Publications
2024
An anatomical investigation of alkaptonuria: Novel insights into ochronosis of cartilage and bone
Hughes, J. H., Charlesworth, G., Prior, A., Tierney, C. M., Rothwell, P. D., Thomas, N. P., . . . Bond, A. P. (n.d.). An anatomical investigation of alkaptonuria: Novel insights into ochronosis of cartilage and bone. Journal of Anatomy. doi:10.1111/joa.14190
An anatomical investigation of alkaptonuria: Novel insights into ochronosis of cartilage and bone
Spot(ters) the difference: Bringing traditional anatomical examinations online
Bond, A. P., Butts, T., & Tierney, C. M. (2023). Spot(ters) the difference: Bringing traditional anatomical examinations online. CLINICAL ANATOMY. doi:10.1002/ca.24092
2022
Does endoscopic balloon dilatation improve intranasal drug delivery to the olfactory cleft? A pre-clinical cadaver feasibility study
Milk, D. G., Khong, G. C., Cam, O. H., Fernando, A., Tierney, C., Kassem, F., & Leong, S. C. (2022). Does endoscopic balloon dilatation improve intranasal drug delivery to the olfactory cleft? A pre-clinical cadaver feasibility study. JOURNAL OF LARYNGOLOGY AND OTOLOGY. doi:10.1017/S0022215121004503
Distribution of ochronotic pigment in the connective tissues of an alkaptonuria cadaver
Hughes, J. H., Thomas, N. P., Rothwell, P. D., Tierney, C. M., Ranganath, L. R., Gallagher, J. A., & Bond, A. P. (2022). Distribution of ochronotic pigment in the connective tissues of an alkaptonuria cadaver. In INTERNATIONAL JOURNAL OF EXPERIMENTAL PATHOLOGY Vol. 103 (pp. A8). Retrieved from https://www.webofscience.com/
Woodruff's area in humans as the source of posterior epistaxis - Insights into an anatomical misconception
Morosanu, C. O., Humphreys, C., Egerton, S., & Tierney, C. M. (2022). Woodruff's area in humans as the source of posterior epistaxis - Insights into an anatomical misconception. In JOURNAL OF ANATOMY Vol. 240 (pp. 811-812). Retrieved from https://www.webofscience.com/
Woodruff's plexus-arterial or venous?
Morosanu, C. O., Humphreys, C., Egerton, S., & Tierney, C. M. (2022). Woodruff's plexus-arterial or venous?. SURGICAL AND RADIOLOGIC ANATOMY, 44(1), 169-181. doi:10.1007/s00276-021-02852-0
2021
Endoscopic balloon dilatation of the olfactory cleft – a feasibility study of a novel technique in cadavers
Çam, O. H., Milk, D. G., Alfaro-Iraheta, F., Khong, G. C., Tierney, C., & Leong, S. C. (n.d.). Endoscopic balloon dilatation of the olfactory cleft – a feasibility study of a novel technique in cadavers. Acta Otorhinolaryngologica Italica, 41(2), 168-172. doi:10.14639/0392-100x-n1132
A Comparison between Mygind and Kaiteki positions in administration of drops to the olfactory cleft.
Milk, D. G., Khong, G. C., Çam, O. H., Alfaro-Iraheta, F., Tierney, C., Kassem, F., & Leong, S. C. (2021). A Comparison between Mygind and Kaiteki positions in administration of drops to the olfactory cleft.. Clinical otolaryngology : official journal of ENT-UK ; official journal of Netherlands Society for Oto-Rhino-Laryngology & Cervico-Facial Surgery, 46(2), 406-411. doi:10.1111/coa.13690
Anatomical examination of an alkaptonuria cadaver
Hughes, J., Thomas, N., Rothwell, P., Tierney, C., Ranganath, L., Gallagher, J., & Bond, A. (2021). Anatomical examination of an alkaptonuria cadaver. In JOURNAL OF ANATOMY Vol. 239 (pp. 948). Retrieved from https://www.webofscience.com/
2020
Adjunctive techniques to improve access of the endoscopic prelacrimal recess approach
Khong, G. C., Medikeri, G., Tierney, C., & Leong, S. C. (2020). Adjunctive techniques to improve access of the endoscopic prelacrimal recess approach. The Laryngoscope, 130(8), 1857-1863. doi:10.1002/lary.28259
An Investigation into the Effect of Anatomical Fixative Techniques on Connective Tissue Properties within the Head and Neck
Howlett, R. S., Nasiri, H., & Tierney, C. M. (2020). An Investigation into the Effect of Anatomical Fixative Techniques on Connective Tissue Properties within the Head and Neck. In JOURNAL OF ANATOMY Vol. 236 (pp. 129-130). Retrieved from https://www.webofscience.com/
2017
An anatomical investigation into the flexibility of the temporomandibular joint between formalin-fixed, fresh-frozen and Thiel fixed specimens
Tierney, C. M., Quinn, C. M., & Betts-Dawson, P. (2017). An anatomical investigation into the flexibility of the temporomandibular joint between formalin-fixed, fresh-frozen and Thiel fixed specimens. Poster session presented at the meeting of "Anatomists on the Edge", Summer Meeting of the Anatomical Society. Gawlay, Ireland.
