Morphology of the Gluteal Region in the Female Population 5 to 83 Years of Age

This study evaluated the development of gluteal region morphology in the female population 5 to 83 years of age. For the study, 132 female subjects were placed into four groups: prepubertal (ages 5 to 8 years; n = 10), pubertal (ages 9 to 14 years; n = 38) postpubertal (ages 15 to 41 years; n = 34), and menopausal–postmenopausal (older than 42 years; n = 29). The age, weight, and height of the subjects were routinely recorded, and body mass index was estimated. In addition, 11 measurements were performed on the gluteal region. The data were analyzed by Pearson and Spearmen correlation analyses using SSPS 11.0 for Windows. In the prepubertal group, the intergluteal sulcus and infragluteal sulci did not actively change. Weight gain was the major factor influencing the shape of the gluteal region, whereas age had no effect. In the puberty group, the gluteal region expanded in all directions. During this period, it was difficult to determine any specific relation between measurements because of significant correlation involving all parameters. However, it should be mentioned that among the four groups, only in pubertal group did age significantly affect the shape of the gluteal region. In other three groups, weight seemed to be a major determinant. In the pospubertal and menopausal–postmenopausal groups, the buttocks sagged with weight gain, contrary to the belief that this happens with aging. This causes movement of the infragluteal sulci in downward and lateral directions as well as lengthening of intergluteal sulcus.Although the gluteal shape is open to the effects of demographic factors such as ethnicity, feeding habits, and lifestyle, according to these findings, it might be advised that in the assessment of the gluteal region morphology, it would be better to consider its dynamic nature. Reshaping its only one part, which can be devastating unless the whole gluteal region and upper limb are addressed.     

Surgical Anatomy of the Gluteal Region's Subcutaneous Screen and Its Use in Plastic Surgery

The surgical anatomy of the subcutaneous screen on the gluteal region has aroused the interest of plastic surgeons because of the increasing search for surgical procedures that determine an improvement of its form. The dissection of 60 fixed surgical pieces showed the presence of a Buttocks' Sustaining Aparell formed by a trabecular conjunctival mesh termed main and secondary in a ``beehive' aspect which may possibly be important in the maintenance of the buttock's characteristic contour. The planned implication of the Sustaining Aparell may determine, through an observation of its structure, a flattening or a ptosis of the gluteal region, allowing a better understanding of the aesthetic of this region.     

Birth Weight, Birth Length, and Bone Density in Prepubertal Children: Evidence for an Association That May Be Mediated by Genetic Factors

There is an incomplete understanding of the contribution of early growth to bone accrual in childhood. The aims of this longitudinal study were to examine the association between growth variables at birth, 1 month, and 8 years and bone density in prepubertal children. Weight and length at both birth and 1 month of age were measured in 1988 as part of a prospective study for sudden infant death syndrome. A total of 330 children (47%) and 278 of their mothers were then contacted in 1996 for measurement of anthropometrics and bone density. Birth weight, birth length, and length gain (but not weight gain) in the first month all made significant contributions to areal bone density (BMD, g/cm²) at all sites at age 8 even after taking into account subsequent weight and height gain (model R² 14–39% depending on variable and site). Adjustment for potential environmental confounders did not alter these findings, however, adjustment for maternal BMD markedly reduced the early life associations (particularly for birth weight). Though early life factors were weakly associated with bone mineral apparent density (BMAD, g/cm³) in correlation analysis, subsequent height and weight gain were the only significant independent contributors to BMAD. In conclusion, early life anthropometrics make little contribution to BMAD (other than through their correlation with later growth) but make significant independent contributions to BMD suggesting that the growth trajectory of bone is determined very early in life. In addition, the contribution of body size at birth to bone growth in early life appears to be mediated by genetic factors although it is possible that it may be mediated by poorly measured or as yet unidentified determinants of body size at birth. Received: 16 November 1999 / Accepted: 20 April 2000     

Age-Associated Decline in Human Femoral Neck Cortical and Trabecular Content of Insulin-Like Growth Factor I: Potential Implications for Age-Related (Type II) Osteoporotic Fracture Occurrence

