Có sự khác biệt về diện tích theo mặt cắt đứng dọc của khoang mỡ Hoffa giữa các nhóm tuổi: lớn nhất ở nhóm từ 40 - 59 tuổi, nhỏ nhất ở nhóm từ 70 tuổi trở lên. Có mối tương quan tuyến tính nghịch giữa độ sâu và diện tích theo mặt cắt đứng dọc của khoang m

Bạn đang xem bản rút gọn của tài liệu. Xem và tải ngay bản đầy đủ của tài liệu tại đây (4.45 MB, 111 trang )

TÀI LIỆU THAM KHẢO

1.

Muraki, S., et al., Prevalence of radiographic knee osteoarthritis and

its association with knee pain in the elderly of Japanese populationbased cohorts: the ROAD study. Osteoarthritis Cartilage, 2009. 17(9):

p. 1137-43.

2.

Ho-Pham, L.T., et al., Prevalence of radiographic osteoarthritis of the

knee and its relationship to self-reported pain. PLoS One, 2014. 9(4):

p. e94563.

3.

Pritchard, D., et al., What Contributes Most to High Health Care

Costs? Health Care Spending in High Resource Patients. J Manag Care

Spec Pharm, 2016. 22(2): p. 102-9.

4.

Johnell, O. and J.A. Kanis, An estimate of the worldwide prevalence

and disability associated with osteoporotic fractures. Osteoporos Int,

2006. 17(12): p. 1726-33.

5.

Murray, C.J., et al., Disability-adjusted life years (DALYs) for 291

diseases and injuries in 21 regions, 1990-2010: a systematic analysis

for the Global Burden of Disease Study 2010. Lancet, 2012. 380(9859):

p. 2197-223.

6.

Ushiyama, T., et al., Cytokine production in the infrapatellar fat pad:

another source of cytokines in knee synovial fluids. Ann Rheum Dis,

2003. 62(2): p. 108-12.

7.

Ioan-Facsinay, A. and M. Kloppenburg, An emerging player in knee

osteoarthritis: the infrapatellar fat pad. Arthritis Res Ther, 2013. 15(6):

p. 225.

8.

Distel, E., et al., The infrapatellar fat pad in knee osteoarthritis: an

important source of interleukin-6 and its soluble receptor. Arthritis

Rheum, 2009. 60(11): p. 3374-7.

9.

Goldring, M.B., The role of the chondrocyte in osteoarthritis. Arthritis

Rheum, 2000. 43(9): p. 1916-26.

10.

Berenbaum,

F.,

Osteoarthritis

as

an

inflammatory

disease

(osteoarthritis is not osteoarthrosis!). Osteoarthritis Cartilage, 2013.

21(1): p. 16-21.

11.

Perruccio, A.V., et al., Plasma adipokine levels and their association

with overall burden of painful joints among individuals with hip and

knee osteoarthritis. J Rheumatol, 2014. 41(2): p. 334-7.

12.

Neumann, E., et al., Adipokines in bone disease. Nat Rev Rheumatol,

2016. 12(5): p. 296-302.

13.

Pottie, P., et al., Obesity and osteoarthritis: more complex than

predicted! Ann Rheum Dis, 2006. 65(11): p. 1403-5.

14.

de Boer, T.N., et al., Serum adipokines in osteoarthritis; comparison

with controls and relationship with local parameters of synovial

inflammation and cartilage damage. Osteoarthritis Cartilage, 2012.

20(8): p. 846-53.

15.

Conde, J., et al., Differential expression of adipokines in infrapatellar

fat pad (IPFP) and synovium of osteoarthritis patients and healthy

individuals. Ann Rheum Dis, 2014. 73(3): p. 631-3.

16.

Gandhi, R., et al., Microarray analysis of the infrapatellar fat pad in

knee osteoarthritis: relationship with joint inflammation. J Rheumatol,

2011. 38(9): p. 1966-72.

17.

Manal Hasan, R.S., Clinical features and pathogenetic mechanisms of

osteoarthritis of the hip and knee. BC MEDICAL JOURNAL, 2010

52(NO. 8): p. 393-398.

