Ⅲ期牙周炎患者牙周基础治疗前后炎症性贫血相关指标的变化

doi:10.19723/j.issn.1671-167X.2024.01.008

摘要/Abstract

摘要：

目的: 比较Ⅲ期牙周炎患者与牙周健康者炎症性贫血相关指标的异同，探究牙周基础治疗对Ⅲ期牙周炎患者炎症性贫血指标的影响。方法: 纳入2020年2月至2023年2月于北京大学口腔医院牙周科就诊的Ⅲ期牙周炎患者25名，招募牙周健康者25名，记录人口学信息并进行牙周检查(探诊深度、临床附着丧失、出血指数)，采集空腹静脉血。Ⅲ期牙周炎患者经牙周基础治疗后3个月再次行牙周检查并采血。血液分析包括全血细胞分析以及用酶联免疫吸附法(enzyme-linked immunosorbent assay, ELISA)检测铁调素、铁蛋白、促红细胞生成素(erythro-poietin，EPO)。统计分析由SPSS 21.0统计软件完成，使用独立样本t检验、配对t检验及协方差分析进行组间比较。结果: Ⅲ期牙周炎患者的年龄显著大于牙周健康者[(36.72±7.64)岁vs. (31.44±7.52)岁，P=0.017]，血红蛋白显著低于牙周健康者[(134.92±12.71) g/L vs. (146.52±12.51) g/L，P=0.002]，铁调素[(48.03±34.44) μg/L vs. (27.42±15.00) μg/L，P=0.009]、铁蛋白[(225.08±103.36) μg/L vs. (155.19±115.38) μg/L，P=0.029]、EPO [(41.28±12.58) IU/L vs. (28.38±10.52) IU/L，P < 0.001]显著高于牙周健康者。用协方差分析校正年龄后，以上趋势维持不变且差异均有统计学意义。经牙周基础治疗后，Ⅲ期牙周炎患者所有牙周指标均有明显改善，血红蛋白[(146.05±15.48) g/L vs. (133.77±13.15) g/L，P < 0.001]显著升高，铁调素[(32.54±18.67) μg/L vs. (48.18±36.74) μg/L，P=0.033]、铁蛋白[(128.52±90.95) μg/L vs. (221.22±102.15) μg/L，P < 0.001]、EPO显著降低[(27.66±19.67) IU/L vs. (39.63±12.48) IU/L，P=0.004]。结论: Ⅲ期牙周炎患者具有炎症性贫血及铁代谢紊乱的倾向，牙周基础治疗可改善这种状况。

关键词: 牙周炎, 炎症性贫血, 铁代谢, 牙周疾病

Abstract:

Objective: To investigate the differences and similarities of parameters associated with anemia of inflammation between patients with stage Ⅲ periodontitis and periodontally healthy volunteers, and to explore the influence of periodontal initial therapy on those indicators. Methods: Patients with stage Ⅲ periodontitis and periodontally healthy volunteers seeking periodontal treatment or prophylaxis at Department of Periodontology, Peking University School and Hospital of Stomatology from February 2020 to February 2023 were enrolled. Their demographic characteristics, periodontal parameters (including probing depth, clinical attachment loss, bleeding index), and fasting blood were gathered before periodontal initial therapy. Three months after periodontal initial therapy, the periodontal parameters of the patients with stage Ⅲ periodontitis were re-evaluated and their fasting blood was collected again. Blood routine examinations (including white blood cells, red blood cells, hemoglobin, packed cell volume, mean corpuscular volume of erythrocytes, and mean corpuscular hemoglobin concentration) were performed. And ferritin, hepcidin, erythropoietin (EPO) were detected with enzyme-linked immunosorbent assay (ELISA). All data analysis was done with SPSS 21.0, independent sample t test, paired t test, and analysis of covariance were used for comparison between the groups. Results: A total of 25 patients with stage Ⅲ periodontitis and 25 periodontally healthy volunteers were included in this study. The patients with stage Ⅲ periodontitis were significantly older than those in periodontally healthy status [(36.72±7.64) years vs. (31.44±7.52) years, P=0.017]. The patients with stage Ⅲ periodontitis showed lower serum hemoglobin [(134.92±12.71) g/L vs. (146.52±12.51) g/L, P=0.002] and higher serum ferritin [(225.08±103.36) μg/L vs. (155.19±115.38) μg/L, P=0.029], EPO [(41.28±12.58) IU/L vs. (28.38±10.52) IU/L, P < 0.001], and hepcidin [(48.03±34.44) μg/L vs. (27.42±15.00) μg/L, P=0.009] compared with periodontally healthy volunteers. After adjusting the age with the covariance analysis, these parameters (hemoglobin, ferritin, EPO, and hepcidin) showed the same trends as independent-sample t test with statistical significance. Three months after periodontal initial therapy, all the periodontal parameters showed statistically significant improvement. The serum hemoglobin raised [(146.05±15.48) g/L vs. (133.77± 13.15) g/L, P < 0.001], while the serum ferritin [(128.52±90.95) μg/L vs. (221.22±102.15) μg/L, P < 0.001], EPO [(27.66±19.67) IU/L vs. (39.63± 12.48) IU/L, P=0.004], and hepcidin [(32.54±18.67) μg/L vs. (48.18±36.74) μg/L, P=0.033] decreased compared with baseline. Conclusion: Tendency of iron metabolism disorder and anemia of inflammation was observed in patients with stage Ⅲ periodontitis, which can be attenuated by periodontal initial therapy.