Recent evidence suggests that regulatory peptides such as insulin-like growth factor-I (IGF-I) are released locally from bone during resorption, and may then act in a sequential manner to regulate the cellular events required for the coupling of bone formation to resorption. Among other factors, a decrease in bone-associated IGF-I levels could therefore result in remodeling imbalance and contribute to the gradual loss of bone that occurs with age. As the femoral neck region is of primary concern for the clinical manifestations of osteoporosis, the current study was intended to assess the IGF-I contents in femoral neck cortical and trabecular bone from aging individuals. Bone samples from the neck region were obtained at postmortem from 39 females and 35 males, aged 23–92 years. Concentrations of IGF-I and osteocalcin were measured by radioimmunoassay in the supernatants obtained after EDTA and guanidine hydrochloride extraction. The total amount of protein present in the extracts was determined by spectrophotometry. IGF-I levels were significantly lower in trabecular compared with cortical bone. Though femoral neck total protein did not vary with donor age, both IGF-I and osteocalcin were found to decline markedly. Between the ages of 23 and 92 years, average yearly rates of loss of 0.30 and 0.21 ng IGF-I/mg protein were observed in cortical and trabecular bone, respectively, corresponding with net losses of nearly 35% of the cortical skeletal content of IGF-I and 41% of the trabecular skeletal content of IGF-I. These changes in bone-associated IGF-I paralleled those of osteocalcin, consistent with an overall decrease in osteoblast function with aging. In women, the rate of decline was significantly faster for trabecular than for cortical IGF-I, however in men, age-dependent changes in cortical and trabecular IGF-I were similar. These findings support the hypothesis that changes in the local IGF regulatory system over time could be a pathophysiologic component of the age-related (type II) femoral neck osteoporotic syndrome. Received: 12 December 1996 / Accepted: 23 April 1997     

Cancellous Bone Structure in the Growing and Aging Lumbar Spine in a Historic Nubian Population

There is abundant data on cancellous bone in the aging human spine, but little relating to the growing vertebral cancellous bone in childhood and adolescence. The purpose of this study was to map vertebral cancellous bone in a growth and age series of historic skeletal samples and to make comparisons with data published on recent material. Lumbar vertebral bodies were collected from 65 skeletons (0–60 years) from a medieval Nubian population. Ethnohistoric information was collected to interpret conditions that might have influenced bone structure and metabolism. The cancellous bone was studied three dimensionally, using stereophotography and scanning electron microscopy and morphometrically by performing a semiautomatic structural analysis on digitized backscattered electron images of polymethacrylate-embedded material. The cancellous bone structure in the children consisted mainly of a densely packed, uniform network of small rodlike trabeculae. The greatest bone volume fraction with small, more platelike trabeculae was observed during adolescence. In young adults, larger platelike trabeculae were present in the central zone and smaller trabeculae in the superior and inferior zones, as described for modern skeletal material. Structural changes associated with aging were observed much sooner than in modern man. By the estimated age of approximately 50–60 years, the predominant architectural elements were slender rarified rods in both sexes. The ethnohistorical data suggest that this was essentially a black African population of physically active peasants, not likely to suffer Vitamin D insufficiency or deficient calcium intake. Thus an earlier onset of the biological age changes in cancellous bone found in modern populations was probably prevalent. Received: 1 March 1996 / Accepted: 31 December 1996     

Submental Skin: Morphohistological Study of Interest to Liposuction

Skin study of the submental region in cadavers made possible the evaluation of its regional characteristics. Sex or race were not reported, but the age group most appropriate to liposuction was considered. In this way, the authors believed that through standards established at the time, results, as to the skin retraction in liposuction, will be able to be analyzed in a comparative form in the future.     

