Stéatose et VIH A propos dun cas clinique Dr Slama Laurence, Dr Maud Lemoine Service des maladies...
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Transcript of Stéatose et VIH A propos dun cas clinique Dr Slama Laurence, Dr Maud Lemoine Service des maladies...
Stéatose et VIH
A propos d’un cas clinique
Dr Slama Laurence, Dr Maud LemoineService des maladies infectieuses, Hôpital Tenon
Service d’Hépatologie, Hôpital Jean-Verdier
SFLS Bordeaux 10 décembre 2007
Mr COU, 43 ans
Pas d’antécédents personnels ou familiaux
VIH+ connu depuis Juin 1990 Pas de coinfection VHB, VHC CD4 à 263/mm³ (13%) Traité depuis 1993 par :
- AZT pdt 18 mois- AZT+ ddC pdt 1 an: CD4 à 299/mm³(17%) CV à 124 000 copies/ml en 02/96- d4T + 3TC (10/96) - d4T+ 3TC+ Saquinavir (97) : CD4 421/mm³ (20%) et CV à 900 copies/ml
Ostéonécrose aiguë de tête la fémorale en juin 97
Mr COU , 43 ans
Switch pour D4T+ 3TC+ indinavir en 10/97 CD4 à 389/mm³(18%) et CV à 40 000 copies/ml (05/98)
Poids 76 kg pour 1m82 (BMI = 23 kg/m2) Apparition progressive d’une lipodystrophie mixte TA 130/80 mmHg
Glycémie à jeun 6,1 mmol/l ASAT, ALAT : 2N (arrêt alcool en 1995) TG à 5 mmol/l puis 26 mmol/l puis 13 mmol/l : maxepa + dietéticienne Changement de traitement pour d4T+ddI+EFV
Deuxième poussée d’ONA : PTH en juin 1999
Mr COU, 43 ans
Normalisation des triglycérides en 2000
Lipodystrophie stable
Modification du traitement ARV en 2000 pour du Trizivir Persistance des Transaminases à 1,5-2N
Avril 2001 : CD4 464/mm³ et CV< 50 copies/ml 2002 : échappement virologique à 30 000 copies/ml Puis aggravation progressive du bilan hépatique
Mr COU, 43 ans
Mars1999
Mars 2000
Mars 2001
Mars 2002
Dec 2002
ASAT (UI/l) 38 53 68 75 155
ALAT (UI/l) 57 67 52 151 336
PAL (UI/L) 75 70 29 67 75
GGT (UI/l) 40 46 29 42 123
Quelles sont les causes d’élévation isolée des transaminases chez le patient VIH ?
Aiguë
Hépatites virales aiguësHBV, HCVRéactivation virale BSéroconversion HBe, HBSSurinfection DeltaHépatite A et hépatite ECMV, EBV, HSV, parvovirus B19
Migration lithiasique Hépatite alcoolique Hépatite médicamenteuse Hépatite auto-immune en poussée
Chronique
Hépatites virales chroniquesHBV (+/-Delta), HCV
Hépatite médicamenteuse Hépatite auto-immune
Résultats…
VHC- Ac anti HbS + isolés EBV: -, CMV -, HSV-
Arrêt de l’alcool depuis 1995
Ac antiTissus négatifs
Pas d’introduction de traitements hépatotoxiques
Echographie hépatique: Foie hyperéchogène sans lésion focaleVoies biliaires finesPas d’épanchement péritonéale
Quelles hypothèses diagnostiques ?
Hypothèses diagostiques
Toxicité mitochondriale « retardée »?
Stéatose hépatique non alcoolique associée à la lipodystrophie ?
Rappel
AZT+ddC 09/1995
d4T+3TC 10/1996
d4T+3TC+ saquinavir 05/1997
d4T+ 3TC + indinavir 10/1997
d4T+ ddI+ EFV 09/1998
ddI+ AZT+3TC+ABC 10/2000
Résultats
Acide lactique normal
Pas d’introduction d’autres traitements, pas de signes cutanés
Hypothèse retenue
Stéatose hépatique non alcoolique
Pourquoi évoquer une stéatosehépatique non alcoolique?