Key words: Periodontitis, Anemia of inflammation, Iron metabolism, Periodontal diseases

中图分类号:

R781.4

殳畅,韩烨,孙雨哲,杨再目,侯建霞. Ⅲ期牙周炎患者牙周基础治疗前后炎症性贫血相关指标的变化[J]. 北京大学学报（医学版）, 2024, 56(1): 45-50.

Chang SHU,Ye HAN,Yuzhe SUN,Zaimu YANG,Jianxia HOU. Changes of parameters associated with anemia of inflammation in patients with stage Ⅲ periodontitis before and after periodontal initial therapy[J]. Journal of Peking University (Health Sciences), 2024, 56(1): 45-50.

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参考文献 33

1	Lu HX , Tao DY , Lo ECM , et al. The 4th National Oral Health Survey in the mainland of China: Background and methodology[J]. Chin J Dent Res, 2018, 21 (3): 161- 165.
2	Tonetti MS , Greenwell H , Kornman KS . Staging and grading of periodontitis: Framework and proposal of a new classification and case definition[J]. J Periodontol, 2018, 89 (Suppl 1): S159- S172.
3	Jiao J , Jing W , Si Y , et al. The prevalence and severity of periodontal disease in mainland China: Data from the Fourth National Oral Health Survey (2015-2016)[J]. J Clin Periodontol, 2021, 48 (2): 168- 179. doi: 10.1111/jcpe.13396
4	Guo LN , Yang YZ , Feng YZ . Serum and salivary ferritin and hepcidin levels in patients with chronic periodontitis and type 2 diabetes mellitus[J]. BMC Oral Health, 2018, 18 (1): 63. doi: 10.1186/s12903-018-0524-4
5	Zheng X , Li X , Zhen J , et al. Periodontitis is associated with stroke[J]. J Transl Med, 2023, 21 (1): 697. doi: 10.1186/s12967-023-04545-1
6	Gonzalez DA, Bianchi ML, Armada M, et al. Hyposalivation and periodontal disease as oral non-articular characteristics in rheumatoid arthritis [J/OL]. Clin Rheumatol, 2023, doi: 10.1007/s10067-023-06718-1. Online ahead of print. https://link.sprin-ger.com/article/10.1007/s10067-023-06718-1.
7	AlSharief M , Alabdurubalnabi E . Periodontal pathogens and adverse pregnancy outcomes: A narrative review[J]. Life (Basel), 2023, 13 (7): 1559.
8	Shi T , Wang J , Dong J , et al. Periodontopathogens Porphyromonas gingivalis and Fusobacterium nucleatum and their roles in the progression of respiratory diseases[J]. Pathogens, 2023, 12 (9): 1110. doi: 10.3390/pathogens12091110
9	Zhao C , Kuraji R , Ye C , et al. Nisin a probiotic bacteriocin mitigates brain microbiome dysbiosis and Alzheimer' s disease-like neuroinflammation triggered by periodontal disease[J]. J Neuroinflammation, 2023, 20 (1): 228. doi: 10.1186/s12974-023-02915-6
10	Beukers N , Su N , van der Heijden G , et al. Periodontitis is associated with multimorbidity in a large dental school population[J]. J Clin Periodontol, 2023, 50 (12): 1621- 1632. doi: 10.1111/jcpe.13870
11	Ganz T . Anemia of inflammation[J]. N Engl J Med, 2019, 381 (12): 1148- 1157. doi: 10.1056/NEJMra1804281
12	Thomas C , Thomas L . Biochemical markers and hematologic indices in the diagnosis of functional iron deficiency[J]. Clin Chem, 2002, 48 (7): 1066- 1076. doi: 10.1093/clinchem/48.7.1066
13	Handelman GJ , Levin NW . Iron and anemia in human biology: A review of mechanisms[J]. Heart Fail Rev, 2008, 13 (4): 393- 404. doi: 10.1007/s10741-008-9086-x
14	张梦雪, 王小钦. 铁稳态失调相关的炎症性贫血发病机制及诊断进展[J]. 诊断学理论与实践, 2018, 17 (5): 601- 605.
15	de Las Cuevas Allende R , Díaz de Entresotos L , Conde Díez S . Anaemia of chronic diseases: Pathophysiology, diagnosis and treatment[J]. Med Clin (Barc), 2021, 156 (5): 235- 242. doi: 10.1016/j.medcli.2020.07.035