Chicken Parathyroid Hormone Gene Expression in Response to Gastrin,Omeprazole, Ergocalciferol,and Restricted Food Intake

Treatment with omeprazole, a long-acting proton pump inhibitor of acid secretion, induces hypergastrinemia. In chickens, omeprazole induces growth not only of the acid-producing mucosa (probably reflecting the trophic action of gastrin), but also of the parathyroid glands (hypertrophy + hyperplasia), while suppressing bone density and body weight gain without affecting blood calcium. The first part of the present study was concerned with the effect of omeprazole, ergocalciferol (vitamin D₂), and restricted food intake on the gene expression of parathyroid hormone (PTH) in the parathyroid glands of the chicken. Chickens were treated with omeprazole (400 μmol/kg/day, I.M.), food restriction, omeprazole + food restriction, ergocalciferol (250 000 IU/kg/day, S.C.), or ergocalciferol + omeprazole for 5 weeks. The weight gain of the chickens was monitored, and the weights of the parathyroid glands and femurs were determined at sacrifice. PTH mRNA in the parathyroid glands was analyzed by Northern blot. The second part of the study examined the effect of 3 weeks of continuous gastrin infusion (chicken gastrin 20–36, 5 nmol/kg/hour, S.C.) on the expression of PTH mRNA in the parathyroid glands. Omeprazole reduced the body weight and femur density (ash weight per volume) while greatly increasing the weight of the parathyroid glands and the PTH gene expression. Food restriction alone and ergocalciferol alone (at a dose that raised blood Ca²⁺) were without effect, but food restriction greatly enhanced the omeprazole-evoked increase in parathyroid gland weight and PTH gene expression. Gastrin increased the weight of the parathyroid glands and reproduced the effect of omeprazole on PTH gene expression. Hence, it seems likely that the effect of omeprazole reflects the ensuing hypergastrinemia. Received: 6 August 1996 / Accepted: 23 April 1997     

Restoration of the Gluteal fold by a Deepithelialized Skin Flap: Preliminary Observations

Background The gluteal fold represents an important aspect of the gluteal region. Destruction of this anatomic landmark as a consequence of trauma or tissue harvest can result in an aesthetically disturbing disfigurement. A technique for reconstruction of the gluteal fold and preliminary results are presented.Methods The newly formed gluteal fold is created by fixation of a deepithelialized skin flap to the periosteum of the tuber ischiadicum.Results The operative procedure is quick and easy to apply. The method is used mainly for patients with a distorted gluteal fold after tissue harvest for breast reconstruction. However, it also can be used after trauma such as that associated with burn injuries. In all patients, reconstruction of the gluteal fold yielded aesthetically pleasing and reliable results with high patient satisfaction.Conclusions The authors present a simple and effective technique for reconstruction of the gluteal fold by a deepithelialized skin flap. The technique is applicable for patients who have lost their natural gluteal sulcus, with a resultant altered buttock shape, after trauma or other causes.     

High Intensity Resistance Training: Effects on Bone in Older Men and Women

There is evidence that high intensity resistance training promotes bone maintenance in older women, however, the effect of high intensity free weight training has not been investigated in older men or women. Furthermore, little is known about the chronic effect of weight training on serum insulin growth factor-I (IGF-I) in this population. We compared the effects of a moderate intensity seated resistance-training program with a high intensity standing free weight exercise program on bone mass and serum levels of IGF-I and IGFBP3 in healthy older men and women. Twenty-eight men (54.6 ± 3.2 years) and 26 nonestrogen-replaced women (52.8 ± 3.3 years) served as their own controls for 12 weeks, then were randomly assigned to a moderate or high intensity training group and trained three times/week for 24 weeks. Prior to and after the control period and at the end of training, bone mass and body composition were assessed by dual energy X-ray absorptiometry (DXA), muscle strength by isokinetic dynamometry, muscular power by Wingate Anaerobic Power Test, and IGF-I by radioimmunoassay (RIA). A repeated measures analysis of covariance (ANCOVA) revealed that high intensity training resulted in a gain in spine BMD in men (1.9%), P < 0.05, but not in women, whereas moderate intensity training produced no changes in either gender at this site. Increases were observed at the greater trochanter, P < 0.03, in men regardless of training intensity, but not in women at any hip site. However, when compared with zero, both men and women in the high intensity group demonstrated significant increases in trochanteric BMD (1.3% and 2.0%, respectively) and a decrease in femoral BMD (−1.8%). Neither circulating serum IGF-I nor IGFBP3 were altered by either training regimen, but both training programs resulted in improvements in total body strength (37.62%) and lean mass (males 4.1%, females 3.1%). We conclude that although resistance training of moderate to high intensity produced similar muscle changes in older adults, a higher magnitude is necessary to stimulate osteogenesis at the spine. However, at the spine, intensity was not sufficient to offset low levels of estrogen in early postmenopausal women. Furthermore, bone changes were not accompanied by changes in circulating serum levels of IGF-I or IGFBP3. Received: 21 July 1999 / Accepted: 11 January 2000     