Aspect hyperéchogène à l’échographie Toutes les autres causes d’élévation chronique
des transaminases ont été éliminées
Lipodystrophie très souvent associée à une insulino-résistance
Et l’insulino-résistance joue un rôle central dans le développement des lésions de stéatose et de stéatohépatite
Stéatose hépatique non alcoolique Nonalcoholic Fatty
Liver Disease(NAFLD)
Accumulation intrahépatocytaire de TG
Hépatopathie fréquente
1ère cause: obésité et syndrome métabolique
Expression hépatique du syndrome métabolique
Marchesini et al, Hepatology 2003
Stéatohépatite (NASH)
Stéatose10-25 %
Cirrhose15 %50% fibrose CHC
4%
Syndrome métabolique
Associé à une Insulino-résistance
DEFINITION
Obésité abdominale 94 cm H, 80 cm F et au moins deux critères:
• TG 1,7 mmol/l• HDL < 1 mmol/l H, 1,3 mmol/l F• TA 130/85 ou traitement• Glycémie à jeun 5,6 mmol/l ou D2T
Chez le patient VIH
Anomalies métaboliques et insulino-résistance fréquentes induites par la HAART
Patients à risque de stéatose et de stéatohépatite
Série autopsique: 30 % des patients VIH+Trojan et al Pathologe 1998
50 % des patients VIH +, LipodystrophiquesSutinen et al AIDS 2002
Lemoine et al AIDS 2006
NASH
Autres
Foie N
14,5%14,5%
28,5%28,5% 57%57%
Quel bilan métabolique doit être réalisé ?
Bilan métabolique
BMI: 23 kg/m2 Tour de Taille: 95 cm TA : 130/80 mmHg
Glycémie à jeun : 5,2 mmol/l Bilan lipidique à jeun :
Cholestérol total et LDL/HDL: normalTG 2,3 mmol/l
Insulinémie à jeun : 18 µUI/L HOMA : 4,2
Mesure de l’insulino-résistance
Homeostasis Model Assessment of Insulin Resistance HOMA:
[Insulinémie (µUI/ml) x Glycémie A Jeun (mmol/l)] / 22.5
Résistance à l’insuline si HOMA > 3
Quantitative Insulin Check Index QUICKI: 1 / (log [Ins (µUI/ml)] + log [Gly (mg/dl)])
Comment confirmer le diagnostic de
stéatose hépatique non alcoolique ?
Diagnostic histologiqueRéalisation d’une PBH (2002)
Stéatose macrovésiculaire touchant plus de 60 % des hépatocytesFibrose portale
Définition de la NASH
Critères de Brunt
1-Stéatose
2-Nécrose, et Ballonisation des hépatocytes
Avec ou Sans Fibrose
Les marqueurs non invasifs
Fibroscan, Fibrotest, Steatotest, Nashtest, Apri, Fib4…
Non validés
Outils diagnostiques
Quelle est la conduite thérapeutique ?
Correction des facteurs de stéatose et d’insulino-résitance
Traitement de l’hypertriglycéridémie
Traitement de l’insulino-résistance:
Conseils diététiques Exercise physique Modification du traitement ARV
Evolution
ASAT 216 UI/l, ALAT 393 UI/l,GGT 169 UI/l TG 2 mmol/l
Modification du traitement ARV pour FTC+ddI+Atazanavir en 2004
Bilan immuno viro stable avec CV< 50 copies/ml
Amélioration du BH : ASAT : 77 UI/l (N<40), ALAT 47 UI/l (N<40 UI/L)PAL: 84 UI/l gGT:65 (N<40)
PBH de contrôle
Résultats de la deuxième PBH (2004)
Biopsie initiale
Nouvelle Biopsie
Cirrhose constituée
Quel est le bilan et le suivi ?