16	Hutter JW , van der Velden U , Varoufaki A , et al. Lower numbers of erythrocytes and lower levels of hemoglobin in periodontitis patients compared to control subjects[J]. J Clin Periodontol, 2001, 28 (10): 930- 936. doi: 10.1034/j.1600-051x.2001.028010930.x
17	郜洪宇, 徐菁玲, 孟焕新, 等. 牙周基础治疗对2型糖尿病伴慢性牙周炎患者红细胞、血小板相关指标的影响[J]. 北京大学学报(医学版), 2020, 52 (4): 750- 754.
18	Nibali L , Darbar U , Rakmanee T , et al. Anemia of inflammation associated with periodontitis: Analysis of two clinical studies[J]. J Periodontol, 2019, 90 (11): 1252- 1259. doi: 10.1002/JPER.19-0124
19	Kolte RA , Kolte AP , Deshpande NM . Assessment and comparison of anemia of chronic disease in healthy subjects and chronic periodontitis patients: A clinical and hematological study[J]. J Indian Soc Periodontol, 2014, 18 (2): 183- 186. doi: 10.4103/0972-124X.131321
20	Pradeep AR , Anuj S . Anemia of chronic disease and chronic periodontitis: Does periodontal therapy have an effect on anemic status?[J]. J Periodontol, 2011, 82 (3): 388- 394. doi: 10.1902/jop.2010.100336
21	Han Y , Huang W , Meng H , et al. Pro-inflammatory cytokine interleukin-6-induced hepcidin, a key mediator of periodontitis-related anemia of inflammation[J]. J Periodontal Res, 2021, 56 (4): 690- 701. doi: 10.1111/jre.12865
22	Han Y , Luo Z , Yue ZG , et al. The tendency of anemia of inflammation in periodontal diseases[J]. Clin Sci (Lond), 2023, 137 (3): 251- 264. doi: 10.1042/CS20220524
23	Patel MD , Shakir QJ , Shetty A . Interrelationship between chronic periodontitis and anemia: A 6-month follow-up study[J]. J Indian Soc Periodontol, 2014, 18 (1): 19- 25. doi: 10.4103/0972-124X.128194
24	Massey AC . Microcytic anemia. Differential diagnosis and management of iron deficiency anemia[J]. Med Clin North Am, 1992, 76 (3): 549- 566. doi: 10.1016/S0025-7125(16)30339-X
25	Weiss G , Ganz T , Goodnough LT . Anemia of inflammation[J]. Blood, 2019, 133 (1): 40- 50. doi: 10.1182/blood-2018-06-856500
26	Chakraborty S , Tewari S , Sharma RK , et al. Effect of non-surgical periodontal therapy on serum ferritin levels: An interventional study[J]. J Periodontol, 2014, 85 (5): 688- 696. doi: 10.1902/jop.2013.130107
27	Ong DS , Wang L , Zhu Y , et al. The response of ferritin to LPS and acute phase of Pseudomonas infection[J]. J Endotoxin Res, 2005, 11 (5): 267- 280. doi: 10.1177/09680519050110050301
28	Huang W , Zhan Y , Zheng Y , et al. Up-regulated ferritin in periodontitis promotes inflammatory cytokine expression in human periodontal ligament cells through transferrin receptor via ERK/P38 MAPK pathways[J]. Clin Sci (Lond), 2019, 133 (1): 135- 148. doi: 10.1042/CS20180679
29	Johnston PA , Grandis JR . STAT3 signaling: Anticancer strategies and challenges[J]. Mol Interv, 2011, 11 (1): 18- 26. doi: 10.1124/mi.11.1.4
30	Drakesmith H , Prentice AM . Hepcidin and the iron-infection axis[J]. Science, 2012, 338 (6108): 768- 772. doi: 10.1126/science.1224577
31	Malyszko J , Malyszko JS , Matuszkiewicz-Rowinska J . Hepcidin as a therapeutic target for anemia and inflammation associated with chronic kidney disease[J]. Expert Opin Ther Targets, 2019, 23 (5): 407- 421. doi: 10.1080/14728222.2019.1599358
32	Arndt S , Maegdefrau U , Dorn C , et al. Iron-induced expression of bone morphogenic protein 6 in intestinal cells is the main regulator of hepatic hepcidin expression in vivo[J]. Gastroenterology, 2010, 138 (1): 372- 382.
33	Kautz L , Jung G , Du X , et al. Erythroferrone contributes to hepcidin suppression and iron overload in a mouse model of beta-thalassemia[J]. Blood, 2015, 126 (17): 2031- 2037.