2011
The marine-derived, multi-mineral, Aquamin enhances mineralisation of osteoblast cells in-vitro
O'Brien, F. J., O'Gorman, D., & Tierney, C. (2011). The marine-derived, multi-mineral, Aquamin enhances mineralisation of osteoblast cells in-vitro. Journal of Phytotheraphy Research, 26(2).
2009
'The effects of stiffness and composition of a collagen-GAG scaffold on osteoblast behaviour' (abstract).
Tierney, C. M., & O'Brien, F. J. (2009). 'The effects of stiffness and composition of a collagen-GAG scaffold on osteoblast behaviour' (abstract).. Journal of Mechanics of Biomaterials and Tissues, 3, 0.
The effects of stiffness and composition of a collagen-GAG scaffold on osteoblast behaviour
Tierney, C. M., & O'Brien, F. J. (2009). The effects of stiffness and composition of a collagen-GAG scaffold on osteoblast behaviour. In 3rd International Conference on the Mechanics of Biomaterials and Tissues (pp. 0). Clearwater: Elsevier.
2008
Novel scaffolds for bone tissue engineering
O'Brien, F. J., Haugh, M. G., & Tierney, C. M. (2008). Novel scaffolds for bone tissue engineering. In Metals and Minerals Society (pp. 177). New Orleans: Elsevier.
Novel scaffolds for bone tissue engineering
O'Brien, F. J., Haugh, M. G., & Tierney, C. M. (2008). Novel scaffolds for bone tissue engineering. Journal of Metals and Minerals Society, 137, 177.
Optimisation of a collagen-GAG scaffold for use in bone tissue engineering
Tierney, C. M., Jaasma, M. J., & O'Brien, F. J. (2008). Optimisation of a collagen-GAG scaffold for use in bone tissue engineering. Bioengineering of the Royal Academy of Medicine in Ireland, 24, 24.
Osteoblast activity on collagen-GAG scaffolds is affected by collagen and GAG concentration
Tierney, C. M., Jaasma, M. J., & O'Brien, F. J. (2008). Osteoblast activity on collagen-GAG scaffolds is affected by collagen and GAG concentration. Journal of Biomedical Materials Research: Part A., 91A(1), 92-101.
The effects of collagen concentration and crosslink density on the biological, structural and mechanical properties of collagen-GAG scaffolds for bone tissue engineering
Tierney, C. M., Haugh, M. G., Liedl, J., Mulcahy, F., Hayes, B., & O'Brien, F. J. (2008). The effects of collagen concentration and crosslink density on the biological, structural and mechanical properties of collagen-GAG scaffolds for bone tissue engineering. Journal of the Biomechanical Behaviour of Biomedical Materials, 2(2), 202-209.
2007
A designer collagen-glycosaminoglycan scaffold for bone tissue engineering
O'Brien, F. J., Haugh, M. G., Tierney, C. M., & Jaasma, M. J. (2007). A designer collagen-glycosaminoglycan scaffold for bone tissue engineering. In Proceedings of the 2nd International Conference on Mechanics of Biomaterials and Tissues (pp. 102). Lihue: Elsevier.
Design and development of novel collagen-glycosaminoglycan scaffolds for bone tissue engineering
O'Brien, F. J., Haugh, M. G., Tierney, C. M., Walsh, R. M., & Jaasma, M. J. (2007). Design and development of novel collagen-glycosaminoglycan scaffolds for bone tissue engineering. In Proceedings of 2nd Regensburg Applied Biomechanics- Medicine meets Engineering Meeting (pp. 99). Regensburg: Elsevier.
Osteoblast Activity on Collagen-GAG Scaffolds is affected by Collagen and GAG concentrations
Tierney, C. M., Jaasma, M. J., & O'Brien, F. J. (2007). Osteoblast Activity on Collagen-GAG Scaffolds is affected by Collagen and GAG concentrations. In RCSI Annual Research Day 2007 (pp. 0). Dublin: RCSI.
Osteoblast Activity on Collagen-GAG Scaffolds is affected by Collagen and GAG concentrations
Tierney, C. M., Jaasma, M. J., & O'Brien, F. J. (2007). Osteoblast Activity on Collagen-GAG Scaffolds is affected by Collagen and GAG concentrations. In RCSI Annual Research Day (pp. 0). Dublin: RCSI.
