Majolin's ulcer is a carcinomatous ulcer from degenerating burn scars. This patient is a 44 year-old man who has been suffering from pain and itching sensation on Rt. wrist of burn scars. Symptom has been developed since 18 months ago. Skin lesion is a well defined, slight brownish colored, scaly verrucous surfared plaque with reddish ringlike border and oozing tendency in small part. On physical examination, he is in within normal limit excepet burn scar on Rt. upper extremity. He was received burn with gasolin at the age of seven. Biopsy on the skin lesion revealed well differentiated squamous cell carcinoma appearance. Diagnosis was confirmed by the history and histopathological finding. Literature was briefly reviewed.
Adult ; Biopsy ; Burns ; Carcinoma, Squamous Cell ; Cicatrix ; Diagnosis ; Humans ; Physical Examination ; Pruritus ; Sensation ; Skin ; Ulcer* ; Upper Extremity ; Wrist

Intraventricular hemorrhage (IVH) is common in the premature infants and occurs mainly in subependymal germinal matrix. In contrast, IVH in the term infants is rare and different in pathogenesis and bleeding sites from those of the premature infants. Most studies of IVH in term infants have been studied by computerized tomography and postmortem examination. Brain ultrasonography which has become a frequently used diagnostic tool of IVH in the premature infants is reported to be also effective in diagnosis in the term infants. The study population comprised 11 term neonates admitted to the Neonatal Intensive Care Unit of Seoul National University Children's Hospital between July 1989 and June 1991, in whom IVH was diagnosed by ultrasonography. We analysed severity of birth asphyxia. ultrasonographic findings and clinical manifestations to investigate severity, timing, risk factors, and pathogenesis of IVH in the term neonates. 1) Apgar scores were available in 7 cases with severe asphyxia (Apgar at 1 min: less than 3), 1 cases with mild asphyxia (Apgar at 1 min: between 5~7), and 2 cases without asphyxia. 2) Clinically, 4 cases had fetal distress, and 3 cases had meconium aspiration pneumonia. 3) Bleeding sites by ultrasonography were subependymal germinal matrix in all 11 cases. IVH of choroid plexus was combined in 2 cases. Severity of IVH were grade I in 9 cases, grade II in 2 cases by Papile's classification. 4) There were no correlations between the grade of IVH and severity of perinatal asphyxia. In conclusion, ultrasonography is very useful in diagnosis and follow-up of IVH in term neonates. Subependymal germinal matrix could be common site of IVH in term neonates because germinal matrix still remains in term neonates despite of its regression. Also this can explain why IVH in our cases is not severe.
Asphyxia ; Autopsy ; Brain ; Choroid Plexus ; Classification ; Diagnosis ; Fetal Distress ; Follow-Up Studies ; Hemorrhage* ; Humans ; Infant* ; Infant, Newborn ; Infant, Premature ; Intensive Care, Neonatal ; Meconium Aspiration Syndrome ; Parturition ; Pneumonia ; Risk Factors ; Seoul ; Ultrasonography

No abstract available.
Alopecia* ; Scalp* ; Tissue Expansion*

No abstract available.
Abdominoplasty* ; Classification*

Foreign antigen recognition is the ability of immune cells to distinguish self from nonself, which is crucial for immune responses in both invertebrates and vertebrates. In vertebrates, T cells play a pivotal role in graft rejection by recognizing alloantigens presented by antigen-presenting cells through direct, indirect, or semidirect pathways.B cells also significantly contribute to the indirect presentation of antigens to T cells.Innate immune cells, such as dendritic cells, identify pathogen- or danger-associated molecular patterns through pattern recognition receptors, thereby facilitating effective antigen presentation to T cells. Recent studies have shown that innate immune cells, including macrophages and NK cells, can recognize allogeneic or xenogeneic antigens using immune receptors like CD47 or activating NK receptors, instead of pattern recognition receptors. Additionally, macrophages and NK cells are capable of exhibiting memory responses to alloantigens, although these responses are shorter than those of adaptive memory. T cells also recognize xenoantigens through either direct or indirect presentation. Notably, macrophages and NK cells can directly recognize xenoantigens via surface immune receptors in an antibody-independent manner, or they can be activated in an antibody-dependent manner. Advances in our understanding of the recognition mechanisms of adaptive and innate immunity against allogeneic and xenogeneic antigens may improve our understanding of graft rejection.

