Bone regeneration
Clinical studies
- Two-stage Lateral Maxillary Sinus Lift using Autogenous Bone and β-Tricalcium Phosphate: Clinical and Histomorphometric Evaluation; Mounajjed R., Strnad J., Cevallos Lecaro M.: Madridge J Dent Oral Surg. 2020; 5(1): 96-100
- Histological assessment of tissue from large human bone defects repaired with b-tricalcium phosphate; Kučera T., Šponer P., Urban K., Kohout A.: Eur J Orthop Surg Traumatol 2014 DOI 10.1007/s00590-013-1329-4.
- In vivo behaviour of low-temperature calcium-deficient hydroxyapatite: comparison with deproteinised bovine bone; Šponer P., Strnadová M., Urban K.: International Orthopaedics (SICOT) 2010
- The use of interconnected β-tricalcium phosphate as bone substitute after curettage of benign bone tumours; Šponer P., Urban K., Kučera T., Kohout A., Brtková J., Knížek J.: Eur J Orthop Surg Traumatol DOI 2010 10.1007/s00590-010-0701-x.
- Guided bone regeneration in the pre-implantation phase; Poleník P.: Implantologie Journal 5/2007.
Clinical studies – abstracts
- ß-TCP as a scaffold for tissue engineered bone; Poleník P.: J. Periodontol., Vol. 30, suppl. 4, 2003, p. 51.
- Porous ß-TCP and platelet rich plasma (PRP) in treatment of periodontal defects; Poleník, P.: J. Int. Acad. Periodontol., Vol. 6, No. 2, 2004.
Experimental studies
- Comparison of osteoconductive properties of three different b-tricalcium phosphate graft materials: A pilot histomorphometric study in a pig model; Damlar I., Erdogan O., Tatli U., Arpag O. F., Gormez U., Üstün Y.: Journal of Cranio-Maxillo-Facial Surgery, Vol. 43, 2015, p. 175–180.
- In vivo behaviour of the syntethetic porous hydroxyapatite prepared by low temperature microwave processing and comparison with deproteinized bovine bone; Strnadová M., Strnad Z., Šponer P., Jirošova J., Strnad J.: Key Engineering Materials Vols. 493-494, 2012; Bioceramics 23 Istanbul, Turkey.
- In vivo study of low tepmerature macro and nano porous carbonated hydroxyapatite; Strnadová M., Strnad J., Šponer P., Urban K., Strnad Z.: Vol 22, Issue No. 9, September 2011, this publication was at EAO Meeting 2011 Travel Grant Awarded.
- Bone formation around beta –TCP regeneration material – a histological study in beagel dogs; Strnadová M.: Clinical Oral Implants Research, Vol 20, Issue No. 9, September 2009, this publication was at EAO Meeting 2009 Travel Grant Awarded.
- Preparation of porous synthetic nanostructured HA scaffold; Strnadová M., Protivínský J., Strnad J., Vejšická Z.: Key Engineering Materials, Vols 361-363, pp 211-214, April 2008; Bioceramics 20 Nantes, France.
Experimental studies – abstracts
- Role of the glass phase in bioactive glass-ceramics; Strnad Z.: Biomaterials, Vol. 13, No. 5, 1992, p. 317–321.
- Physical and chemical characterization of bone regeneration materials based on TCP; Strnadová M., Skrčená A., Nathanský Z.: Clin. Oral impl. Res. Vol. 16, No. 4, 2005.
- Surface bioactive ceramics; Urban K., Strnad Z.: Acta Chir. Orthop. Traum. Čech., 56, 1989, No. 5, p. 291.
- Thermodynamics of non-bridging oxygen in silica bio-compatible glass-ceramics, Mimetic material for the bone tissue substitution; Koga N., Strnad J., Strnad Z., Šesták J.: J. of Thermal Analysis and Calorimetry, Vol. 71, 2003, pp. 927–937.