上海雷允上西区门诊部有限公司成立于2006年12月05日,注册地位于上海市静安区华山路2号主楼3层、裙楼3层、裙楼4层,法定代表人为刘继川。经营范围包括内科,外科,眼科,口腔科,皮肤科,医学影像科,中医科。【企业经营涉及行政许可的,凭许可证件经营】糖尿病性昏迷是糖尿病主要急性并发症,包括低血糖昏迷、糖尿病酮症酸中毒昏迷、高渗性昏迷、乳酸酸中毒昏迷。,(1)应激和感染。 (2)摄水不足。 (3)失水过多和脱水。 (4)高糖摄入和输入。 (5)药物:许多药物均可成为诱因,如大量使用糖皮质激素、噻嗪类或呋塞米(速尿)等利尿药等。 (6)其他:如急、慢性肾功能衰竭,糖尿病肾病等。由于肾小球滤过率下降,对血糖的清除亦下降,也可成为诱因。,全身,糖尿病性昏迷的治疗主要是采取补液、吸氧、小剂量胰岛素治疗,同时注意纠正电解质及酸碱失衡、补钾,消除或控制诱因和防治并发症,监测生命体征。另外,糖尿病低血糖昏迷还需补充葡萄糖、给予高蛋白食品、少量多餐等对症治疗。,1.高渗性非酮症糖尿病昏迷2.临床上,对昏迷、脱水兼酸中毒、休克的患者,3.与糖尿病急性代谢紊乱1).高渗性非酮症糖尿病昏迷2).乳酸性酸中毒3).乙醇性酸中毒4).饥饿性酮症,1、忌食辛辣刺激性食物。2、忌食含糖量高的食物。3、忌食油腻食物。,(1)老年糖尿病患者若出现进行性意识障碍,或出现嗜睡、幻觉、定向障碍、偏盲、上肢拍击样震颤、癫痫样抽搐、昏迷等症状时,首先考虑高渗性昏迷;若大量进食或水分摄入不足、静脉补充高糖、利尿剂使用过量、应用糖皮质激素或氯丙嗪等药物时出现多尿和意识障碍,应考虑本病。 (2)符合下列条件即可做出诊断:①血糖≥33.3mmol/L;②血钠≥145mmol/L;③血浆 渗透压≥350mmol/L或有效渗透压≥320mmol/L;④无或只有轻度酮症。,。
擅长: 运用中药汤药治疗慢性胃炎、消化道溃疡、胃肠息肉、便秘、腹泻等脾胃疾病;慢性咳嗽、过敏性哮喘、慢性咽喉炎等呼吸道疾病;失眠、焦虑、亚健康调理、虚症等内科杂病。 针灸配合草药治疗妇科常见的月经失调、痛经、备孕;甲状腺结节、乳腺结节等外科疾病;对慢性湿疹、荨麻疹、银屑病、痤疮、带状疱疹、黄褐斑等皮肤科疾病以及常见的肩颈腰腿痛等有着丰富的临床经验。
糖尿病急性并发症一般包括糖尿病酮症酸中毒、高血糖高渗状态、乳酸酸中毒、低血糖昏迷等。由于糖尿病急性并发症有可能直接威胁到患者的生命,因此需要及早预防,当发生时要及时发现和治疗。
1.糖尿病酮症酸中毒?
