Bases Clínicas e Laboratoriais para o Diagnóstico e Compreensão das Doenças Metabólicas Neonatais

The authors divide neonatal metabolic diseases into two major groups: intoxication and energy deficiency. The main signs which allow for the suspicion of the diagnosis are indicated for each group. The complementary examinations to be carried out by the Clinical Pathology Service of the Central Hospital and those which must be carried out by the metabolic diseases Reference Centre are reviewed. Based on the clinical framework and on the examination results, the authors establish five syndromatic groups to orientate diagnosis. The authors conclude by presenting differential diagnosis tables based on the original systematic classification by Jean-Marie Saudubray, with up-dated modifications from their own experience.

O Hospital de Dona Estefânia e a História da Cirurgia Pediátrica em Portugal

Em 1914,0 Prof. Francisco Gentil, então Enfermeiro-Mor dos Hospitais Civis de Lisboa, propos que fossem criadas no Hospital de D. Estefânia duas Enfermarias independentes, uma para doenças pediátricas médicas e outra para doenças pediátricas Cirúrgicas/Ortopédicas. Isto tornou-se realidade em 9 de Julho de 1918, através do Decreto 4.563, ficando a direcção dos dois Serviços a cargo de Jaime Ernesto Salazar de Sousa. Após a sua morte, em 1940, Abel Pereira da Cunha tornou-se o novo Director, seguindo-se-lhe Eduardo Rosado Pinto, em 1959. É então que o único Serviço existente, o Serviço 5, se divide em dois, o 3 e o 4, sob a Direcção rcspectivamente de José Rosado Pinto e Luciano José de Carvalho. Em 1983 Fernando Gabriel Pinto Coelho Afonso torna-se Director do Serviço 3 e em 1986 Antonio Genlil do Silva Martins torna-se Director do Serviço 4. Em 1994 Fernando Afonso torna-se Director do Departamento de Cirurgia (durante 1 mês, até aposentação) seguindo-se-lhe António Gentil Martins, jubilado em 2000. Em 29 de Junho de 1974, no Hospital de D. Estefânia, é fundada a Sociedade Portuguesa de Cirurgiões Pediatras, realizando-se os primeiros Congressos Internacioais em 1971 e 1972 (Luso-Brasileiro e Luso-Espanhol). Em 1986 o Hospital associa-se a Faculdade das Ciências Médicas da Universidade Nova de Lisboa, para o ensino pré-graduado de Cirurgia Pediátrica, sendo António Gentil Martins nomeado Professor Associado Convidado. Mais de 50% de todos os Cirurgiões Pediatras Portugueses fizeram o seu treino no Hospital dc D. Esteffinia e através deles a Especialidade estendeu-se a Coimbra, Viseu, Évora, Setúbal,Almada, Sintra, Montemor-o-Novo e Funchal (assim cobrindo cerca de 3/4 de toda a populacao portuguesa).

Sciatic Nerve High Division: Two Different Anatomical Variants

Introduction: Sciatic nerve variations are relatively common. These variations are often very significant in several fields of Medicine. The purpose of this paper is to present two such variants and discuss their clinical implications. Material and Methods: Three Caucasian cadavers with no prior history of lower limb trauma or surgery were dissected and found to present anatomical variants of the sciatic nerve. Results: In all cases the sciatic nerve divided above the popliteal fossa. In two cases (cadavers 1 and 2) it divided on both sides in the inferior portion of the gluteal region in its two terminal branches: the common fibular and the tibial nerves. In another case (cadaver 3) the sciatic nerve was found to divide inside the pelvis just before coursing the greater sciatic notch. The common fibular nerve exited the pelvis above the pyriformis muscle and then passed along its posterior aspect, while the tibial nerve coursed deep to the pyriformis muscle. Discussion: According to the literature, the anatomical variant described in cadaver 3 is considered relatively rare. This variant can predispose to nerve entrapment and thus to the pyriformis syndrome, sciatica and coccygodynia. The high division of the sciatic nerve, as presented in cadavers 1 and 2, can make popliteal nerve blocks partially ineffective. Conclusion: The anatomical variants associated with a high division of the sciatic nerve, must always be born in mind, as they are relatively prevalent, and have important clinical implications, namely in Anesthesiology, Neurology, Sports Medicine and Surgery.

Imaging the Hypoglossal Nerve

The hypoglossal nerve is a pure motor nerve. It provides motor control to the intrinsic and extrinsic tongue muscles thus being essential for normal tongue movement and coordination. In order to design a useful imaging approach and a working differential diagnosis in cases of hypoglossal nerve damage one has to have a good knowledge of the normal anatomy of the nerve trunk and its main branches. A successful imaging evaluation to hypoglossal diseases always requires high resolution studies due to the small size of the structures being studied. MRI is the preferred modality to directly visualize the nerve, while CT is superior in displaying the bony anatomy of the neurovascular foramina of the skull base. Also, while CT is only able to detect nerve pathology by indirect signs, such as bony expansion of the hypoglossal canal, MRI is able to visualize directly the causative pathological process as in the case of small tumors, or infectious/inflammatory processes affecting the nerve. The easiest way to approach the study of the hypoglossal nerve is to divide it in its main segments: intra-axial, cisternal, skull base and extracranial segment, tailoring the imaging technique to each anatomical area while bearing in mind the main disease entities affecting each segment.

Leber Congenital Amaurosis: Comprehensive Survey of the Genetic Heterogeneity, Refinement of the Clinical Definition, and Genotype-Phenotype Correlations as a Strategy for Molecular Diagnosis

Leber congenital amaurosis (LCA) is the earliest and most severe form of all inherited retinal dystrophies, responsible for congenital blindness. Disease-associated mutations have been hitherto reported in seven genes. These genes are all expressed preferentially in the photoreceptor cells or the retinal pigment epithelium but they are involved in strikingly different physiologic pathways resulting in an unforeseeable physiopathologic variety. This wide genetic and physiologic heterogeneity that could largely increase in the coming years, hinders the molecular diagnosis in LCA patients. The genotyping is, however, required to establish genetically defined subgroups of patients ready for therapy. Here, we report a comprehensive mutational analysis of the all known genes in 179 unrelated LCA patients, including 52 familial and 127 sporadic (27/127 consanguineous) cases. Mutations were identified in 47.5% patients. GUCY2D appeared to account for most LCA cases of our series (21.2%), followed by CRB1 (10%), RPE65 (6.1%), RPGRIP1 (4.5%), AIPL1 (3.4%), TULP1 (1.7%), and CRX (0.6%). The clinical history of all patients with mutations was carefully revisited to search for phenotype variations. Sound genotype-phenotype correlations were found that allowed us to divide patients into two main groups. The first one includes patients whose symptoms fit the traditional definition of LCA, i.e., congenital or very early cone-rod dystrophy, while the second group gathers patients affected with severe yet progressive rod-cone dystrophy. Besides, objective ophthalmologic data allowed us to subdivide each group into two subtypes. Based on these findings, we have drawn decisional flowcharts directing the molecular analysis of LCA genes in a given case. These flowcharts will hopefully lighten the heavy task of genotyping new patients but only if one has access to the most precise clinical history since birth.