Prise en charge de la cirrhose
FOGD à la recherche de VO ou de varices gastriques
Echographie + doppler hépatique/6mois
CHC ? Permméabilité du tronc porte
+ Dosage d’FP sérique
Bilan d’hémostase
Depuis sa deuxième PBH…
Introduction d’un traitement par pioglitazone (Actos®)
Fibrotest A0/F3 en 2005 Fibrotest A0/F1 en 2006 ASAT : 43 UI/l, ALAT 32 UI/l,
PAL 59 UI/l GGT: 75 UI/L
Fibroscan (élastométrie) : 6,8 kPa
Comment corriger la stéatose et l’insulino-résistance ?
Activité physique, amaigrissement
Traitement hépatoprotecteur et anti-oxydant
Vitamine E, Acide ursodésoxycholique
Traitements insulino-sensibilisants- Metformine
- Thiazolidiones: agonistes de PPAR
Pioglitazone (Actos)Rosiglitazone (Avandia)Troglitazone
Rimonabant : antagoniste du récepteur endocannabinoïde de type 1
Régime diététique et activité physique
Régime hypocalorique Huang MA, Am J Gastroenterol 2005= 16 patients avec une NASH histologiquement prouvéeRégime + PBH à M12.Amélioration de l’IR et des lésions histologiques chez 9/15 patients.
0
10
20
30
40
50
60
70
80
90
100
47 % (15/32)47 % (15/32)
16 % (5/31)16 % (5/31)
ROSIGLITAZONEROSIGLITAZONE PLACEBOPLACEBO
P<0.015P<0.015
%%ptspts HISTOLOGICAL RESPONSE (HISTOLOGICAL RESPONSE (>>30% reduction in 30% reduction in
steatosis)steatosis)
Ratziu et al, AASLD 2006
Effet de la Rosiglitazone sur le stéatose
Ratziu et al, AASLD 2006
Effet de la Rosiglitazone sur L’IR
* In non-diabetics
Rosiglitazone
(N=32)
Placebo(N=31)
Serum glucose (mmol/l)
Insulin*, (median UI/l)
HOMA*
-0.93 0.55
-5.5 2.5
-1.4 0.59
<0.001
0.001
<0.001
P EOT - Baseline
HbA1c*, (%) -1.15 0.26 <0.02
Amélioration del’Insulinosensibilitéhépatique
A Placebo-Controlled Trial of Pioglitazone in Subjects with Nonalcoholic Steatohepatitis
Dec 2006 Belfort et al
Belfort et al NEJM Dec 2006
Effet anti-stéatosique
Belfort et al NEJM Dec 2006
Effet anti-fibrosant ?
Effet de la Rosiglitazone chez le patient VIH
Effet insulino-sensibilisant
Correction de la lipoatrophie selon les études
MAISAugmentation du cholestérol sérique
Sutinen Antiv Ther Juin 2003, Hadigan et al 2004, Car et al Lancet 2004, Van Mijk et al Ann Intern Med 2005Calvanti JID 2007Infection 2006
Pas d’évaluation histologique
ETUDE CONTROLEE RANDOMISEE COMPARANT L’EFFET DE LA PIOGLITAZONE
VERSUS PLACEBO DANS LA STEATOHEPATITE NON ALCOOLIQUE CHEZ
LES PATIENTS VIH SOUS HAART
En soumission à l’ANRS
Rimonabant: antagoniste des récepteurs endocannabinoïdes de type 1: CB1
Van Gaal et al Lancet 2005
Rimonabant: antagoniste des récepteurs endocannabinoïdes de type 1: CB1 Van Gaal et al , Lancet 2005
Rimonabant: antagoniste des récepteurs endocannabinoïdes de type 1: CB1
Van Gaal et al Lancet 2005
Rimonabant: antagoniste des récepteurs endocannabinoïdes de type 1: CB1
Effet anti-fibrosant
Souris traitées par un antagoniste CB1
Aire de fibrose
Teixeira-Clerc et al Nat Med 2006
Conclusions:
Stéatose et stéatohépatite: fréquentes chez le patient VIH
lipodystrophique
Y penser !
