Cranial remolding orthosis for children with deformational skull deformities: A systematic review on the factors affecting success and duration of treatment.

Deformational plagiocephaly, deformational brachycephaly, and deformational scaphocephaly are the most common types of skull deformities during the first year of life. Using a cranial remolding orthosis (CRO) can have an important role in achieving a satisfactory level of improvement in symmetry and proportion of the deformed skulls. However, there is no consensus on the most important parameters for the success or length of treatment with a CRO. In this study, we did a systematic literature review in PubMed, Scopus, Web of Science, and EMBASE on January 2023. Titles/abstracts of the found studies were screened by two independent reviewers. The Newcastle-Ottawa Scale was used to evaluate the quality of the included articles. The best evidence synthesis was considered to determine the strength of the reported factors. A total of 25 articles with an accumulated sample of 7594 participants were included. Nine predictive factors, including age at initiation of CRO treatment, CRO compliance, deformity severity, deformity type, torticollis, gestational age, gestational type, delivery method, and developmental delay, were considered for CRO treatment length or success. Moderate evidence suggests that CRO treatment length is linked to a patient's age at the start of treatment and the deformity severity. Moreover, treatment success is correlated with a patient's age at the start of treatment, CRO compliance, and deformity severity. Moderate evidence indicates that there is no relationship between the presence of torticollis and gestational age with CRO treatment success.

Prevalence and Severity of Positional Posterior Plagiocephaly and Positional Posterior Brachycephaly in Children and Adolescents in Japan.

This study aimed to assess the prevalence, severity, and natural history of positional posterior plagiocephaly (PPP) and positional posterior brachycephaly in Japan. We conducted a cross-sectional study of pediatric patients, ranging from 0 to 15 years old, evaluated for head trauma with negative computed tomography (CT) findings. The cranial vault asymmetry index (CVAI) was calculated using CT images at the superior orbital rim. Asymmetry according to CVAI values was subcategorized as follows: mild (3.5%-7%), moderate (7%-12%), and severe (>12%). The results were analyzed according to different age groups: group 1, 2-23 months (54 patients); group 2, 2-6 years (123 patients); and group 3, 7-15 years (123 patients). Overall, 300 patients were included (109 [36.3%] girls and 191 [63.7%] boys). The overall prevalence of PPP in the 300 patients was 46.7% (140 patients). PPP prevalence decreased consistently with age group: group 1, 57.4%; group 2, 47.2%; and group 3, 41.5%. Severe asymmetry was seen in all age groups. The overall mean cephalic index (CI) was 85.2. Cephalic index scores decreased consistently with age: group 1, 87.4; group 2, 85.1; and group 3, 84.3. The prevalence of PPP in Japan was higher than that reported in other countries. Although there was an overall decrease in the prevalence and severity of PPP with increasing patient age, PPP does not necessarily resolve spontaneously in all children. Furthermore, severe asymmetry was seen across all age groups.

Helmet Therapy for the Management of Deformational Plagiocephaly in Pediatric Patients with Shunted Hydrocephalus.

OBJECTIVE: To evaluate the safety and efficacy of helmet therapy for deformational plagiocephaly in patients with shunted hydrocephalus. DESIGN: Retrospective chart review. SETTING: Institutional, tertiary-care hospital. PATIENTS: All patients at St. Louis Children's Hospital between 2014 and 2021 with shunted hydrocephalus who underwent helmet therapy for deformational plagiocephaly. INTERVENTIONS: Helmet therapy. MAIN OUTCOME MEASURES: Cranial vault asymmetry (CVA), cranial vault asymmetry index (CVAI), and cephalic index (CI) were measured before and after completion of helmet therapy. RESULTS: There were 37 patients with shunted hydrocephalus and documented deformational plagiocephaly. Twelve were managed with helmet therapy. Average age at helmeting initiation and time between shunt placement and helmeting initiation was 5.8 and 4.6 months, respectively. Average CVA, CVAI, and CI at helmeting initiation and termination was 11.6, 7.98, and 85.2, and 6.95, 4.49, and 83.7, respectively. Average duration of helmeting was 3.7 months. CVA and CVAI were significantly lower after helmeting (P = .0028 and .0021) and 11/12 patients had overall improvement in plagiocephaly. CONCLUSIONS: Helmet therapy appears to be a safe and efficacious management strategy for deformational plagiocephaly in patients with shunted hydrocephalus. Despite the occasional need for additional fittings and surveillance beyond the normal schedule, in all cases appropriately fitting helmets were achieved and no major adverse events occurred. This cohort represents a proof of principle for the safety and efficacy of helmet therapy in patients with shunted hydrocephalus. Further work in larger prospective cohorts is needed to confirm these initial findings.

