Gamma-resonance method for the diagnosis of leukemia

Background. The modern concept of acute leukemia therapy involves stratification of patients into prognostic risk groups and a differentiated approach to treatment based on prognostic factors. However, antitumor treatment, including cytostatics, targeted agents, immunotherapy, cellular technologies, is not always highly effective, especially in patients with a poor prognosis. The development of new high-tech diagnostic methods and the refinement of leukemia prediction models remain an urgent clinical task.

Aim. To demonstrate the fundamental capabilities of the nuclear gamma resonance method in the early diagnosis of leukemia.

Materials and methods. The blood of 1 healthy man and 5 patients of different genders and ages with leukemia was examined. Gamma-resonance (Mossbauer) spectra of iron nuclei in their blood were analyzed.

Results. Significant differences in the parameters of the spectra of 57Fe nuclei in the blood of both healthy men and patients of different genders and ages were revealed.

Conclusion. Nuclear gamma-resonance spectroscopy at the atomic-nuclear level reveals the influence of cancer cells on the state of iron nuclei and, consequently, on the state of blood. This method can be used both for early diagnosis of leukemia and for assessing the population of tumor cells after achieving cytological remission in leukemia.

1. Swerdlow S., Campo E., Harris N. et al. WHO Classification of Tumors of Haematopoietic and Lymphoid Tissues. 4th edn. International agency for Research on cancer. Lyon: WHO press, 2008. P. 321–334.

2. Swerdlow S., Campo E., Harris N. et al. WHO Classification of Tumors of Haematopoietic and Lymphoid Tissues. 4th edn. International agency for Research on cancer. Lyon: WHO press, 2017. P. 581

3. Baryakh E.A., Kremenetskaya A.M., Kravchenko S.K. et al. A new short intensive protocol BLM04 for therapy of Burkitt lymphoma in adults: intermediate results. Gematologiya i transfuziologiya = Russian Journal of Hematology and Transfusiology 2006;51(6): 3–11. (In Russ.).

4. Valiev T.T. Burkitt lymphoma in children: 30 year treatment expirience. Pediatriya. Zhurnal im. G.N. Speranskogo = Pediatrics. Journal named after G.N. Speransky 2020;99(4):35–41. (In Russ.).

5. Belyaeva E.S., Susuleva N.A., Valiev T.T. The importance of intensive chemotherapy for advanced Hodgkin lymphoma in children. RMZH. Mat’ i ditya = Russian Journal of Woman and Child Health 2020;3(2):149–53. (In Russ.)

6. Makhacheva F.A., Valiev T.T. Pediatric acute myeloid leukemias treatment: current scientific view. Onkogematologiya = Oncohematology 2020;15(1):10–27. (In Russ.). DOI: 10.17650/1818-8346-2020-15-1-10-27

7. Parovichnikova E.N., Garmaeva T.T., Lazareva O.V. et al. A rationale for a new operational integrated quality and efficiency index for assessing the performance of hematological services in constituent entities of the Russian Federation. Klinicheskaya onkogematologiya. Fundamental’nye issledovaniya i klinicheskaya praktika = Clinical Oncohematology. Basic Research and Clinical Practice 2022;15(1):1–15. (In Russ.).

8. Nemirovchenko V.S., Shervashidze M.A., Valiev T.T., Kondratchik K.L. Treatment results of pediatric acute myeloid leukemia with epigenetic drugs addition. Onkogematologiya = Oncohematology 2020;15(2):19–28. (In Russ.). DOI: 10.17650/1818-8346-2020-15-2-19-28

9. Shervashidze M.A., Valiev T.T. Pediatric acute lymphoblastic leukemia treatment protocols improvement: emphasis on minimal residual disease. Onkogematologiya = Oncohematology 2020;15(3):12–26. (In Russ.). DOI: 10.17650/1818-8346-2020-15-3-12-26

10. Aleskerova G.A., Shervashidze M.A., Popa A.V. et al. Treatment results of ALL IC-BFM 2002 protocol in children with acute lymphoblastic leukemia. Onkopediatriya = Oncopediatrics 2016;3(4):302–8. (In Russ.).

11. Moshkovskiy Yu.Sh. Application of the Mössbauer effect in biology. In: Chemical applications of Mössbauer spectroscopy. Trans. From English. Ed.: V.I. Goldanskiy. Moscow: Mir, 1970. Pp. 414–436. (In Russ.).

12. Modern methods of biophysical research. Practicum in biophysics. Ed.: A.B. Rubin. Moscow: Vysshaya shkola, 1988. (In Russ.).

13. Oshtrakh M.I. Mössbauer spectroscopy of hemoglobins and irondextran complexes with different molecular structures. Biophysical and biomedical aspects. Dis. … doctor of physical and mathematical sciences. Ekaterinburg, 2000. (In Russ.).

14. Shpinel V.S. Resonance of gamma rays in crystals. Moscow: Nauka, 1969. 407 p. (In Russ.).

15. Akoev I.G. Biophysics recognizes cancer. Moscow: Nauka, 1988. 159 p. (In Russ.).

16. Valiev T.T., Kovrigina A.M., Klyuchagina Yu.I., Senderovich A.I. Experience of cytogenetic studies in pediatric non-Hodgkin’s lymphomas. Onkopediatriya = Oncopediatrics 2016;3(2):125–32. (In Russ.). DOI: 10.15690/onco.v3i2.1547

17. Rusakov V.S. Special course Physical bases and methods of Mössbauer spectroscopy. Moscow, 2011. (In Russ.).