dc.description |
State University of Medicine and Pharmacy "Nicolae Testemitanu", Chișinău, Republic of Moldova, Institute of Oncologic, Hematological Center, Chisinau,
Republic of Moldova, Department of Pediatrics,Mother and Child Institute, Chisinau, Republic of Moldova,
State University of Medicine and Pharmacy "Nicolae Testemitanu", Chișinău, Republic of Moldova, Congresul consacrat aniversării a 75-a de la fondarea Universității de Stat de Medicină și Farmacie „Nicolae Testemițanu” din Republica Moldova, Ziua internațională a științei pentru pace și dezvoltare |
en_US |
dc.description.abstract |
Introduction:
Congenital neutropenias (CN) constitute a group of rare
genetic disorders characterized by: severe recurrent
infections secondary to neutropenia, various organic
dysfunctions and a high risk of leukemic transformation.
Their incidence is estimated to be 1-4 cases per 1 million
inhabitants.
Objective of the study:
This review aims to provide a comprehensive overview of the
latest literature sources on the clinical and diagnostic features of
congenital neutropenias.
Material and Methods:
We're studied the articles published in the last 10 years,
searched through databases such as: PubMed, MEDLINE,
Google scholar.
Review:
CN are rare genetic diseases characterized by an absolute
number of neutrophils less than 1.5x109 /l that are associated
with specific clinical phenotypes (pyogenic infections, gingivostomatitis,
chronic periodontitis, etc.)
In 1956 the Swedish physician Rolf Kostmann described an
autosomal recessive hematologic disorder with severe
neutropenia with an absolute neutrophil count (ANC) less than
0.2x109/L and early onset of severe bacterial infections. And from
that point the history of CN has starts.
Clinical Features:
Patients with CN develop severe bacterial infections in the first year
of life. The risk of infection correlates with the degree( tab.1) and
duration of neutropenia. The most frequently affected sites of
infections are skin and mucosal linings in the oropharynx with
bronchial and lung infections also common. Patients with CN are at
risk for fatal sepsis, a feature that must be remembered.
Diagnosis Conclusion
References
1. KLEIN, Christoph. Congenital neutropenia. In: Stiehm's Immune Deficiencies.
Academic Press, 2020. p. 797-812.
2. DONADIEU, Jean, et al. Congenital neutropenia in the era of genomics:
classification, diagnosis, and natural history. British journal of haematology,
2017, 179.4: 557-574.
3. XIA, Jun, et al. Somatic mutations and clonal hematopoiesis in congenital
neutropenia. Blood, 2018, 131.4: 408-416.
4. DWIVEDI, Pankaj; GREIS, Kenneth D. Granulocyte colony-stimulating factor
receptor signaling in severe congenital neutropenia, chronic neutrophilic
leukemia, and related malignancies. Experimental hematology, 2017, 46: 9-20.
5. Ivo P. Touw, Patricia A. Olofsen; EHA Educational Lecture, Session Congenital
Neutropenia: Severe Congenital Neutropenia-Biological Insights; HemaSphere;
2020;
This paper is part of the EuNet-Innochron - Educational program
The diagnosis of CN relies on clinical and hematological features. Before
the diagnosis of congenital neutropenia can be established, it is important to
document the duration of neutropenia and whether it is persistent versus
intermittent by serial complete blood counts. A single documentation of a
low neutrophil count is not sufficient. To monitor the oscillatory pattern of
neutrophil counts in patients with cyclic neutropenia, 2-3 blood counts per
week for six weeks are needed. Patients with CN often have increased
absolute numbers of monocytes and B cells, accompanied by
hypergammaglobulinemia.
Morphological assessment of stained peripheral blood neutrophils and bone
marrow progenitor cells are helpful to clarify the etiology of CN(fig.1)
The genetic confirmation of the diagnosis is mandatory.
Figure 1. Tipical aspect of the bone marrow in a CN patient:The bone marrow
usually shows a maturation arrest of neutrophil precursors at an early stage
(promyelocyte/myelocyte level) with few cells of the neutrophilic series beyond the
promyelocyte stage (x100)
THE EVOLUTION OF THE DIAGNOSIS OF CONGENITAL
NEUTROPENIAS IN THE ERA OF MOLECULAR TECHNOLOGIES
Victor Tomacinschii1,2, Cristina Tomacinschii1,3, Maria Robu1
1. Nicolae Testemitanu State University of Medicine and Pharmacy of the Republic of Moldova; 2. Institute of Oncologic, Hematological Center, Chisinau,
Republic of Moldova; 3. Department of Pediatrics,Mother and Child Institute, Chisinau, Republic of Moldova
This review aims to provide a comprehensive overview of the
latest literature sources on the clinical and diagnostic features of
congenital neutropenias.
Were studied the articles published in the last 10 years,
searched through databases such as: PubMed, MEDLINE,
Google scholar.
Material and Methods
Review
CN are rare genetic diseases characterized by an absolute
number of neutrophils less than 1.5x109 /l that are associated
with specific clinical phenotypes (pyogenic infections, gingivostomatitis,
chronic periodontitis, etc.)
In 1956 the Swedish physician Rolf Kostmann described an
autosomal recessive hematologic disorder with severe
neutropenia with an absolute neutrophil count (ANC) less than
0.2x109/L and early onset of severe bacterial infections. And from
that point the history of CN has starts
Common clinical features associated with CN:
• Periodontitis
• Gingivitis
• Dental decay
• Oral aphthae
• GI inflammation mimicking inflammatory bowel
• Lack or diminished inflammatory infiltrates and pus in response
to bacterial infections.
• A predisposition to bone fractures secondary to osteopenia
• inner ear hearing loss(in G6PC3 deficiency or GFI1 deficiency)
• epilepsy and delayed neurocognitive development (in HAX1
deficiency or CLPB-deficiency.
Two turning points revolutionized the scientific community studying CN:
1. Approval for the use of granulocyte colony-stimulating factor(G-CSF) –
filgrastim - 1993
2. 2. Large-scale implementation of molecular-genetic techniques for CN
diagnosis as RT-PCR; FISH; NGS sequencing etc (2000s)
Currently, mutations in more than 20 genes have been implicated as the
cause of SCN.∗1 These mutations affect
the function of a variety of proteins that exert widely diverse
intracellular functions, among which protein trafficking, actin
cytoskeleton organization, mitochondrial integrity, transcriptional control and
signal transduction.(tab. 2).
Diagnosis:
The diagnosis of CN relies on clinical and hematological features. Before
the diagnosis of congenital neutropenia can be established, it is important to
document the duration of neutropenia and whether it is persistent versus
intermittent by serial complete blood counts. A single documentation of a
low neutrophil count is not sufficient. To monitor the oscillatory pattern of
neutrophil counts in patients with cyclic neutropenia, 2-3 blood counts per
week for six weeks are needed. Patients with CN often have increased
absolute numbers of monocytes and B cells, accompanied by
hypergammaglobulinemia.
Morphological assessment of stained peripheral blood neutrophils and bone
marrow progenitor cells are helpful to clarify the etiology of CN(fig.1)
The genetic confirmation of the diagnosis is mandatory.
Conclusion:
Knowledge of the genetic defects of CN has valuable implications not
only in the classification of these nosological entities, but can also serve
as a target for potential molecular therapies in the near future. |
en_US |