Hisashi Chiba scite author profile

Background: Age-related height loss is a normal physical change that occurs in all individuals over 50 years of age. Although many epidemiological studies on height loss have been conducted worldwide, none have been longterm longitudinal epidemiological studies spanning over 30 years. This study was designed to investigate changes in adult spinal deformity and examine the relationship between adult spinal deformity and height loss. Methods: Fifty-three local healthy subjects (32 men, 21 women) from Furano, Hokkaido, Japan, volunteered for this longitudinal cohort study. Their heights were measured in 1983 and again in 2017. Spino-pelvic parameters were compared between measurements obtained in 1983 and 2017. Individuals with height loss were then divided into two groups, those with degenerative spondylosis and those with degenerative lumbar scoliosis, and different characteristics were compared between the two groups. Results: The mean age of the subjects was 44.4 (31-55) years at baseline and 78.6 (65-89) years at the final followup. The mean height was 157.4 cm at baseline and 153.6 cm at the final follow-up, with a mean height loss of 3.8 cm over 34.2 years. All parameters except for thoracic kyphosis were significantly different between measurements taken in 1983 and 2017 (p < 0.05). Height loss in both sexes was related to changes in pelvic parameters including pelvic incidence-lumbar lordosis (R = 0.460 p = 0.008 in men, R = 0.553 p = 0.012 in women), pelvic tilt (R = 0.374 p = 0.035 in men, R = 0.540 p = 0.014 in women), and sagittal vertical axis (R = 0.535 p = 0.002 in men, R = 0.527 p = 0.017 in women). Greater height loss was more commonly seen in women (p = 0.001) and in patients with degenerative lumbar scoliosis (p = 0.02). Conclusions: This longitudinal study revealed that height loss is more commonly observed in women and is associated with adult spinal deformity and degenerative lumbar scoliosis. Height loss is a normal physical change with aging, but excessive height loss is due to spinal kyphosis and scoliosis leading to spinal malalignment. Our findings suggest that height loss might be an early physical symptom for spinal malalignment.

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Adult spinal deformity and its relationship with hip range of motion: a cohort study of community-dwelling females

Shimizu

Kobayashi

Chiba³

et al. 2019

The Spine Journal

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Examination of the changes in lower extremities related to progression of adult spinal deformity: a longitudinal study of over 22 years

Shimizu

Kobayashi

Chiba³

et al. 2020

Sci Rep

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this longitudinal observational study investigated the relationship between changes in spinal sagittal alignment and changes in lower extremity coronal alignment. A total of 58 female volunteers who visited our institution at least twice during the 1992 to 1997 and 2015 to 2019 periods were investigated. We reviewed whole-spine radiographs and lower extremity radiographs and measured standard spinal sagittal parameters including pelvic incidence [pi], lumbar lordosis [LL], pelvic tilt [pt], sacral slope [SS] and sagittal vertical axis [SVA], and coronal lower extremity parameters including femorotibial angle (ftA), hip-knee-ankle angle (HKA), mechanical lateral distal femoral angle (mLDfA), mechanical medial proximal tibial angle (mMptA) and mechanical lateral distal tibial angle (mLDtA). Lumbar spondylosis and knee osteoarthritis were assessed using the Kellgren-Lawrence (KL) grading system at baseline and at final follow-up. We investigated the correlation between changes in spinal sagittal alignment and lower extremity alignment and changes in lumbar spondylosis. The mean age [standard deviation (SD)] was 48.3 (6.3) years at first visit and 70.2 (6.3) years at final follow-up. There was a correlation between changes in PILL and FTA (R = 0.449, P < 0.001) and between PILL and HKA (R = 0.412, P = 0.001). There was a correlation between changes in lumbar spondylosis at L3/4 (R = 0.383, P = 0.004) and L4/5 (R = 0.333, P = 0.012) and the knee joints. Changes in lumbar spondylosis at L3/4 and L4/5 were related to changes in KOA. Successful management of ASD must include evaluation of the state of lower extremity alignment, not only in the sagittal phase, but also the coronal phase. In recent years, with the aging population, the number of patients presenting to consultation rooms with both knee osteoarthritis (KOA) and lumbar degenerative diseases has increased 1. In adult patients with spinal deformity, spinal kyphosis changes are caused by disc degeneration and vertebral fracture. A previous study reported that spinal deformity in the sagittal phase is progressive, and influences pain, risk of falls, and health-related quality of life (HRQOL) 2-5. Barry et al. reported the compensatory mechanisms associated with adult spinal deformity, and reported that in advanced spinal deformity, the body is affected from head to toe, including changes in hip extension and knee flexion in the sagittal phase to maintain spinal alignment 6. On the other hand, KOA, which causes knee pain, knee contracture, decreased muscle strength, and decreased QOL, induced knee flexion in the sagittal phase and varus deformity in the coronal phase in the lower extremities, which is one of the characteristic changes proceeding KOA 7-9. Both the sagittal phase and the coronal phase are very important in the evaluation of KOA. Knee-spine syndrome has been previously reported by Murata et al. and Itoi who indicated that deformity of the knee joint influences spine deformity 10,11. However, their studies did not examine the coronal phase of

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Physical and radiographic features of degenerative retrolisthesis in Japanese female volunteers: an observational cohort study

Shimizu

Kobayashi

Chiba³

et al. 2023

Sci Rep

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Hundred and twenty four females with spondylolisthesis were divided into three groups (A group: anterolisthesis; P group: retrolisthesis; and AP group: antero-retrolisthesis), We reviewed their whole-spine radiographs and measured their standard sagittal parameters, including thoracic kyphosis (TK), pelvic incidence (PI), lumbar lordosis (LL), pelvic tilt (PT), and sacral slope (SS). The muscle strengths of the trunk flexor, trunk extensor, iliopsoas, and quadriceps were measured. Health-related quality of life was assessed using the Short Form 36-item Health Survey–physical component summary (SF-36 PCS). PI, SS, and LL-TK of participants in the P group were significantly lower than those in the A and AP groups (PI: P group vs. A group, p < 0.001, P group vs. AP group, p = 0.01), (SS: P group vs. A group, p = 0.001, P group vs. AP group, p = 0.003), (LL-TK: P group vs. A group, p < 0.001, P group vs. AP group, p = 0.049). TK of participants in the P and AP groups was greater than that of those in the A group. (P group vs. A group, p = 0.04, AP group vs. A group, p = 0.0025). The SF-36 PCS score in the P group was lower than that in the A and AP groups. (P group vs. A group, p = 0.004, P group vs. AP group, p = 0.012). The muscle strengths of the trunk flexor and trunk extensor and quadriceps in the P group were lower than those in the A groups. (Trunk flexor: P group vs. A group, p = 0.012), (Trunk extensor: P group vs. A group, p = 0.018), (Quadriceps: P group vs. A group, p = 0.011). In conclusion, female participants with degenerative retrolisthesis had a smaller PI and SS and a larger TK, along with decreased physical function and QoL scores than those with anterolisthesis.

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Hisashi Chiba

Clinical, physical, and radiographic analyses of lumbar degenerative kyphosis and spondylolisthesis among community-based cohort

Adult spinal deformity and its relationship with height loss: a 34-year longitudinal cohort study

Adult spinal deformity and its relationship with hip range of motion: a cohort study of community-dwelling females

Examination of the changes in lower extremities related to progression of adult spinal deformity: a longitudinal study of over 22 years

Physical and radiographic features of degenerative retrolisthesis in Japanese female volunteers: an observational cohort study

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