糖尿病酮症酸中毒(DKA)为最常见的糖尿病急症。以高血糖、酮症、和酸中毒为主要表现,是胰岛素不足和拮抗胰岛素激素过多共同作用所致的严重代谢紊乱综合征。
DKA的诊断标准包括存在血糖>13.9mmol/L,动脉血pH<7.30(动静脉血差值约0.02~0.15,也可取静脉血,一般不影响诊断),[HCO3-]≤18 mmol/L,阴离子间隙(AG)>10~12mmol/L。血和尿酮阳性进一步支持DKA的诊断,有条件的机构可定量测定尿/血清β-羟丁酸,诊断阈值为>3.0mmol/L。
在DKA管理的早期阶段应遵循几个重要步骤:
1.在开始静脉输液前采集血液进行代谢谱检测;
2.在1小时内输注1L 0.9%NaCl;
3.在开始胰岛素治疗前确保钾水平>3.3 mEq/L(必要时静脉补钾);
4.启动胰岛素治疗。
5.阴离子间隙纠正到正常。
治疗:
糖尿病酮症酸中毒(DKA )的治疗原则:尽快补液以恢复血容量、纠正失水状态,降低血糖,纠正电解质及酸碱平衡失调,同时积极寻找和消除诱因,防治并发,降低病死率。
1.补液
2.胰岛素治疗
3.补液
4.纠正酸中毒
5.去除诱因,治疗并发症
如果在治疗过程中出现低血压休克、心力衰竭、肾功能衰竭、脑水肿等并发症,也要积极应对,作出处理。
2.高渗高血糖综合征
高渗高血糖综合征(HHS)是糖尿病急性代谢紊乱的另一临床类型,以严重高血糖、高血浆渗透压、脱水为特点,无明显酮症,病人可有不同程度的意识障碍或昏迷(<10%)。部分病人可伴有酮症。主要见于老年T2DM病人,超过2/3病人原来无糖尿病史。
在遇到急性感染、严重外伤、较大手术、急性心肌梗死、脑血管意外等情况,或者使用糖皮质激素、免疫抑制剂、利尿剂、甘露醇等药物、透析治疗、静脉高营养等治疗时,容易诱发高渗高血糖综合征。
一般从开始发病到出现意识障碍需要1~2周,偶尔急性起病。主要表现为脱水和神经系统两组症状。患者反应迟钝、烦躁或淡漠、嗜睡,逐渐陷入昏迷、抽搐,晚期尿少甚至尿闭。
通常患者的血浆渗透压>320 mOsm/L时,即可以出现精神症状,如淡漠、嗜睡等。
当血浆渗透压>350 mOsm/L时,可出现定向力障碍、幻觉、上肢粗震颤、癫痫样发作、偏瘫、偏盲、失语、视觉障碍、昏迷等。
HHS诊断:
HHS由于患者神经、精神症状比较多,往往误诊为神经科的疾病,耽误治疗。它的诊断主要依靠化验检查,其诊断标准为:
(1)血糖≥33.3 mmol/L。
(2)有效血浆渗透压≥320 mOsm/L;有效血浆渗透压(mOsm/L)= 2×(Na++K+)+血糖(均以mmol/L计算)。
(4)尿糖呈强阳性,而血清酮体及尿酮体阴性或为弱阳性。
(5)阴离子间隙<12 mmol/L。
由于HHS常发生于老年人,并存多种疾病,且容易在应激情况下发生,故特别容易误诊!该病病情危重、并发症多,病死率远高于糖尿病酮症酸中毒,是老年糖尿病患者的克星。
抢救成功的关键仍然是早期诊断和早期治疗。临床上凡遇原因不明的脱水、休克、意识障碍及昏迷均应想到本病的可能性,尤其是血压低而尿量多者,不论有无糖尿病史,均应进行有关检查以肯定或排除本病。
3.糖尿病并发乳酸酸中毒
01. 诱因:过量使用双胍类药物、伴有急慢性肝肾功能不全、心力衰竭、感染、酗酒、高龄及一氧化碳中毒。
02. 临床表现:急性起病,主要为代谢性酸中毒的表现,可有恶心、呕吐、腹泻、腹痛等消化道症状,缺氧表现(口唇发绀),血压下降等脱水表现,疲乏无力、深大呼吸(无烂苹果昧)、意识障碍、四肢肌张力下降、反射减弱、瞳孔散大甚至昏迷休克,轻症患者表现可不明显。
03. 化验检查:血糖可正常或升高;血清乳酸 ≥ 5 mmol/L(严重时可达 20 - 40 mmol/L);动脉血气分析 pH < 7.35;碳酸氢根明显降低,常 < 10 mmol/L;阴离子间隙 > 18 mmol/L;尿酮体呈阴性或弱阳性。
治疗:
(1). 去除诱因;
(2). 补液扩容和纠正休克:提高心输出量,恢复血流动力学稳定,改善组织灌注,减少乳酸浓度,一般选择生理盐水;