The Skin of the Medial Area of the Arm: Morphometric Study of Interest to Liposuction

The study of the skin of medial area of the arm in cadavers made it possible to evaluate its regional characteristics. Sex or race were not reported, but the age group most appropriate to liposuction was considered. In this way, authors believed that, as per standards established at the time, results as to skin retraction in liposuction, will be able to be analyzed in a comparative way in the future.     

Anomalies in the Measurement of Changes in Bone Mineral Density of the Spine by Dual-Energy X-ray Absorptiometry

Dual-energy X-ray absorptiometry (DXA) is frequently used for longitudinal studies of bone mineral status because of the high precision obtained, but evidence is emerging that the accuracy of measurements of changes may be a limitation because of artefacts of the analysis procedure, in particular, a dependence of the measured bone area (BA) on the bone mineral content (BMC). Results of spine bone mineral measurements taken at intervals with two DXA scanners, a Hologic QDR 1000W, and a Norland XR 26 HS, were examined. There was a consistent correlation between changes in BA and in BMC, with a slope of approximately 0.25 when expressed as percentages. A real change of BA of the magnitude observed is not feasible. There were no differences among the correlations for different instruments, genders, ages, or weight changes. There would appear to be an underestimation of changes in bone mineral density (BMD), but there is a possibility that some of the anomaly is manifested as an overestimation of a change in BMC. Phantom measurements were undertaken with the DXA scanners mentioned above and with a Lunar DPX. The phantoms consisted of simulations of the spine cut from aluminium sheet, so that the effective BMD could be varied. The dependence of the measured BA on BMC varied with the phantom outline, particularly the thickness of the transverse processes. Evidence was obtained of both an underestimate of BMD changes and an overestimate of BMC changes. There are errors in measuring spine changes, but these do not seem to be as serious as a previous report suggests for the Hologic scanner and are not likely to lead to misinterpretation of results. Received: 17 June 1997 / Accepted: 23 January 1998     

Aesthetic Breast Surgery with Inverted-T Scar Placed above the Inframammary Sulcus

This article describes the inverted-T incision technique with the scar placed above the inframammary sulcus for cases of pexy, breast reduction, and augmentation–reduction mammaplasty. This technique preserves the inframammary fold as an important factor in natural breast suspension; the breast mound is easily shaped independent of the skin tension. The gland- and skin sutures are placed separately and independently. This technique has been used on 380 patients in the last 13 years.     

Calcaneal Ultrasonometry: Response to Treatment in Comparison with Dual X-ray Absorptiometry Measurements of the Lumbar Spine and Femur

The object of this study was to determine the effectiveness of calcaneal ultrasonometry in the prediction of bone mineral changes in the lumbar spine and femoral neck in response to treatment of osteoporosis. There were 673 women in the study who had one or more follow-up measurements between 1 and 4 years after the initial baseline determination for a total of 881 same-day measurements of the calcaneus, spine, and femur. The LUNAR Achilles and LUNAR DPX (LUNAR Corporation, Madison, WI) were used. Patients were divided into three treatment time groups: Group 1, 1–<2 years, n = 461; Group 2, 2–<3 years, n = 278; Group 3, 3–<4 years, n = 142. There were significant increases in the bone mineral density (BMD) of the lumbar spine, femoral neck, and in the broadband ultrasonic attenuation (BUA) of the calcaneus for the three groups. In contrast, a significant decrease in speed of sound (SOS) was obtained in these time frames and the stiffness index remained unchanged. Spearmen correlations showed an inverse relationship between the percent changes in SOS and BUA, the reasons for which are speculative. Correlations between the percent changes in calcaneal parameters and the BMDs of the lumbar spine and femoral neck were weak, whether significant or not, rho varying from −0.12 to 0.20. There was a subset of 371 patient measurements that registered BMD increases in both the lumbar spine and femoral neck. This was considered to be an objective indication of adequate compliance with prescribed treatment. Analysis of this subset yielded parameter correlations similar to those of the entire group. It is concluded that changes in the calcaneal ultrasound parameters in response to treatment of osteoporosis are not a reflection of mineral changes occurring in the lumbar spine and femoral neck in a given individual, and in this regard, calcaneal ultrasonometry is not a substitute for direct-site dual X-ray absorptiometry (DXA) measurement of the lumbar spine and femur. Received: 19 February 1998 / Accepted: 24 June 1998     