Potentiellement grave: cirrhose et CHC
Diagnostic histologique
Marqueurs non invasifs non validés
Traitements en cours d’évaluation
Highly active antiretroviral therapy (HAART) is associated with metabolic adverse events such as insulin resistance
and lipodystrophy, that is, atrophy of subcutaneous fat and accumulation of intra-abdominal fat. Currently, there is no
pharmacological treatment for lipoatrophy. Glitazones, a novel class of insulin-sensitizing anti-diabetic agents,
increase subcutaneous fat in patients with type 2 diabetes. There are no controlled studies of glitazones in patients
with HAART-associated lipodystrophy (HAL). In this randomized, double-blind, placebo-controlled study, 30 patients
with HAL received either rosiglitazone (8 mg daily) or placebo for 24 weeks. Baseline characteristics were compared to
a group of 30 age-, sex- and weight-matched HIV-negative controls. At baseline, patients with HAL had 1.8-fold
(P<0.001) more intra-abdominal and 2.4-fold (P<0.05) more liver fat than HIV-negative controls, who had 1.8-fold
(P<0.001) more subcutaneous fat than the patients. After 24 weeks of treatment, rosiglitazone had no effect on body
weight, subcutaneous or intra-abdominal fat (magnetic resonance imaging), total body fat (bioimpedance analysis),
anthropometric measurements or serum leptin concentrations (a circulating marker of adipose tissue mass). However,
rosiglitazone decreased % liver fat (spectroscopy) and serum insulin concentrations, and normalized liver function
tests. During the first 12 weeks of rosiglitazone treatment, serum triglycerides increased from 3.5 +/- 0.5 to 6.5 +/- 2.0
mmol/l (from 310 +/- 44 to 575 +/- 177 mg/dl) (P<0.05) and serum cholesterol from 6.0 +/- 0.4 to 7.8 +/- 0.7 mmol/l
(from 232 +/- 15 to 301 +/- 27 mg/dl) (P<0.01). Contrary to data in other patient groups, rosiglitazone did not increase
subcutaneous fat in patients with HAL after 24 weeks of treatment. Rosiglitazone seemed to ameliorate insulin
resistance judged by the decreased serum insulin concentrations and % liver fat. Rosiglitazone unexpectedly
caused significant increases in serum triglyceride and cholesterol concentrations, which must be carefully
monitored if glitazones are used in these patients.
Rosiglitazone in the treatment of HAART-associated lipodystrophy—a randomized double-blind placebo-controlled study.
Sutinen Antiv Ther Juin 2003
Hadigan et al 2004Metabolic effects of rosiglitazone in HIV lipodystrophy: a randomized, controlled trial.