Foreign antigen recognition is the ability of immune cells to distinguish self from nonself, which is crucial for immune responses in both invertebrates and vertebrates. In vertebrates, T cells play a pivotal role in graft rejection by recognizing alloantigens presented by antigen-presenting cells through direct, indirect, or semidirect pathways.B cells also significantly contribute to the indirect presentation of antigens to T cells.Innate immune cells, such as dendritic cells, identify pathogen- or danger-associated molecular patterns through pattern recognition receptors, thereby facilitating effective antigen presentation to T cells. Recent studies have shown that innate immune cells, including macrophages and NK cells, can recognize allogeneic or xenogeneic antigens using immune receptors like CD47 or activating NK receptors, instead of pattern recognition receptors. Additionally, macrophages and NK cells are capable of exhibiting memory responses to alloantigens, although these responses are shorter than those of adaptive memory. T cells also recognize xenoantigens through either direct or indirect presentation. Notably, macrophages and NK cells can directly recognize xenoantigens via surface immune receptors in an antibody-independent manner, or they can be activated in an antibody-dependent manner. Advances in our understanding of the recognition mechanisms of adaptive and innate immunity against allogeneic and xenogeneic antigens may improve our understanding of graft rejection.

Foreign antigen recognition is the ability of immune cells to distinguish self from nonself, which is crucial for immune responses in both invertebrates and vertebrates. In vertebrates, T cells play a pivotal role in graft rejection by recognizing alloantigens presented by antigen-presenting cells through direct, indirect, or semidirect pathways.B cells also significantly contribute to the indirect presentation of antigens to T cells.Innate immune cells, such as dendritic cells, identify pathogen- or danger-associated molecular patterns through pattern recognition receptors, thereby facilitating effective antigen presentation to T cells. Recent studies have shown that innate immune cells, including macrophages and NK cells, can recognize allogeneic or xenogeneic antigens using immune receptors like CD47 or activating NK receptors, instead of pattern recognition receptors. Additionally, macrophages and NK cells are capable of exhibiting memory responses to alloantigens, although these responses are shorter than those of adaptive memory. T cells also recognize xenoantigens through either direct or indirect presentation. Notably, macrophages and NK cells can directly recognize xenoantigens via surface immune receptors in an antibody-independent manner, or they can be activated in an antibody-dependent manner. Advances in our understanding of the recognition mechanisms of adaptive and innate immunity against allogeneic and xenogeneic antigens may improve our understanding of graft rejection.

Foreign antigen recognition is the ability of immune cells to distinguish self from nonself, which is crucial for immune responses in both invertebrates and vertebrates. In vertebrates, T cells play a pivotal role in graft rejection by recognizing alloantigens presented by antigen-presenting cells through direct, indirect, or semidirect pathways.B cells also significantly contribute to the indirect presentation of antigens to T cells.Innate immune cells, such as dendritic cells, identify pathogen- or danger-associated molecular patterns through pattern recognition receptors, thereby facilitating effective antigen presentation to T cells. Recent studies have shown that innate immune cells, including macrophages and NK cells, can recognize allogeneic or xenogeneic antigens using immune receptors like CD47 or activating NK receptors, instead of pattern recognition receptors. Additionally, macrophages and NK cells are capable of exhibiting memory responses to alloantigens, although these responses are shorter than those of adaptive memory. T cells also recognize xenoantigens through either direct or indirect presentation. Notably, macrophages and NK cells can directly recognize xenoantigens via surface immune receptors in an antibody-independent manner, or they can be activated in an antibody-dependent manner. Advances in our understanding of the recognition mechanisms of adaptive and innate immunity against allogeneic and xenogeneic antigens may improve our understanding of graft rejection.

No abstract available.
Child* ; Heart Diseases* ; Heart* ; Humans ; Mass Screening*

No abstract available.
Arteries* ; Echocardiography ; Fetus* ; Heart ; Humans* ; Mitral Valve* ; Tricuspid Valve*