Osteoblast activity on is affected by collagen and GAG concentrations and crosslinking temperature.
Tierney, C. M., Jaasma, M. J., & O'Brien, F. J. (2007). Osteoblast activity on is affected by collagen and GAG concentrations and crosslinking temperature.. Tissue Engineering, 7(13), 316.
Osteoblastic activity on collagen-GAG scaffolds is affected by collagen and GAG concentration
O'Brien, F. J., Jaasma, M. J., & Tierney, C. (2007). Osteoblastic activity on collagen-GAG scaffolds is affected by collagen and GAG concentration. In Proceedings of the 13th Annual Conference of the Section of Bioengineering of the Royal Academy of Medicine in Ireland Vol. 13 (pp. 0). Queen�s University Belfast and University College Dublin: Royal Academy.
2006
Bone Tissue Engineering: Cellular activity on a collagen-GAG scaffold is affected by collagen and GAG content
Tierney, C. M., Jaasma, M. J., & O'Brien, F. J. (2006). Bone Tissue Engineering: Cellular activity on a collagen-GAG scaffold is affected by collagen and GAG content. In Tissue Engineering and Regenerative Medicine International Society (pp. 10). Rotterdam: Elsevier.
Histological comparison of cellular seeding methods on Collagen-GAG scaffolds
Almansoori, K. A., O'Brien, F. J., Jaasma, M. J., & Tierney, C. (2006). Histological comparison of cellular seeding methods on Collagen-GAG scaffolds. In RCSI Annual Research Day (pp. 0). Dublin, Ireland: RCSI.
The biological and mechanical characteristics of several collagen-GAG scaffolds for bone tissue engineering
Tierney, C. M., Haugh, M. G., Jaasma, M. J., & O'Brien, F. J. (2006). The biological and mechanical characteristics of several collagen-GAG scaffolds for bone tissue engineering. Journal of Anatomy, 4(209), 568.
The biological and mechanical characteristics of several collagen-GAG scaffolds for bone tissue engineering
Tierney, C. M., Haugh, M. G., Jaasma, M. J., & O'Brien, F. J. (2006). The biological and mechanical characteristics of several collagen-GAG scaffolds for bone tissue engineering. In Symposium on the Anatomy of Tissue Engineering at the Winter Meeting of the Anatomical Society of Great Britain and Ireland Vol. 4 (pp. 568). Oxford, UK: Elsevier.
The influence of collagen and GAG content on cellular activity in scaffolds for bone tissue engineering
Tierney, C. M., Haugh, M. G., Jaasma, M. J., & O'Brien, F. J. (2006). The influence of collagen and GAG content on cellular activity in scaffolds for bone tissue engineering. In Proceedings of the 12th Annual Conference of the Section of Bioengineering of the Royal Academy of Medicine in Ireland (pp. 0). Galway: Royal Academy.
Tissue Engineering: Cellular activity on a collagen-GAG scaffold is affected by collagen and GAG content
Tierney, C. M., Jaasma, M. J., & O'Brien, F. J. (2006). Tissue Engineering: Cellular activity on a collagen-GAG scaffold is affected by collagen and GAG content. In RCSI Annual Research Day (pp. 0). Dublin: RCSI.
2005
Collagen scaffolds for use as bone graft substitutes
Walsh, R. M., Haugh, M. G., O'Brien, F. J., Jaasma, M. J., & Tierney, C. (2005). Collagen scaffolds for use as bone graft substitutes. In RCSI Annual Research day (pp. 0). Dublin: RCSI.
Collagen scaffolds for use as bone graft substitutes: The influence of glycosaminoglycans and collagen content on cell attachment, proliferation and bone formation
Tierney, C. M., & O'Brien, F. J. (2005). Collagen scaffolds for use as bone graft substitutes: The influence of glycosaminoglycans and collagen content on cell attachment, proliferation and bone formation. In D. P. FitzPatrick, & M. Senouchi (Eds.), 11th Annual Conference of the Section of Bioengineering of the Royal Academy of Medicine in Ireland Vol. 34 (pp. 0). Dublin: Royal Academy.
Collagen-GAG scaffolds for the development of bone graft substitutes
Tierney, C. M., Haugh, M. G., Walsh, R. M., Jaasma, M. J., & O'Brien, F. J. (2005). Collagen-GAG scaffolds for the development of bone graft substitutes. In Proceedings of the Northern Ireland Biomedical Engineering Society, 25th Anniversary Spring Meeting (pp. 13). Belfast, Northern Ireland: Elsevier.