Comorbidities of deformational plagiocephaly in infancy: A scoping review.

AIM: While deformational plagiocephaly (DP) is suspected to be associated with comorbidities, their nature and prevalence are unclear. This scoping review aims to report DP comorbidities occurring until the age of 2 years, their prevalence and whether they depend on the child's age and sex. METHODS: Relevant studies were identified by searching the Cochrane, MEDLINE, EMBASE, PubMed and EBSCO databases from 1992 to 30 April 2021. Data on study characteristics, comorbidities and assessment instruments were extracted and qualitatively synthesised. Risk of bias was assessed and studies with high risk of bias were excluded. RESULTS: Studies meeting selection criteria (n = 27) often evaluated groups from tertiary clinics, implying selection bias. Studies reported on developmental delay (n = 16), limited speech production (n = 1), auditory (n = 3), visual (n = 3), mandibular (n = 3) and neurological impairments (n = 1). The data did not allow prevalence calculation or modifying effect of sex. Due to biased data, the review provided no evidence on DP comorbidities. Weak evidence suggested that in the selective samples, DP was associated with motor and language delays in the first year. CONCLUSION: Due to biased data, no evidence on comorbidity in infants with DP was available. Our study underlined the need of risk of bias assessment in scoping reviews.

[Difficulties in differential diagnosis of sagittal synostosis (scaphocephaly)]. / Trudnosti differentsial'noi diagnostiki sagittal'nogo sinostoza (skafotsefalii).

Craniosynostosis is characterized by congenital absence or premature closure of skull sutures. The most common form of craniosynostosis is synostosis of sagittal suture followed by scaphocephaly. There are some head deformities similar to scaphocephaly such as positional and constitutional dolichocephaly, etc. These patients have no sagittal suture synostosis. However, there are difficulties in differential diagnosis between these deformities and scaphocephaly. OBJECTIVE: To develop differential diagnostic criteria between dolichocephalic head deformities and true scaphocephaly following sagittal synostosis. MATERIAL AND METHODS: The study included 33 patients with dolichocephaly (25 (75.8%) boys and 8 (24.2%) girls) between December 2013 and August 2022. The inclusion criterion was available CT or ultrasound data confirming or excluding sagittal synostosis. Age of patients was 8.62±7.71 (1.77-36) months. We analyzed anamnestic, clinical and radiological data. Radiological data was compared with diagnostic findings in 20 patients with scaphocephaly. Both groups were comparable in age, gender and cranial index. RESULTS: We present clinical and radiological signs, as well as algorithm for differential diagnosis between scaphocephaly and dolichocephaly. CONCLUSION: There are objective difficulties in differential diagnosis between scaphocephaly following sagittal synostosis and dolichocephalic head deformities. In most cases, we cannot establish the cause of congenital forms of dolichocephaly. The most likely causes may be pre- and postnatal compressive and positional effects. Ultrasound of skull sutures is preferable for differential diagnosis between these abnormalities. Correction of dolichocephaly can be carried out according to aesthetic indications with individual cranial orthoses.

Direct Anthropometry Overestimates Cranial Asymmetry-3D Digital Photography Proves to Be a Reliable Alternative.