BACKGROUND: Patients with HIV infection who are treated with antiretroviral agents often lose subcutaneous fat and have metabolic abnormalities, including insulin resistance and reduced adiponectin levels, which may be related to disrupted subcutaneous adipogenesis and altered peroxisome proliferator-activated receptor-gamma signaling. OBJECTIVE: To investigate the effects of rosiglitazone (4 mg/d), a peroxisome proliferator-activated receptor-gamma agonist, in HIV-infected men and women with hyperinsulinemia and lipoatrophy. DESIGN: A randomized, double-blind, placebo-controlled, 3-month study. SETTING: University hospital. PATIENTS: 28 HIV-infected men and women with hyperinsulinemia and lipoatrophy. MEASUREMENTS: Insulin sensitivity measured by euglycemic hyperinsulinemic clamp testing; subcutaneous leg fat area measured by computed tomography; adiponectin, free fatty acid, and lipid levels; and safety variables. RESULTS: Rosiglitazone, when compared with placebo, improved insulin sensitivity (mean [+/-SD] change, 1.5 +/- 2.1 mg of glucose/kg of lean body mass per minute vs. -0.4 +/- 1.6 mg/kg per minute; P = 0.02), increased adiponectin levels (mean [+/-SD], 2.2 +/- 2.2 micro g/mL vs. 0.1 +/- 1.1 microg/mL; P = 0.006), and reduced free fatty acid levels (mean [+/-SD], -0.09 +/- 0.1 mmol/L vs. 0.01 +/- 0.1 mmol/L; P = 0.02). Mean percentage (+/-SD) of body fat (1.38% +/- 3.03% vs. -0.83% +/- 2.76%; P = 0.03) and subcutaneous leg fat area (2.3 +/- 8.4 cm2 vs. -0.9 +/- 1.9 cm2; P = 0.02) increased significantly with rosiglitazone compared with placebo. Mean total cholesterol levels (+/-SD) also increased with rosiglitazone compared with placebo (0.6 +/- 1.0 mmol/L [25 +/- 37 mg/dL] vs. -0.4 +/- 0.6 mmol/L [-15 +/- 25 mg/dL]; P = 0.007). LIMITATIONS: The study was relatively small and of short duration. CONCLUSIONS: The authors demonstrated positive effects of rosiglitazone on lipoatrophy; insulin sensitivity; and metabolic indices, including adiponectin levels, in HIV-infected patients with lipoatrophy and insulin resistance. Peroxisome proliferator-activated receptor-gamma agonists may correct the metabolic abnormalities associated with disrupted adipogenesis in this population. Further studies must determine the clinical utility of such agents in HIV-infected patients.
Hadigan AIDS 2007Rosiglitazone increases small dense low-density lipoprotein concentration and decreases high-density lipoprotein particle size in HIV-infected patients.
After 12 weeks of rosiglitazone treatment, significant increases in total and small dense low-density lipoprotein, and the total: high-density lipoprotein (HDL)-cholesterol ratio were found. The large HDL concentration and HDL particle size decreased significantly with rosiglitazone compared with placebo. These data indicate the production of a more atherogenic lipid profile with rosiglitazone, a consideration when selecting treatment for the growing population of HIV-infected patients with type 2 diabetes and dyslipidemia.
Calvanti: J Infect Disease 2007A randomized, placebo-controlled trial of rosiglitazone for HIV-related
lipoatrophy. BACKGROUND: Thiazolidinediones such as rosiglitazone may have benefit in
ameliorating human immunodeficiency virus (HIV) lipoatrophy. METHODS: HIV-positive patients receiving stable, protease inhibitor-containing highly active antiretroviral therapy with HIV lipodystrophy were prospectively randomized to rosiglitazone (4 mg/day) or placebo. The primary end point was the 24-week percentage change in arm fat by dual-energy x-ray absorptiometry (DEXA). Clinical and anthropometric evaluations, fasting lipid parameters, oral glucose tolerance testing, CD36 expression, quality of life measures, and DEXA scanning were performed at baseline and week 24. RESULTS: Seventy-eight of the 96 enrolled patients were evaluated. Median age was 46.8 years, 97.4% were male, and 54% were treated with thymidine analogues. Median baseline limb fat was 3.76 and 2.99 kg in the rosiglitazone and control groups, respectively. Median changes in arm, leg, trunk, and total body fat at 24 weeks were not significantly different between groups (7.1% vs. 5.0% [P=.94]; 0.1% vs. -2.4% [P=.90]; 1.2% vs. -1.4% [P=.81]; and 1.7% vs. 0.4% [P=.76]). There were no significant changes in secondary end points. There was no correlation between changes in body fat or treatment-arm and CD36 expression. CONCLUSIONS: This randomized, placebo-controlled trial did not show benefit of 4 mg/day of rosiglitazone on lipoatrophy or metabolic parameters in patients with HIV lipodystrophy.