18.

Felson, D.T., et al., Osteoarthritis: new insights. Part 1: the disease

and its risk factors. Ann Intern Med, 2000. 133(8): p. 635-46.

19.

Lee,

R.

and

W.F.

Kean,

Obesity

and

knee

osteoarthritis.

Inflammopharmacology, 2012. 20(2): p. 53-8.

20.

Dieppe, P.A. and L.S. Lohmander, Pathogenesis and management of

pain in osteoarthritis. Lancet, 2005. 365(9463): p. 965-73.

21.

Kellgren, J.H. and J.S. Lawrence, Radiological assessment of osteoarthrosis. Ann Rheum Dis, 1957. 16(4): p. 494-502.

22.

Cooper, C., et al., Radiographic assessment of the knee joint in

osteoarthritis. Ann Rheum Dis, 1992. 51(1): p. 80-2.

23.

Petersson, I.F., et al., Radiographic osteoarthritis of the knee classified

by the Ahlback and Kellgren & Lawrence systems for the tibiofemoral

joint in people aged 35-54 years with chronic knee pain. Ann Rheum

Dis, 1997. 56(8): p. 493-6.

24.

Kellgren, J.B.M.R.J.J.H., The epidemiology of chronic rheumatism;

Atlas of standard radiographs of arthritis. Oxford Blackwell Scientific,

1963. 2: p. 1-44.

25.

Spector, T.D. and C. Cooper, Radiographic assessment of osteoarthritis

in population studies: whither Kellgren and Lawrence? Osteoarthritis

Cartilage, 1993. 1(4): p. 203-6.

26.

Altman, R.D., Criteria for classification of clinical osteoarthritis. J

Rheumatol Suppl, 1991. 27: p. 10-2.

27.

Jorgensen, C., et al., Stem cells for repair of cartilage and bone: the

next challenge in osteoarthritis and rheumatoid arthritis. Ann Rheum

Dis, 2001. 60(4): p. 305-9.

28.

Altman, R.D., Classification of disease: Osteoarthritis. Seminars in

Arthritis and Rheumatism, 1991. 20(6, Supplement 2): p. 40-47.

29.

Altman, R.D., Classification of disease: osteoarthritis. Semin Arthritis

Rheum, 1991. 20(6 Suppl 2): p. 40-7.

30.

Glyn-Jones, S., et al., Osteoarthritis. Lancet, 2015. 386(9991): p. 376-87.

31.

Sharma, L., Osteoarthritis year in review 2015: clinical. Osteoarthritis

Cartilage, 2016. 24(1): p. 36-48.

32.

Zhang, W., et al., OARSI recommendations for the management of hip

and knee osteoarthritis, Part II: OARSI evidence-based, expert

consensus guidelines. Osteoarthritis Cartilage, 2008. 16(2): p. 137-62.

33.

Bellamy, N., et al., Viscosupplementation for the treatment of

osteoarthritis of the knee. Cochrane Database Syst Rev, 2006(2): p.

CD005321.

34.

Pho, N.V., Đánh giá hiệu quả của tiêm chất nhầy sodium- Hyaluronat

(GO-ON) vào ổ khớp trong điều trị thối hóa khớp gối. Luận văn tốt

nghiệp bác sỹ chuyên khoa II- Đại học Y Hà Nội, 2007.

35.

Hai, B.B., Nghiên cứu điều trị bệnh thối hóa khớp gối nguyên phát

bằng liệu pháp huyết tương giàu tiểu cầu tự thân. 2016, Đại học Y Hà

Nội. p. 120-130.

36.

Sadabad, H.N., et al., Efficacy of Platelet-Rich Plasma versus

Hyaluronic Acid for treatment of Knee Osteoarthritis: A systematic

review and meta-analysis. Electron Physician, 2016. 8(3): p. 2115-22.

37.

Jo, C.H., et al., Intra-articular injection of mesenchymal stem cells for

the treatment of osteoarthritis of the knee: a proof-of-concept clinical

trial. Stem Cells, 2014. 32(5): p. 1254-66.

