7 research outputs found
Digital analysis of the dynamics of the arterial supply to the human foetal kidneys
Variations in the renal arteries in human individuals and foetuses have already
been well studied. Contemporary trends in visualisation techniques focus on the
evaluation of the dynamic parameters of blood flow in the vessels (speed, pulsatility,
resistance). Most of these data have been obtained by the means of Doppler
ultrasound (Fig. 1, 2). The authors have not found any anatomical database
containing information about variability in the volume of the foetal renal arteries.
The aim of the study is to design a database for variation in foetal renal
artery volume in relation to foetal age and sex. The material consisted of digital
images of the renal arteries filled with LBS-latex taken from 30 foetuses aged
12–19 Hbd. Digital analysis of the arteries was made with a unique form of
software. The program is a 2D vector graphic editor using spliced functions of
Bezier. Foetal age is estimated according to the last menstrual period and measurement
of manual foot length and femur length (FL) as determined by ultrasound
Digital analysis of the volume of the human foetal suprarenal arteries
Vascularisation of an organ is an index of its metabolic activity. The suprarenal
glands are of crucial importance in the development of pregnancy. No data
were found by the authors to describe the volume of the human foetal suprarenal
arteries throughout pregnancy. The study was designed to form a database
of human foetal suprarenal arterial volume in relation to foetal age and sex.
Digital images were obtained at 4-week intervals of the suprarenal arteries of
30 foetuses aged between 12–40 Hbd. The arteries were primarily filled with LBS
latex. A unique form of software was designed to assist in incorporating vector
graphics, spliced functions of Bezier, into the analysis. The arteries contoured by
the geometric curves were calculated for their initial, average and terminal diameter,
length and volume. The measurements were compared in relation to
foetal age and sex at 4-week intervals. Foetal age was assessed by means of
calculation from the last menstrual period, manual measurement of foot length
and ultrasonagraphic measurement of femoral length.
The suprarenal arteries in human foetuses are of strongly individual variation
both in their origin and quantity. The volume of the arteries appears constant in
the group analysed
Growth dynamics of the renal and suprarenal arteries in human foetuses
The kidneys and suprarenal cortex are of common embryonic origin. The suprarenal
gland and kidney have a common pathway in angiogenesis. Each of the
organs is of key importance for intrauterine and individual development, yet
they vary greatly in growth dynamics throughout pregnancy. The authors compared
the arterial supply of these organs quantitatively in respect to foetal age
and sex
Digital-image analysis of the femoral shaft/neck angle in human foetuses
Measurements were made of the femoral shaft/neck angle (CCD angle) in 106
human foetuses, aged from 16 to 38 hbd, using a "FEM-GEO_03" computer
program. The values of the CCD angle in the group under examination were:
mean = 140.48°, SD = 6.95°, max = 157.90°, min = 113.93°. No significant
differences were found in CCD angle size between male and female foetuses or
between left and right bones. Dispersion analysis showed a decrease in the CCD
angle during foetal development, which suggests that adaptation to a vertical
position and bipedal gait starts during pregnancy and is manifest as an inborn
feature
The inferior intercavernous sinus : an anatomical study with application to trans-sphenoidal approaches to the pituitary gland
CITATION: Wahl, L. et al. 2020. The inferior intercavernous sinus: An anatomical study with application to trans-sphenoidal approaches to the pituitary gland. Clinical Neurology and Neurosurgery, 196, doi:10.1016/j.clineuro.2020.106000.The original publication is available at https://www.sciencedirect.com/journal/clinical-neurology-and-neurosurgeryObjectives: The inferior intercavernous sinus is located below the pituitary gland in the sella turcica. Its presence has been controversial among anatomists because it is not always found on radiological imaging or during cadaveric dissections; however, it is becoming a better-known structure in the neurosurgical and radiological fields, specifically with respect to transsphenoidal surgery. Therefore, the present study was performed to better elucidate this structure at the skull base.
Patients and methods: Fifty adult, latex injected cadavers underwent dissection. The presence or absence of the inferior cavernous sinus was evaluated and when present, measurements of its width and length were made. Its connections with other intradural venous sinuses were also documented.
Results: An inferior intercavernous sinus was identified in 26 % of specimens. In all specimens, it communicated with the left and right cavernous sinus. The average width and length were 3 mm and 9.5 mm, respectively. In the sagittal plane, the inferior intercavernous sinus was positioned anteriorly in 31 %, at the nadir of the sella turcica in 38 %, and slightly posterior to the nadir of the sella turcica in 31 %. In two specimens (15.4 %), the sinus was plexiform in its shape. In one specimen a diploic vein connected the basilar venous plexus to the inferior intercavernous sinus on its deep surface.
Conclusion: An improved understanding of the variable anatomy of the inferior intercavernous sinus is important in pathological, surgical, and radiological cases.https://www.sciencedirect.com/science/article/pii/S0303846720303437?via%3DihubPublishers versio