This study compared manual and digital measurements of plagiocephaly and brachycephaly in infants and evaluated whether three-dimensional (3D) digital photography measurements can be used as a superior alternative in everyday clinical practice. A total of 111 infants (103 with plagiocephalus and 8 with brachycephalus) were included in this study. Head circumference, length and width, bilateral diagonal head length, and bilateral distance from the glabella to the tragus were assessed by manual assessment (tape measure and anthropometric head calipers) and 3D photographs. Subsequently, the cranial index (CI) and cranial vault asymmetry index (CVAI) were calculated. Measured cranial parameters and CVAI were significantly more precise using 3D digital photography. Manually acquired cranial vault symmetry parameters were at least 5 mm lower than digital measurements. Differences in CI between the two measuring methods did not reach significance, whereas the calculated CVAI showed a 0.74-fold decrease using 3D digital photography and was highly significant (p < 0.001). Using the manual method, CVAI calculations overestimated asymmetry, and cranial vault symmetry parameters were measured too low, contributing to a misrepresentation of the actual anatomical situation. Considering consequential errors in therapy choices, we suggest implementing 3D photography as the primary tool for diagnosing deformational plagiocephaly and positional head deformations.

Cranial Shape Measurements Obtained Using a Caliper and Elastic Bands Are Useful for Brachycephaly and Deformational Plagiocephaly Screening.

We assessed a method for screening the cranial shape of 1-month-old infants using a simple measuring instrument instead of a three-dimensional scanner. The Mimos craniometer was used to measure cranial length, cranial width, and two diagonal lengths to calculate the cranial index (CI) and cranial asymmetry (CA). We defined a CI > 90% as brachycephaly and CA > 5 mm as deformational plagiocephaly (DP). Intra- and inter-examiner accuracy analyses were performed on a dummy doll and 1-month-old infants. The measurements of healthy 1-month-old infants were compared with previously reported three-dimensional scanner measurements. Intra- and inter-rater measurements showed good accuracy; diagnostic accuracy comparisons of brachycephaly and DP using a three-dimensional scanner showed kappa values of 1.0 and 0.8, respectively. Comparisons were made among 113 infants matched for day-age at the date of measurement; there were no significant differences in the CI (85.0% vs. 85.2%, p = 0.98) and CA (5.9 mm vs. 6.0 mm, p = 0.48) between the scanner and caliper measurements, nor in the prevalence of brachycephaly (12.4% vs. 17.7%, p = 0.35) or DP (58.4% vs. 56.6%, p = 0.89). This simple measurement method using calipers and bands was useful in screening for brachycephaly and DP in 1-month-old infants.

Medical Malpractice Litigations Involving Infant Craniosynostosis and Deformational Plagiocephaly in the United States.

OBJECTIVE: To identify characteristics of malpractice litigations involving skull deformity in infants (craniosynostosis and deformational plagiocephaly). DESIGN: Retrospective review of all lawsuits with jury verdicts or settlements involving infant skull deformity as the primary diagnosis using the Westlaw Legal Database. SETTING: United States. PATIENTS, PARTICIPANTS: Plaintiffs with skull deformity as the primary diagnosis. MAIN OUTCOME MEASURES: Litigation outcome and indemnity payment amount. RESULTS: From 1990 to 2019, 9 cases involving infant skull deformity met our inclusion/exclusion criteria. Among these cases, 8 (88.9%) cases resulted in indemnity payments to plaintiffs, totaling $30,430,000. Failure to diagnose (n = 4, 44.4%) and surgical negligence (n = 3, 33.3%) were the most common reasons for litigations. CONCLUSIONS: There were a small number of malpractice lawsuits involving infant skull deformity over three decades. When cases go to court, physicians and hospitals have a high likelihood of judgment against them, frequently resulting in high indemnity payments.

A systematic review of improved positions and supporting devices for premature infants in the NICU.