38.

Cypess , A.M., et al., Identification and Importance of Brown Adipose

Tissue in Adult Humans. New England Journal of Medicine, 2009.

360(15): p. 1509-1517.

39.

Bj, et al., Different Adipose Depots: Their Role in the Development of

Metabolic Syndrome and Mitochondrial Response to Hypolipidemic

Agents. Journal of Obesity, 2011. 2011.

40.

Curat, C.A., et al., From Blood Monocytes to Adipose Tissue-Resident

Macrophages. Induction of Diapedesis by Human Mature Adipocytes,

2004. 53(5): p. 1285-1292.

41.

Mraz, M. and M. Haluzik, The role of adipose tissue immune cells in

obesity and low-grade inflammation. Journal of Endocrinology, 2014.

222(3): p. R113-R127.

42.

Wisse, B.E., The Inflammatory Syndrome: The Role of Adipose Tissue

Cytokines in Metabolic Disorders Linked to Obesity. Journal of the

American Society of Nephrology, 2004. 15(11): p. 2792-2800.

43.

Ronti, T., G. Lupattelli, and E. Mannarino, The endocrine function of

adipose tissue: an update. Clin Endocrinol (Oxf), 2006. 64(4): p. 35565.

44.

Gremese, E., et al., Obesity as a Risk and Severity Factor in Rheumatic

Diseases (Autoimmune Chronic Inflammatory Diseases). Frontiers in

Immunology, 2014. 5: p. 576.

45.

Lago, F., et al., Adipokines as emerging mediators of immune response

and inflammation. Nat Clin Pract Rheumatol, 2007. 3(12): p. 716-24.

46.

Abella, V., et al., Adipokines, Metabolic Syndrome and Rheumatic

Diseases. Journal of Immunology Research, 2014. 2014: p. 14.

47.

xmlns="http://www.w3.org/1999/xhtml">Standards

of

Medical Care in Diabetes—2016: Summary of Revisions

.

Diabetes Care, 2016. 39(Supplement 1): p. S4-S5.

48.

Jon Love, T., et al., Obesity and the risk of psoriatic arthritis: a

population-based study. Annals of the Rheumatic Diseases, 2012.

71(8): p. 1273-1277.

49.

Ajeganova, S., M.L. Andersson, and I. Hafstrom, Association of obesity

with worse disease severity in rheumatoid arthritis as well as with

comorbidities: a long-term followup from disease onset. Arthritis Care

Res (Hoboken), 2013. 65(1): p. 78-87.

50.

Scrivo, R., et al., Rheumatic Diseases and Obesity: Adipocytokines as

Potential Comorbidity Biomarkers for Cardiovascular Diseases.

Mediators of Inflammation, 2013. 2013: p. 14.

51.

Giles, J.T., D.M. van der Heijde, and J.M. Bathon, Association of

circulating adiponectin levels with progression of radiographic joint

destruction in rheumatoid arthritis. Annals of the Rheumatic Diseases,

2011. 70(9): p. 1562-1568.

52.

Grotle, M., et al., Obesity and osteoarthritis in knee, hip and/or hand:

an epidemiological study in the general population with 10 years

follow-up. BMC Musculoskelet Disord, 2008. 9: p. 132.

53.

Yusuf, E., et al., Association between weight or body mass index and

hand osteoarthritis: a systematic review. Ann Rheum Dis, 2010. 69(4):

p. 761-5.

54.

Vuolteenaho, K., A. Koskinen, and E. Moilanen, Leptin - a link

between obesity and osteoarthritis. applications for prevention and

treatment. Basic Clin Pharmacol Toxicol, 2014. 114(1): p. 103-8.

55.

Karvonen-Gutierrez, C.A., et al., Leptin Levels are Associated with

Radiographic Knee Osteoarthritis Among a Cohort of Mid-Life

Women. Arthritis care & research, 2013. 65(6): p. 936-944.

56.