(3). 纠正酸中毒:采用分次小剂量碳酸氢钠持续滴注的方式补碱方式,HCO3-上升 4 - 6 mmol/L,维持在 14 - 16 mmol/L,动脉血 PH 高于 7.2。避免大剂量碳酸氢钠引起的高血钠、高渗透压、氧离曲线左移致组织氧供减少及容量负荷过重。
(4). 胰岛素治疗:糖尿病乳酸酸中毒的患者一般血糖升高不明显,如果血糖升高,应避免口服降糖药。可予以小剂量的胰岛素持续静脉泵泵入或静脉输注胰岛素控制血糖。
(5). 肾脏替代治疗:对于服用过量双胍类药物、伴有严重肾功能不全或严重心衰患者,及时给予 CRRT。
糖尿病乳酸酸中毒预防:
乳酸性酸中毒预后差,病死率高。因此预防乳酸性酸中毒的发生尤为关键。预防乳酸性酸中毒,首先要避免易感因素。(1)严格掌握双胍类药物的适应证,有肝肾功能不全、缺氧性疾病及一般情况差者忌用双胍类。二甲双胍引起乳酸性酸中毒的发生率低于苯乙双胍,因此建议尽可能选用二甲双胍(目前临床已基本不使用,但在中小型城市糖尿病患者中含有该成分的药物仍在使用);(2)使用双胍类者在遇到危重症时应暂停用药,改用胰岛素治疗。
此外,临床医生应加强患者及其家属的教育,告知各种降糖药物的作用及副作用,加强血糖监测。避免患者活动量过大,产生乳酸过多。帮助患者及其家属认识低血糖、乳酸性酸中毒和糖尿病酮症酸中毒的区别,定期复查各项指标。
4.低血糖症
低血糖症是一组由多种病因引起的血浆(或血清)葡萄糖水平降低,并足以引起相应症状和体征的临床综合征,而当血浆葡萄糖浓度升高后,症状和体征也随之消退。病人常以交感兴奋和(或)神经精神及行为异常为主要特点,血糖浓度更低时可以出现癫痫样发作、昏迷和死亡。一般引起低血糖症状的血浆葡萄糖阈值为2.8---3.9mmol/L,然而,对于反复发作的低血糖病人,这一阈值则会向更低的血糖浓度偏移。
化验检查:血糖水平 ≤ 3.9 mmol/L。
治疗:解除神经供糖不足的症状和纠正导致低血糖症的潜在原因。以预防为主。
如何预防低血糖?
1.制定个体化的血糖控制目标,根据病情合理调整药物
血糖控制目标:
● 空腹血糖:4.4-7.0mmol/L
● 非空腹血糖:10.0mmol/L
● HbA1C:<7%
● 有严重低血糖史、预期寿命短、有严重并发症者,适当放宽血糖控制目标,如 HbA1C<8%
2.掌握低血糖相关知识,定期就诊
(1)接受正规的糖尿病教育,掌握低血糖相关知识。
(2)定期看医生,根据病情变化及时调整治疗方案。
(3)常备快速血糖监测仪。
3.保持均衡的饮食和运动,不宜波动太大
(1)定时定量进餐。
(2)限制饮酒,尤其不能空腹饮酒。
(3)规律运动,量力而行。
(4)运动中注意心率,变化及身体感受。
(5)运动时间超过1小时要及时加餐。
4.外出时的预防措施
(1)外出或运动时随身携带含糖食品和救助卡。
(2)外出或运动时随身携带糖果、饼干等,救助卡要放在容易 看到的地方。
(3)开车的糖友把含糖食物放在伸手可及的地方。
(4)携带的食品必须含糖,不能是木糖醇等甜味剂食品。
高血糖是否为糖尿病?答案是否定的,高血糖包括糖尿病前期和糖尿病,所以说高血糖不单单是糖尿病,高血糖实际上是指在没有达到糖尿病诊断的标准,而血糖已经超出了正常的范围,因此,归属于糖尿病前期的诊断。那么高血糖的症状都有哪些呢?高血糖的时候应该都进行什么相关干预才能避免发生糖尿病呢?这是广大糖尿病前期的患者最为关心的问题,今天我就为大家解读一下高血糖的症状有哪些?
第一,会出现"三多一少"的症状:
另外还会出现一些其他相关的症状:
第二,舌苔变厚:
舌头是反映人体病理变化最明确的窗口,通过舌头可以看明身体是否有病理转变,糖尿病的患者舌头表面有时候会像涂了一层蜡一样,并且有看不清原来纤细绒毛结构,这也就是厚腻苔的表现,提示血糖可能已经升高了。
第三,会出现经常的恶心,干呕,身体不适,呕吐不断,腹部偶尔出现胀痛,消化不良的症状,并且会有厌食,食欲大减,体重明显减轻,虚弱无力,做事情上用不上力气等等。
总结,高血糖虽然没达到糖尿病的诊断,但是也应该和糖尿病一样来饮食运动严格的控制,避免发展为糖尿病,一旦发现上述症状马上进行血糖的监测,切勿耽误病情!