Background: In the neonatal intensive care unit, nurses often place premature infants in the supine, prone, and lateral positions. However, these positions do not always meet all the physiological needs of premature infants. Thus, many improved positions and various position-supporting devices have been studied to provide infants with a development-friendly and comfortable environment. Aim: We aimed to help nurses recognize and understand the various improved positions and devices, and to provide nurses with more options in addressing the needs of preterm infants. Study design: We searched PubMed, Web of Science, and EMBASE from 2012 to 2022 for studies on position management of preterm infants, and screened the search results according to inclusion and exclusion criteria. Then we extracted data and evaluated the quality of the included studies. Finally, we conducted a qualitative summary of the results. Results: Twenty-one articles were included in this review. Fourteen were studies about improved positions, including hammock position, facilitated tucking position, ROP position, reverse kangaroo mother care position (R-KMC), and supported diagonal flexion position (SDF). Seven were studies on positioning devices, four on cranial deformity prevention, and three on reformative swaddling. They have a positive impact on sleep and flexion maintenance, in addition, they can prevent head deformity and reduce the pain of premature infants. Conclusion: The position management of premature infants is diversified. Instead of sticking to a single position placement, nurses should adjust the position according to the unique physiological conditions of infants to reduce sequelae and promote their recovery and growth during long-term hospitalization. There should be more studies on position management with large sample sizes in the future.

Barriers and facilitators influencing parental adherence to prevention strategies for deformational plagiocephaly: Results from a scoping review.

BACKGROUND: Deformational plagiocephaly can be prevented in many healthy infants if strategies are implemented early after birth. However, despite efforts to disseminate accurate information, parental adherence to evidence-based prevention strategies is a challenge. To date, factors - barriers and facilitators - influencing parental adherence to strategies have yet to be identified in a comprehensive manner. OBJECTIVES: This scoping review aims to identify and synthesize current evidence on barriers and facilitators impacting adherence of parents of newborns to deformational plagiocephaly prevention strategies. METHODS: This review followed the Joanna Briggs Institute (JBI) process guidelines. Seven electronic (Cumulative Index to Nursing and Allied Health Literature (CINAHL), MEDLINE, SPORTDiscus, Academic Search Complete, AMED, PsychINFO and Scopus) and two grey literature (Health Systems Evidence and Grey Literature Report) databases were searched. Studies published between 2001 and 2022 were included. The deductive thematic data analysis used was guided by the Capability, Opportunity, Motivation Behavioral Model (COM-B) of health behaviour change. RESULTS: From a total of 1172 articles, 15 met the eligibility criteria. All components of the COM-B framework were identified. Capability-psychological and opportunity-environmental factors dominated the literature, whereas capability-physical, motivation and, in particular, opportunity-social factors were understudied. The most often reported barriers were a lack of knowledge of deformational plagiocephaly and the associated prevention strategies, ambiguous or inconsistent messaging, intolerance of babies to prone positioning and a lack of time. The most frequently reported facilitators were an awareness of deformational plagiocephaly, postural asymmetry and prevention strategies, skill acquisition with practice, accurate convincing information, scheduled time and environmental organization to position the baby at home. DISCUSSION: Recommendations focused on diffusing accurate and detailed information for parents. Our review also suggests a gap regarding the comprehensive identification of factors influencing parental adherence to deformational plagiocephaly prevention strategies. Further studies exploring comprehensive opportunity-social and motivation factors influencing parental adherence to deformational plagiocephaly prevention strategies are warranted to inform prevention programmes and foster better infant outcomes.

UCSQ Method Applied on 3D Photogrammetry: Non-Invasive Objective Differentiation Between Synostotic and Positional Plagiocephaly.