Eymard, F., et al., Knee and hip intra-articular adipose tissues share a

common phenotype in osteoarthritis. Osteoarthritis and Cartilage. 24: p. S339.

57.

Hoffa, A.A., THe influence of the adipose tissue with regard to the

pathology of the knee joint. Journal of the American Medical

Association, 1904. XLIII(12): p. 795-796.

58.

Gallagher, J., et al., The infrapatellar fat pad: anatomy and clinical

correlations. Knee Surg Sports Traumatol Arthrosc, 2005. 13(4): p.

268-72.

59.

Eymard, F. and X. Chevalier, Inflammation of the infrapatellar fat pad.

Joint Bone Spine, 2016. 83(4): p. 389-93.

60.

Diepold, J., et al., Sex-differences of the healthy infra-patellar (Hoffa)

fat pad in relation

to intermuscular and subcutaneous fat content – Data from the

Osteoarthritis Initiative. Annals of anatomy = Anatomischer Anzeiger :

official organ of the Anatomische Gesellschaft, 2015. 200: p. 30-36.

61.

Ballegaard, C., et al., Knee pain and inflammation in the infrapatellar

fat pad estimated by conventional and dynamic contrast-enhanced

magnetic resonance imaging in obese patients with osteoarthritis: a

cross-sectional study. Osteoarthritis Cartilage, 2014. 22(7): p. 933-40.

62.

Kang, T., Knee: Standard Scans, Sonographic Anatomy, Basic

Sonographic Pathologies. 2013: The Asia pacific league of association

for rheumatology.

63.

A.Jacobson, J., Fundamental of muscoskeletal ultrasound, second

edition, ed. E. saunders. 2012. 212-257.

64.

Martinoli, C., Musculoskeletal ultrasound: technical guidelines.

Insights into Imaging, 2010. 1(3): p. 99-141.

65.

Backhaus, M., et al., Guidelines for musculoskeletal ultrasound in

rheumatology. Annals of the Rheumatic Diseases, 2001. 60(7): p. 641-649.

66.

Brezinka, C., Manual of Diagnostic Ultrasound, Volume 2 (Second

Edition). Ultrasound in Medicine and Biology. 40(12): p. 2903-2904.

67.

Vlad, V. and A. Iagnocco, Ultrasound of the knee in rheumatology. Med

Ultrason, 2012. 14(4): p. 318-25.

68.

Balint, P.V., et al., Ultrasonography of entheseal insertions in the lower

limb in spondyloarthropathy. Ann Rheum Dis, 2002. 61(10): p. 905-10.

69.

Ozcakar, L., et al., Femoral cartilage thickness measurements in

healthy individuals: learning, practicing and publishing with TURKMUSCULUS. J Back Musculoskelet Rehabil, 2014. 27(2): p. 117-24.

70.

Cowan, S.M., et al., Infrapatellar fat pad volume is greater in

individuals with patellofemoral joint osteoarthritis and associated with

pain. Rheumatol Int, 2015. 35(8): p. 1439-42.

71.

Cai, J., et al., Association Between Infrapatellar Fat Pad Volume and

Knee Structural Changes in Patients with Knee Osteoarthritis. J

Rheumatol, 2015. 42(10): p. 1878-84.

72.

Teichtahl, A.J., et al., A large infrapatellar fat pad protects against

knee pain and lateral tibial cartilage volume loss. Arthritis Res Ther,

2015. 17: p. 318.

73.

Kraus, V.B., et al., A comparative assessment of alignment angle of the

knee by radiographic and physical examination methods. Arthritis

Rheum, 2005. 52(6): p. 1730-5.

74.

tế, B.y., Hướng dẫn chẩn đoán và điều trị bệnh nội tiết chuyển hóa.

Nhà xuất bản y học ed. 2015.

75.

Deep, K., et al., Radiographic measurement of joint space height in

non-osteoarthritic tibiofemoral joints. A comparison of weight-bearing

extension and 30 degrees flexion views. J Bone Joint Surg Br, 2003.

85(7): p. 980-2.

76.