在临床上高血糖和糖尿病是有一定区别的,糖尿病的患者一定存在高血糖,而高血糖的患者不一定诊断为糖尿病,两者在临床上是有本质区别的,而具体的区别有以下几点分析。
第一,糖尿病指的是糖尿病的症状伴有血糖值升高,临床上患者出现口渴多饮、尿频量多、多食易饥以及身体逐渐的消瘦并且多次测空腹血糖大于等于 7.0 毫摩尔每升,随机血糖大于等于 11.1 毫摩尔每升或者葡萄糖耐量试验两个小时的血糖大于等于 11.1 毫摩尔每升,就可以诊断为糖尿病。如果患者症状不明显隔日复查血糖仍然超过以上值,同样可以诊断为糖尿病。
第二,高血糖指的是血糖值高于正常的范围,但却没达到糖尿病的诊断标准,有的存在空腹血糖受损,有的存在糖耐量异常,总的来说是糖调节异常的一个情况,也可以称之为糖尿病前期,实际上是介于正常与糖尿病之间的一种状态,往往空腹血糖大于 6.1 毫摩尔每升却小于 7.0 毫摩每升,随机血糖大于 7.8 毫摩尔每升却小雨 11.1 毫摩尔每升。
第三,糖尿病和高血糖治疗的方式也稍有不同,糖尿病患者需要用药物来进行治疗,而高血糖可以先通过饮食和运动的方式来调理,因为很多高血糖的患者是临时的和暂时性的,比如应激状态下导致的高血糖、药物所导致的高血糖、其他多种因素导致的高血糖,这样的高血糖不能和糖尿病同等看待,去除诱因高血糖会完全的康复,而糖尿病是终身性的疾病,需要用药物来终身的维持而避免并发急慢性并发症。
以下内容来源于新英格兰医学杂志。
以下内容来源于新英格兰医学杂志。
Presentation of Case
Dr. Christine M. Parsons (Medicine): A 75-year-old woman was evaluated at this hospital because of arthritis, abdominal pain, edema, malaise, and fever.
Three weeks before the current admission, the patient noticed waxing and waning “throbbing” pain in the right upper abdomen, which she rated at 9 (on a scale of 0 to 10, with 10 indicating the most severe pain) at its maximal intensity. The pain was associated with nausea and fever with a temperature of up to 39.0°C. Pain worsened after food consumption and was relieved with acetaminophen. During the 3 weeks before the current admission, edema developed in both legs; it had started at the ankles and gradually progressed upward to the hips. When the edema began to affect her ambulation, she presented to the emergency department of this hospital.
A review of systems that was obtained from the patient and her family was notable for intermittent fever, abdominal bloating, anorexia, and fatigue that had progressed during the previous 3 weeks. The patient reported new orthopnea and nonproductive cough. Approximately 4 weeks earlier, she had had diarrhea for several days. During the 6 weeks before the current admission, the patient had lost 9 kg unintentionally; she also had had pain in the wrists and hands, 3 days of burning and dryness of the eyes, and diffuse myalgias. She had not had night sweats, dry mouth, jaw claudication, vision changes, urinary symptoms, or oral, nasal, or genital ulcers.
The patient’s medical history was notable for multiple myeloma (for which treatment with thalidomide and melphalan had been initiated 2 years earlier and was stopped approximately 1 year before the current admission); hypothyroidism; chikungunya virus infection (diagnosed 7 years earlier); seropositive erosive rheumatoid arthritis affecting the hands, wrists, elbows, and shoulders (diagnosed 3 years earlier); vitiligo; and osteoarthritis of the right hip, for which she had undergone arthroplasty. Evidence of gastritis was reportedly seen on endoscopy that had been performed 6 months earlier. Medications included daily treatment with levothyroxine and acetaminophen and pipazethate hydrochloride as needed for cough. The patient consumed chamomile and horsetail herbal teas. She had no known allergies to medications, but she had been advised not to take nonsteroidal antiinflammatory drugs after her diagnosis of multiple myeloma.
Approximately 5 months before the current admission, the patient had emigrated from Central America. She lived with her daughter and grandchildren in an urban area of New England. She had previously worked in health care. She had no history of alcohol, tobacco, or other substance use. There was no family history of cancer or autoimmune, renal, gastrointestinal, pulmonary, or cardiac disease.
