Diagnóstico por citometría de flujo de la hemoglobinuria paroxística nocturna / Diagnosis of paroxysmal nocturnal hemoglobinuria by flow cytometry

Introducción: La hemoglobinuria paroxística (HPN) nocturna es una enfermedad clonal, adquirida y no maligna de la célula madre hematopoyética. En este padecimiento se encuentra afectado el anclaje a la membrana celular de moléculas como el CD55 y CD59, fundamentales en la regulación de la lisis mediada por el complemento. Por su elevada especificidad y sensibilidad, la citometría de flujo multiparamétrica (CFM) es el método de elección para el diagnóstico de esta enfermedad. Objetivo: Establecer un algoritmo diagnóstico de la HPN por CMF. Métodos: Se analizó una muestra de sangre periférica para CFM de un paciente con sospecha de HPN. El inmunofenotipaje celular se realizó con un panel de anticuerpos monoclonales dirigidos contra los antígenos que se expresan en la membrana citoplasmática mediante su anclaje al glicosilfosfatidilinositol. Las muestras se leyeron en un citómetro GALLIOS, Beckman Coulter y los datos obtenidos se analizaron con el empleo del programa informático Kaluza. Resultados: Se identificaron cuatro clones HPN. En los granulocitos se observó un clon HPN de aproximadamente 90 por ciento, con deficiencia en la expresión de CD16, CD24, CD55 y CD59. En los monocitos se observaron dos clones: (1) clon CD14_CD59_ y (2) clon CD14_CD59+ con tamaños clonales de 59,77 por ciento y 19,45 por ciento, respectivamente. En los eritrocitos se identificó un clon de 19,98 por ciento y de determinó el grado de afectación. Conclusiones: El algoritmo de análisis propuesto permite identificar las poblaciones celulares con clones HPN. Además, dichos clones pueden ser cuantificados en cuanto a tamaño clonal y expresividad de los antígenos dependientes de anclaje a glicosilfosfatidilinositol. Con la CFM se logra determinar con elevada sensibilidad el grado de afectación de los eritrocitos en la expresión de CD59 como medida directa de la susceptibilidad que experimentan a la lisis por el complemento(AU)

Introduction: The paroxysmal nocturnal hemoglobinuria (PNH) is a clonal, acquired disease and not malignant hematopoietic stem cell. In this condition, the anchor to the cell membrane of molecules such as the CD55 and CD59 is affected, This antigens are fundamental in the regulation of the complement-mediated lysis. By its high specificity and sensitivity multiparametric flow cytometry (MFC) is the goal standard for the diagnosis of this disease. Objective: To establish a diagnosis of PNH by MFC algorithm. Methods: A sample of peripheral blood of a patient with suspicion of PNH was analyzed by MFC. The cell immunophenotyping was carried out using a panel of monoclonal antibodies directed against antigens that are expressed in the cytoplasmic membrane through its the glycosylphosphatidylinositol anchor. The samples were read in a Cytometer GALLIOS, Beckman Coulter and the data obtained were analyzed with the use of the Kaluza software. Results: We identified four clones HPN. A HPN clone of approximately 90 percent, was observed in granulocytes with deficiency in the expression of CD16, CD24, CD55, CD59. In the monocytes were two clones: (1) CD14-CD59- clone and (2) CD14-CD59 + clone, with size clone of 59.77 percent and 19.45 percent, respectively. A clone of 19.98 percent was identified in erythrocytes and determined the degree of involvement of the same. Conclusions: The proposed analysis algorithm allows to identify cellular populations with clones PNH. In addition, these clones can be quantified in terms of size clonal and expressiveness of anchor to glycosylphosphatidylinositol antigen dependent. With the MFC is achieved with high sensitivity to determine the degree of involvement of the erythrocytes in the expression of CD59 as a direct measure of susceptibility undergoing lysis by complement(AU)

Mechanisms and Treatment of Blast Induced Hearing Loss

The main objective of this study is to provide an overview of the basic mechanisms of blast induced hearing loss and review pharmacological treatments or interventions that can reduce or inhibit blast induced hearing loss. The mechanisms of blast induced hearing loss have been studied in experimental animal models mimicking features of damage or injury seen in human. Blast induced hearing loss is characterized by perforation and rupture of the tympanic membrane, ossicular damage, basilar membrane damage, inner and outer hair cell loss, rupture of round window, changes in chemical components of cochlear fluid, vasospasm, ischemia, oxidative stress, excitotoxicity, hematoma, and hemorrhage in both animals and humans. These histopathological consequences of blast exposure can induce hearing loss, tinnitus, dizziness, and headache. The pharmacological approaches to block or inhibit some of the auditory pathological consequences caused by blast exposure have been developed with antioxidant drugs such as 2,4-disulfonyl alpha-phenyl tertiary butyl nitrone (HXY-059, now called HPN-07) and N-acetylcysteine (NAC). A combination of antioxidant drugs (HPN-07 and NAC) was administered to reduce blast induced cochlear damage and hearing loss. The combination of the antioxidant drugs can prevent or treat blast induced hearing loss by reducing damage to the mechanical and neural component of the auditory system. Although information of the underlying mechanisms and treatment of blast induced hearing loss are provided, further and deep research should be achieved due to the limited and controversial knowledge.