Altman, R.D. and G.E. Gold, Atlas of individual radiographic features

in osteoarthritis, revised. Osteoarthritis Cartilage, 2007. 15 Suppl A: p.

A1-56.

77.

Stefano Bianchi , C.M., Ultrasound of the Musculoskeletal System.

2007, Berlin Heidelberg New York: Springer 663-670.

78.

Phượng, N.T.T., Nghiên cứu đặc điểm lâm sàng, cận lâm sàng, siêu

âm, cộng hưởng từ khớp gối ở bệnh nhân thối hóa khớp gối. 2015, Đại

học Y Hà Nội.

79.

Hoa, Đ.H., Nhận xét một số đặc điểm lâm sàng và cận lâm sàng của

bệnh hư khớp gối 1997, Đại học Y Hà Nội.

80.

Plotnikoff, R., et al., Osteoarthritis prevalence and modifiable factors:

a population study. BMC Public Health, 2015. 15: p. 1195.

81.

Felson, D.T., et al., The prevalence of knee osteoarthritis in the elderly.

The Framingham Osteoarthritis Study. Arthritis Rheum, 1987. 30(8): p.

914-8.

82.

Srikanth, V.K., et al., A meta-analysis of sex differences prevalence,

incidence and severity of osteoarthritis. Osteoarthritis Cartilage, 2005.

13(9): p. 769-81.

83.

Ngô Văn Kiên, N.Đ.K., Đặc điểm lâm sàng, X quang và ảnh hưởng

của tính chất cơng việc ở bệnh nhân thối hóa khớp gối: nghiên cứu ở

một trung tâm. Tạp chí nội khoa Việt Nam, 2017. 5/2017: p. 75-81.

84.

Cooper, C., et al., Occupational activity and osteoarthritis of the knee.

Ann Rheum Dis, 1994. 53(2): p. 90-3.

85.

Pearle, A.D., et al., Elevated C-reactive protein levels in osteoarthritis

are associated with local joint inflammation. Arthritis Research &

Therapy, 2004. 6(Suppl 3): p. 56-56.

86.

Pearle, A.D., et al., Elevated high-sensitivity C-reactive protein levels

are associated with local inflammatory findings in patients with

osteoarthritis. Osteoarthritis Cartilage, 2007. 15(5): p. 516-23.

87.

Smith, J.W., et al., Significance of C-reactive protein in osteoarthritis

and total knee arthroplasty outcomes. Therapeutic Advances in

Musculoskeletal Disease, 2012. 4(5): p. 315-325.

88.

Jin, X., et al., Circulating C reactive protein in osteoarthritis: a

systematic review and meta-analysis. Ann Rheum Dis, 2015. 74(4): p.

703-10.

89.

Lê Thị Liễu, N.M.H., Nghiên cứu vai trò của siêu âm trong chẩn đốn

bệnh thối hóa khớp. 2009, Bệnh viện Bạch Mai.

90.

Nguyễn Thị Thanh Phượng, N.V.N., Nghiên cứu hình ảnh siêu âm sụn

khớp ở bệnh nhân thối hóa khớp gối. Tạp chí Nội khoa Việt Nam,

2013. 10/2013: p. 206-213.

91.

Kuk, J.L., et al., Age-related changes in total and regional fat

distribution. Ageing Res Rev, 2009. 8(4): p. 339-48.

92.

Klein-Wieringa, I.R., et al., The infrapatellar fat pad of patients with

osteoarthritis has an inflammatory phenotype. Ann Rheum Dis, 2011.

70(5): p. 851-7.

93.

Pan, F., et al., A longitudinal study of the association between

infrapatellar fat pad maximal area and changes in knee symptoms and

structure in older adults. Ann Rheum Dis, 2015. 74(10): p. 1818-24.

94.

Han, W., et al., Signal intensity alteration in the infrapatellar fat pad at

baseline for the prediction of knee symptoms and structure in older

adults: a cohort study. 2016. 75(10): p. 1783-8.

Xem Thêm

Tài liệu liên quan

Tài liệu bạn tìm kiếm đã sẵn sàng tải về