On examination, the temporal temperature was 37.1°C, the heart rate 106 beats per minute, the blood pressure 152/67 mm Hg, and the oxygen saturation 100% while the patient was breathing ambient air. She had a frail appearance and bitemporal cachexia. The weight was 41 kg and the body-mass index (the weight in kilograms divided by the square of the height in meters) 15.2. Her dentition was poor; most of the teeth were missing, caries were present in the remaining teeth, and the mucous membranes were dry. She had abdominal tenderness on the right side and mild abdominal distention, without organomegaly or guarding. Bilateral axillary lymphadenopathy was palpable. Infrequent inspiratory wheezing was noted.
The patient had swan-neck deformity, boutonnière deformity, ulnar deviation, and distal hyperextensibility of the thumbs (Fig. 1). Subcutaneous nodules were observed on the proximal interphalangeal joints of the second and third fingers of the right hand and on the proximal interphalangeal joint of the fourth finger of the left hand. Synovial thickening of the metacarpophalangeal joints of the second fingers was noted. There was mild swelling and tenderness of the wrists. She had pain with flexion of the shoulders and right hip, and there was subtle swelling of the shoulders and right knee. Pitting edema (3+) and vitiligo were noted on the legs. No sclerodactyly, digital pitting, telangiectasias, appreciable calcinosis, nodules, nail changes (including pitting), or tophi were present. The remainder of the examination was normal.
The blood levels of glucose, alanine aminotransferase, aspartate aminotransferase, bilirubin, globulin, lactate, lipase, magnesium, and phosphorus were normal, as were the prothrombin time and international normalized ratio; other laboratory test results are shown in Table 1. Urinalysis showed 3+ protein and 3+ blood, and microscopic examination of the sediment revealed 5 to 10 red cells per high-power field and granular casts. Urine and blood were obtained for culture. An electrocardiogram met (at a borderline level) the voltage criteria for left ventricular hypertrophy.
Dr. Rene Balza Romero: Computed tomography (CT) of the chest, abdomen, and pelvis, performed after the intravenous administration of contrast material, revealed scattered subcentimeter pulmonary nodules (including clusters in the right middle lobe and patchy and ground-glass opacities in the left upper lobe), trace pleural effusion in the left lung, coronary and valvular calcifications, and trace pericardial effusion, ascites, and anasarca. The scans also showed slight enlargement of the axillary lymph nodes (up to 11 mm in the short axis) bilaterally and a chronic-appearing compression fracture involving the T12 vertebral body.
Dr. Parsons: Morphine and lactated Ringer’s solution were administered intravenously. On the second day in the emergency department (also referred to as hospital day 2), the blood levels of haptoglobin, folate, and vitamin B12 were normal; other laboratory test results are shown in Table 1. A rapid antigen test for malaria was positive. Wright–Giemsa staining of thick and thin peripheral-blood smears was negative for parasites; the smears also showed Döhle bodies and basophilic stippling. Antigliadin antibodies and anti–tissue transglutaminase antibodies were not detected. Tests for hepatitis A IgG and hepatitis C antibodies were positive. Tests for hepatitis B core and surface antibodies were negative. A test for human immunodeficiency virus type 1 (HIV-1) and type 2 (HIV-2) was negative.
Findings on abdominal ultrasound imaging performed on the second day (Fig. 2A and 2B) were notable for a small volume of ascites and kidneys with echogenic parenchyma. Ultrasonography of the legs showed no deep venous thrombosis. An echocardiogram showed normal ventricular size and function, aortic sclerosis with mild aortic insufficiency, moderate tricuspid regurgitation, a right ventricular systolic pressure of 39 mm Hg, and a small circumferential pericardial effusion. Intravenous hydromorphone was administered, and the patient was admitted to the hospital.
On the third day (also referred to as hospital day 3), nucleic acid testing for cytomegalovirus, Epstein–Barr virus, and hepatitis C virus was negative, and a stool antigen test for Helicobacter pylori was negative. An interferon-γ release assay for Mycobacterium tuberculosis was also negative. Oral acetaminophen and ivermectin and intravenous hydromorphone and furosemide were administered.
Dr. Balza Romero: Radiographs of the hands (Fig. 2C through 2F) showed joint-space narrowing of both radiocarpal joints and proximal interphalangeal erosions involving both hands. Radiographs of the shoulders showed arthritis of the glenohumeral joint and alignment suggestive of a tear of the right rotator cuff. A radiograph of the pelvis showed diffuse joint-space narrowing of the left hip, without osteophytosis, and an intact right hip prosthesis.
Dr. Parsons: Diagnostic tests were performed, and management decisions were made.
Final Diagnosis
Overlap syndrome of rheumatoid arthritis and systemic lupus erythematosus complicated by proliferative lupus nephritis, superimposed on amyloid A amyloidosis.