Effects of metformin and rosiglitazone in HIV-infected patients withhyperinsulinemia and elevated waist/hip ratio
AIDS 2007 Mulligan et al San Fran
OBJECTIVE: To evaluate the effects of metformin and rosiglitazone, alone or in combination, on fat distribution, insulin sensitivity, and lipids in HIV-infected patients with insulin resistance and changes in fat distribution. METHODS: A total of 105 subjects were randomly assigned to receive metformin (500 mg twice a day increasing to 1000 mg twice a day after 2 weeks) with rosiglitazone placebo (Met/P, N = 26); rosiglitazone (4 mg/day) with metformin placebo (Rosi/P, N = 27); rosiglitazone (4 mg/day) plus metformin (500 mg twice a day increasing to 1000 mg twice a day after 2 weeks; Met/Rosi, N = 25); or dual placebo (P/P, N = 27) for 16 weeks. Efficacy assessments included oral glucose tolerance testing, abdominal computed tomography, whole-body dual-energy X-ray absorptiometry, and the measurement of fasting lipids and other biochemical indices. Safety was monitored throughout. Intent-to-treat analyses were performed using non-parametric methods. RESULTS: The median insulin area under the curve (AUC) decreased significantly compared with baseline in both groups randomly assigned to rosiglitazone (Rosi/P -25.7 microIU/ml, P = 0.012; Met/Rosi -17.7 microIU/ml, P = 0.002); and tended to decrease in the Met/P group (-11.1 microIU/ml, P = 0.058). The change in AUC with combination therapy was significant compared with placebo (P = 0.032). No treatment was associated with significant changes in visceral or subcutaneous abdominal fat. Leg fat increased in subjects on Rosi/P compared with placebo (+4.8 versus -8.3%, P = 0.034). Rosiglitazone, but not metformin, increased adiponectin but also increased LDL-cholesterol and decreased HDL-cholesterol. Gastrointestinal effects occurred frequently in subjects on metformin. CONCLUSION: Both treatments improved insulin sensitivity, but neither reduced visceral fat. Rosiglitazone may increase subcutaneous fat in some individuals.
Evaluation of Safety and Efficacy of Rosiglitazone in the Treatment of HIV-Associated Lipodystrophy Syndrome.
Infection. 2006 Apr;34(2):55-61. BACKGROUND: HIV-associated lipodystrophy syndrome (LDS) as a long-term side effect of HAART
is becoming increasingly important and negatively affects adherence to medication. Currently, an effective therapy is not available. There is some evidence that the drug class of thiazolidindiones might be effective in the treatment of LDS. PATIENTS AND METHODS: Prospective open-label study with 20 HIV-infected patients suffering from severe LDS. Patients received 4 mg rosiglitazone once daily for a 24-week study period. Efficacy was assessed by measurement of metabolic and anthropometric parameters, total body DXA scan, CT scan of the abdomen, photo documentation and self-assessment. RESULTS: Rosiglitazone treatment was well tolerated. DXA scans demonstrated a highly significant increase in adipose tissue of the limbs (2644 +/- 1334 g vs 3380 +/- 1614 g, p </= 0.001) without any change in total fat mass. Abdominal CT-scans revealed a significant increase in subcutaneous adipose tissue (113.7 +/- 82.4cm(2) vs 125.3 +/- 83.7 cm(2), p = 0.04). Abdominal circumference decreased significantly (94.7 +/- 8.7 cm vs 92.2 +/- 8.45 cm, p = 0.03) without any relevant change of body weight or BMI. We observed an increase in serum cholesterol (248 vs 281 mg/dl, p = 0.006) and serum triglycerides (301 vs 351 mg/dl, p = 0.1). Furthermore, no side effects of clinical relevance were observed. The insulin sensitivity index improved without reaching statistical significance. Thirteen patients (65%) reported general improvement of LDS symptoms. Evaluation of photo documentation by five HIV-experts revealed poor concordance and no relevant change of LDS.
CONCLUSIONS: The results of this study suggest that rosiglitazone is safe in the treatment of HAART-associated lipodystrophy and has moderate clinical efficacy. We found a trend towards improved insulin sensitivity and as a possible limiting factor an unfavorable increase in serum cholesterol and triglycerides.