Mechanisms and Treatment of Blast Induced Hearing Loss

The main objective of this study is to provide an overview of the basic mechanisms of blast induced hearing loss and review pharmacological treatments or interventions that can reduce or inhibit blast induced hearing loss. The mechanisms of blast induced hearing loss have been studied in experimental animal models mimicking features of damage or injury seen in human. Blast induced hearing loss is characterized by perforation and rupture of the tympanic membrane, ossicular damage, basilar membrane damage, inner and outer hair cell loss, rupture of round window, changes in chemical components of cochlear fluid, vasospasm, ischemia, oxidative stress, excitotoxicity, hematoma, and hemorrhage in both animals and humans. These histopathological consequences of blast exposure can induce hearing loss, tinnitus, dizziness, and headache. The pharmacological approaches to block or inhibit some of the auditory pathological consequences caused by blast exposure have been developed with antioxidant drugs such as 2,4-disulfonyl alpha-phenyl tertiary butyl nitrone (HXY-059, now called HPN-07) and N-acetylcysteine (NAC). A combination of antioxidant drugs (HPN-07 and NAC) was administered to reduce blast induced cochlear damage and hearing loss. The combination of the antioxidant drugs can prevent or treat blast induced hearing loss by reducing damage to the mechanical and neural component of the auditory system. Although information of the underlying mechanisms and treatment of blast induced hearing loss are provided, further and deep research should be achieved due to the limited and controversial knowledge.

Estudio ultraestructural de las plaquetas de pacientes con hemoglobinuria paroxística nocturna / Ultrastructural study of platelets patients with paroxysmal nocturnal hemoglobinuria

Introduction. Paroxysmal nocturnal hemoglobinuria (PNH) is a hemolytic anemia characterized by intravascular hemolysis, cytopenias and venous thrombosis. Previous studies in patients with PNH have shown platelet abnormalities; however, their association with the clinical development of the sickness has not still been determined. Material and methods. In this study, we compared the morphology and distribution pattern of actin, myosin, tubulin and p-selectin in resting and activated platelets from 22 PNH patients and healthy donors by transmission electron microscopy and immunofluorescence. Results. The PNH platelet ultrastructure of resting and activated with different agonists (ADP, collagen and thrombin) showed morphological changes which suggested the presence of circulating platelets. The developed structures during the adhesion process (filopodia and lamellipodia formation), as well as the pattern distribution of actin, myosin, tubulin and p-selectin in PNH platelets were not modified in relation to control platelets. Conclusion. Morphological changes in resting platelets were related with p-selectin expression suggesting its determination as thrombosis indicator.

Introducción. La hemoglobinuria paroxística nocturna (HPN) es una anemia hemolítica caracterizada por hemolisis intravascular, citopenias y trombosis venosa. Estudios previos en pacientes con HPN han revelado anormalidades plaquetarias; sin embargo, no se ha determinado su asociación con el desarrollo clínico de la enfermedad. Material y métodos. En el presente estudio se comparó la morfología y el patrón de distribución de actina, miosina, tubulina y P-selectina en plaquetas en reposo y activadas provenientes de 22 pacientes con HPN y de individuos sanos por microscopía electrónica de transmisión e inmunoñuorescencia. Resultados. La ultraestructura de las plaquetas de individuos con HPN en reposo y activadas en suspensión con diferentes agonistas (ADP, colágena y trombina) mostró cambios morfológicos que sugirieron la presencia de plaquetas activadas circulantes. Las estructuras desarrolladas durante el proceso de adhesión (formación de filopodios, lamelipodios), así como el patrón de distribución de actina, miosina, tubulina y P-selectina, no se modificaron en las plaquetas de los pacientes con HPN en relación con el testigo. Conclusión. Los cambios morfológicos en plaquetas en reposo fueron relacionados con la expresión de P-selectina, por lo que se sugiere su determinación como un parámetro indicativo de un posible riesgo trombótico.