Ultrasound Bone Densitometry of the Os Calcis in Children and Adolescents

The aim of the present investigation was to evaluate reference data and to examine whether there were weight-, height-, age-, and sex-related differences of the quantitative ultrasound bone parameters for healthy children and adolescents. A total of 3299 healthy Caucasian children and teenagers (1623 girls and 1676 boys), age range from 6–18 years (mean age 11.4 ± 3.4 years for boys and mean age 11.5 ± 3.3 years for girls) were examined by quantitative ultrasound densitometry (QUS) using the bone sonometer SAHARA (Hologic Inc., Waltham, MA, USA), a waterless, dry system. The parameters broadband ultrasound attenuation (BUA) [dB/MHz] and speed of sound (SOS) [m/second] were evaluated on the right heel in relation to age, sex, weight, and height. There is no correlation between the ultrasound bone parameter SOS and age, height, and weight. BUA increases with age, height, and weight. Significant differences in SOS and BUA between girls and boys were found to probably be caused by the different onset of growth phases and the onset of puberty. SOS and BUA are influenced by changes of bone mineral density. But BUA is dependent on bone size, too. In conclusion, ultrasound bone densitometry is a useful measuring method showing the physiological bone development in childhood and adolescence. The presented results can be used as reference data. Further studies in children with disorders influencing bone metabolism will show in what way various patterns of osteopenia in childhood can be detected. Received: 20 August 1999 / Accepted: 20 April 2000 / Online publication: 22 September 2000     

A Transpalpebral Approach to Treatment of Eyebrow Ptosis

The aging process in the human face most often is first visible in the temporal–orbital region, where the ptosis of the eyebrow edge and pseudoexcess of upper eyelid skin are caused by orbicularis oculi muscle downfall. Through the upper blepharoplasty standard incision, the orbicularis oculi muscle is mobilized widely and suspended into a higher position with a stitch put on the deep temporal fascia. In this way the eyebrow is elevated and stabilized, thus reducing so-called ``crow's feet.' In some cases, when the skin distance between the temporal hairline and the eyebrow edge is too short or when it is necessary to lift the eyebrow edge more than 3 mm, a supplementary temporal incision is recommended to tighten better, in the same direction as the tension vector, the superficial temporal fascia and the overlying skin, firmly bonded to it.     

Anatomy of the Median Part of the Septum Depressor Muscle in Aesthetic Surgery

When a person smiles and talks, everyone in his or her own specific way, it can be noticed that the tip of the nose drops and the upper lip shortens, making the nasolabial angle more acute. The importance of the upper lip in the dynamics of the nose makes necessary a more detailed study of the morphology and anatomical relations of the median part of the nasal septum depressor muscle, contributing in this way to new techniques in plastic surgery. The authors proposed to study the anatomy of the nasal septum depressor muscle and its relationship with the dermocartilaginous ligament of Pitanguy and the upper lip, important components of the nasal dynamics of facial expression. In this way they seek to contribute to the treatment of the nasal tip in aesthetic rhinoplasties.     

Full Face Rejuvenation in Three Dimensions: A ``Face-Lifting' for the New Millennium