OBJECTIVE: Objective differentiation between unilateral coronal synostosis (UCS) and positional posterior plagiocephaly (PPP) based on 3D photogrammetry according to Utrecht Cranial Shape Quantificator (UCSQ). DESIGN: Retrospective study. SETTING: Primary craniofacial center. PATIENTS, PARTICIPANTS: Thirty-two unoperated patients (17 UCS; 15 PPP) (age < 1 year). INTERVENTIONS: Extraction of variables from sinusoid curves derived using UCSQ: asymmetry ratio forehead and occiput peak, ratio of gradient forehead and occiput peak, location forehead and occiput peak. MAIN OUTCOME MEASURE(S): Variables, derived using 3D photogrammetry, were analyzed for differentiation between UCS and PPP. RESULTS: Frontal peak was shifted to the right side of the head in left-sided UCS (mean x-value 207 [192-220]), and right-sided PPP (mean x-value 210 [200-216]), and to the left in right-sided UCS (mean x-value 161 [156-166]), and left-sided PPP (mean x-value 150 [144-154]). Occipital peak was significantly shifted to the right side of the head in left-sided PPP (mean x-value 338 [336-340]) and to the left in right-sided PPP (mean x-value 23 [14-32]). Mean x-value of occipital peak was 9 (354-30) in left- and 2 (350-12) in right-sided UCS. Calculated ratio of gradient of the frontal peak is, in combination with the calculated asymmetry ratio of the frontal peak, a distinctive finding. CONCLUSIONS: UCSQ objectively captures shape of synostotic and positional plagiocephaly using 3D photogrammetry, we therefore developed a suitable method to objectively differentiate UCS from PPP using radiation-free methods.

Delayed Presentation of Unicoronal Craniosynostosis-Masked by Ipsilateral Posterior Deformational Plagiocephaly.

Despite a greater awareness of the differential diagnosis of head shape abnormalities among pediatricians, the effect of deformational forces on calvarial morphology can complicate the diagnosis of craniosynostosis. In this report, we describe 2 patients diagnosed with unicoronal craniosynostosis (UCS) in a delayed fashion due to the presence of concomitant posterior deformational plagiocephaly (PDP). In both cases, the severity of each patients' PDP obscured changes typically associated with UCS. This unique presentation underscores the importance of having a high index of suspicion for possible premature suture fusion despite the presence of concomitant PDP.

Efficacy of Classic Ear Molding for Neonatal Ear Deformity: Case Series and Literature Review.

BACKGROUND: We analyzed an original case series of the classic ear-molding method and evaluated the efficacy and complication rate of the method compared to commercial ear-molding products by meta-analysis to draw conclusions on the efficacy of the classic method. METHODS: From January 2019 to March 2022, we selected patients who underwent classic ear molding for newborn ear deformities at our institution and reviewed the patient age, treatment time, efficiency and complications. Additionally, the PubMed, EMBASE, and Scopus databases were searched, and meta-analysis (following the PRISMA guidelines) was performed. RESULTS: In the case study, the success rate (excellent and good outcomes) of the classic ear-molding method was 92.6%. The mean age at application and mean duration of application were 5.81 ± 6.09 days and 32.13 ± 7.90 days, respectively. In the systematic review, the classic method group showed a statistically smaller success rate (proportion of 0.79) and statistically smaller complication rate (proportion of 0.05) than the commercial product group (proportion of 0.83). CONCLUSIONS: Compared with commercial products, classic ear molding has remarkable and comparable therapeutic effects on neonatal auricular deformities. Additionally, the classic ear-molding method is more suitable for infants with auricular deformities from socioeconomically vulnerable areas. Thus, the classic ear-molding method could be a better option for congenital ear anomalies than commercial ear-molding products.

