of humans in the dynamics of malaria transmission and control.

Optimization of**Special Session-****Mathematical Models in Biology and Medicine: Talk Title-***P. falciparum*gametocyte sex ratios via competitive and non-competitive strategies: the evolutionary implications.

2011

**ICIAM 2011:**, Vancouver, BC, Canada, July, 18-22, 2011.**7th International Congress on Industrial and Applied Mathematics****Title**:**.**- (Invited Speaker)
**CAARMS17 and IPAM**: 17th Annual Conference for African American Researchers in the Mathematical Science, IPAM, Los Angeles, June, 1-4, 2011.**Title**: Hopf and Backward Bifurcations in a new SIS Malaria Model. - (Contributed Speaker)
**AMS Joint Mathematics Meetings**, AMS book of Abstracts, [abstract: 1067-92-735] , New Orleans, LA, pp 254-255, January 6-9, 2011.**Talk Title:**A mathematical model to highlight the importance of vector demography in malaria dynamics and control.

2010

- (
**Keynote Speaker)****SAMSA (Southern Africa Mathematical Sciences Association) conference,**Gaborone, Botswana, November 29, 2010.**Talk Title**: A new way to model the dynamics of malaria transmission showing natural occurring oscillations. - (
**Invited Speaker)****Blackwell-Tapia Conference 2010,**MBI, Ohio State University, Ohio, November 6, 2010.**Talk Title**: A new SIS malaria model with vector demography showing natural occurring oscillations.

2009

- Thomas Yuster
**, M. I. Teboh-Ewungkem**, Nathan Newman, A Mathematical Model of the Within – Vector Dynamics of the*Plasmodium Falciparum*Protozoan Parasite, 2009 International Conference on Mathematical Biology and Annual Meeting of the Society of Mathematical Biology, University of British Columbia, Vancouver, July 27-30, 2009. **(****Contributed Speaker****) M. I. Teboh-Ewungkem**, Tom Yuster, Nathan Newman, A Mathematical Model of the Within -Vector Dynamics of the*Plasmodium Falciparum*Protozoan Parasite, 2009 SIAM Annual Meeting (AN09), Denver, July 6-10, 2009.**(****Contributed Speaker****) M. I. Teboh-Ewungkem**, Mathematical Model to Quantify the Impact of the Recovery Rate on the Dynamics and Transmission of Malaria in a Changing Population: Case of Cameroon, AMS Joint Mathematics Meetings,*AMS book of Abstracts*, [abstract: 1046-92-714] , Washington, DC,**pp 254-255**, January 5-8, 2009*.*http://www.ams.org/amsmtgs/2110_abstracts/1046-92-714.pdf

2008

- M. Baird, L. De Pillis, A. H. Lin Erickson, S. Fleming, Z. Lateef , H. Maurer, A. Molinaro,
**M. I. Teboh-Ewungkem**, and A. Wise, An Introductory Mathematical Model of Chronic Skin Inflammation, 7th AIMS International Conference on Dynamical Systems, Differential Equations and Applications, Book of Abstract, University of Texas Arlington,**pp 209**, May 18-21, 2008*.*

2006

**(****Invited Speaker****) M. I. Teboh-Ewungkem**, A uniformly valid composite solution for oxygen distribution, in skeletal muscle, within multiple capillaries and axial diffusion effects,*AMS book of Abstracts-NAM session*, San Antonio, January 12-15, 2006.

2005

**(****Contributed Speaker****) M. I. Teboh-Ewungkem**,**Effects of Axial Diffusion (Diffusion in the tissue in the direction parallel to the capillaries) on several interacting capillaries in skeletal muscles**,*SIAM Annual Conference, Book of Abstract*, New Orleans,**pp 107**, July 11-15, 2005.**(****Invited Speaker****) M. I. Teboh-Ewungkem**, Applying a multiple capillary substrate and oxygen transport model to drug targeting strategies for cancer chemotherapy,*CAARMS11 and IPAM***:**11th Annual Conference for African American Researchers in the Mathematical Science, IPAM, Los Angeles, June, 21-24, 2005.

2004

**(****Contributed Speaker****) M. I. Teboh-Ewungkem**, Co-current and Counter current flow of oxygen and substrate transport from capillaries to tissue,*International Conference for Mathematics in Biology and Medicine, Book of Abstracts*, Ann Arbor,**pp 41**, July 2004.**(****Invited Speaker****) M. I. Teboh-Ewungkem**, Mathematical Analysis of Co-current and Counter current flow in Tissue Capillary Exchange, International Conference on Applied Mathematics and Applications in Mathematical Biology, Book of Abstracts and also Conference Proceedings, Nanaimo, British Columbia,**pp 27**, July 2004.

2003

**(****Contributed Speaker****) M. I. Teboh-Ewungkem**, Mathematical Analysis of Oxygen and Substrate Transport in a Multi-capillary System, in Skeletal Muscle, International Conference on Mathematical Biology Book of Abstracts, Dundee, Scotland,**pp 126**, August 2003.