Traditional facial rejuvenation techniques address the face by lifting the soft tissues in one or two dimensions. The face is a tri-dimensional structure and aging occurs in three dimensions, therefore, facial rejuvenation should be done in three dimensions. Sagging of facial soft tissues occurs inferiorly and inferomedially. The ideal reorientation during rejuvenation is in the opposite direction: vertically and supero-laterally. Two other elements not routinely addressed by traditional rejuvenative operations are reduction of skeletal framework and atrophy of soft tissues, particularly subcutaneous fat layer. These are the third dimension of facial aging. By principle, any technique that unfolds, pulls, or lifts produces a flattening effect of the structure being treated. They may give a false impression of augmentation if these tissues are advanced over bony prominences. These stretched out tissues also have a tendency to recoil. For that reason, the author suggests use of structures or methods less susceptible to a stretch relaxation or recoil. A prerequisite to 3-D facial rejuvenation is to perform a 2-D-(bi-dimensional) lift. A third dimension is integrated into it. There are four methods to provide the third dimension: (1) augmentation of the skeletal framework; (2) augmentation of subcutaneous layer with fat injection; (3) imbrication of soft tissues; (4) mobilization and repositioning of fat pockets as pedicle flaps. These methods are not exclusive to each other. One, a few, or all methods could be integrated according to the patient's needs and aesthetic goals. Tridimensional changes in facial rejuvenation can be assessed by a standard photographic comparison, using tools for in-vivo measurements or 3-D digital imaging. 3-D facial rejuvenation is an advanced concept in our pursuit to provide superior results with the more aesthetic, natural, and harmonious youthful look to our patients.     

Crystal Growth and Molecular Modeling Studies of Inhibition of Struvite by Phosphocitrate

The inhibition by phosphocitrate of struvite crystal formation and growth has been examined in the present study. Crystal growth in a gel matrix was controlled by phosphocitrate in a dose-dependent manner. The effects of inhibition were followed using scanning electron microscopy, optical microscopy, and single crystal X-ray analysis. The presence of phosphocitrate induced very strong, crystal face specific inhibition of struvite, leading to total cessation of crystal growth when sufficient concentration of the inhibitor was made available. Crystal growth studies and results from molecular modeling indicated strong affinity of phosphocitrate to (101) faces of struvite. This in turn led to an alteration in the expression of these faces and the development of a characteristic arrowhead struvite morphology. Similar changes were not observed in the presence of identical concentrations of citrate, acetohydroxamic acid, and N-sulfo-2 amino tricarballylate (an analog of phosphocitrate), emphasizing the unique interaction of phosphocitrate with the struvite crystal lattice. Received: 20 December 1996 / Accepted: 23 April 1997     

Effect of Aging on the Amide Group of Bone Matrix,Measured by FTIR Spectrophotometry,in Adult Subjects Deceased as a Result of Violent Death

In order to determine the effects of age on bone quality, human bone tissue taken from adult subjects deceased from violent death was analyzed by means of fast Fourier transform infrared spectrophotometry (FTIR) in the Diffuse Reflectance mode (DR). This technique allows the characterization of both the mineral and organic parts of bone in a nondestructive manner. Only the organic part is discussed in this report. A quantitative change in the entire organic part of bone tissue is observed with the aging of subjects. The effects of these changes on bone strength were not measured. Received: 4 December 1995 / Accepted: 9 August 1996     

Bone Density of the Spine and Femur in Adult White Females

We measured bone mineral density (BMD in g/cm²) of the spine (L2-L4) and femur (four regions) in 1472 and 1487 cases, respectively, of ambulatory white women ages 20–79 years in the USA. A DPX densitometer was used in a mobile setting. The BMD values for women up to 69 years corresponded closely with published values for the USA, the UK, and northern Europe; our values were somewhat lower than those from other studies only in women over 70 years. The USA data were combined with data from Europe to give reference curves on about 12,000 subjects. Decreases of BMD with age in women below 50 years were much smaller than in older women (0.2% versus 0.6–1.0% per year). Femoral bone decreased from the neck region, but not the trochanter with age; the decrease of total femur BMD with age was due to loss from the former region. Loss of bone mineral content (BMC in g) from the femur neck and total femur region did not accelerate until after age 50 years, much like the spine. The apparent decrease of BMD in these regions that begins about age 40 actually is due to an increase of bone area. About 20% of USA women aged 50–79 years had BMD levels for the lumbar spine, or for the femur neck, more than −2.5 SD below the average values in young adult women 20–39 years old. Body weight had several times more impact on BMD than height, and in fact, a change of 1 kg in postmenopausal women was commensurate with the effect of a 1-year change in age. Subjects in the lowest quartile of body weight had T-scores that were 1 SD below those in the highest quartile. Received: 10 September 1998 / Accepted: 15 December 1998