Estudio retrospectivo. Influencia de la Terapia Kinesiológica Temprana en el uso de Casco Modelador Craneal / Retrospective study. Influence of early physical therapy on the need to wear a skull molding helmet

Introducción. La plagiocefalia no sinostósica es una condición de salud caracterizada por una asimetría de cráneo que tiene diversas consecuencias en el desarrollo. Los principales tratamientos son la kinesioterapia y el casco de moldeado craneal (CMC). Objetivo. Evidenciar la influencia de la kinesioterapia temprana en la necesidad de usar casco modelador craneal. Métodos. Se realizó un estudio cuantitativo, descriptivo y retrospectivo en lactantes mayores de tres meses ingresados al Centro de Rehabilitación Integral de Carabineros (CRICAR) con diagnóstico confirmado de plagiocefalia mediante la técnica de craneometría. Se recopilaron datos de 39 pacientes diagnosticados con plagiocefalia, evaluados y tratados entre 2017 y 2019. Se dividieron en dos grupos, ingreso temprano (bajo los 5,5 meses de edad cronológica) e ingreso tardío (sobre los 5,5 meses de edad cronológica). Resultados. Al realizar un análisis bivariado, se obtuvo que 9 de 20 pacientes tuvieron que usar CMC en el grupo de ingreso tardío, y solo 4 de 19 pacientes en el grupo de ingreso temprano. Al contrastar la razón de riesgo de usar CMC en el grupo expuesto versus el grupo no expuesto se obtiene que es 3 veces mayor, sin embargo, esta diferencia no es estadísticamente significativa (OR=3.06, IC95% 0.6-16.8) Conclusiones. El principal resultado de este estudio es la disminución en la diferencia de diagonales evaluadas con craneometría. Además, se ha observado que en nuestra muestra el uso de CMC es tres veces mayor cuando el ingreso a terapia kinesiológica es tardío.

Introduction. Non-synostotic plagiocephaly is health condition characterized by a skull asymmetry that has various developmental consequences. The main treatments are kinesiotherapy and cranial molding helmet (CMH). The purpose of this study is to evidence the influence of early kinesiotherapy on the need to use CMH. Methods. A quantitative, descriptive and retrospective study of infants older than three months, admitted to the Carabineros Comprehensive Rehabilitation Center (CRICAR) since January 2017 with a confirmed diagnosis of plagiocephaly by craniometry technique was performed. Data were collected from 39 patients diagnosed with plagiocephaly, evaluated and treated between 2017 and 2019. They were divided into two groups, early admission (under 5.5 months of chronological age) and late admission (over 5.5 months of chronological age). Results. When performing a bivariate analysis, we obtained that 9 out of 20 patients had to use CMC in the late admission group, and only 4 out of 19 patients had to use it in the opposite group. When contrasting the oods ratio of using CMC in the exposed group versus the non-exposed group we obtain that it is 3 times higher, however, this difference is not statistically significant (OR=3.06, IC95% 0.6-16.8). Conclusions. The main result of this study is the decrease in the difference in diagonals assessed with craniometry. In addition, it has been observed that in our sample the use of CMC is three times higher when admission to physical therapy is late.

Cranial Shape in Infants Aged One Month Can Predict the Severity of Deformational Plagiocephaly at the Age of Six Months.

In this study, we aimed to monitor changes in cranial shape using three-dimensional (3D) scanning to determine whether the severity of deformational plagiocephaly (DP) at the age of 6 months could be predicted at the age of 1 month. The cranial shape was measured at the ages of 1, 3, and 6 months (T1, T2, and T3, respectively) in 92 infants. We excluded those who received helmet treatment before T3. The cranial vault asymmetry index (CVAI) using 3D scanning was evaluated in all infants. DP was defined as a CVAI > 5.0% with mild (CVAI ≤ 6.25%) or moderate/severe severity (CVAI > 6.25%). The CVAI cut-off value at T1 for severe DP at T3 was determined using receiver operating characteristic (ROC) curves. At T1, T2, and T3, the respective CVAI median values were 5.0%, 5.8%, and 4.7% and the DP incidence was 50.0%, 56.8%, and 43.2%, respectively. The DP severity temporarily worsened from T1 to T2 but then improved at T3. Among the infants, 73.9% had a similar DP severity at T1 and T3 (p = 1.0). A ROC curve analysis revealed a CVAI cut-off value of 7.8% at T1 predicted severe DP. It was concluded that later DP severity could be predicted using 3D scanning at T1 with properly defined cut-off values.