以下内容来源于PubMed。
Abstract
Sacituzumab govitecan (SG) significantly improved progression-free survival (PFS) and overall survival (OS) versus chemotherapy in hormone receptor-positive human epidermal growth factor receptor 2-negative (HR+HER2-) metastatic breast cancer (mBC) in the global TROPiCS-02 study. TROPiCS-02 enrolled few Asian patients. Here we report results of SG in Asian patients with HR+HER2- mBC from the EVER-132-002 study. Patients were randomized to SG (n = 166) or chemotherapy (n = 165). The primary endpoint was met: PFS was improved with SG versus chemotherapy (hazard ratio of 0.67, 95% confidence interval 0.52-0.87; P = 0.0028; median 4.3 versus 4.2 months). OS also improved with SG versus chemotherapy (hazard ratio of 0.64, 95% confidence interval 0.47-0.88; P = 0.0061; median 21.0 versus 15.3 months). The most common grade ≥3 treatment-emergent adverse events were neutropenia, leukopenia and anemia. SG demonstrated significant and clinically meaningful improvement in PFS and OS versus chemotherapy, with a manageable safety profile consistent with prior studies. SG represents a promising treatment option for Asian patients with HR+HER2- mBC (ClinicalTrials.gov identifier no. NCT04639986 ).
以下内容来源于PubMed。
Abstract
Irritable bowel syndrome with diarrhea (IBS-D) is a common and chronic gastrointestinal disorder that is characterized by abdominal discomfort and occasional diarrhea. The pathogenesis of IBS-D is thought to be related to a combination of factors, including psychological stress, abnormal muscle contractions, and inflammation and disorder of the gut microbiome. However, there is still a lack of comprehensive analysis of the logical regulatory correlation among these factors. In this study, we found that stress induced hyperproduction of xanthine and altered the abundance and metabolic characteristics of Lactobacillus murinus in the gut. Lactobacillus murinus-derived spermidine suppressed the basal expression of type I interferon (IFN)-α in plasmacytoid dendritic cells by inhibiting the K63-linked polyubiquitination of TRAF3. The reduction in IFN-α unrestricted the contractile function of colonic smooth muscle cells, resulting in an increase in bowel movement. Our findings provided a theoretical basis for the pathological mechanism of, and new drug targets for, stress-exposed IBS-D.
Keywords: AdorA2B; Lactobacillus murinus; irritable bowel syndrome with diarrhea; spermidine; stress; type I interferon; xanthine.
Abstract
The severe bronchiolitis endotype characterized by a high abundance of H. influenzae, high proportion of RV-A and RV-C infections, and high asthma genetic risk had a significantly higher risk for developing asthma.
Background: Infants with bronchiolitis are at increased risk for developing asthma. Growing evidence suggests bronchiolitis is a heterogeneous condition. However, little is known about its biologically distinct subgroups based on the integrated metagenome and asthma genetic risk signature and their longitudinal relationships with asthma development.
Methods: In a multi-center prospective cohort study of infants with severe bronchiolitis (i.e., bronchiolitis requiring hospitalization), we profiled nasopharyngeal airway metagenome and virus at hospitalization, and calculated the polygenic risk score of asthma. Using similarity network fusion clustering approach, we identified integrated metagenome-asthma genetic risk endotypes. We also examined their longitudinal association with the risk of developing asthma by age six years.
Results: Of 450 infants with bronchiolitis (median age, 3 months), we identified five distinct endotypes-characterized by their nasopharyngeal metagenome, virus, and asthma genetic risk profiles. Compared with endotype A infants (who clinically resembled "classic" bronchiolitis), endotype E infants (characterized by a high abundance of H. influenzae, high proportion of RV-A and RV-C infections, and high asthma genetic risk) had a significantly higher risk for developing asthma (35.9% versus 16.7%; ORadj, 2.24; 95%CI, 1.02-4.97; p=0.046). The pathway analysis showed that endotype E had enriched microbial pathways (e.g., glycolysis, L-lysine, arginine metabolism) and host pathways (e.g., IFNs, IL-6/JAK/STAT3, fatty acids, MHC, and immunoglobin-related) (FDR<0.05). Additionally, endotype E had a significantly higher proportion of neutrophils (FDR<0.05).
Conclusion: In this multi-center prospective cohort study of infant bronchiolitis, the clustering analysis of integrated-omics data identified biologically distinct endotypes with differential risks for developing asthma.
Summary
Interpretation