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Items	Control	Stage Ⅲ periodontitis	P
Age/years, ${\bar x}$±s	31.44±7.52	36.72±7.64	0.017
Gender, n
Male	13	14	0.777
Female	12	11	0.777
PD/mm, ${\bar x}$±s	1.56±0.68	4.71±0.95	< 0.001
BI, ${\bar x}$±s	1.12±0.52	3.44±0.57	< 0.001
CAL/mm, ${\bar x}$±s	0	4.27±0.98	< 0.001

Items	Control, ${\bar x}$±s	Stage Ⅲ periodontitis, ${\bar x}$±s	P
WBC/(×10⁹/L)	5.90±1.13	6.48±1.74	0.169
RBC/(×10¹²/L)	4.85±0.45	4.86±0.56	0.962
HGB/(g/L)	146.52±12.51	134.92±12.71	0.002^**
HCT	0.43±0.04	0.42±0.04	0.382
MCV/fL	89.24±3.75	87.62±5.81	0.246
MCH/(pg/cell)	29.86±1.56	29.68±2.67	0.763
MCHC/(g/dL)	334.52±10.35	338.2±13.56	0.286
Transferrin/(mg/dL)	268.81±37.86	254.92±47.25	0.254
Ferritin/(μg/L)	155.19±115.38	225.08±103.36	0.029^*
Hepcidin/(μg/L)	27.42±15.00	48.03±34.44	0.009^**
EPO/(IU/L)	28.38±10.52	41.28±12.58	< 0.001^***

Items	Control, ${\bar x}$±s	Stage Ⅲ periodontitis, ${\bar x}$±s	P
WBC/(×10⁹/L)	5.79±0.30	6.59±0.30	0.070
RBC/(×10¹²/L)	4.84±0.11	4.87±0.11	0.811
HGB/(g/L)	146.51±2.63	134.93±2.63	0.004^**
HCT	0.43±0.01	0.43±0.01	0.627
MCV/fL	89.08±1.02	87.79±1.02	0.386
MCH/(pg/cell)	29.86±0.46	29.68±0.46	0.784
MCHC/(g/dL)	335.18±2.48	337.54±2.48	0.518
Transferrin/(mg/dL)	269.48±8.92	254.36±8.92	0.250
Ferritin/(μg/L)	152.01±22.75	228.26±22.75	0.026^*
Hepcidin/(μg/L)	27.33±5.54	48.13±5.54	0.013^*
EPO/(IU/L)	28.64±2.41	41.02±2.41	0.001^**

Items	Baseline, ${\bar x}$±s	After therapy, ${\bar x}$±s	P
PD/mm	4.66±0.88	2.92±0.45	< 0.001
BI	3.46±0.57	1.66±0.74	< 0.001
CAL/mm	4.23±0.89	3.03±0.75	< 0.001

Items	Baseline, ${\bar x}$±s	After therapy, ${\bar x}$±s	P
WBC/(×10⁹/L)	6.43±1.83	6.28±1.88	0.401
RBC/(×10¹²/L)	4.85±0.60	4.79±0.56	0.272
HGB/(g/L)	133.77±13.15	146.05±15.48	< 0.001^***
HCT	0.42±0.04	0.42±0.04	0.244
MCV/fL	87.40±6.14	87.27±6.19	0.655
MCH/(pg/cell)	29.64±2.83	29.31±2.60	0.051
MCHC/(g/dL)	338.55±14.33	335.18±12.12	0.102
Transferrin/(mg/dL)	257.45±49.62	258.06±34.06	0.957
Ferritin/(μg/L)	221.22±102.15	128.52±90.95	< 0.001^***
Hepcidin/(μg/L)	48.18±36.74	32.54±18.67	0.033^*
EPO/(IU/L)	39.63±12.48	27.66±19.67	0.004^**