Reference Values for Cranial Morphology Based on Three-dimensional Scan Analysis in 1-month-old Healthy Infants in Japan.

Currently, molded helmet therapy is used to treat infants with deformational plagiocephaly. However, the indices of normal cranial shape remain unclear, and thus, the prevalence of deformational plagiocephaly is unknown, particularly in Japan. We investigated the reference values for cranial morphological characteristics in 1-month-old Japanese infants using a three-dimensional scanner, to determine the prevalence of deformational plagiocephaly. One hundred fifty-three healthy infants who visited three hospitals (from April 2020 to March 2021) were enrolled. Cranial shape was measured using a three-dimensional scanner and was analyzed using image analysis software. Outcome measures were cranial volume, length, width, length-width ratio, circumference, asymmetry, and vault asymmetry index; cephalic index; and anterior, posterior, and overall symmetry ratios. The cranial vault asymmetry index >3.5% or ≥10% were diagnosed as deformational or severe deformational plagiocephaly, respectively. The mean age at measurement was 35.7 days. The mean cranial volume was 559 mL; cranial length, 129 mm; cranial width, 110 mm; length-width ratio, 118%; cephalic index, 85.2%; cranial circumference, 377 mm, cranial asymmetry, 6.4 mm; cranial vault asymmetry index, 5.0%; and anterior, posterior, and overall asymmetry ratios, 93.1%, 91.3%, and 96.4%, respectively. The prevalence of deformational and severe deformational plagiocephaly was 64.7% and 6.6%, respectively. Sex-based differences were observed for cranial volume and width. The results obtained in this study can be considered standard values that can facilitate the differentiation of abnormal infant cranial morphological characteristics for Japanese medical practitioners.

Study of the compression behavior of functionally graded lattice for customized cranial remodeling orthosis.

Deformational plagiocephaly is a head deformity that occurs in newborns, treated in severe cases with helmets named cranial remodeling orthoses (CRO). Current CROs can fail to adapt to head growth, causing excessive pressure sores and other complications, and may lead to poor clinical results. In this work, we experimentally and numerically study the compressive behavior of a functionally graded lattice that may be used in future work as a potential inner lining for a CRO with a customized density distribution. This work is divided into five stages. First, we describe the design of all lattices involved in the study. Second, we measure the mechanical properties of the bulk material used in the manufacturing of the lattices. Third, we study the effect of unit cell size variation, testing three homogenous body-centered cubic (BCC) lattices, and creating a numerical model for the prediction of the compressive behavior of various lattices with different unit cell sizes. Fourth, we study the effects of truss diameter variation, designing and testing three homogenous lattices with different truss diameters. Finally, we design a BCC lattice with a truss diameter gradient and analyze compressive deformations in numerical and experimental compression studies. The numerical simulations of the compression of the homogenous and graded lattices agree with the experimental measurements, both in unit cell variation and in truss diameter variation. In the graded lattice, the compression displacements observed in each region are proportional to their density and agree with the numerical simulation. Truss diameter variation was found to have a wider range of compressive responses than unit cell size variation without major changes in the overall geometry of the lattice and found more suitable for the intended application. The studies showed the potential of the functionally graded lattice for use in the CRO.

Quality of life in patients with craniosynostosis and deformational plagiocephaly: A Systematic Review.

BACKGROUND: Craniosynostosis is a bony dysmorphism of the calvarium due to premature suture fusion and is classified as syndromic (part of congenital syndrome) or nonsyndromic (isolated). Deformational plagiocephaly (DP) is due to external positional forces on the skull after birth. This review aims to investigate the various quality of life (QoL) metrics across syndromic, nonsyndromic and DP patients. METHODS: Following Preferred Reporting Items for Systematic Reviews and Meta-Analyses (PRISMA) guidelines, a literature search was done through EMBASE, MEDLINE, PubMed and Web of Science. After two stages of screening by two authors, seventeen articles met inclusion criteria; 11 on syndromic, 4 nonsyndromic, and 2 DP. RESULTS: The literature suggests syndromic patients have more severe consequences on QoL, especially on psychological well-being, social functioning, and obstructive sleep apnea (OSA), leading to behavioral difficulties. Nonsyndromic patients show a less clear trend across QoL measures, but a majority stated QoL is comparable to the general population. DP patients noted motor development and QoL improvement as well as improved subjective aesthetic outcomes after orthotic helmet molding therapy (HMT). CONCLUSIONS: While a majority of literature classifies QoL in syndromic craniosynostosis alone, this review highlights the importance of these factors in nonsyndromic craniosynostosis and plagiocephaly patients. Psychological well-being, social functioning, and secondary health impacts such as OSA are important to consider in comprehensive craniofacial care in all calvaria deformities.

Efficacy of pediatric integrative manual therapy in positional plagiocephaly: a randomized controlled trial.

BACKGROUND: Positional plagiocephaly frequently affects healthy babies. It is hypothesized that manual therapy tailored to pediatrics is more effective in improving plagiocephalic cranial asymmetry than just repositioning and sensory and motor stimulation. METHODS: Thirty-four neurologically healthy subjects aged less than 28 weeks old with a difference of at least 5 mm between cranial diagonal diameters were randomly distributed into 2 groups. For 10 weeks, the pediatric integrative manual therapy (PIMT) group received manual therapy plus a caregiver education program, while the controls received the same education program exclusively. Cranial shape was evaluated using anthropometry; cranial index (CI) and cranial vault asymmetry index (CVAI) were calculated. Parental perception of change was assessed using a visual analogue scale (- 10 cm to + 10 cm). RESULTS: CVAI presented a greater decrease in PIMT group: 3.72 ± 1.40% compared with 0.34 ± 1.72% in the control group (p = 0.000). CI did not present significant differences between groups. Manual therapy led to a more positive parental perception of cranial changes (manual therapy: 6.66 ± 2.07 cm; control: 4.25 ± 2.31 cm; p = 0.004). CONCLUSION: Manual therapy plus a caregiver education program improved CVAI and led to parental satisfaction more effectively than solely a caregiver education program. TRIAL REGISTRATION: Trial registration number: NCT03659032 ; registration date: September 1, 2018. Retrospectively registered.

Prediction of school-age IQ, academic achievement, and motor skills in children with positional plagiocephaly.

INTRODUCTION: Children with positional plagiocephaly and/or brachycephaly (PPB) are at risk of early developmental delay, but little is known about early life factors associated with school-age neurodevelopment. This study examined associations of demographic characteristics, prenatal risk factors and early neurodevelopment assessment with school-age IQ, academic performance, and motor development in children with PPB. METHODS: The study sample consisted of 235 school-age children with PPB followed since infancy. Outcome measures included IQ using the Differential Ability Scales-Second Edition, academic achievement as measured by the Wechsler Individualized Achievement Tests-Third Edition), and motor function using the Bruininks-Oseretsky Test of Motor Proficiency, Second Edition. Linear regression was used to examine the incremental improvement of model fit of demographics, prenatal and early life characteristics, severity of PPB, and neurodevelopment at ages 7, 18, and 36 months as measured by the Bayley-3 on school-age scores. RESULTS: Mean age at school-age assessment was 9.0 years. Adjusted r2 for demographic, prenatal, and early life risk factors ranged from 0.10 to 0.22. Addition of PPB severity and Bayley-3 measures at ages 7 and 18 months did not meaningfully change model fit. Adjusted r2 after inclusion of Bayley-3 at 36 months ranged from 0.35 to 0.41. CONCLUSION: This study suggests that PPB severity and very early life neurodevelopment have little association with school-age neurodevelopment above and beyond demographic and early life risk factors. However, preschool-age neurodevelopmental assessment may still be useful in identifying children with PPB at risk for delay and who may benefit from early intervention.